#!/bin/csh
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# N O T A : #
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# Author of '$xiirc/$Fnota' : #
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# Jean-Francois COLONNA (LACTAMME, AAAAMMJJhhmmss). #
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#######################################################################################################################################
#######################################################################################################################################
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# I M A G E S I N T E R E S S A N T E S : #
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v $xiirc/GAMA.11$PR p=$xiP/cercle.35 centrer=VRAI
v $xiirc/GAMA.11$PI p=$xiP/cercle.35 centrer=VRAI
v $xiirc/GAMA.11$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/GAMA.11$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/GAMA.11$Ph p=$xiP/dentscie.R4 centrer=VRAI
v $xiirc/GAMA.11$M
v $xiirc/GAMA.11$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_GAMA_11: #
# #
# $Z Std #
# $Z set _____Programme="gamma.21" #
# $Z set _____xg=-20.0 #
# $Z set _____xd=+20.0 #
# $Z set _____yb=-20.0 #
# $Z set _____yh=+20.0 #
# $Z set _____images=$xiirc/GAMA.11 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# :Fin_listG_GAMA_11: #
# #
v $xiirc/INTE.11
v $xiirc/INTE.11.1
v $xiirc/INTE.11.2
v $xiirc/INTE.11.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_INTE_11: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/LYAP.81 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z premiere=$cPremiere \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/MANE.61 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/INTE.11 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Inverser=VRAI #
# $Z set _____Points=25 #
# $Z set _____RotationX=+0.3 #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____imagesR=$xiirc/INTE.11 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_INTE_11: #
# #
# #
# Il s'agit d'une interpolation entre 'v $xiirc/LYAP.81.2' et 'v $xiirc/MANE.61.2'... #
v $xiirc/INTE.12
v $xiirc/INTE.12.1
v $xiirc/INTE.12.2
v $xiirc/INTE.12.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_INTE_12: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/LYAP.81 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z premiere=$cPremiere \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/MANE.61 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/INTE.12 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Palette=$xiP/gris.D2 #
# $Z set _____Inverser=VRAI #
# $Z set _____Points=9 #
# $Z set _____RotationX=+0.3 #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____imagesR=$xiirc/INTE.12 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_INTE_12: #
# #
# #
# Il s'agit d'une interpolation entre 'v $xiirc/LYAP.81.2' et 'v $xiirc/MANE.61.2'... #
v $xiirc/INTE.22
v $xiirc/INTE.22.1
v $xiirc/INTE.22.2
v $xiirc/INTE.22.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_INTE_22: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.61 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/LYAP.81 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z premiere=$cPremiere \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/INTE.22 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Palette=$xiP/gris.D2 #
# $Z set _____Inverser=FAUX #
# $Z set _____Points=9 #
# $Z set _____RotationX=+0.3 #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____imagesR=$xiirc/INTE.22 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_INTE_22: #
# #
# #
# Il s'agit d'une interpolation entre 'v $xiirc/LYAP.81.2' et 'v $xiirc/MANE.61.2'... #
v $xiirc/INTE.32
v $xiirc/INTE.32.1
v $xiirc/INTE.32.2
v $xiirc/INTE.32.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_INTE_32: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.61 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/LYAP.81 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z premiere=$cPremiere \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $Z _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImageT1=$xTV/INTE.32 #
# $Z _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Palette=$xiP/gris.D2 #
# $Z set _____Inverser=FAUX #
# $Z set _____Complementaire="deux_interpolations=VRAI pADD2=0 pMAX2=1" #
# $Z set _____Points=9 #
# $Z set _____RotationX=+0.3 #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____imagesR=$xiirc/INTE.32 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_INTE_32: #
# #
# #
# Il s'agit d'une interpolation entre 'v $xiirc/LYAP.81.2' et 'v $xiirc/MANE.61.2'... #
v $xiirc/INTE.41.2.0001
v $xiirc/INTE.41.2.0002
v $xiirc/INTE.41.2.0003
v $xiirc/INTE.41.2.0004
v $xiirc/INTE.41.2.0005
v $xiirc/INTE.41.2.0006
v $xiirc/INTE.41.2.0007
v $xiirc/INTE.41.2.0008
v $xiirc/INTE.41.2.0009
v $xiirc/INTE.41.2.0010
v $xiirc/INTE.41.2.0011
v $xiirc/INTE.41.2.0012
v $xiirc/INTE.41.2.0013
v $xiirc/INTE.41.2.0014
v $xiirc/INTE.41.2.0015
v $xiirc/INTE.41.2.0016
Pal ; anim3 A=$xiirc/INTE.41.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/INTE.41.2$R16' #
# #
v $xiirc/ITER.11
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ITER_11: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiirc/ITER.11 #
# #
# $Z execRVB $xci/init$X n=$NOIR \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# $Z FilSTmpB FItErAtIoNs #
# #
# $Z set LiStE_Iterations=(20 8 2) #
# $Z set LiStE_X=(-0.7 +0.18 0) #
# $Z set LiStE_Y=(+0.2 -0.70 0) #
# $Z set LiStE_ROUGE=($GRIS_8 $GRIS_6 $GRIS_8) #
# $Z set LiStE_VERTE=($GRIS_2 $GRIS_8 $GRIS_8) #
# $Z set LiStE_BLEUE=($GRIS_0 $GRIS_0 $GRIS_8) #
# Le dernier element de chaque liste correspond a l'origine du plan complexe {X,Y}={0,0} #
# et apparait donc comme un point bLANC dans l'image... #
# #
# $Z set index=1 #
# #
# $Z while ($index <= $#LiStE_X) #
# $Z set NIterations=$LiStE_Iterations[$index] #
# #
# $Z $xrc/IterationMandelbrot.01$X \ #
# $Z iterations=$NIterations \ #
# $Z par=$LiStE_X[$index] \ #
# $Z pai=$LiStE_Y[$index] \ #
# $Z Prme=VRAI | \ #
# $Z $SE -e "s/[()]//g" \ #
# $Z -e "s/,/ /" \ #
# $Z > $FItErAtIoNs$index #
# #
# $Z $CA $FItErAtIoNs$index | \ #
# $Z $AW ' { print $1 } ' \ #
# $Z > $FItErAtIoNs$index$COORD_X #
# #
# $Z $CA $FItErAtIoNs$index | \ #
# $Z $AW ' { print $2 } ' \ #
# $Z > $FItErAtIoNs$index$COORD_Y #
# #
# $Z $xrv/particule.10$X np=1 iterations=$NIterations \ #
# $Z AXYZ=1 BXYZ=0 \ #
# $Z LISTE_X=$FItErAtIoNs$index$COORD_X \ #
# $Z LISTE_Y=$FItErAtIoNs$index$COORD_Y \ #
# $Z LISTE_Z=0 \ #
# $Z isoles=FAUX chainer=VRAI \ #
# $Z Pajuster=VRAI equidistance=VRAI \ #
# $Z distance_minimale=0.005 \ #
# $Z Vrayon=0.02 \ #
# $Z grossissement=2 \ #
# $Z LISTE_ROUGE=$LiStE_ROUGE[$index] \ #
# $Z LISTE_VERTE=$LiStE_VERTE[$index] \ #
# $Z LISTE_BLEUE=$LiStE_BLEUE[$index] \ #
# $Z ZOOM=0.33 \ #
# $Z Lz=1000 \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z N_au_carre=VRAI \ #
# $Z fond=VRAI \ #
# $Z F=$_____ImageR \ #
# $Z R=$_____ImageR \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# $Z @ index = $index + 1 #
# #
# $Z end #
# #
# $Z FilSTmpE FItErAtIoNs #
# #
# :Fin_listG_ITER_11: #
# #
# #
# Cette image montre le principe du calcul de l'ensemble de Mandelbrot : le point ROUGE #
# reste au voisinage de l'origine (BLANC), alors que le point VERTE part a l'infini... #
v $xiirc/ITER.21.1 p=$xiP/arc_ciel.A1
v $xiirc/ITER.21.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ITER_21: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiirc/ITER.21 #
# #
# $Z set PaLeTtE_M=$xiP/arc_ciel.A1 #
# $Z set ScAlE=0.5 #
# $Z set ItErAtIoNs=100 #
# $Z set MaIlLe_X=0.20 #
# $Z set MaIlLe_Y=0.20 #
# $Z set CoOrDoNnEeZ=0.5 #
# $Z set PaLeTtE_T=$xiP/trou_noir.C4 #
# $Z set RaYoN=0.0015 #
# $Z set GrOsSiSsEmEnT=2 #
# #
# $Z FilSTmpB FItErAtIoNs #
# #
# $Z $xrc/mandel.01$X N=1 \ #
# $Z iterations=$ItErAtIoNs \ #
# $Z compatibilite_20211015=VRAI \ #
# $Z editer_trajectoires=VRAI \ #
# $Z normaliser_trajectoires=VRAI \ #
# $Z mXt=$MaIlLe_X \ #
# $Z mYt=$MaIlLe_Y \ #
# $Z Prme=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImageR.1 \ #
# $Z $formatI | \ #
# $Z $GRE -v " iteration=1/" | \ #
# $Z $AW ' { print $1 " " $2 " " $3 } ' | \ #
# $Z $SE -e "s/^[^=]*=//" \ #
# $Z -e "s/[()]//g" \ #
# $Z -e "s/,/ /" \ #
# $Z >> $FItErAtIoNs #
# On notera l'elimination de "iteration=1" car, en effet, elle correspond systematiquement a #
# l'origine {0,0} ('v $ximcf/iterations$FON Cegal.suite_point.C_____nombre_complexe__0__0.'). #
# #
# $Z $xci/vraies_C$X A=$_____ImageR.1 \ #
# $Z p=$PaLeTtE_M \ #
# $Z R=$FItErAtIoNs \ #
# $Z $formatI #
# #
# $Z execRVB $xci/scale$X A=$FItErAtIoNs%s \ #
# $Z a=$ScAlE \ #
# $Z R=$FItErAtIoNs%s \ #
# $Z $formatI #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" coordonnees_dans_0_1=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AXYZ=1 BXYZ=0" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AX=0.5 BX=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AY=0.5 BY=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_X=$FItErAtIoNs$COORD_X" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Y=$FItErAtIoNs$COORD_Y" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Z=$CoOrDoNnEeZ" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_NIVEAU=$FItErAtIoNs$NIVEAU" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" p=$PaLeTtE_T" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" Lz=1000" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" editer_extrema_hors=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" N_au_carre=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" fond=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" chiffres=0" #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z set FaCtN=`calculINS $BLANC/(((1/$MaIlLe_X)+1)*((1/$MaIlLe_Y)+1))` #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $1 } ' | \ #
# $Z $xrv/MUL2.11$X ne=0 \ #
# $Z fichier1== \ #
# $Z fichier2=$FaCtN \ #
# $Z > $FItErAtIoNs$NIVEAU #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItErAtIoNs$COORD_X #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItErAtIoNs$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItErAtIoNs$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItErAtIoNs$COORD_Y | $WCl` #
# $Z set NpointsN=`$CA $FItErAtIoNs$NIVEAU | $WCl` #
# $Z set Npoints=`$xcg/MIN3.01$X x=$NpointsX y=$NpointsY z=$NpointsN` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=VRAI chainer=FAUX \ #
# $Z Vrayon=`calcul 2*$GrOsSiSsEmEnT*$RaYoN` \ #
# $Z F=$FItErAtIoNs \ #
# $Z R=$_____ImageR.2 \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z $DELETE $FItErAtIoNs$NIVEAU #
# $Z $DELETE $FItErAtIoNs$COORD_X #
# $Z $DELETE $FItErAtIoNs$COORD_Y #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $1 } ' | \ #
# $Z $xrv/MUL2.11$X ne=0 \ #
# $Z fichier1== \ #
# $Z fichier2=$FaCtN \ #
# $Z > $FItErAtIoNs$NIVEAU #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItErAtIoNs$COORD_X #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItErAtIoNs$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItErAtIoNs$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItErAtIoNs$COORD_Y | $WCl` #
# $Z set NpointsN=`$CA $FItErAtIoNs$NIVEAU | $WCl` #
# $Z set Npoints=`$xcg/MIN3.01$X x=$NpointsX y=$NpointsY z=$NpointsN` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=FAUX chainer=FAUX \ #
# $Z Pajuster=VRAI equidistance=VRAI \ #
# $Z distance_minimale=0.002 \ #
# $Z grossissement=$GrOsSiSsEmEnT \ #
# $Z Vrayon=$RaYoN \ #
# $Z F=$_____ImageR.2 \ #
# $Z R=$_____ImageR.2 \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z FilSTmpE FItErAtIoNs #
# #
# :Fin_listG_ITER_21: #
# #
# #
# Cette image montre le principe du calcul de l'ensemble de Mandelbrot : les points a #
# l'interieur de l'ensemble de Mandelbrot restent au voisinnage de l'orgine, quant aux #
# autres, ils partent a l'infini... #
v $xiirc/ITER.22.1 p=$xiP/arc_ciel.A1
v $xiirc/ITER.22.0001
v $xiirc/ITER.22.0002
v $xiirc/ITER.22.0003
v $xiirc/ITER.22.0004
v $xiirc/ITER.22.0005
v $xiirc/ITER.22.0006
v $xiirc/ITER.22.0007
v $xiirc/ITER.22.0008
v $xiirc/ITER.22.0009
v $xiirc/ITER.22.0010
v $xiirc/ITER.22.0011
v $xiirc/ITER.22.0012
v $xiirc/ITER.22.0013
v $xiirc/ITER.22.0014
v $xiirc/ITER.22.0015
v $xiirc/ITER.22.0016
v $xiirc/ITER.22.0017
v $xiirc/ITER.22.0018
v $xiirc/ITER.22.0019
v $xiirc/ITER.22.0020
v $xiirc/ITER.22.0021
v $xiirc/ITER.22.0022
v $xiirc/ITER.22.0023
v $xiirc/ITER.22.0024
v $xiirc/ITER.22.0025
v $xiirc/ITER.22.0026
v $xiirc/ITER.22.0027
v $xiirc/ITER.22.0028
v $xiirc/ITER.22.0029
v $xiirc/ITER.22.0030
v $xiirc/ITER.22.0031
v $xiirc/ITER.22.0032
v $xiirc/ITER.22.0033
v $xiirc/ITER.22.0034
v $xiirc/ITER.22.0035
v $xiirc/ITER.22.0036
v $xiirc/ITER.22.0037
v $xiirc/ITER.22.0038
v $xiirc/ITER.22.0039
v $xiirc/ITER.22.0040
v $xiirc/ITER.22.0041
v $xiirc/ITER.22.0042
v $xiirc/ITER.22.0043
v $xiirc/ITER.22.0044
v $xiirc/ITER.22.0045
v $xiirc/ITER.22.0046
v $xiirc/ITER.22.0047
v $xiirc/ITER.22.0048
v $xiirc/ITER.22.0049
v $xiirc/ITER.22.0050
v $xiirc/ITER.22.0051
v $xiirc/ITER.22.0052
v $xiirc/ITER.22.0053
v $xiirc/ITER.22.0054
v $xiirc/ITER.22.0055
v $xiirc/ITER.22.0056
v $xiirc/ITER.22.0057
v $xiirc/ITER.22.0058
v $xiirc/ITER.22.0059
v $xiirc/ITER.22.0060
v $xiirc/ITER.22.0061
v $xiirc/ITER.22.0062
v $xiirc/ITER.22.0063
v $xiirc/ITER.22.0064
v $xiirc/ITER.22.0065
v $xiirc/ITER.22.0066
v $xiirc/ITER.22.0067
v $xiirc/ITER.22.0068
v $xiirc/ITER.22.0069
v $xiirc/ITER.22.0070
v $xiirc/ITER.22.0071
v $xiirc/ITER.22.0072
v $xiirc/ITER.22.0073
v $xiirc/ITER.22.0074
v $xiirc/ITER.22.0075
v $xiirc/ITER.22.0076
v $xiirc/ITER.22.0077
v $xiirc/ITER.22.0078
v $xiirc/ITER.22.0079
v $xiirc/ITER.22.0080
v $xiirc/ITER.22.0081
v $xiirc/ITER.22.0082
v $xiirc/ITER.22.0083
v $xiirc/ITER.22.0084
v $xiac/ITER.22$R16
v $xiac/ITER.22$MPEG
anim3 A=$xiirc/ITER.22. premiere=1 derniere=110
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_ITER_22: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiirc/ITER.22 #
# #
# $Z set SeUiL=16 #
# Au lieu de la valeur implicite 4, la valeur 16 garantit que toute trajectoire sortira #
# de l'image... #
# $Z set PaLeTtE_M=$xiP/arc_ciel.A1 #
# $Z set ScAlE=0.5 #
# $Z set ItErAtIoNs=100 #
# $Z set MaIlLe_X=0.10 #
# $Z set MaIlLe_Y=0.10 #
# $Z set CoOrDoNnEeZ=0.5 #
# $Z set NiVeAu1=$GRIS_8 #
# $Z set NiVeAu2=$GRIS_4 #
# $Z set RaYoN=0.0015 #
# $Z set GrOsSiSsEmEnT=2 #
# #
# $Z FilSTmpB FItEr #
# #
# $Z $xrc/mandel.01$X N=1 \ #
# $Z iterations=$ItErAtIoNs \ #
# $Z seuilM=$SeUiL \ #
# $Z compatibilite_20211015=VRAI \ #
# $Z editer_trajectoires=VRAI \ #
# $Z normaliser_trajectoires=VRAI \ #
# $Z mXt=$MaIlLe_X \ #
# $Z mYt=$MaIlLe_Y \ #
# $Z Prme=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImageR.1 \ #
# $Z $formatI | \ #
# $Z $GRE -v " iteration=1/" | \ #
# $Z $AW ' { print $1 " " $2 " " $3 } ' | \ #
# $Z $SE -e "s/^[^=]*=//" \ #
# $Z -e "s/[()]//g" \ #
# $Z -e "s/,/ /" \ #
# $Z >> $FItEr #
# On notera l'elimination de "iteration=1" car, en effet, elle correspond systematiquement a #
# l'origine {0,0} ('v $ximcf/iterations$FON Cegal.suite_point.C_____nombre_complexe__0__0.'). #
# #
# $Z $xci/vraies_C$X A=$_____ImageR.1 \ #
# $Z p=$PaLeTtE_M \ #
# $Z R=$FItEr \ #
# $Z $formatI #
# #
# $Z execRVB $xci/scale$X A=$FItEr%s \ #
# $Z a=$ScAlE \ #
# $Z R=$FItEr%s \ #
# $Z $formatI #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" coordonnees_dans_0_1=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AXYZ=1 BXYZ=0" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AX=0.5 BX=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AY=0.5 BY=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_X=$FItEr$COORD_X" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Y=$FItEr$COORD_Y" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Z=$CoOrDoNnEeZ" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" Lz=1000" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" editer_extrema_hors=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" N_au_carre=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" fond=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" chiffres=0" #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z set LiStE=`$CA $FItEr | $AW ' { print $1 } ' | $SOR -un | $SE -e "s/^[^=]*=//"` #
# #
# $Z set index=1 #
# #
# $Z set NuMeRoS=`$xci/nombres$X p=1 d=$#LiStE` #
# #
# $Z while ($index <= $#LiStE) #
# $Z $DELETE $FItEr.1 #
# #
# $Z $CA $FItEr | \ #
# $Z $GRE "^$LiStE[$index] " \ #
# $Z > $FItEr.1 #
# #
# $Z $DELETE $FItEr$COORD_X #
# $Z $DELETE $FItEr$COORD_Y #
# #
# $Z $CA $FItEr.1 | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItEr$COORD_X #
# #
# $Z $CA $FItEr.1 | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItEr$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItEr$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItEr$COORD_Y | $WCl` #
# $Z set Npoints=`$xcg/MIN2.01$X x=$NpointsX y=$NpointsY` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=VRAI chainer=FAUX \ #
# $Z Vrayon=`calcul 2*$GrOsSiSsEmEnT*$RaYoN` \ #
# $Z LISTE_ROUGE=$NiVeAu1 \ #
# $Z LISTE_VERTE=$NiVeAu1 \ #
# $Z LISTE_BLEUE=$NiVeAu1 \ #
# $Z F=$FItEr \ #
# $Z R=$_____ImageR.$NuMeRoS[$index] \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z $DELETE $FItEr$COORD_X #
# $Z $DELETE $FItEr$COORD_Y #
# #
# $Z $CA $FItEr.1 | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItEr$COORD_X #
# #
# $Z $CA $FItEr.1 | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItEr$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItEr$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItEr$COORD_Y | $WCl` #
# $Z set Npoints=`$xcg/MIN2.01$X x=$NpointsX y=$NpointsY` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=FAUX chainer=FAUX \ #
# $Z Pajuster=VRAI equidistance=VRAI \ #
# $Z distance_minimale=0.002 \ #
# $Z grossissement=$GrOsSiSsEmEnT \ #
# $Z Vrayon=$RaYoN \ #
# $Z LISTE_ROUGE=$NiVeAu2 \ #
# $Z LISTE_VERTE=$NiVeAu2 \ #
# $Z LISTE_BLEUE=$NiVeAu2 \ #
# $Z F=$_____ImageR.$NuMeRoS[$index] \ #
# $Z R=$_____ImageR.$NuMeRoS[$index] \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# $Z @ index = $index + 1 #
# $Z end #
# #
# $Z FilSTmpE FItEr #
# #
# $Z set Premiere=`echo $NuMeRoS[1] | $SE -e "s/^0*//"` #
# $Z set Derniere=`echo $NuMeRoS[$#NuMeRoS] | $SE -e "s/^0*//"` #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiac/ITER.22 #
# #
# $Z SET _____CalculerR64=$NEXIST #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_ITER_22: #
# #
# #
# Cette image montre le principe du calcul de l'ensemble de Mandelbrot : les points a #
# l'interieur de l'ensemble de Mandelbrot restent au voisinnage de l'orgine, quant aux #
# autres, ils partent a l'infini... #
v $xiirc/ITER.31.1 p=$xiP/arc_ciel.A1
v $xiirc/ITER.31.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ITER_31: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiirc/ITER.31 #
# #
# $Z set PaLeTtE_M=$xiP/arc_ciel.A1 #
# $Z set ScAlE=0.5 #
# $Z set ItErAtIoNs=100 #
# $Z set MaIlLe_X=0.50 #
# $Z set MaIlLe_Y=0.50 #
# $Z set CoOrDoNnEeZ=0.5 #
# $Z set PaLeTtE_T=$xiP/trou_noir.C4 #
# $Z set RaYoN=0.0015 #
# $Z set GrOsSiSsEmEnT=2 #
# #
# $Z FilSTmpB FItErAtIoNs #
# #
# $Z $xrc/julia.01$X N=1 \ #
# $Z xbg=-1.3 ybg=-1.3 xhd=1.2 yhd=1.2 \ #
# $Z r=-0.13 i=+0.77 \ #
# $Z iterations=$ItErAtIoNs \ #
# $Z compatibilite_20211015=VRAI \ #
# $Z editer_trajectoires=VRAI \ #
# $Z normaliser_trajectoires=VRAI \ #
# $Z mXt=$MaIlLe_X \ #
# $Z mYt=$MaIlLe_Y \ #
# $Z Prme=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImageR.1 \ #
# $Z $formatI | \ #
# $Z $AW ' { print $1 " " $2 " " $3 } ' | \ #
# $Z $SE -e "s/^[^=]*=//" \ #
# $Z -e "s/[()]//g" \ #
# $Z -e "s/,/ /" \ #
# $Z >> $FItErAtIoNs #
# On notera la dissymetrie par rapport a l'origine ("xbg=-1.3 ybg=-1.3 xhd=1.2 yhd=1.2") #
# destinee a briser la symetrie (par rapport a 'OX') des trajectoires... #
# #
# $Z $xci/vraies_C$X A=$_____ImageR.1 \ #
# $Z p=$PaLeTtE_M \ #
# $Z R=$FItErAtIoNs \ #
# $Z $formatI #
# #
# $Z execRVB $xci/scale$X A=$FItErAtIoNs%s \ #
# $Z a=$ScAlE \ #
# $Z R=$FItErAtIoNs%s \ #
# $Z $formatI #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" coordonnees_dans_0_1=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AXYZ=1 BXYZ=0" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AX=0.5 BX=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" AY=0.5 BY=0.125" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_X=$FItErAtIoNs$COORD_X" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Y=$FItErAtIoNs$COORD_Y" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_Z=$CoOrDoNnEeZ" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" LISTE_NIVEAU=$FItErAtIoNs$NIVEAU" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" p=$PaLeTtE_T" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" Lz=1000" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" editer_extrema_hors=FAUX" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" N_au_carre=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" fond=VRAI" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" chiffres=0" #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z set FaCtN=`calculINS $BLANC/(((1/$MaIlLe_X)+1)*((1/$MaIlLe_Y)+1))` #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $1 } ' | \ #
# $Z $xrv/MUL2.11$X ne=0 \ #
# $Z fichier1== \ #
# $Z fichier2=$FaCtN \ #
# $Z > $FItErAtIoNs$NIVEAU #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItErAtIoNs$COORD_X #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $GRE " iteration=2/1 " | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItErAtIoNs$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItErAtIoNs$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItErAtIoNs$COORD_Y | $WCl` #
# $Z set NpointsN=`$CA $FItErAtIoNs$NIVEAU | $WCl` #
# $Z set Npoints=`$xcg/MIN3.01$X x=$NpointsX y=$NpointsY z=$NpointsN` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=VRAI chainer=FAUX \ #
# $Z Vrayon=`calcul 2*$GrOsSiSsEmEnT*$RaYoN` \ #
# $Z F=$FItErAtIoNs \ #
# $Z R=$_____ImageR.2 \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z $DELETE $FItErAtIoNs$NIVEAU #
# $Z $DELETE $FItErAtIoNs$COORD_X #
# $Z $DELETE $FItErAtIoNs$COORD_Y #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $1 } ' | \ #
# $Z $xrv/MUL2.11$X ne=0 \ #
# $Z fichier1== \ #
# $Z fichier2=$FaCtN \ #
# $Z > $FItErAtIoNs$NIVEAU #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $3 } ' \ #
# $Z > $FItErAtIoNs$COORD_X #
# #
# $Z $CA $FItErAtIoNs | \ #
# $Z $AW ' { print $4 } ' \ #
# $Z > $FItErAtIoNs$COORD_Y #
# #
# $Z set NpointsX=`$CA $FItErAtIoNs$COORD_X | $WCl` #
# $Z set NpointsY=`$CA $FItErAtIoNs$COORD_Y | $WCl` #
# $Z set NpointsN=`$CA $FItErAtIoNs$NIVEAU | $WCl` #
# $Z set Npoints=`$xcg/MIN3.01$X x=$NpointsX y=$NpointsY z=$NpointsN` #
# #
# $Z $xrv/particule.10$X np=1 iterations=$Npoints \ #
# $Z $ArGuMeNtS \ #
# $Z isoles=FAUX chainer=FAUX \ #
# $Z Pajuster=VRAI equidistance=VRAI \ #
# $Z distance_minimale=0.002 \ #
# $Z grossissement=$GrOsSiSsEmEnT \ #
# $Z Vrayon=$RaYoN \ #
# $Z F=$_____ImageR.2 \ #
# $Z R=$_____ImageR.2 \ #
# $Z $formatI #
# ATTENTION : il ne faut surtout pas de "ZOOM=1"... #
# #
# $Z FilSTmpE FItErAtIoNs #
# #
# :Fin_listG_ITER_31: #
# #
# #
# Cette image montre le principe du calcul de l'ensemble de Julia 'v $xiirc/JULK.11'. On #
# notera la dissymetrie par rapport a l'origine ("xbg=-1.3 ybg=-1.3 xhd=1.2 yhd=1.2") #
# destinee a briser la symetrie (par rapport a 'OX') des trajectoires... #
v $xiirc/ITGA.11$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ITGA.11$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/ITGA.11$Ph p=$xiP/dentscie.R4 centrer=VRAI
v $xiirc/ITGA.11$M
v $xiirc/ITGA.11$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ITGA_11: #
# #
# $Z Std #
# $Z set _____Programme="gamma.31" #
# $Z set _____Ty=0.7 #
# $Z set _____images=$xiirc/ITGA.11 #
# $m4 _____include(_____xiirc/.ITER.11.1._____U) #
# #
# :Fin_listG_ITGA_11: #
# #
v $xiirc/ITZE.11$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ITZE.11$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/ITZE.11$Ph p=$xiP/dentscie.R4 centrer=VRAI
v $xiirc/ITZE.11$M
v $xiirc/ITZE.11$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ITZE_11: #
# #
# $Z Std #
# $Z set _____Programme="zeta.31" #
# $Z set _____Ty=0.7 #
# $Z set _____images=$xiirc/ITZE.11 #
# $m4 _____include(_____xiirc/.ITER.11.1._____U) #
# #
# :Fin_listG_ITZE_11: #
# #
Gamma $Gamma_lorenz
v $xiirc/JU.42.1 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.01$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# attenuation=0.0 renormaliser=VRAI \ #
# R=$xiirc/JU.42.1 \ #
# $formatI #
# #
Gamma $Gamma_mandel
v $xiirc/JU.42.2.0.032 p=$xiP/sepia.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# seuil=32 binariser=FAUX \ #
# R=$xiirc/JU.42.2.0.032 \ #
# $formatI #
# #
Gamma $Gamma_lorenz
v $xiirc/JU.42.2.1.032 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# seuil=32 binariser=VRAI \ #
# R=$xiirc/JU.42.2.1.032 \ #
# $formatI #
# #
Gamma $Gamma_mandel
v $xiirc/JU.42.2.0.048 p=$xiP/cercle.11 d=2 animation=VRAI increment=2
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# seuil=48 binariser=FAUX \ #
# R=$xiirc/JU.42.2.0.048 \ #
# $formatI #
# #
Gamma $Gamma_lorenz
v $xiirc/JU.42.2.1.048 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# seuil=48 binariser=VRAI \ #
# R=$xiirc/JU.42.2.1.048 \ #
# $formatI #
# #
Std ; $xci/display$X A=$xiirc/JU.42.2.48$DROITE p=$xiP/arc_ciel.12 xc=1.0 $formatI &
v $xiirc/JU.42.2.48$GAUCHE p=$xiP/arc_ciel.12
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=256 vD=-1.0 vA=+1.0 > $xT/param11 #
# $xrc/julia.41$X R=$xw1/JULI.2 images=256 \ #
# COMPOSANTE_J=$xT/param11 \ #
# COMPOSANTE_K=0 \ #
# iterations=64 \ #
# $formatI #
# $xci/accumule.02$X A=$xw1/JULI.2 premiere=1 derniere=256 \ #
# translation_quelconque=VRAI try=0 trx=+2.e-4 \ #
# seuil=48 binariser=VRAI \ #
# R=$xiirc/JU.42.2.48$DROITE \ #
# $formatI #
# $xci/accumule.02$X A=$xw1/JULI.2 premiere=1 derniere=256 \ #
# translation_quelconque=VRAI try=0 trx=-2.e-4 \ #
# seuil=48 binariser=VRAI \ #
# R=$xiirc/JU.42.2.48$GAUCHE \ #
# $formatI #
# #
v $xiirc/JU.42.2.48$STEREO
# Est la version anaglyphique de ('$xiirc/JU.42.2.48$DROITE','$xiirc/JU.42.2.48$GAUCHE'). #
Gamma $Gamma_lorenz
v $xiirc/JU.42.2.1.064 p=$xiP/cercle.22
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 010936_010999 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/JULI.1 premiere=1 derniere=64 \ #
# seuil=64 binariser=VRAI \ #
# R=$xiirc/JU.42.2.1.064 \ #
# $formatI #
# #
Std ; $xci/display$X A=$xiirc/JU.42.2.64$DROITE p=$xiP/arc_ciel.12 xc=1.0 $formatI &
v $xiirc/JU.42.2.64$GAUCHE p=$xiP/arc_ciel.12
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=256 vD=-1.0 vA=+1.0 > $xT/param11 #
# $xrc/julia.41$X R=$xw1/JULI.2 images=256 \ #
# COMPOSANTE_J=$xT/param11 \ #
# COMPOSANTE_K=0 \ #
# iterations=64 \ #
# $formatI #
# $xci/accumule.02$X A=$xw1/JULI.2 premiere=1 derniere=256 \ #
# translation_quelconque=VRAI try=0 trx=+2.e-4 \ #
# seuil=64 binariser=VRAI \ #
# R=$xiirc/JU.42.2.64$DROITE \ #
# $formatI #
# $xci/accumule.02$X A=$xw1/JULI.2 premiere=1 derniere=256 \ #
# translation_quelconque=VRAI try=0 trx=-2.e-4 \ #
# seuil=64 binariser=VRAI \ #
# R=$xiirc/JU.42.2.64$GAUCHE \ #
# $formatI #
# #
v $xiirc/JU.42.2.64$STEREO
# Est la version anaglyphique de ('$xiirc/JU.42.2.64$DROITE','$xiirc/JU.42.2.64$GAUCHE'). #
Std ; $xci/sequence$X A=$xifc/JULI.Q.1. premiere=1 derniere=128 p=$xiP/fractal.11 D=0 $formatI
# Correspond, dans la sequence suivante : #
# #
# xivPdf 2 1 / 011640_011765 #
# #
Std ; $xci/sequence$X A=$xiirc/JU.52. premiere=0 derniere=7 p=$xiP/arc_ciel.12 D=2 $formatI
Std ; $xci/sequence$X A=$xiirc/JU.52. premiere=0 derniere=7 p=$xiP/fractal.11 D=2 $formatI
Std ; $xci/sequence$X A=$xiirc/JU.52. premiere=0 derniere=7 p=$xiP/rouge_jaune D=2 $formatI
# Correspond, dans la sequence suivante : #
# #
# xivPdf 2 1 / 011640_011765 #
# #
# a la selection des images suivantes : #
# #
# 0000 <===> 0026 #
# 0001 <===> 0029 #
# 0002 <===> 0054 #
# 0003 <===> 0078 #
# 0004 <===> 0079 #
# 0005 <===> 0092 #
# 0006 <===> 0100 #
# 0007 <===> 0118 #
# #
# la numerotation commencant a 0 pour '$xiirc/JU.52' et a 1 pour la sequence '011640_011765'. #
v $xiirc/JU.52.0005
v $xiirc/JU.52.0006
# Ces deux images correspondent au traitement des images '0005' et '0006' de la sequence #
# '$xiirc/JU.52' a l'aide de la procedure : #
# #
# alias genere 'set numero=\!* ; \\ #
# $xci/filtre.01$X A=$xiirc/JU.52.000$numero \\ #
# N=$xiio/GAUSS.8110 \\ #
# R=$xT/image.1$numero \\ #
# $formatI ; \\ #
# $xci/vraies_C$X A=$xiirc/JU.52.000$numero \\ #
# p=$xiP/arc_ciel.12 \\ #
# RR=$xT/image.1$numero$ROUGE \\ #
# RV=$xT/image.1$numero$VERTE \\ #
# RB=$xT/image.1$numero$BLEUE \\ #
# $formatI ; \\ #
# $xrv/champs_5.10$X np=1 \\ #
# R=$xiirc/JU.52.000$numero \\ #
# facteurR=6 \\ #
# cZ=$xiirc/JU.52.000$numero \\ #
# cROUGE=$xT/image.1$numero$ROUGE \\ #
# cVERTE=$xT/image.1$numero$VERTE \\ #
# cBLEUE=$xT/image.1$numero$BLEUE \\ #
# facteurZ=2 \\ #
# ZOOM=0.8 \\ #
# Lz=4000 Lx=1000 Ly=2000 \\ #
# px=4 py=4 \\ #
# $formatI ; \\ #
# unset numero' #
# #
# genere 5 #
# genere 6 #
# #
v $xiirc/JU.52$m.0000
v $xiirc/JU.52$m.0001
v $xiirc/JU.52$m.0002
v $xiirc/JU.52$m.0003
v $xiirc/JU.52$m.0004
v $xiirc/JU.52$m.0005
v $xiirc/JU.52$m.0006
v $xiirc/JU.52$m.0007
# Ces huit images correspondent a la mise en montagne de la sequence '$xiirc/JU.52.' suivant #
# la procedure : #
# #
# alias genere 'set numero=\!* ; \\ #
# $xci/filtre.01$X A=$xiirc/JU.52.000$numero \\ #
# N=$xiio/GAUSS.8110 \\ #
# R=$xT/image.1$numero \\ #
# $formatI ; \\ #
# $xci/vraies_C$X A=$xiirc/JU.52.000$numero \\ #
# p=$xiP/arc_ciel.12 \\ #
# RR=$xT/image.1$numero$ROUGE \\ #
# RV=$xT/image.1$numero$VERTE \\ #
# RB=$xT/image.1$numero$BLEUE \\ #
# $formatI ; \\ #
# $xci/substitue$X A=$xT/image.1$numero$ROUGE \\ #
# R=$xT/image.2$numero$ROUGE \\ #
# substitution=L_SUBSTITUTION_02 \\ #
# $formatI ; \\ #
# $xci/substitue$X A=$xT/image.1$numero$VERTE \\ #
# R=$xT/image.2$numero$VERTE \\ #
# substitution=L_SUBSTITUTION_02 \\ #
# $formatI ; \\ #
# $xci/substitue$X A=$xT/image.1$numero$BLEUE \\ #
# R=$xT/image.2$numero$BLEUE \\ #
# substitution=L_SUBSTITUTION_02 \\ #
# $formatI ; \\ #
# $xci/montagne.01$X A=$xT/image.1$numero \\ #
# T=$xT/image.2$numero$ROUGE \\ #
# avion=VRAI \\ #
# R=$xiirc/JU.52$m.000$numero$ROUGE \\ #
# $formatI ; \\ #
# $xci/montagne.01$X A=$xT/image.1$numero \\ #
# T=$xT/image.2$numero$VERTE \\ #
# avion=VRAI \\ #
# R=$xiirc/JU.52$m.000$numero$VERTE \\ #
# $formatI ; \\ #
# $xci/montagne.01$X A=$xT/image.1$numero \\ #
# T=$xT/image.2$numero$BLEUE \\ #
# avion=VRAI \\ #
# R=$xiirc/JU.52$m.000$numero$BLEUE \\ #
# $formatI ; \\ #
# unset numero' #
# #
# genere 0 #
# genere 1 #
# genere 2 #
# genere 3 #
# genere 4 #
# genere 5 #
# genere 6 #
# genere 7 #
# #
v $xiirc/JU.52$m.1005
v $xiirc/JU.52$m.2005
# Ces images ont ete generees comme '$xiirc/JU.52$m.0005' avec respectivement les palettes #
# '$xiP/arc_ciel.12' et '$xiP/fractal.11', mais sans faire de '$xci/substitue$X', de plus en #
# eliminant les resultats "periodisants" du filtrage, et en faisant une rotation de pi/2 (ou #
# plutot une transposition pour eliminer certains artefacts de la rotation ?). #
v $xiirc/JU.52.0.1005
v $xiirc/JU.52.8.1005
v $xiia/JU.52.8.1005
# Ces images ont ete generees a partir de '$xiirc/JU.52$m.1005' par '$xci/tapisserie$X', puis #
# par un filtrage par '$xci/convol.02$X ... Facteur=0.8 ...' en ce qui concerne la seconde, #
# l'image "N=" etant construite a l'aide de '$xiio/MIRE' transposee et de '$xiio/NOIR' grace #
# a '$xci/reduction_04$X'. Enfin, la derniere contient au centre la vision poetique du big #
# bang ('$xiirr/UNIV.32' dont on a calcule la luminance)... #
Std ; $xci/sequence$X A=$xiirc/JU.53$DROITE. premiere=0 derniere=8 p=$xiP/arc_ciel.92 D=2 $formatI
Std ; $xci/sequence$X A=$xiirc/JU.53$GAUCHE. premiere=0 derniere=8 p=$xiP/arc_ciel.92 D=2 $formatI
# Correspond, dans les sequences suivantes : #
# #
# xivPdf 2 1 / 012018_012143 #
# xivPdf 2 1 / 012270_012395 #
# #
# a la selection des images suivantes : #
# #
# 0000 <===> 0026 #
# 0001 <===> 0029 #
# 0002 <===> 0054 #
# 0003 <===> 0078 #
# 0004 <===> 0079 #
# 0005 <===> 0083 #
# 0006 <===> 0092 #
# 0007 <===> 0100 #
# 0008 <===> 0118 #
# #
# la numerotation commencant a 0 pour '$xiirc/JU.53' et a 1 pour les deux sequences #
# '012018_012143' et '012270_012395'. #
v $xiirc/JU.53.0000$STEREO
v $xiirc/JU.53.0001$STEREO
v $xiirc/JU.53.0002$STEREO
v $xiirc/JU.53.0003$STEREO
v $xiirc/JU.53.0004$STEREO
v $xiirc/JU.53.0005$STEREO
v $xiirc/JU.53.0006$STEREO
v $xiirc/JU.53.0007$STEREO
v $xiirc/JU.53.0008$STEREO
# Correspond, dans la sequence anaglyphique suivante : #
# #
# xivPdf 2 1 / 012522_012647 #
# #
# a la selection des images suivantes : #
# #
# 0000 <===> 0026 #
# 0001 <===> 0029 #
# 0002 <===> 0054 #
# 0003 <===> 0078 #
# 0004 <===> 0079 #
# 0005 <===> 0083 #
# 0006 <===> 0092 #
# 0007 <===> 0100 #
# 0008 <===> 0118 #
# #
# la numerotation commencant a 0 pour '$xiirc/JU.53' et a 1 pour la sequence '012522_012647'. #
v $xiirc/JULI.B0 p=$xiP/marron.05
v $xiirc/JULI.B1 p=$xiP/marron.05
# Correspondent a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 7 1 / 004295_004422 #
# #
# avec la commande '$xci/accumule.01$X' et un parametre "attenuation=" valant '0' et '1' #
# respectivement... #
v $xiirc/JULI.B2 p=$xiP/fractal.91 d=2 animation=VRAI NOIR=VRAI
v $xiirc/JULI.B2 p=$xiP/orange.11 d=2 animation=VRAI NOIR=VRAI
# Image generee par : #
# #
# $xci/distance.01$X A1=$xiirc/JULI.B0 \ #
# A2=$xiirc/JULI.B1 \ #
# $formatI | #
# $xci/acces$X renormaliser=VRAI \ #
# R=$xiirc/JULI.B2 \ #
# $formatI #
# #
v $xiirc/JULI.C1 p=$xiP/gris.01
v $xiirc/JULI.C2 p=$xiP/gris.01
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# #
# $xrc/julia.41$X images=128 \ #
# iterations=64 \ #
# r=-0.708415000 i=+0.305773000 \ #
# COMPOSANTE_J=$xT/param11 \ #
# K=0 \ #
# xbgD=-1.000000 ybgD=-1.000000 \ #
# xhdD=+1.000000 yhdD=+1.000000 \ #
# xbgA=-1.000000 ybgA=-1.000000 \ #
# xhdA=+1.000000 yhdA=+1.000000 \ #
# R=$xT/JULIA. \ #
# $formatI #
# $xci/accumule.02$X A=$xT/JULIA. premiere=1 derniere=128 \ #
# binariser=VRAI seuil=$GRIS_6 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# R=$xiirc/JULI.C1 \ #
# $formatI #
# $xci/accumule.12$X A=$xT/JULIA. premiere=1 derniere=128 \ #
# binariser=VRAI seuil=$GRIS_6 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# lisere=FAUX \ #
# R=$xiirc/JULI.C2 \ #
# $formatI #
# #
v $xiirc/JULI.D1 p=$xiP/fractal.11 centrer=VRAI
v $xiirc/JULI.D2 p=$xiP/gris.01 centrer=VRAI
# Generees par : #
# #
# $xci/stereogra.01$X T=$xiio/BAND_RDN.11.51 \ #
# C=$xiirc/JULI.C1 \ #
# permutations=FAUX \ #
# R=$xiirc/JULI.D1 \ #
# $formatI #
# $xci/stereogra.12$Z $xiirc/JULI.C2 \ #
# $xiirc/JULI.C1 \ #
# $xiirc/JULI.D2 #
# #
v $xiirc/JULI.E1 p=$xiP/gris.01
v $xiirc/JULI.E2 p=$xiP/gris.01
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# #
# $xrc/julia.41$X images=128 \ #
# iterations=32 \ #
# r=-0.708415000 i=+0.305773000 \ #
# COMPOSANTE_J=$xT/param11 \ #
# K=0 \ #
# xbgD=-1.000000 ybgD=-1.000000 \ #
# xhdD=+1.000000 yhdD=+1.000000 \ #
# xbgA=-1.000000 ybgA=-1.000000 \ #
# xhdA=+1.000000 yhdA=+1.000000 \ #
# R=$xT/JULIA. \ #
# $formatI #
# $xci/accumule.02$X A=$xT/JULIA. premiere=1 derniere=128 \ #
# binariser=VRAI seuil=$GRIS_6 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# R=$xiirc/JULI.E1 \ #
# $formatI #
# $xci/accumule.12$X A=$xT/JULIA. premiere=1 derniere=128 \ #
# binariser=VRAI seuil=$GRIS_6 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# lisere=FAUX \ #
# R=$xiirc/JULI.E2 \ #
# $formatI #
# #
v $xiirc/JULI.F1 p=$xiP/fractal.11 centrer=VRAI
v $xiirc/JULI.F2 p=$xiP/gris.01 centrer=VRAI
# Generees par : #
# #
# $xci/stereogra.01$X T=$xiio/BAND_RDN.11.51 \ #
# C=$xiirc/JULI.E1 \ #
# permutations=FAUX \ #
# R=$xiirc/JULI.F1 \ #
# $formatI #
# $xci/stereogra.12$Z $xiirc/JULI.E2 \ #
# $xiirc/JULI.E1 \ #
# $xiirc/JULI.F2 #
# #
v $xiirc/JULI.N1.0102$DROITE p=$xiP/fractal.11 centrer=VRAI
v $xiirc/JULI.N1.0102$GAUCHE p=$xiP/fractal.11 centrer=VRAI
# Correspond a l'image '0102' des sequences : #
# #
# xivPdf 7 1 / 011518_011651 #
# xivPdf 7 1 / 011786_011919 #
# #
v $xiirc/JULI.V1.0004
v $xiirc/JULI.V2.0004
# Correspond a l'image '0004' de la sequence : #
# #
# xivPdf 7 1 / 018908_019035 #
# #
# puis a un '$xci/substitue$X' de '$xiirc/JULI.V1.0004' pour effectuer un reajustement #
# des niveaux avec '$xiP/gris.11'. #
v $xiirc/JULI.Z1.0001
# Correspond a l'image '0001' de la sequence : #
# #
# xivPdf 7 1 / 020060_020187 #
# #
v $xiirc/JULI.b1.0051
v $xiirc/JULI.b1.0057
v $xiirc/JULI.b1.0073
v $xiirc/JULI.b1.0114
v $xiirc/JULI.b1.0116
# Correspond aux images '0051', '0057', '0073', '0114' et '0116' de la sequence : #
# #
# xivPdf 7 1 / 020832_020959 #
# #
v $xiirc/JULI.e1.0056
v $xiirc/JULI.e1.0118
# Correspond aux images '0056' et '0118' de la sequence : #
# #
# xivPdf 7 1 / 021217_021344 #
# #
v $xiirc/JULI.e2.0118
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_JULI_e2_0118: #
# #
# $Z Pal #
# #
# $Z set XminR=$Xmin #
# $Z set XmaxR=759 #
# $Z set YminR=$Ymin #
# $Z set YmaxR=554 #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiirc/JULI.e1.0118%s \\\ #
# $Z $format_Pal \\\ #
# $Z mode=7 \\\ #
# $Z R=$xTV/PAYS%s \\\ #
# $Z XminR=$XminR XmaxR=$XmaxR \\\ #
# $Z YminR=$YminR YmaxR=$YmaxR)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xTV/PAYS%s \\\ #
# $Z Xmin=$XminR Xmax=$XmaxR \\\ #
# $Z Ymin=$YminR Ymax=$YmaxR \\\ #
# $Z mode=2 \\\ #
# $Z R=$xiirc/JULI.e2.0118%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_JULI_e2_0118: #
# #
v $xiirc/JULI.h2.1.0
v $xiirc/JULI.h2.1.1
# Correspond a deux accumulations de la sequence : #
# #
# xivPdf 9 1 / 024595_024722 #
# #
v $xiirc/JULI.i1
# Correspond a la manipulation suivante : #
# #
# $xci/distance.01$X A1=$xiirc/JULI.h2.1.0.? \ #
# A2=$xiirc/JULI.h2.1.1.? \ #
# $formatI | #
# $xci/acces$X \ #
# renormaliser=VRAI \ #
# $formatI | #
# $xci/dilate.01$X \ #
# dilater=FAUX \ #
# $formatI | #
# $xci/acces$X \ #
# renormaliser=VRAI \ #
# $formatI | #
# $xci/substitue$X \ #
# substitution=L_SUBSTITUTION_ROUGE \ #
# p=$xiP/gris.11 \ #
# R=$xiirc/JULI.i1.? \ #
# $formatI #
# #
v $xiirc/JULI.i2$m
# Correspond a la manipulation suivante : #
# #
# $xci/luminance.01$X AR=$xiirc/JULI.i1$ROUGE \ #
# AV=$xiirc/JULI.i1$VERTE \ #
# AB=$xiirc/JULI.i1$BLEUE \ #
# R=$xT/LUMINANCE \ #
# $formatI #
# #
# $xci/complement$X \ #
# A=$xiirc/JULI.i1.? \ #
# $formatI | #
# $xci/montagne.01$X \ #
# A=$xT/LUMINANCE \ #
# avion=VRAI \ #
# sy=24 \ #
# R=$xiirc/JULI.i2$m.? \ #
# $formatI #
# #
v $xiirc/JU.jG.0.0001
v $xiirc/JU.jG.0.0051
v $xiirc/JU.jG.0.0057
v $xiirc/JU.jG.0.0073
v $xiirc/JU.jG.0.0116
# Correspond aux images '0001', '0051', '0057', '0073' et '0116' de la sequence : #
# #
# xivPdf 11 1 / 017025_017152 #
# #
v $xiirc/JULI.k1
# Generee par : #
# #
# #
# :Debut_listG_JULI_k1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/param11 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param11 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/param11 \ #
# $Z K=0 \ #
# $Z R=$xTV/JULI.1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param11 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=VRAI seuil=192 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z R=$xTV/JULI.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/JULI.11 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/JULI.0001 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/reduction_04$X \ #
# $Z A=$xTV/JULI. \ #
# $Z postfixe=%s \ #
# $Z premiere=1 ErreurLecture=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xTV/JULI.12%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/JULI.12%s \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.k1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_JULI_k1: #
# #
# #
# Cette version est donc anti-aliasee puisque calculee en resolution double... #
v $xiirc/JULI.k2
# Generee par : #
# #
# $Z Pal #
# #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiirc/JULI.k1$ROUGE \ #
# $Z AV=$xiirc/JULI.k1$VERTE \ #
# $Z AB=$xiirc/JULI.k1$BLEUE \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=1 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/scale$X \ #
# $Z a=0.75 \ #
# $Z R=$xT/FOND \ #
# $Z $formatI #
# #
# $Z $xci/or_02$X \ #
# $Z A1=$xT/FOND \ #
# $Z A2=$xiirc/JULI.k1$ROUGE \ #
# $Z R=$xiirc/JULI.k2$ROUGE \ #
# $Z $formatI #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/or_02$X \\\ #
# $Z A1=$xT/FOND \\\ #
# $Z A2=$xiirc/JULI.k1%s \\\ #
# $Z R=$xiirc/JULI.k2%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/detourage.13$Z $xiirc/JULI.k2 $xiirc/JULI.k2 #
# #
v $xiirc/JULI.l1 p=$xiP/fractal.11 centrer=VRAI
v $xiirc/JULI.l2 p=$xiP/fractal.11 centrer=VRAI
# Correspond a l'accumulation de la sequence : #
# #
# xivPdf 11 1 / 021019_021146 #
# #
# par : #
# #
# $xci/accumule.02$X \ #
# A=$xw1/JULI.4. \ #
# premiere=$cPremiere derniere=$cDerniere \ #
# binariser=???? seuil=192 \ #
# translation_quelconque=FAUX \ #
# stereo=0.0 \ #
# trx=+0.00195695 try=0 \ #
# R=$xiirc/JULI.l? \ #
# $formatI #
# #
# avec 'VRAI' pour '$xiirc/JULI.l1' et 'FAUX' pour '$xiirc/JULI.l2'. #
v $xiirc/JULI.m1
v $xiirc/JULI.m2
# Generee par : #
# #
# $Z Pdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xT/param11 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xT/param11 \ #
# $Z K=0 \ #
# $Z arguments=VRAI \ #
# $Z ponderationT=1 \ #
# $Z ponderationP=0 \ #
# $Z ponderationA=0 \ #
# $Z R=$xT/JULI.1. \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xT/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=VRAI seuil=192 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z R=$xT/JULI.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xT/JULI.11 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$xT/JULI.0001 \ #
# $Z $formatI #
# #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$ROUGE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$ROUGE \ #
# $Z $formatI #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$VERTE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$VERTE \ #
# $Z $formatI #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$BLEUE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$ROUGE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m1$ROUGE \ #
# $Z $formatR_Pal #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$VERTE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m1$VERTE \ #
# $Z $formatR_Pal #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$BLEUE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m1$BLEUE \ #
# $Z $formatR_Pal #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xT/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=FAUX seuil=192 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z R=$xT/JULI.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xT/JULI.11 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$xT/JULI.0001 \ #
# $Z $formatI #
# #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$ROUGE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$ROUGE \ #
# $Z $formatI #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$VERTE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$VERTE \ #
# $Z $formatI #
# $Z $xci/reduction_04$X \ #
# $Z A=$xT/JULI. \ #
# $Z postfixe=$BLEUE \ #
# $Z premiere=1 erreur=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xT/JULI.12$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$ROUGE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m2$ROUGE \ #
# $Z $formatR_Pal #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$VERTE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m2$VERTE \ #
# $Z $formatR_Pal #
# $Z $xci/format.01$X \ #
# $Z A=$xT/JULI.12$BLEUE \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/JULI.m2$BLEUE \ #
# $Z $formatR_Pal #
# #
# Ceci est donc la version anti-aliasee des images '$xiirc/JULI.l1' et '$xiirc/JULI.l2'. #
v $xiirc/JULI.n1
v $xiirc/JULI.n2
# Generee par : #
# #
# $Z Pdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=64 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xT/param11 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=64 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xT/param11 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z R=$xT/JULI.1. \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xT/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=VRAI seuil=32 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/sepia.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xT/JULI.11 \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xT/JULI.11 \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 erreur=FAUX chiffres=0 \\\ #
# $Z moyenne=VRAI \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=3 \\\ #
# $Z R=$xiirc/JULI.n1%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pal #
# #
# $Z $xci/acces_RVB.11$Z $xiirc/JULI.n1 $xiirc/JULI.n1 #
# $Z $xci/substitue$Z $xiirc/JULI.n1 $xiP/gris.11 $xiirc/JULI.n1 #
# #
# #
# $Z Pdu #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xT/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=FAUX seuil=32 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/sepia.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xT/JULI.12 \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xT/JULI.12 \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 erreur=FAUX chiffres=0 \\\ #
# $Z moyenne=VRAI \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=3 \\\ #
# $Z R=$xiirc/JULI.n2%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pal #
# #
# $Z $xci/acces_RVB.11$Z $xiirc/JULI.n2 $xiirc/JULI.n2 #
# $Z $xci/substitue$Z $xiirc/JULI.n2 $xiP/gris.11 $xiirc/JULI.n2 #
# #
v $xiirc/JULI.n2.1 p=$xiP/gris.01
v $xiirc/JULI.n2.1 p=$xiP/masque
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_JULI_n2_1: #
# #
# $Z Pal #
# #
# $Z $xci/detourage.31$Z $xiirc/JULI.n2 $xiirc/JULI.n2.1 1 #
# #
# :Fin_listG_JULI_n2_1: #
# #
# #
# qui montre la version "graphique" de l'image 'v $xiirc/JULI.n2'... #
v $xiirc/JULI.o2.0022
# Correspond a l'image '0022' de la sequence : #
# #
# xivPdf 11 1 / 021403_021530 #
# #
v $xiirc/JULI.p2.0022
v $xiirc/JULI.p2.0022$ROUGE p=$xiP/fractal.11
v $xiirc/JULI.p2.0022$VERTE p=$xiP/fractal.11
v $xiirc/JULI.p2.0022$BLEUE p=$xiP/fractal.11
# Correspond a l'image '0022' de la sequence : #
# #
# xivPdf 11 1 / 021531_021658 #
# #
v $xiirc/JULI.q2 p=$xiP/sepia.01
v $xiirc/JULI.q2.1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_JULI_q2: #
# #
# $Z Pqu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=64 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/param11 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param11 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=64 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param11 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z xbgD=-1.2 ybgD=-1.2 xhdD=1.2 yhdD=1.2 \ #
# $Z xbgA=-1.2 ybgA=-1.2 xhdA=1.2 yhdA=1.2 \ #
# $Z R=$xTV/JULI.1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param11 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/JULI.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=FAUX seuil=32 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/JULI.12 \ #
# $Z $formatI #
# #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/JULI.12 \ #
# $Z mode=2 \ #
# $Z R=$xiirc/JULI.q2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirc/JULI.q2 \ #
# $Z p=$xiP/sepia.01 \ #
# $Z R=$xTV/JULI.12 \ #
# $Z $formatI #
# #
# $Z $xci/color_NB.01$Z \ #
# $Z $xTV/JULI.12 \ #
# $Z $xiirc/JULI.q2.1 \ #
# $Z $xiP/trou_noir.94 \ #
# $Z $xiP/gris.01 \ #
# $Z FAUX \ #
# $Z $xci/gauss$X \ #
# $Z "c=96" #
# #
# :Fin_listG_JULI_q2: #
# #
# #
# qui montre une version mieux cadree de l'image 'v $xiirc/JULI.n2'... #
v $xiirc/JULI.r1.0056
v $xiirc/JULI.r4.0056
# Ces images proviennent des animations 'v $xiac/JULI.r1$R16' et 'v $xiac/JULI.r4$R16'. #
v $xiirc/JULI.s1
v $xiirc/JULI.s1.1
v $xiirc/JULI.s2
v $xiirc/JULI.s2.1
v $xiirc/JULI.s2.2
v $xiirc/JULI.s2.1.1 p=$xiP/fract.92$Fi
v $xiirc/JULI.s2.1.1 p=$xiP/trou_noir.14
v $xiirc/JULI.s2.1.1 p=$xiP/enfer.04
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_JULI_s1_s2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULI.s1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.10 ybg=-1.10 xhd=+1.10 yhd=+1.10 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/JULI.s1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.s1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.s1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.s2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/JULI.s2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.s2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.s2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.s2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULI.s2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$xTV/JULI.s2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/JULI.s2.2 \ #
# $Z $xTV/BRUME \ #
# $Z $xTV/JULI.s2.3 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/JULI.s2.3%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULI.s2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/JULI.s2.1 \ #
# $Z R=$xiirc/JULI.s2.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_JULI_s1_s2: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique". #
v $xiirc/JULI.v2.1.0001
v $xiirc/JULI.v2.1.0002
v $xiirc/JULI.v2.1.0003
v $xiirc/JULI.v2.1.0004
v $xiirc/JULI.v2.1.0005
v $xiirc/JULI.v2.1.0006
v $xiirc/JULI.v2.1.0007
v $xiirc/JULI.v2.1.0008
v $xiirc/JULI.v2.1.0009
v $xiirc/JULI.v2.1.0010
v $xiirc/JULI.v2.1.0011
v $xiirc/JULI.v2.1.0012
v $xiirc/JULI.v2.1.0013
v $xiirc/JULI.v2.1.0014
v $xiirc/JULI.v2.1.0015
v $xiirc/JULI.v2.1.0016
v $xiirc/JULI.v2.2.0001
v $xiirc/JULI.v2.2.0002
v $xiirc/JULI.v2.2.0003
v $xiirc/JULI.v2.2.0004
v $xiirc/JULI.v2.2.0005
v $xiirc/JULI.v2.2.0006
v $xiirc/JULI.v2.2.0007
v $xiirc/JULI.v2.2.0008
v $xiirc/JULI.v2.2.0009
v $xiirc/JULI.v2.2.0010
v $xiirc/JULI.v2.2.0011
v $xiirc/JULI.v2.2.0012
v $xiirc/JULI.v2.2.0013
v $xiirc/JULI.v2.2.0014
v $xiirc/JULI.v2.2.0015
v $xiirc/JULI.v2.2.0016
v $xiirc/JULI.v2.1
v $xiirc/JULI.v2.2 p=$xiP/enfer.03
v $xiirc/JULI.v2.2 p=$xiP/trou_noir.13
v $xiirc/JULI.v2.3
v $xiirc/JULI.v2.4 p=$xiP/enfer.03
v $xiirc/JULI.v2.4 p=$xiP/trou_noir.13
v $xiirc/JULI.v2.2$HauteDef
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULI.v2.1$R16' #
# #
# L'image 'v $xiirc/JULI.v2.2$HauteDef' a ete obtenu avec 'Pqu' et '$execRVB_Para=FAUX'. #
v $xiirc/JULI.v2.2.1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_JULI_v2_2_1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/MANE.11.2%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xTV/MANE.11.2%s \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xTV/MANE.11.2%s \ #
# $Z R=$xTV/MANE.11.3%s \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirc/JULI.v2.2 \ #
# $Z p=$xiP/enfer.42 \ #
# $Z R=$xTV/JULI.v2.2 \ #
# $Z $formatI #
# #
# $Z $xci/substitue$X \ #
# $Z A=$xiirc/JULI.v2.2 \ #
# $Z p=$xiP/masque \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z points=225 \ #
# $Z R=$xTV/PONDERATION \ #
# $Z $formatI #
# #
# $Z execRVB $xci/interpole.02$X \ #
# $Z A1=$xTV/JULI.v2.2%s \ #
# $Z A2=$xTV/MANE.11.3%s \ #
# $Z P=$xTV/PONDERATION \ #
# $Z R=$xiirc/JULI.v2.2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULI_v2_2_1: #
# #
v $xiirc/JULI.w1
v $xiirc/JULI.w1.1
v $xiirc/JULI.w2
v $xiirc/JULI.w2.1
v $xiirc/JULI.w2.2
v $xiirc/JULI.w2.1.1 p=$xiP/fract.92$Fi
v $xiirc/JULI.w2.1.1 p=$xiP/trou_noir.14
v $xiirc/JULI.w2.1.1 p=$xiP/enfer.04
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_JULI_w1_w2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULI.w1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=6 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.40 ybg=-1.40 xhd=+1.40 yhd=+1.40 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/JULI.w1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.w1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.w1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.w2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/JULI.w2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.w2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.w2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.w2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULI.w2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$xTV/JULI.w2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/JULI.w2.2 \ #
# $Z $xTV/BRUME \ #
# $Z $xTV/JULI.w2.3 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/JULI.w2.3%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULI.w2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/JULI.w2.1 \ #
# $Z R=$xiirc/JULI.w2.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_JULI_w1_w2: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique". #
v $xiirc/JULI.x2.1.0001
v $xiirc/JULI.x2.1.0002
v $xiirc/JULI.x2.1.0003
v $xiirc/JULI.x2.1.0004
v $xiirc/JULI.x2.1.0005
v $xiirc/JULI.x2.1.0006
v $xiirc/JULI.x2.1.0007
v $xiirc/JULI.x2.1.0008
v $xiirc/JULI.x2.1.0009
v $xiirc/JULI.x2.1.0010
v $xiirc/JULI.x2.1.0011
v $xiirc/JULI.x2.1.0012
v $xiirc/JULI.x2.1.0013
v $xiirc/JULI.x2.1.0014
v $xiirc/JULI.x2.1.0015
v $xiirc/JULI.x2.1.0016
v $xiirc/JULI.x2.1
v $xiirc/JULI.x2.2 p=$xiP/enfer.03
v $xiirc/JULI.x2.2 p=$xiP/trou_noir.13
v $xiirc/JULI.x2.3
v $xiirc/JULI.x2.4 p=$xiP/enfer.03
v $xiirc/JULI.x2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULI.x2.1$R16' #
# #
v $xiirc/JULI.y1
v $xiirc/JULI.y1.1
v $xiirc/JULI.y2
v $xiirc/JULI.y2.1
v $xiirc/JULI.y2.2
v $xiirc/JULI.y2.1.1 p=$xiP/fract.92$Fi
v $xiirc/JULI.y2.1.1 p=$xiP/trou_noir.14
v $xiirc/JULI.y2.1.1 p=$xiP/enfer.04
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_JULI_y1_y2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULI.y1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.40 ybg=-1.40 xhd=+1.40 yhd=+1.40 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/JULI.y1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.y1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.y1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.y2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/JULI.y2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULI.y2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULI.y2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.y2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULI.y2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$xTV/JULI.y2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/JULI.y2.2 \ #
# $Z $xTV/BRUME \ #
# $Z $xTV/JULI.y2.3 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/JULI.y2.3%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULI.y2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/JULI.y2.1 \ #
# $Z R=$xiirc/JULI.y2.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_JULI_y1_y2: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" identique a #
# 'v $xiirc/JULI.w1' mais avec plus d'iterations (10 au lieu de 6) et donc plus "mince"... #
v $xiirc/JULI.z2.1.0001
v $xiirc/JULI.z2.1.0002
v $xiirc/JULI.z2.1.0003
v $xiirc/JULI.z2.1.0004
v $xiirc/JULI.z2.1.0005
v $xiirc/JULI.z2.1.0006
v $xiirc/JULI.z2.1.0007
v $xiirc/JULI.z2.1.0008
v $xiirc/JULI.z2.1.0009
v $xiirc/JULI.z2.1.0010
v $xiirc/JULI.z2.1.0011
v $xiirc/JULI.z2.1.0012
v $xiirc/JULI.z2.1.0013
v $xiirc/JULI.z2.1.0014
v $xiirc/JULI.z2.1.0015
v $xiirc/JULI.z2.1.0016
v $xiirc/JULI.z2.1
v $xiirc/JULI.z2.2 p=$xiP/enfer.03
v $xiirc/JULI.z2.2 p=$xiP/trou_noir.13
v $xiirc/JULI.z2.3
v $xiirc/JULI.z2.4 p=$xiP/enfer.03
v $xiirc/JULI.z2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULI.z2.1$R16' #
# #
v $xiirc/JULJ.11
v $xiirc/JULJ.11.1
v $xiirc/JULJ.12
v $xiirc/JULJ.12.1
v $xiirc/JULJ.12.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_11_12: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.11 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.15 vA=+1.15 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.25 ybg=-1.25 xhd=+1.25 yhd=+1.25 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=3 \ #
# $Z pTheta=3 pPhi=3 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/JULJ.11%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULJ.11%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULJ.11.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/JULJ.12%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULJ.12%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULJ.12.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULJ.12.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$xTV/JULJ.12.2%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/JULJ.12.2 \ #
# $Z $xTV/BRUME \ #
# $Z $xTV/JULJ.12.3 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/JULJ.12.3%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULJ.12.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_11_12: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# {(3.THETA)+(0),(3.PHI)+(0)} et en elevant 'Rho' a la puissance 3 avec un polynome de #
# degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 3 (par definition du "produit non theorique"...). #
v $xiirc/JULJ.22.1.0001
v $xiirc/JULJ.22.1.0002
v $xiirc/JULJ.22.1.0003
v $xiirc/JULJ.22.1.0004
v $xiirc/JULJ.22.1.0005
v $xiirc/JULJ.22.1.0006
v $xiirc/JULJ.22.1.0007
v $xiirc/JULJ.22.1.0008
v $xiirc/JULJ.22.1.0009
v $xiirc/JULJ.22.1.0010
v $xiirc/JULJ.22.1.0011
v $xiirc/JULJ.22.1.0012
v $xiirc/JULJ.22.1.0013
v $xiirc/JULJ.22.1.0014
v $xiirc/JULJ.22.1.0015
v $xiirc/JULJ.22.1.0016
v $xiirc/JULJ.22.1
v $xiirc/JULJ.22.2 p=$xiP/enfer.03
v $xiirc/JULJ.22.2 p=$xiP/trou_noir.13
v $xiirc/JULJ.22.3
v $xiirc/JULJ.22.4 p=$xiP/enfer.03
v $xiirc/JULJ.22.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULJ.22.1$R16' #
# #
v $xiirc/JULJ.32.1.0001
v $xiirc/JULJ.32.1.0002
v $xiirc/JULJ.32.1.0003
v $xiirc/JULJ.32.1.0004
v $xiirc/JULJ.32.1.0005
v $xiirc/JULJ.32.1.0006
v $xiirc/JULJ.32.1.0007
v $xiirc/JULJ.32.1.0008
v $xiirc/JULJ.32.1.0009
v $xiirc/JULJ.32.1.0010
v $xiirc/JULJ.32.1.0011
v $xiirc/JULJ.32.1.0012
v $xiirc/JULJ.32.1.0013
v $xiirc/JULJ.32.1.0014
v $xiirc/JULJ.32.1.0015
v $xiirc/JULJ.32.1.0016
v $xiirc/JULJ.32.2.0001
v $xiirc/JULJ.32.2.0002
v $xiirc/JULJ.32.2.0003
v $xiirc/JULJ.32.2.0004
v $xiirc/JULJ.32.2.0005
v $xiirc/JULJ.32.2.0006
v $xiirc/JULJ.32.2.0007
v $xiirc/JULJ.32.2.0008
v $xiirc/JULJ.32.2.0009
v $xiirc/JULJ.32.2.0010
v $xiirc/JULJ.32.2.0011
v $xiirc/JULJ.32.2.0012
v $xiirc/JULJ.32.2.0013
v $xiirc/JULJ.32.2.0014
v $xiirc/JULJ.32.2.0015
v $xiirc/JULJ.32.2.0016
v $xiirc/JULJ.32.1
v $xiirc/JULJ.32.2 p=$xiP/enfer.03
v $xiirc/JULJ.32.2 p=$xiP/trou_noir.13
v $xiirc/JULJ.32.3
v $xiirc/JULJ.32.4 p=$xiP/enfer.03
v $xiirc/JULJ.32.4 p=$xiP/trou_noir.13
# Correspond aux images des sequences : #
# #
# 'v $xiac/JULJ.32.1$R16' #
# 'v $xiac/JULJ.32.2$R16' #
# #
v $xiirc/JULJ.42.1.0001
v $xiirc/JULJ.42.1.0002
v $xiirc/JULJ.42.1.0003
v $xiirc/JULJ.42.1.0004
v $xiirc/JULJ.42.1.0005
v $xiirc/JULJ.42.1.0006
v $xiirc/JULJ.42.1.0007
v $xiirc/JULJ.42.1.0008
v $xiirc/JULJ.42.1.0009
v $xiirc/JULJ.42.1.0010
v $xiirc/JULJ.42.1.0011
v $xiirc/JULJ.42.1.0012
v $xiirc/JULJ.42.1.0013
v $xiirc/JULJ.42.1.0014
v $xiirc/JULJ.42.1.0015
v $xiirc/JULJ.42.1.0016
v $xiirc/JULJ.42.2.0001
v $xiirc/JULJ.42.2.0002
v $xiirc/JULJ.42.2.0003
v $xiirc/JULJ.42.2.0004
v $xiirc/JULJ.42.2.0005
v $xiirc/JULJ.42.2.0006
v $xiirc/JULJ.42.2.0007
v $xiirc/JULJ.42.2.0008
v $xiirc/JULJ.42.2.0009
v $xiirc/JULJ.42.2.0010
v $xiirc/JULJ.42.2.0011
v $xiirc/JULJ.42.2.0012
v $xiirc/JULJ.42.2.0013
v $xiirc/JULJ.42.2.0014
v $xiirc/JULJ.42.2.0015
v $xiirc/JULJ.42.2.0016
# Correspond aux images des sequences : #
# #
# 'v $xiac/JULJ.42.1$R16' #
# 'v $xiac/JULJ.42.2$R16' #
# #
v $xiirc/JULJ.51
v $xiirc/JULJ.51.1
v $xiirc/JULJ.51.2
v $xiirc/JULJ.52
v $xiirc/JULJ.52.1
v $xiirc/JULJ.52.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_51_52: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.51 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/JULJ.52.2 #
# $Z set _____ImageT23=$xTV/JULJ.52.3 #
# #
# $Z $DELETE $xTV/param.x1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+2.289 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.x1 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=14 \ #
# $Z seuil=10 \ #
# $Z COMPOSANTE_J=$xTV/param.x1 \ #
# $Z exposant=-4 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-2.6 ybg=-2.6 xhd=+2.6 yhd=+2.6 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.x1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.x2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/JULJ.51%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULJ.51%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULJ.51.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.x2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULJ.51.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULJ.51.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.x2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/JULJ.52%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/JULJ.52%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/JULJ.52.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.x2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/JULJ.52.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/JULJ.52.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_51_52: #
# #
# #
# Ensemble de Julia dans les quaternions de degre negatif. #
v $xiirc/JULJ.61.1.0001
v $xiirc/JULJ.61.1.0002
v $xiirc/JULJ.61.1.0003
v $xiirc/JULJ.61.1.0004
v $xiirc/JULJ.61.1.0005
v $xiirc/JULJ.61.1.0006
v $xiirc/JULJ.61.1.0007
v $xiirc/JULJ.61.1.0008
v $xiirc/JULJ.61.1.0009
v $xiirc/JULJ.61.1.0010
v $xiirc/JULJ.61.1.0011
v $xiirc/JULJ.61.1.0012
v $xiirc/JULJ.61.1.0013
v $xiirc/JULJ.61.1.0014
v $xiirc/JULJ.61.1.0015
v $xiirc/JULJ.61.1.0016
v $xiirc/JULJ.61.2.0001
v $xiirc/JULJ.61.2.0002
v $xiirc/JULJ.61.2.0003
v $xiirc/JULJ.61.2.0004
v $xiirc/JULJ.61.2.0005
v $xiirc/JULJ.61.2.0006
v $xiirc/JULJ.61.2.0007
v $xiirc/JULJ.61.2.0008
v $xiirc/JULJ.61.2.0009
v $xiirc/JULJ.61.2.0010
v $xiirc/JULJ.61.2.0011
v $xiirc/JULJ.61.2.0012
v $xiirc/JULJ.61.2.0013
v $xiirc/JULJ.61.2.0014
v $xiirc/JULJ.61.2.0015
v $xiirc/JULJ.61.2.0016
v $xiac/JULJ.61.1$R16
v $xiac/JULJ.61.2$R16
v $xiirc/JULJ.61.1
v $xiirc/JULJ.61.2 p=$xiP/enfer.03
v $xiirc/JULJ.61.2 p=$xiP/trou_noir.13
# Generee (sur '$CMAP28' -ex "abbesses"- et sur '$LACT18' pour les '$R16') par : #
# #
# #
# :Debut_listG_JULJ_61: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.61.T #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=0 vA=$dpi" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.10 ybg=-1.10 xhd=+1.10 yhd=+1.10 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z ROTATION_OY=$LAnGlEs[$ImAgE] \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xTV/JULJ.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesR.1%s \ #
# $Z R=$xiirc/JULJ.61.1.$NImAgE%s \ #
# $Z $formatI #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesR.2%s \ #
# $Z R=$xiirc/JULJ.61.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$xiirc/JULJ.61.1 #
# $Z set _____animation=$xiac/JULJ.61.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$xiirc/JULJ.61.2 #
# $Z set _____animation=$xiac/JULJ.61.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z set NPrEmIeRe=`$xci/nombres$X p=$Premiere d=$Premiere A="$K_VIDE"` #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xiirc/JULJ.61.1.$NPrEmIeRe%s \ #
# $Z R=$xiirc/JULJ.61.1%s \ #
# $Z $formatI #
# #
# $Z @ PrEmIeRe = $Premiere + 1 #
# $Z @ DeRnIeRe = $Derniere #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $PrEmIeRe $DeRnIeRe \ #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xiirc/JULJ.61.1%%s \ #
# $Z M=$xiirc/JULJ.61.1.%04d%%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xiirc/JULJ.61.1%%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/JULJ.61.1 \ #
# $Z R=$xiirc/JULJ.61.2 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_61: #
# #
# #
# Cette animation propose une rotation autour de l'axe 'OY' de 'v $xiirc/JULI.s2.2' avec les #
# ombres portees... #
v $xiirc/JULJ.71
v $xiirc/JULJ.71.1
v $xiirc/JULJ.71.2
v $xiirc/JULJ.71.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_71: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.71 #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.71 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=8 \ #
# $Z iterations=8 \ #
# $Z COMPOSANTE_J=$xTV/param.71 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.71 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_71: #
# #
# #
# Ensemble de Julia avec le produit theorique et un exposant egal a 8. #
v $xiirc/JULJ.72
v $xiirc/JULJ.72.1
v $xiirc/JULJ.72.2
v $xiirc/JULJ.72.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_72: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.72 #
# #
# $Z $DELETE $xTV/param.72 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.72 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=8 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.72 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.72 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.72 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_72: #
# #
# #
# Ensemble de Julia avec le produit theorique et un exposant egal a 8. #
v $xiirc/JULJ.81
v $xiirc/JULJ.81.1
v $xiirc/JULJ.81.2
v $xiirc/JULJ.81.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_JULJ_81: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.81 #
# #
# $Z $DELETE $xTV/param.81 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.81 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z COMPOSANTE_J=$xTV/param.81 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.81 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.81 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_81: #
# #
# #
# Ensemble de Julia calcule comme 'v $xiirc/JULJ.71.2' mais avec le produit non theorique... #
v $xiirc/JULJ.82
v $xiirc/JULJ.82.1
v $xiirc/JULJ.82.2
v $xiirc/JULJ.82.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_JULJ_82: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.82 #
# #
# $Z $DELETE $xTV/param.82 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.82 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.82 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.82 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.82 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_82: #
# #
# #
# Ensemble de Julia calcule comme 'v $xiirc/JULJ.72.2' mais avec le produit non theorique... #
v $xiirc/JULJ.92
v $xiirc/JULJ.92.1
v $xiirc/JULJ.92.2
v $xiirc/JULJ.92.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_92: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.92 #
# #
# $Z $DELETE $xTV/param.92 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-0.81362762725525 vA=-0.72062744125488 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.92 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.92 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.049500 ybg=+0.520209 \ #
# $Z xhd=+0.150500 yhd=+0.720209 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.92 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.92 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_92: #
# #
# #
# Zoom sur 'v $xiirc/JULJ.82.1'. #
v $xiirc/JULJ.A2
v $xiirc/JULJ.A2.1
v $xiirc/JULJ.A2.2
v $xiirc/JULJ.A2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_A2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.A2 #
# #
# $Z $DELETE $xTV/param.A2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=-0.63779527559055 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.A2 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.A2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.126120 ybg=+0.370383 \ #
# $Z xhd=+0.073880 yhd=+0.570383 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.A2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.A2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_A2: #
# #
# #
# Zoom sur 'v $xiirc/JULJ.82.1'. #
v $xiirc/JULJ.B2
v $xiirc/JULJ.B2.1
v $xiirc/JULJ.B2.2
v $xiirc/JULJ.B2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_B2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_92=$xTV/JULJ.92 #
# #
# $Z $DELETE $xTV/param.92 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-0.81362762725525 vA=-0.72062744125488 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.92 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.92 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.049500 ybg=+0.520209 \ #
# $Z xhd=+0.150500 yhd=+0.720209 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_92. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.92 #
# #
# $Z set _____ImageT1_A2=$xTV/JULJ.A2 #
# #
# $Z $DELETE $xTV/param.A2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=-0.63779527559055 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.A2 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.A2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.126120 ybg=+0.370383 \ #
# $Z xhd=+0.073880 yhd=+0.570383 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_A2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.A2 #
# #
# $Z set _____ImageT1=$xTV/JULJ.B2 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_92.%04d \ #
# $Z A2=$_____ImageT1_A2.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.B2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_B2: #
# #
# #
# Melange entre 'v $xiirc/JULJ.92.2' et 'v $xiirc/JULJ.A2.2'... #
v $xiirc/JULJ.C2.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_C2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.C2 #
# #
# $Z $DELETE $xTV/param.C2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.C2 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.C2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=4 tA1=0.3 \ #
# $Z pA2=5 tA2=0.3 \ #
# $Z pA3=7 tA3=0.3 \ #
# $Z pA4=9 tA4=0.3 \ #
# $Z pA5=11 tA5=0.3 \ #
# $Z pA6=13 tA6=0.3 \ #
# $Z pA7=15 tA7=0.3 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.C2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.C2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_C2: #
# #
v $xiirc/JULJ.C3.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_C3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.C3 #
# #
# $Z $DELETE $xTV/param.C3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.C3 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.C3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=8 tA1=0.3 \ #
# $Z pA2=8 tA2=0.3 \ #
# $Z pA3=8 tA3=0.3 \ #
# $Z pA4=8 tA4=0.3 \ #
# $Z pA5=8 tA5=0.3 \ #
# $Z pA6=8 tA6=0.3 \ #
# $Z pA7=8 tA7=0.3 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.C3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.C3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_C3: #
# #
v $xiirc/JULJ.C4.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_C4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.C4 #
# #
# $Z $DELETE $xTV/param.C4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.C4 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.C4 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=3 tA1=0.3 \ #
# $Z pA2=3 tA2=0.3 \ #
# $Z pA3=3 tA3=0.3 \ #
# $Z pA4=3 tA4=0.3 \ #
# $Z pA5=3 tA5=0.3 \ #
# $Z pA6=3 tA6=0.3 \ #
# $Z pA7=3 tA7=0.3 \ #
# $Z A12A10=1 \ #
# $Z A22A20=1 \ #
# $Z A32A30=1 \ #
# $Z A42A40=1 \ #
# $Z A52A50=1 \ #
# $Z A62A60=1 \ #
# $Z A72A70=1 \ #
# $Z A10A12=1 \ #
# $Z A20A22=1 \ #
# $Z A30A32=1 \ #
# $Z A40A42=1 \ #
# $Z A50A52=1 \ #
# $Z A60A62=1 \ #
# $Z A70A72=1 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.C4 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.C4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_C4: #
# #
v $xiirc/JULJ.C5.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_JULJ_C5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.C5 #
# #
# $Z $DELETE $xTV/param.C5 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.C5 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.C5 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=8 tA1=0.1 \ #
# $Z pA2=8 tA2=0.1 \ #
# $Z pA3=8 tA3=0.1 \ #
# $Z pA4=8 tA4=0.1 \ #
# $Z pA5=8 tA5=0.1 \ #
# $Z pA6=8 tA6=0.1 \ #
# $Z pA7=8 tA7=0.1 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.C5 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.C5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_C5: #
# #
v $xiirc/JULJ.C6.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_JULJ_C6: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.C6 #
# #
# $Z $DELETE $xTV/param.C6 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.C6 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.C6 \ #
# $Z K=0.091 \ #
# $Z S=0.092 \ #
# $Z T=0.093 \ #
# $Z U=0.092 \ #
# $Z V=0.091 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=8 tA1=0.3 \ #
# $Z pA2=8 tA2=0.3 \ #
# $Z pA3=8 tA3=0.3 \ #
# $Z pA4=8 tA4=0.3 \ #
# $Z pA5=8 tA5=0.3 \ #
# $Z pA6=8 tA6=0.3 \ #
# $Z pA7=8 tA7=0.3 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.C6 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.C6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_C6: #
# #
v $xiirc/JULJ.D3.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_JULJ_D3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.D3 #
# #
# $Z $DELETE $xTV/param.D3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D3 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.D3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=8 tA1=0.3 \ #
# $Z pA2=8 tA2=0.3 \ #
# $Z pA3=8 tA3=0.3 \ #
# $Z pA4=8 tA4=0.3 \ #
# $Z pA5=8 tA5=0.3 \ #
# $Z pA6=8 tA6=0.3 \ #
# $Z pA7=8 tA7=0.3 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.D3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_D3: #
# #
# #
# Identique a 'v $xiirc/JULJ.C3.2' mais avec 256 couches de J E [-1,0]. #
v $xiirc/JULJ.D5.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_JULJ_D5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.D5 #
# #
# $Z $DELETE $xTV/param.D5 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D5 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.D5 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=7 \ #
# $Z pA1=8 tA1=0.1 \ #
# $Z pA2=8 tA2=0.1 \ #
# $Z pA3=8 tA3=0.1 \ #
# $Z pA4=8 tA4=0.1 \ #
# $Z pA5=8 tA5=0.1 \ #
# $Z pA6=8 tA6=0.1 \ #
# $Z pA7=8 tA7=0.1 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D5 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.D5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_D5: #
# #
# #
# Identique a 'v $xiirc/JULJ.C5.2' mais avec 256 couches de J E [-1,0]. #
v $xiirc/JULJ.D6.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_D6: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.D6 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -1.0 #
# $c #define EJ 0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/julia.81$X #
# $c images=1 #
# $c exposant=1 #
# $c iterations=8 #
# $c r=-0.5815147625160462 #
# $c i=+0.6358885017421603 #
# $c j=0 #
# $c k=0 #
# $c s=0 #
# $c t=0 #
# $c u=0 #
# $c v=0 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c eRho=7 #
# $c pA1=8 tA1=0.2 #
# $c pA2=8 tA2=0.2 #
# $c pA3=8 tA3=0.2 #
# $c pA4=8 tA4=0.2 #
# $c pA5=8 tA5=0.2 #
# $c pA6=8 tA6=0.2 #
# $c pA7=8 tA7=0.2 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.D6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_D6: #
# #
v $xiirc/JULJ.E2.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_JULJ_E2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.E2 #
# #
# $Z $DELETE $xTV/param.E2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.E2 #
# #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/param.E2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.E2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.E2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_E2: #
# #
# #
# Identique a 'v $xiirc/JULJ.82.2' mais avec 256 couches de J E [-1,0]. #
v $xiirc/JULJ.F2$DROITE
v $xiirc/JULJ.F2$GAUCHE
v $xiirc/JULJ.F2$STEREO
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULJ_F2_STEREO: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=64 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/param11 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param11 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=64 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param11 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z R=$xTV/JULJ.1. \ #
# $Z $formatI #
# #
# $Z set SeUiL=32 #
# $Z set StErEo=0.2 #
# $Z set TrAnSlAtIoNs="trx=+0.00195695 try=0" #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/JULJ.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=FAUX seuil=$SeUiL \ #
# $Z translation_quelconque=VRAI \ #
# $Z stereo=-$StErEo \ #
# $Z $TrAnSlAtIoNs \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/sepia.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/JULJ.12 \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/reduction_04$X \ #
# $Z A=$xTV/JULJ.12 \ #
# $Z postfixe=%s \ #
# $Z premiere=1 chiffres=0 \ #
# $Z moyenne=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xTV/JULJ.F2%s \ #
# $Z $formatR_Pal" #
# #
# $Z Pal #
# #
# $Z $xci/acces_RVB.11$Z $xTV/JULJ.F2 $xTV/JULJ.F2 #
# $Z $xci/substitue$Z $xTV/JULJ.F2 $xiP/gris.11 $xiirc/JULJ.F2$GAUCHE #
# #
# $Z Pdu #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/JULJ.1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=FAUX seuil=$SeUiL \ #
# $Z translation_quelconque=VRAI \ #
# $Z stereo=+$StErEo \ #
# $Z $TrAnSlAtIoNs \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/sepia.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/JULJ.12 \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/reduction_04$X \ #
# $Z A=$xTV/JULJ.12 \ #
# $Z postfixe=%s \ #
# $Z premiere=1 chiffres=0 \ #
# $Z moyenne=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xTV/JULJ.F2%s \ #
# $Z $formatR_Pal" #
# #
# $Z Pal #
# #
# $Z $xci/acces_RVB.11$Z $xTV/JULJ.F2 $xTV/JULJ.F2 #
# $Z $xci/substitue$Z $xTV/JULJ.F2 $xiP/gris.11 $xiirc/JULJ.F2$DROITE #
# #
# $Z $xci/anaglyphe.31$Z $xiirc/JULJ.F2$GAUCHE $xiirc/JULJ.F2$DROITE \ #
# $Z $xiirc/JULJ.F2$STEREO #
# #
# :Fin_listG_JULJ_F2_STEREO: #
# #
# #
# Version stereoscopique de 'v $xiirc/JULI.n2'... #
v $xiirc/JULJ.G2.1
v $xiirc/JULJ.G2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_G2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.G2 #
# #
# $Z $DELETE $xTV/param.G2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G2 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=12 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param.G2 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.G2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_G2: #
# #
# #
# Version "moderne" de 'v $xiirc/JULI.n2' (calculee avec "inverser=FAUX" par defaut pour #
# '$xci/accumule.02$X', alors que 'v $xiirc/JULJ.G2.2' est calculee avec "inverser_ZA=VRAI" #
# et "inverser_ZT=VRAI" dans 'v $xiirc/.MANE.41.4.$U inverser_Z') avec 12 iterations... Le #
# fait que les parametres d'inversion n'ont pas la meme valeur logique fait donc que l'on #
# ne voit pas la meme chose dans ces images ('v $xiirc/JULI.n2' et 'v $xiirc/JULJ.G2.2')... #
v $xiirc/JULJ.G3.1
v $xiirc/JULJ.G3.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_G3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.G3 #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G3 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=16 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param.G3 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.G3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_G3: #
# #
# #
# Version "moderne" de 'v $xiirc/JULI.n2' (calculee avec "inverser=FAUX" par defaut pour #
# '$xci/accumule.02$X', alors que 'v $xiirc/JULJ.G3.2' est calculee avec "inverser_ZA=VRAI" #
# et "inverser_ZT=VRAI" dans 'v $xiirc/.MANE.41.4.$U inverser_Z') avec 16 iterations... Le #
# fait que les parametres d'inversion n'ont pas la meme valeur logique fait donc que l'on #
# ne voit pas la meme chose dans ces images ('v $xiirc/JULI.n2' et 'v $xiirc/JULJ.G3.2')... #
v $xiirc/JULJ.H2.1
v $xiirc/JULJ.H2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_H2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-0.7398 vA=+0.7398 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.H2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_H2: #
# #
# #
# Version "moderne" de 'v $xiirc/JULI.k1' (calculee avec "inverser=FAUX" par defaut pour #
# '$xci/accumule.02$X', alors que 'v $xiirc/JULJ.H2.2' est calculee avec "inverser_ZA=VRAI" #
# et "inverser_ZT=VRAI" dans 'v $xiirc/.MANE.41.4.$U inverser_Z')... Ainsi, les parametres #
# d'inversion n'ont pas la meme valeur logique, mais malgre tout les deux images #
# ('v $xiirc/JULI.k1' et 'v $xiirc/JULJ.H2.2') montrent la meme chose a cause de la #
# "symetrie" de 'COMPOSANTE_J' qui est dans [-0.7398,+0.7398]... #
v $xiirc/JULJ.I2.1
v $xiirc/JULJ.I2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_I2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.I2 #
# #
# $Z $DELETE $xTV/param.I2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.I2 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=12 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param.I2 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.I2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.I2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_I2: #
# #
# #
# Version "moderne" et complete (la composante 'J' est dans [-1,+1]) de 'v $xiirc/JULI.n2'. #
v $xiirc/JULJ.I3.1
v $xiirc/JULJ.I3.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_I3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.I3 #
# #
# $Z $DELETE $xTV/param.I3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.I3 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=16 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param.I3 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.I3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.I3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_I3: #
# #
# #
# Version "moderne" et complete (la composante 'J' est dans [-1,+1]) de 'v $xiirc/JULI.n2'. #
v $xiirc/JULJ.J1.1.0001
v $xiirc/JULJ.J1.1.0002
v $xiirc/JULJ.J1.1.0003
v $xiirc/JULJ.J1.1.0004
v $xiirc/JULJ.J1.1.0005
v $xiirc/JULJ.J1.1.0006
v $xiirc/JULJ.J1.1.0007
v $xiirc/JULJ.J1.1.0008
v $xiirc/JULJ.J1.1.0009
v $xiirc/JULJ.J1.1.0010
v $xiirc/JULJ.J1.1.0011
v $xiirc/JULJ.J1.1.0012
v $xiirc/JULJ.J1.1.0013
v $xiirc/JULJ.J1.1.0014
v $xiirc/JULJ.J1.1.0015
v $xiirc/JULJ.J1.1.0016
Pal ; anim3 A=$xiirc/JULJ.J1.1. premiere=1 derniere=16
v $xiirc/JULJ.J1.2.0001
v $xiirc/JULJ.J1.2.0002
v $xiirc/JULJ.J1.2.0003
v $xiirc/JULJ.J1.2.0004
v $xiirc/JULJ.J1.2.0005
v $xiirc/JULJ.J1.2.0006
v $xiirc/JULJ.J1.2.0007
v $xiirc/JULJ.J1.2.0008
v $xiirc/JULJ.J1.2.0009
v $xiirc/JULJ.J1.2.0010
v $xiirc/JULJ.J1.2.0011
v $xiirc/JULJ.J1.2.0012
v $xiirc/JULJ.J1.2.0013
v $xiirc/JULJ.J1.2.0014
v $xiirc/JULJ.J1.2.0015
v $xiirc/JULJ.J1.2.0016
Pal ; anim3 A=$xiirc/JULJ.J1.2. premiere=1 derniere=16
v $xiirc/JULJ.J1.21.0001
v $xiirc/JULJ.J1.21.0002
v $xiirc/JULJ.J1.21.0003
v $xiirc/JULJ.J1.21.0004
v $xiirc/JULJ.J1.21.0005
v $xiirc/JULJ.J1.21.0006
v $xiirc/JULJ.J1.21.0007
v $xiirc/JULJ.J1.21.0008
v $xiirc/JULJ.J1.21.0009
v $xiirc/JULJ.J1.21.0010
v $xiirc/JULJ.J1.21.0011
v $xiirc/JULJ.J1.21.0012
v $xiirc/JULJ.J1.21.0013
v $xiirc/JULJ.J1.21.0014
v $xiirc/JULJ.J1.21.0015
v $xiirc/JULJ.J1.21.0016
Pal ; anim3 A=$xiirc/JULJ.J1.21. premiere=1 derniere=16
v $xiac/JULJ.J1.1$R16
v $xiac/JULJ.J1.2$R16
v $xiac/JULJ.J1.21$R16
v $xiirc/JULJ.J1.1
v $xiirc/JULJ.J1.2 p=$xiP/enfer.03
v $xiirc/JULJ.J1.2 p=$xiP/trou_noir.13
# Generee (sur '$CMAP28' -ex "porte-brancion"-) : #
# #
# #
# :Debut_listG_JULJ_J1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.J1.T #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/COMPOSANTE_J #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=0 vA=$pi" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z $xrc/julia.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z s=0 \ #
# $Z t=0 \ #
# $Z u=0 \ #
# $Z v=0 \ #
# $Z COMPOSANTE_J=$xTV/COMPOSANTE_J \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z ROTATION_OY=$LAnGlEs[$ImAgE] \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xTV/JULJ.J1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesR.1%s \ #
# $Z R=$xiirc/JULJ.J1.1.$NImAgE%s \ #
# $Z $formatI #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesR.2%s \ #
# $Z R=$xiirc/JULJ.J1.2.$NImAgE%s \ #
# $Z $formatI #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$xiirc/JULJ.J1.21.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$xiirc/JULJ.J1.1 #
# $Z set _____animation=$xiac/JULJ.J1.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$xiirc/JULJ.J1.2 #
# $Z set _____animation=$xiac/JULJ.J1.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$xiirc/JULJ.J1.21 #
# $Z set _____animation=$xiac/JULJ.J1.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z $DELETE $xTV/COMPOSANTE_J #
# #
# $Z set NPrEmIeRe=`$xci/nombres$X p=$Premiere d=$Premiere A="$K_VIDE"` #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xiirc/JULJ.J1.1.$NPrEmIeRe%s \ #
# $Z R=$xiirc/JULJ.J1.1%s \ #
# $Z $formatI #
# #
# $Z @ PrEmIeRe = $Premiere + 1 #
# $Z @ DeRnIeRe = $Derniere #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $PrEmIeRe $DeRnIeRe \ #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xiirc/JULJ.J1.1%%s \ #
# $Z M=$xiirc/JULJ.J1.1.%04d%%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xiirc/JULJ.J1.1%%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/JULJ.J1.1 \ #
# $Z R=$xiirc/JULJ.J1.2 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_J1: #
# #
# #
# Cette animation propose une rotation autour de l'axe 'OY' de 'v $xiirc/JULJ.E2.2'. #
v $xiirc/JULJ.K3.1
v $xiirc/JULJ.K3.2
v $xiirc/JULJ.K3.21
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JULJ_K3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.K3 #
# #
# $Z $DELETE $xTV/param.K3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.K3 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=16 \ #
# $Z r=0.0 \ #
# $Z i=1.0 \ #
# $Z COMPOSANTE_J=$xTV/param.K3 \ #
# $Z K=0 \ #
# $Z ppA=1 ppC=0.2 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.K3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.K3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_K3: #
# #
# #
# Version mixte "Julia-Mandelbrot" de 'v $xiirc/JULJ.G3.1' et de 'v $xiirc/JULJ.G3.2'. #
v $xiirc/JULJ.L2.1
v $xiirc/JULJ.L2.2
v $xiirc/JULJ.L2.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULJ_L2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.L2 #
# #
# $Z $DELETE $xTV/param.L2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-0.7398 vA=+0.7398 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.L2 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/param.L2 \ #
# $Z K=0 \ #
# $Z ppA=1 ppC=0.1 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.L2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.L2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_L2: #
# #
# #
# Version mixte "Julia-Mandelbrot" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'. #
v $xiirc/JULJ.M1.3
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULJ_M1_3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z execRVB $xci/minmax$X \ #
# $Z A1=$xiirc/JULJ.K3.1%s \ #
# $Z A2=$xiirc/JULJ.L2.1%s \ #
# $Z R=$xTV/JULJ.M1.3%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xTV/JULJ.M1.3%s \ #
# $Z iterations=3 \ #
# $Z R=$xiirc/JULJ.M1.3%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_M1_3: #
# #
v $xiirc/JULJ.N2.0 p=$xiP/gris.01
v $xiirc/JULJ.N2.1
v $xiirc/JULJ.N2.2
v $xiirc/JULJ.N2.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_N2: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.N2 #
# #
# $Z SET _____OJ=-1.09 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.N2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_N2: #
# #
# #
# Identique a 'v $xiirc/JULJ.82.2' mais avec 1024 couches de J E [-1,0]. #
# #
# On notera que l'ombrage demande 04:31 et l'accumulation 05:14... #
v $xiirc/JULJ.N3.0 p=$xiP/gris.01
v $xiirc/JULJ.N3.1
v $xiirc/JULJ.N3.2
v $xiirc/JULJ.N3.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_N3: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.N3 #
# #
# $Z SET _____OJ=-1.02 #
# $Z SET _____EJ=-0.65 #
# $Z SET _____xbg=+0.18 #
# $Z SET _____ybg=-0.28 #
# $Z SET _____xhd=+0.42 #
# $Z SET _____yhd=-0.04 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.N3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_N3: #
# #
# #
# Il s'agit d'un zoom dans 'v $xiirc/JULJ.N2.2'. #
# #
# On notera que l'ombrage demande 10:26 et l'accumulation 06:29... #
v $xiirc/JULJ.N6.0 p=$xiP/gris.01
v $xiirc/JULJ.N6.1
v $xiirc/JULJ.N6.2
v $xiirc/JULJ.N6.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_N6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.N6 #
# #
# $Z SET _____OJ=-1.09 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.N6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_N6: #
# #
# #
# Identique a 'v $xiirc/JULJ.N2.2' mais au format 'Pqu' au lieu de 'Squ'... #
# #
# On notera que l'ombrage demande 05:41 et l'accumulation 04:12... #
v $xiirc/JULJ.P2.0 p=$xiP/gris.01
v $xiirc/JULJ.P2.1
v $xiirc/JULJ.P2.2
v $xiirc/JULJ.P2.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_P2: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.P2 #
# #
# $Z SET _____OJ=-1.07 #
# $Z SET _____Puissance=9 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.P2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_P2: #
# #
# #
# Identique a 'v $xiirc/JULJ.N2.2' mais avec un exposant de 9 (a la place de 8)... #
# #
# On notera que l'ombrage demande 01:56 et l'accumulation 01:13... #
v $xiirc/JULJ.P6.0 p=$xiP/gris.01
v $xiirc/JULJ.P6.1
v $xiirc/JULJ.P6.2
v $xiirc/JULJ.P6.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_P6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.P6 #
# #
# $Z SET _____OJ=-1.07 #
# $Z SET _____Puissance=9 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.P6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_P6: #
# #
# #
# Identique a 'v $xiirc/JULJ.P2.2' mais au format 'Pqu' au lieu de 'Squ'... #
# #
# On notera que l'ombrage demande 02:48 et l'accumulation 01:52... #
v $xiirc/JULJ.Q2.0 p=$xiP/gris.01
v $xiirc/JULJ.Q2.1
v $xiirc/JULJ.Q2.2
v $xiirc/JULJ.Q2.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Q2: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Q2 #
# #
# $Z SET _____OJ=-1.17 #
# $Z SET _____Puissance=3 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Q2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Q2: #
# #
# #
# Identique a 'v $xiirc/JULJ.N2.2' mais avec un exposant de 3 (a la place de 8)... #
# #
# On notera que l'ombrage demande 04:41 et l'accumulation 02:50... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.Q3.0 p=$xiP/gris.01
v $xiirc/JULJ.Q3.1
v $xiirc/JULJ.Q3.2
v $xiirc/JULJ.Q3.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_Q3: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Q3 #
# #
# $Z SET _____OJ=-1.181 #
# $Z SET _____Puissance=4 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Q3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Q3: #
# #
# #
# Identique a 'v $xiirc/JULJ.N2.2' mais avec un exposant de 4 (a la place de 8)... #
# #
# On notera que l'ombrage demande 01:46 et l'accumulation 01:07... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.Q6.0 p=$xiP/gris.01
v $xiirc/JULJ.Q6.1
v $xiirc/JULJ.Q6.2
v $xiirc/JULJ.Q6.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Q6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Q6 #
# #
# $Z SET _____OJ=-1.17 #
# $Z SET _____Puissance=3 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Q6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Q6: #
# #
# #
# Identique a 'v $xiirc/JULJ.Q2.2' mais au format 'Pqu' au lieu de 'Squ'... #
# #
# On notera que l'ombrage demande 05:06 et l'accumulation 02:56... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.Q7.0 p=$xiP/gris.01
v $xiirc/JULJ.Q7.1
v $xiirc/JULJ.Q7.2
v $xiirc/JULJ.Q7.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_Q7: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Q7 #
# #
# $Z SET _____OJ=-1.181 #
# $Z SET _____Puissance=4 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Q7 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Q7: #
# #
# #
# Identique a 'v $xiirc/JULJ.Q3.2' mais au format 'Pqu' au lieu de 'Squ'... #
# #
# On notera que l'ombrage demande 02:34 et l'accumulation 02:00... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.Q7.1.1 p=$xiP/gris.01
v $xiirc/JULJ.Q7.1.1 p=$xiP/trou_noir.B4
v $xiirc/JULJ.Q7.1.1 p=$xiP/cotes.11
v $xiirc/JULJ.Q7.1.1 p=$xiP/vert_orange
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULJ_Q7_1_1: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesR=$xiirc/JULJ.Q7 #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$_____imagesR.1%s \ #
# $Z cache=VRAI \ #
# $Z iterations=8 \ #
# $Z anti_aliaser=VRAI \ #
# $Z changement_echelle=VRAI \ #
# $Z a=0.9 b=0 \ #
# $Z R=$xTV/JULJ.Q7.1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/JULJ.Q7.1.1 \ #
# $Z R=$_____imagesR.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_Q7_1_1: #
# #
v $xiirc/JULJ.R3.0 p=$xiP/gris.01
v $xiirc/JULJ.R3.1
v $xiirc/JULJ.R3.2
v $xiirc/JULJ.R3.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_R3: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.R3 #
# #
# $Z SET _____OJ=-1.085 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.R3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_R3: #
# #
# #
# Identique a 'v $xiirc/JULJ.Q3.2' mais avec une rotation par rapport a l'axe 'OX'... #
# #
# On notera que l'ombrage demande 02:35 et l'accumulation 02:04... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.R4.0 p=$xiP/gris.01
v $xiirc/JULJ.R4.1
v $xiirc/JULJ.R4.2
v $xiirc/JULJ.R4.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_R4: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.R4 #
# #
# $Z SET _____OJ=-1.085 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.R4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_R4: #
# #
# #
# Identique a 'v $xiirc/JULJ.R3.2' mais au format 'Pqu' au lieu de 'Squ'... #
# #
# On notera que l'ombrage demande 03:35 et l'accumulation 02:14... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.R5.0 p=$xiP/gris.01
v $xiirc/JULJ.R5.1
v $xiirc/JULJ.R5.2
v $xiirc/JULJ.R5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_R5: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.R5 #
# #
# $Z SET _____OJ=-0.939 #
# $Z SET _____EJ=0 #
# $Z SET _____Puissance=4 #
# $Z SET _____xbg=0 #
# $Z SET _____ybg=-0.5 #
# $Z SET _____xhd=+0.5 #
# $Z SET _____yhd=0 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.R5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_JULJ_R5: #
# #
# #
# Presente un zoom sur un detail de 'v $xiirc/JULJ.R4.2'... #
# #
# On notera que l'ombrage demande 18:22 et l'accumulation 04:16... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('RBV') #
# est la permutation 'RBV' (c'est-a-dire elle-meme...). #
# #
# #
# Resultats d'experiences de chronometrage de la generation precedente en fonction de la #
# definition des albums utilises : #
# #
# Suq cDerniere=32 #
# OMBRAGE : 3.84 #
# ACCUMULATION : 2.81 #
# #
# Sud cDerniere=32 #
# OMBRAGE : 10.06 #
# ACCUMULATION : 8.29 #
# #
# Std cDerniere=32 #
# OMBRAGE : 37.19 #
# ACCUMULATION : 30.37 #
# #
# #
# Suq cDerniere=64 #
# OMBRAGE : 5.36 #
# ACCUMULATION : 4.66 #
# #
# Sud cDerniere=64 #
# OMBRAGE : 18.16 #
# ACCUMULATION : 15.65 #
# #
# Std cDerniere=64 #
# OMBRAGE : 78.82 #
# ACCUMULATION : 58.54 #
# #
# ce qui semble montrer une relative proportionnalite par rapport au nombre total de points. #
# On notera que c'est le parametre 'v $xiirc/.MANE.41.3.$U _____FactIncrLambda' qui est le #
# plus important en ce qui concerne la duree de l'ombrage (on peut quasiment la diviser #
# par deux en doublant ce parametre...). #
v $xiirc/JULJ.R5.21.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULJ_R5_21_1: #
# #
# $Z Pqu #
# #
# $Z set _____imagesR=$xiirc/JULJ.R5 #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULJ_R5_21_1: #
# #
v $xiirc/JULJ.S3.1.0001
v $xiirc/JULJ.S3.1.0002
v $xiirc/JULJ.S3.1.0003
v $xiirc/JULJ.S3.1.0004
v $xiirc/JULJ.S3.1.0005
v $xiirc/JULJ.S3.1.0006
v $xiirc/JULJ.S3.1.0007
v $xiirc/JULJ.S3.1.0008
v $xiirc/JULJ.S3.1.0009
v $xiirc/JULJ.S3.1.0010
v $xiirc/JULJ.S3.1.0011
v $xiirc/JULJ.S3.1.0012
v $xiirc/JULJ.S3.1.0013
v $xiirc/JULJ.S3.1.0014
v $xiirc/JULJ.S3.1.0015
v $xiirc/JULJ.S3.1.0016
Pal ; anim3 A=$xiirc/JULJ.S3.1. premiere=1 derniere=16
v $xiirc/JULJ.S3.2.0001
v $xiirc/JULJ.S3.2.0002
v $xiirc/JULJ.S3.2.0003
v $xiirc/JULJ.S3.2.0004
v $xiirc/JULJ.S3.2.0005
v $xiirc/JULJ.S3.2.0006
v $xiirc/JULJ.S3.2.0007
v $xiirc/JULJ.S3.2.0008
v $xiirc/JULJ.S3.2.0009
v $xiirc/JULJ.S3.2.0010
v $xiirc/JULJ.S3.2.0011
v $xiirc/JULJ.S3.2.0012
v $xiirc/JULJ.S3.2.0013
v $xiirc/JULJ.S3.2.0014
v $xiirc/JULJ.S3.2.0015
v $xiirc/JULJ.S3.2.0016
Pal ; anim3 A=$xiirc/JULJ.S3.2. premiere=1 derniere=16
v $xiirc/JULJ.S3.21.0001
v $xiirc/JULJ.S3.21.0002
v $xiirc/JULJ.S3.21.0003
v $xiirc/JULJ.S3.21.0004
v $xiirc/JULJ.S3.21.0005
v $xiirc/JULJ.S3.21.0006
v $xiirc/JULJ.S3.21.0007
v $xiirc/JULJ.S3.21.0008
v $xiirc/JULJ.S3.21.0009
v $xiirc/JULJ.S3.21.0010
v $xiirc/JULJ.S3.21.0011
v $xiirc/JULJ.S3.21.0012
v $xiirc/JULJ.S3.21.0013
v $xiirc/JULJ.S3.21.0014
v $xiirc/JULJ.S3.21.0015
v $xiirc/JULJ.S3.21.0016
Pal ; anim3 A=$xiirc/JULJ.S3.21. premiere=1 derniere=16
v $xiac/JULJ.S3.1$R16
v $xiac/JULJ.S3.2$R16
v $xiac/JULJ.S3.21$R16
# Correspond aux images des sequences : #
# #
# 'v $xiac/JULJ.S3.1$R16' #
# 'v $xiac/JULJ.S3.2$R16' #
# 'v $xiac/JULJ.S3.21$R16' #
# #
v $xiirc/JULJ.T6.0 p=$xiP/gris.01
v $xiirc/JULJ.T6.1
v $xiirc/JULJ.T6.2
v $xiirc/JULJ.T6.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_T6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.T6 #
# #
# $Z SET _____OJ=-1.508 #
# $Z SET _____Puissance=2 #
# $Z SET _____xbg=-1.12 #
# $Z SET _____ybg=-1.12 #
# $Z SET _____xhd=+1.12 #
# $Z SET _____yhd=+1.12 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.T6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_T6: #
# #
# #
# Identique a 'v $xiirc/JULJ.Q6.2' mais de degre 2 (au lieu de 3)... #
# #
# On notera que l'ombrage demande 02:38 et l'accumulation 02:41... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.U4.0 p=$xiP/gris.01
v $xiirc/JULJ.U4.1
v $xiirc/JULJ.U4.2
v $xiirc/JULJ.U4.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_U4: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.U4 #
# #
# $Z SET _____OJ=-1.133 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=2 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.U4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_U4: #
# #
# #
# Identique a 'v $xiirc/JULJ.R4.2' mais avec un exposant de 4 pour le 'Rho' et de 6 #
# pour les 'Angles'. #
# #
# On notera que l'ombrage demande 04:08 et l'accumulation 03:14... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.U5.0 p=$xiP/gris.01
v $xiirc/JULJ.U5.1
v $xiirc/JULJ.U5.2
v $xiirc/JULJ.U5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_U5: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.U5 #
# #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.U5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_U5: #
# #
# #
# Identique a 'v $xiirc/JULJ.R4.2' mais avec un exposant de 4 pour le 'Rho' et de 4 a 10 #
# pour les 'Angles'. #
# #
# On notera que l'ombrage demande 04:12 et l'accumulation 03:01... #
# #
# On notera que la permutation inverse de la permutation des composantes utilisee ('VBR') #
# est la permutation 'BRV'. #
v $xiirc/JULJ.V5.1
v $xiirc/JULJ.V5.2
v $xiirc/JULJ.V5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_V5: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/JULJ.V5.2 #
# $Z setenv _____ImageT1 $xTV/JULJ.V5.1 #
# #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.JULJ.V5.1._____U) #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.V5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_JULJ_V5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) avec le produit theorique dans les #
# octonions de l'ensemble de Julia 'v $xiirc/JULJ.U5.2'... #
# #
# On notera que l'ombrage demande 07:66 et l'accumulation 02:31... #
v $xiirc/JULJ.V6.1
v $xiirc/JULJ.V6.2
v $xiirc/JULJ.V6.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_V6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/JULJ.V6.2 #
# $Z setenv _____ImageT1 $xTV/JULJ.V6.1 #
# #
# $Z SET _____Hpnt=VRAI #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.JULJ.V5.1._____U) #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.V6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_V6: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) avec le produit non theorique dans les #
# octonions de l'ensemble de Julia 'v $xiirc/JULJ.U5.2'... #
# #
# On notera que l'ombrage demande 08:00 et l'accumulation 02:33... #
v $xiirc/JULJ.W5.1
v $xiirc/JULJ.W5.2
v $xiirc/JULJ.W5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_W5: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/JULJ.W5.2 #
# $Z setenv _____ImageT1 $xTV/JULJ.W5.1 #
# #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____xbg=-0.80 #
# $Z SET _____ybg=-0.80 #
# $Z SET _____xhd=+0.80 #
# $Z SET _____yhd=+0.80 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $Z $xci/trefle$X \ #
# $Z standard=FAUX \ #
# $Z Cc=+1.0 \ #
# $Z Ct=3 \ #
# $Z Ex=0.8 Ey=0.8 \ #
# $Z carre_X_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z carre_Y_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_X \ #
# $Z $formatI #
# #
# $Z $xci/trefle$X \ #
# $Z standard=FAUX \ #
# $Z Cc=-1.0 \ #
# $Z Ct=3 \ #
# $Z Ex=0.8 Ey=0.8 \ #
# $Z carre_X_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z carre_Y_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_Y \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.JULJ.W5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.W5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_W5: #
# #
# #
# Donne une deformation "trefle" de l'ensemble de Julia 'v $xiirc/JULJ.U5.2'... #
# #
# Les morceaux d'arcs que l'on peut observer a differents endroits des images viennent #
# certainement du fait que le chamo de deformation n'est pas periodique... #
# #
# On notera que l'ombrage demande 09:14 et l'accumulation 02:41... #
v $xiirc/JULJ.X5.1
v $xiirc/JULJ.X5.2
v $xiirc/JULJ.X5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_X5: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/JULJ.X5.2 #
# $Z setenv _____ImageT1 $xTV/JULJ.X5.1 #
# #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____xbg=-0.80 #
# $Z SET _____ybg=-0.80 #
# $Z SET _____xhd=+0.80 #
# $Z SET _____yhd=+0.80 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $Z SET Premiere=$cPremiere #
# $Z SET Derniere=$cDerniere #
# #
# $Z set _____ArgSurface_1="PARAMETRE_M=4" #
# $Z set _____Surface_1="bKlein.61" #
# $Z set _____ArgSurface_2="$K_VIDE" #
# $Z set _____Surface_2="sphere.11" #
# #
# $Z setenv _____imagesS $xTV/INTERPOLATION.1 #
# #
# $m4 _____include(_____xiirs/.PROJ.B1.1._____U) #
# #
# $m4 _____include(_____xiirc/.JULJ.X5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.X5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_JULJ_X5: #
# #
# #
# On notera que l'ombrage demande 09:18 et l'accumulation 02:45... #
v $xiirc/JULJ.X6.1
v $xiirc/JULJ.X6.2
v $xiirc/JULJ.X6.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_JULJ_X6: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/JULJ.X6.2 #
# $Z setenv _____ImageT1 $xTV/JULJ.X6.1 #
# #
# $Z SET _____OJ=-1.070 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____xbg=-0.80 #
# $Z SET _____ybg=-0.80 #
# $Z SET _____xhd=+0.80 #
# $Z SET _____yhd=+0.80 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=0 #
# $Z SET _____PuissanceA1=0 #
# $Z SET _____PuissanceA2=1 #
# $Z SET _____PuissanceA3=2 #
# $Z SET _____PuissanceA4=3 #
# $Z SET _____PuissanceA5=4 #
# $Z SET _____PuissanceA6=5 #
# $Z SET _____PuissanceA7=6 #
# $Z SET _____JRotationX=+0.7 #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $Z SET Premiere=$cPremiere #
# $Z SET Derniere=$cDerniere #
# #
# $Z set _____ArgSurface_1="$K_VIDE" #
# $Z set _____Surface_1="sphere.11" #
# $Z set _____ArgSurface_2="PARAMETRE_M=4" #
# $Z set _____Surface_2="bKlein.61" #
# #
# $Z setenv _____imagesS $xTV/INTERPOLATION.1 #
# #
# $m4 _____include(_____xiirs/.PROJ.B1.1._____U) #
# #
# $m4 _____include(_____xiirc/.JULJ.X5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.X6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_JULJ_X6: #
# #
# #
# On notera que l'ombrage demande 10:09 et l'accumulation 02:59... #
v $xiirc/JULJ.Y2.1
v $xiirc/JULJ.Y2.2
v $xiirc/JULJ.Y2.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Y2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/JULJ.Y2 #
# #
# $Z $DELETE $xTV/param.Y2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.047 vA=+1.047 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.Y2 #
# #
# $Z $xrc/julia.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z exposant=8 \ #
# $Z r=-0.5815147625160462 \ #
# $Z i=+0.6358885017421603 \ #
# $Z COMPOSANTE_J=$xTV/param.Y2 \ #
# $Z K=0 \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.Y2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/JULJ.Y2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULJ_Y2: #
# #
# #
# Version de 'v $xiirc/JULJ.H2.2' avec un exposant egal a 8 (au lieu de 2)... #
v $xiirc/JULJ.Z4.0 p=$xiP/gris.01
v $xiirc/JULJ.Z4.1
v $xiirc/JULJ.Z4.2
v $xiirc/JULJ.Z4.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Z4: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Z4 #
# #
# $Z SET _____OJ=-1.01 #
# $Z SET _____EJ=+1.03 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arie=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arieHHC=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_ADD2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMAX2_ADD2=0.001" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMUL2_MUL2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_MUL2=0.001" #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Z4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Z4: #
# #
# #
# Identique a 'v $xiirc/JULJ.R4.2' mais avec une arithmetique etendue... #
v $xiirc/JULJ.Z5.0 p=$xiP/gris.01
v $xiirc/JULJ.Z5.1
v $xiirc/JULJ.Z5.2
v $xiirc/JULJ.Z5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Z5: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Z5 #
# #
# $Z SET _____OJ=-1.01 #
# $Z SET _____EJ=+1.03 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arie=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arieHHC=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_ADD2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMAX2_ADD2=0.0002" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMUL2_MUL2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_MUL2=0.0002" #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Z5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Z5: #
# #
# #
# Identique a 'v $xiirc/JULJ.Z4.2' mais avec une arithmetique etendue moins "violente"... #
v $xiirc/JULJ.Z6.0 p=$xiP/gris.01
v $xiirc/JULJ.Z6.1
v $xiirc/JULJ.Z6.2
v $xiirc/JULJ.Z6.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Z6: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Z6 #
# #
# $Z SET _____OJ=-1.01 #
# $Z SET _____EJ=+1.03 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arie=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arieHHC=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_ADD2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMAX2_ADD2=0.0004" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMUL2_MUL2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_MUL2=0.0004" #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Z6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Z6: #
# #
# #
# Identique a 'v $xiirc/JULJ.Z4.2' mais avec une arithmetique etendue moins "violente"... #
v $xiirc/JULJ.Z7.0 p=$xiP/gris.01
v $xiirc/JULJ.Z7.1
v $xiirc/JULJ.Z7.2
v $xiirc/JULJ.Z7.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Z7: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Z7 #
# #
# $Z SET _____OJ=-1.01 #
# $Z SET _____EJ=+1.03 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arie=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arieHHC=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_ADD2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMAX2_ADD2=0.0006" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMUL2_MUL2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_MUL2=0.0006" #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Z7 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Z7: #
# #
# #
# Identique a 'v $xiirc/JULJ.Z4.2' mais avec une arithmetique etendue moins "violente"... #
v $xiirc/JULJ.Z8.0 p=$xiP/gris.01
v $xiirc/JULJ.Z8.1
v $xiirc/JULJ.Z8.2
v $xiirc/JULJ.Z8.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULJ_Z8: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULJ.Z8 #
# #
# $Z SET _____OJ=-1.01 #
# $Z SET _____EJ=+1.03 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arie=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" arieHHC=VRAI" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_ADD2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMAX2_ADD2=0.0008" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxMUL2_MUL2=1" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" pxADD2_MUL2=0.0008" #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULJ.Z8 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____imagesR.1 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____imagesR.2 \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# :Fin_listG_JULJ_Z8: #
# #
# #
# Identique a 'v $xiirc/JULJ.Z4.2' mais avec une arithmetique etendue moins "violente"... #
v $xiirc/JULK.11 p=$xiP/fractal.91
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_11: #
# #
# $Z Pdu #
# #
# $Z $xrc/julia.01$X \ #
# $Z images=1 \ #
# $Z xbg=-1.2 ybg=-1.2 xhd=1.2 yhd=1.2 \ #
# $Z r=-0.13 i=+0.77 \ #
# $Z arguments=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$xiirc/JULK.11 \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_11: #
# #
# #
# Cette image montre un lapin de Douady. #
v $xiirc/JULK.21.1
v $xiirc/JULK.21.2
v $xiirc/JULK.21.21
v $xiirc/JULK.21.1$HauteDef
v $xiirc/JULK.21.2$HauteDef
v $xiirc/JULK.21.21$HauteDef
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_21: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.21 #
# #
# $Z SET _____OJ=+1.42 #
# $Z SET _____EJ=-0.42 #
# $Z SET _____xbg=-1.30 #
# $Z SET _____ybg=-1.30 #
# $Z SET _____xhd=+1.30 #
# $Z SET _____yhd=+1.30 #
# $Z SET _____JRotationY=+2.5132741228718 #
# $m4 _____include(_____xiirc/.JULK.21.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.21 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_21: #
# #
# #
# Identique a 'v $xiirc/JULJ.61.2.0007' mais avec un bien meilleure resolution... #
# #
# Le 20171014082623, ces images ont ete recalculees au format 'Shu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:03:10 #
# #
# $xci/accumule.42$X : 02:28:37 #
# #
v $xiirc/JULK.21.2.1 p=$xiP/gris.42
v $xiirc/JULK.21.2$HauteDef.1 p=$xiP/gris.42
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_21_1: #
# #
# $Z Squ #
# #
# $Z set _____imagesA=$xiirc/JULK.21.2 #
# $Z set _____imagesR=$_____imagesA.1 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____imagesA \ #
# $Z R=$_____imagesR \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_21_1: #
# #
# #
# Le 20171014082623, ces images ont ete recalculees au format 'Shu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
v $xiirc/JULK.31.1
v $xiirc/JULK.31.2
v $xiirc/JULK.31.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_31: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.31 #
# $Z setenv _____ImageT2 $xTV/JULK.32 #
# #
# $Z SET _____OJ=+1.42 #
# $Z SET _____EJ=-0.42 #
# $Z SET _____xbg=-1.30 #
# $Z SET _____ybg=-1.30 #
# $Z SET _____xhd=+1.30 #
# $Z SET _____yhd=+1.30 #
# $Z SET _____JRotationY=+2.5132741228718 #
# $m4 _____include(_____xiirc/.JULK.21.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT1.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT2.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT2.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT1.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.31 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_31: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble #
# 'v $xiirc/JULK.21.21'. #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:10:39 #
# #
# $xci/accumule.42$X : 00:53:20 #
# #
v $xiirc/JULK.32.1
v $xiirc/JULK.32.2
v $xiirc/JULK.32.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULK_32: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.31 #
# $Z setenv _____ImageT2 $xTV/JULK.32 #
# #
# $Z SET _____OJ=+1.42 #
# $Z SET _____EJ=-0.42 #
# $Z SET _____xbg=-0.70 #
# $Z SET _____ybg=-1.20 #
# $Z SET _____xhd=+1.20 #
# $Z SET _____yhd=+1.20 #
# $Z SET _____JRotationY=+2.5132741228718 #
# $m4 _____include(_____xiirc/.JULK.21.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT1.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT2.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT2.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT1.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.32 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_32: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble #
# 'v $xiirc/JULK.21.21'. #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:01:16 #
# #
# $xci/accumule.42$X : 01:15:47 #
# #
v $xiirc/JULK.32.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_32_1_1: #
# #
# $Z Squ #
# #
# $Z set _____imagesA=$xiirc/JULK.32.1 #
# $Z set _____imagesR=$_____imagesA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA%s \ #
# $Z iterations=2 \ #
# $Z anti_aliaser=VRAI \ #
# $Z cache=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$_____imagesR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_JULK_32_1_1: #
# #
v $xiirc/JULK.32.1.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_32_1_2: #
# #
# $Z Squ #
# #
# $Z set _____imagesA=$xiirc/JULK.32.1 #
# $Z set _____imagesR=$_____imagesA.2 #
# #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$_____imagesA%s \ #
# $Z iterations=4 \ #
# $Z R=$_____imagesR%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_32_1_2: #
# #
v $xiirc/JULK.32.1.3$m
v $xiirc/JULK.32.1.3$M
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_32_1_3: #
# #
# $Z Squ #
# #
# $Z set _____imagesA=$xiirc/JULK.32 #
# $Z set _____imagesR=$_____imagesA.1.3 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____imagesA.1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z passes=400 \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z set TeXtUrE=$_____imagesA.2 #
# #
# $Z set PaRaMeTrEs1="echelle=0.2" #
# $Z set PaRaMeTrEs2="Ty=0.95 perspective=1.2" #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$TeXtUrE%s \ #
# $Z avion=VRAI \ #
# $Z $PaRaMeTrEs1 \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$BLANC \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEs1 \ #
# $Z $PaRaMeTrEs2 \ #
# $Z Z-Buffer=VRAI \ #
# $Z R=$xTV/MONTAGNE \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/multi_02.01$X \ #
# $Z exponentiation_image=VRAI \ #
# $Z exposant=4 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$TeXtUrE%s \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEs1 \ #
# $Z $PaRaMeTrEs2 \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/brume.11$X \ #
# $Z A=$_____imagesR$M%s \ #
# $Z B=$xTV/BRUME \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_32_1_3: #
# #
v $xiirc/JULK.42.1
v $xiirc/JULK.42.2
v $xiirc/JULK.42.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_42: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.41 #
# $Z setenv _____ImageT2 $xTV/JULK.42 #
# #
# $Z SET _____OJ=+1.42 #
# $Z SET _____EJ=-0.42 #
# $Z SET _____xbg=-1.10 #
# $Z SET _____ybg=-1.10 #
# $Z SET _____xhd=+1.10 #
# $Z SET _____yhd=+1.10 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" arithmetique_etendue_HC=VRAI" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxMUL2_ADD2=0.0001" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxMAXMIN_ADD2=0.0003" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxMOYZSI_ADD2=0.0003" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxADD2_MUL2=0.0001" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxMINMAX_MUL2=0.0003" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pxMOYZSI_MUL2=0.0003" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $Z SET _____JRotationY=+2.5132741228718 #
# $m4 _____include(_____xiirc/.JULK.21.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.42 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_42: #
# #
# #
# Donne une nouvelle version de 'v $xiirc/JULK.21.21'. #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:33:52 #
# #
# $xci/accumule.42$X : 01:03:08 #
# #
v $xiirc/JULK.51.0089$DROITE p=$xiP/fractal.11
v $xiirc/JULK.51.0089$DROITE p=$xiP/fractal.91
v $xiirc/JULK.51.0091$DROITE p=$xiP/fractal.11
v $xiirc/JULK.51.0091$DROITE p=$xiP/fractal.91
v $xiirc/JULK.51.0100$DROITE p=$xiP/fractal.11
v $xiirc/JULK.51.0100$DROITE p=$xiP/fractal.91
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULK.51$R16$DROITE' #
# #
v $xiirc/JULK.61.0079$DROITE p=$xiP/fractal.11
v $xiirc/JULK.61.0079$DROITE p=$xiP/fractal.91
v $xiirc/JULK.61.0080$DROITE p=$xiP/fractal.11
v $xiirc/JULK.61.0080$DROITE p=$xiP/fractal.91
v $xiirc/JULK.61.0081$DROITE p=$xiP/fractal.11
v $xiirc/JULK.61.0081$DROITE p=$xiP/fractal.91
# Correspond aux images de la sequence : #
# #
# 'v $xiac/JULK.61$R16$DROITE' #
# #
v $xiirc/JULK.72.1
v $xiirc/JULK.72.2
v $xiirc/JULK.72.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_72: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.72 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.72 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_72: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:20:19 #
# #
# $xci/accumule.42$X : 00:28:19 #
# #
v $xiirc/JULK.73.1
v $xiirc/JULK.73.2
v $xiirc/JULK.73.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_73: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.73 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.1" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.73 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_73: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:39:47 #
# #
# $xci/accumule.42$X : 00:38:49 #
# #
v $xiirc/JULK.74.1
v $xiirc/JULK.74.2
v $xiirc/JULK.74.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_74: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.74 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.74 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_74: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:47:52 #
# #
# $xci/accumule.42$X : 00:37:19 #
# #
v $xiirc/JULK.75.1
v $xiirc/JULK.75.2
v $xiirc/JULK.75.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_75: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.75 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.3" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.3" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.75 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_75: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:01:09 #
# #
# $xci/accumule.42$X : 00:50:19 #
# #
v $xiirc/JULK.76.1
v $xiirc/JULK.76.2
v $xiirc/JULK.76.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_76: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.76 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.4" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.4" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.76 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_76: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:06:47 #
# #
# $xci/accumule.42$X : 00:52:54 #
# #
v $xiirc/JULK.77.1
v $xiirc/JULK.77.2
v $xiirc/JULK.77.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_77: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.77 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.5" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.5" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.77 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_77: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:54:30 #
# #
# $xci/accumule.42$X : 01:03:17 #
# #
v $xiirc/JULK.82.1
v $xiirc/JULK.82.2
v $xiirc/JULK.82.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_82: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.82 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.82 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_82: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:11:55 #
# #
# $xci/accumule.42$X : 01:25:49 #
# #
v $xiirc/JULK.83.1
v $xiirc/JULK.83.2
v $xiirc/JULK.83.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_83: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.83 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0.1" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.83 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_83: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 03:00:47 #
# #
# $xci/accumule.42$X : 01:47:09 #
# #
v $xiirc/JULK.84.1
v $xiirc/JULK.84.2
v $xiirc/JULK.84.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_84: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.84 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.84 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_84: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:18:32 #
# #
# $xci/accumule.42$X : 01:23:26 #
# #
v $xiirc/JULK.85.1
v $xiirc/JULK.85.2
v $xiirc/JULK.85.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_85: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.85 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.3" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.3" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0.3" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0.3" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.85 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_85: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:56:34 #
# #
# $xci/accumule.42$X : 01:31:22 #
# #
v $xiirc/JULK.86.1
v $xiirc/JULK.86.2
v $xiirc/JULK.86.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_86: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.86 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.4" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.4" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0.4" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0.4" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.86 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_86: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:02:22 #
# #
# $xci/accumule.42$X : 00:57:27 #
# #
v $xiirc/JULK.86.1$M
v $xiirc/JULK.86.1$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_86_1_Mm: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesA=$xiirc/JULK.86.1 #
# $Z set _____imagesR=$_____imagesA #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA%s \ #
# $Z $formatI | \ #
# $Z $xci/jeu_vie.01$X \ #
# $Z iterations=3 \ #
# $Z R=$xTV/TAPISSERIE%s \ #
# $Z $formatI" #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/TAPISSERIE \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TAPISSERIE%s \ #
# $Z avion=FAUX \ #
# $Z Ty=0.90 \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TAPISSERIE%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI" #
# #
# :Fin_listG_JULK_86_1_Mm: #
# #
v $xiirc/JULK.87.1
v $xiirc/JULK.87.2
v $xiirc/JULK.87.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_87: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.87 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.5" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.5" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_R2xR1=0.5" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1=0.5" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.87 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_87: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:05:13 #
# #
# $xci/accumule.42$X : 00:46:22 #
# #
v $xiirc/JULK.91.1
v $xiirc/JULK.91.2
v $xiirc/JULK.91.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_91: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.91 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xI1xR1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_R2xI1xR1=0.2" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_I2xR2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pI_I2xR2xI1xR1=0.4" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" pR_I2xR2xI1xR1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.91 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_91: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:29:47 #
# #
# $xci/accumule.42$X : 00:26:30 #
# #
v $xiirc/JULK.92.1
v $xiirc/JULK.92.2
v $xiirc/JULK.92.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_92: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.92 #
# #
# $Z FilSTmpB FiLePara #
# #
# $Z unset UseAlternance #
# $Z (use $xrc/julia.41$X) | \ #
# $Z $GRE ' [ps][IR]_.* +0$' | \ #
# $Z $SE -e 's/^.* \([ps][IR]_[^ ][^ ]*\) .*$/\1/' \ #
# $Z >> $FiLePara #
# #
# $Z set SFiLePara=`$CA $FiLePara | $WCl` #
# #
# $Z FilSTmpB FiLeAlea #
# #
# $Z $xci/valeurs_alea$X \ #
# $Z premiere=1 derniere=$SFiLePara \ #
# $Z inferieur=-0.01 superieur=+0.01 \ #
# $Z >> $FiLeAlea #
# #
# $Z FilSTmpB FiLeCompl $Y #
# #
# $Z $CA $xcs/csh$Y \ #
# $Z >> $FiLeCompl #
# $Z $PAST $FiLePara $FiLeAlea | \ #
# $Z $AW ' { print $1 $2 } ' | \ #
# $Z $SE -e 's/^/setenv _____JuliaPara "$_____JuliaPara"" /' \ #
# $Z -e 's/$/"/' \ #
# $Z >> $FiLeCompl #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# #
# $Z source $FiLeCompl #
# #
# $Z FilSTmpE FiLeCompl #
# $Z FilSTmpE FiLeAlea #
# $Z FilSTmpE FiLePara #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.92 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_92: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:11:57 #
# #
# $xci/accumule.42$X : 00:20:38 #
# #
v $xiirc/JULK.93.1
v $xiirc/JULK.93.2
v $xiirc/JULK.93.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_93: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.93 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.93 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_93: #
# #
# #
# Version "correcte" de 'v $xiirc/JULJ.H2', d'ailleurs identique a 'v $xiirc/JULK.72.21'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:17:29 #
# #
# $xci/accumule.42$X : 00:21:39 #
# #
v $xiirc/JULK.94.1
v $xiirc/JULK.94.2
v $xiirc/JULK.94.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_94: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.94 #
# #
# $Z FilSTmpB FiLePara #
# #
# $Z unset UseAlternance #
# $Z (use $xrc/julia.41$X) | \ #
# $Z $GRE ' [ps][IR]_.* +0$' | \ #
# $Z $SE -e 's/^.* \([ps][IR]_[^ ][^ ]*\) .*$/\1/' \ #
# $Z >> $FiLePara #
# #
# $Z set SFiLePara=`$CA $FiLePara | $WCl` #
# #
# $Z FilSTmpB FiLeAlea #
# #
# $Z $xci/valeurs_alea$X \ #
# $Z premiere=1 derniere=$SFiLePara \ #
# $Z inferieur=-0.02 superieur=+0.02 \ #
# $Z >> $FiLeAlea #
# #
# $Z FilSTmpB FiLeCompl $Y #
# #
# $Z $CA $xcs/csh$Y \ #
# $Z >> $FiLeCompl #
# $Z $PAST $FiLePara $FiLeAlea | \ #
# $Z $AW ' { print $1 $2 } ' | \ #
# $Z $SE -e 's/^/setenv _____JuliaPara "$_____JuliaPara"" /' \ #
# $Z -e 's/$/"/' \ #
# $Z >> $FiLeCompl #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# #
# $Z source $FiLeCompl #
# #
# $Z FilSTmpE FiLeCompl #
# $Z FilSTmpE FiLeAlea #
# $Z FilSTmpE FiLePara #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.94 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_94: #
# #
# #
# Version "folklorique" de 'v $xiirc/JULJ.H2.1' et de 'v $xiirc/JULJ.H2.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:06:48 #
# #
# $xci/accumule.42$X : 00:20:44 #
# #
v $xiirc/JULK.A5.1
v $xiirc/JULK.A5.2
v $xiirc/JULK.A5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JULK_A5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.3" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.3" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.21._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.A5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_A5: #
# #
# #
# Cette image montre 'v $xiirc/JULK.75.21' transformee par '1/O'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:37:16 #
# #
# $xci/accumule.42$X : 00:35:09 #
# #
v $xiirc/JULK.A5.1.3$m
v $xiirc/JULK.A5.1.3$M
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_A5_1_3: #
# #
# $Z Pdu #
# #
# $Z set _____imagesA=$xiirc/JULK.A5 #
# $Z set _____imagesR=$_____imagesA.1.3 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____imagesA.1 \ #
# $Z $formatI | \ #
# $Z $xci/tapisserie$X \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z passes=20 \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z set TeXtUrE=$xTV/JULK.A5 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA.1%s \ #
# $Z $formatI | \ #
# $Z $xci/scale$X \ #
# $Z a=0.875 b=$GRIS_1 \ #
# $Z R=$TeXtUrE%s \ #
# $Z $formatI" #
# #
# $Z set PaRaMeTrEs1="echelle=0.2" #
# $Z set PaRaMeTrEs2="Ty=0.90 perspective=1.2" #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$TeXtUrE%s \ #
# $Z avion=VRAI \ #
# $Z $PaRaMeTrEs1 \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$BLANC \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEs1 \ #
# $Z $PaRaMeTrEs2 \ #
# $Z Z-Buffer=VRAI \ #
# $Z R=$xTV/MONTAGNE \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/multi_02.01$X \ #
# $Z exponentiation_image=VRAI \ #
# $Z exposant=4 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$TeXtUrE%s \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEs1 \ #
# $Z $PaRaMeTrEs2 \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/brume.11$X \ #
# $Z A=$_____imagesR$M%s \ #
# $Z B=$xTV/BRUME \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_A5_1_3: #
# #
v $xiirc/JULK.B3.1
v $xiirc/JULK.B3.2
v $xiirc/JULK.B3.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_B3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.B3 #
# #
# $Z setenv _____JuliaPara "$K_VIDE" #
# #
# $m4 _____include(_____xiirc/.JULK.B3.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.B3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_B3: #
# #
# #
# Version "semblable" a 'v $xiirc/JULK.93.21' mais calculee dans les octonions et non pas #
# dans les quaternions. J'ai verifie : ces deux images sont strictement identiques... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:25:10 #
# #
# $xci/accumule.42$X : 00:31:40 #
# #
v $xiirc/JULK.C3.1
v $xiirc/JULK.C3.2
v $xiirc/JULK.C3.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULK_C3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.C3 #
# #
# $Z SET _____xbg=+0.25 #
# $Z SET _____ybg=-0.55 #
# $Z SET _____xhd=+0.60 #
# $Z SET _____yhd=-0.20 #
# $Z SET _____OJ=-0.74 #
# $Z SET _____EJ=+0.74 #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.1" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.C3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_C3: #
# #
# #
# Zoom sur 'v $xiirc/JULK.73.21'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:10:15 #
# #
# $xci/accumule.42$X : 00:52:48 #
# #
v $xiirc/JULK.D3.1
v $xiirc/JULK.D3.2
v $xiirc/JULK.D3.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JULK_D3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/JULK.D3 #
# #
# $Z SET _____xbg=+0.25 #
# $Z SET _____ybg=-0.55 #
# $Z SET _____xhd=+0.60 #
# $Z SET _____yhd=-0.20 #
# $Z SET _____OJ=-0.74 #
# $Z SET _____EJ=+0.74 #
# $Z setenv _____JuliaPara "$K_VIDE" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sR_R2xR1=0.1" #
# $Z setenv _____JuliaPara "$_____JuliaPara"" sI_R2xI1=0.1" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.JULK.72.1._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.21._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/JULK.D3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JULK_D3: #
# #
# #
# Cette image montre 'v $xiirc/JULK.C3.21' transformee par '1/O'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:41:29 #
# #
# $xci/accumule.42$X : 00:56:46 #
# #
v $xiirc/JULK.D3.21.1$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JULK_D3_21_1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____imagesA=$xiirc/JULK.D3.21 #
# $Z set _____imagesR=$_____imagesA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA%s \ #
# $Z R=$xTV/TAPISSERIE%s \ #
# $Z $formatI" #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/TAPISSERIE \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TAPISSERIE%s \ #
# $Z avion=VRAI \ #
# $Z Sy=20 \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_JULK_D3_21_1: #
# #
v $xiirc/JULK.E4.1.0001
v $xiirc/JULK.E4.1.0002
v $xiirc/JULK.E4.1.0003
v $xiirc/JULK.E4.1.0004
v $xiirc/JULK.E4.1.0005
v $xiirc/JULK.E4.1.0006
v $xiirc/JULK.E4.1.0007
v $xiirc/JULK.E4.1.0008
v $xiirc/JULK.E4.1.0009
v $xiirc/JULK.E4.1.0010
v $xiirc/JULK.E4.1.0011
v $xiirc/JULK.E4.1.0012
v $xiirc/JULK.E4.1.0013
v $xiirc/JULK.E4.1.0014
v $xiirc/JULK.E4.1.0015
v $xiirc/JULK.E4.1.0016
v $xiirc/JULK.E4.1.0017
v $xiirc/JULK.E4.1.0018
v $xiirc/JULK.E4.1.0019
v $xiirc/JULK.E4.1.0020
v $xiirc/JULK.E4.1.0021
v $xiirc/JULK.E4.1.0022
v $xiirc/JULK.E4.1.0023
v $xiirc/JULK.E4.1.0024
v $xiirc/JULK.E4.1.0025
v $xiirc/JULK.E4.1.0026
v $xiirc/JULK.E4.1.0027
v $xiirc/JULK.E4.1.0028
v $xiirc/JULK.E4.1.0029
v $xiirc/JULK.E4.1.0030
v $xiirc/JULK.E4.1.0031
v $xiirc/JULK.E4.1.0032
v $xiirc/JULK.E4.1.0033
v $xiirc/JULK.E4.1.0034
v $xiirc/JULK.E4.1.0035
v $xiirc/JULK.E4.1.0036
v $xiirc/JULK.E4.1.0037
v $xiirc/JULK.E4.1.0038
v $xiirc/JULK.E4.1.0039
v $xiirc/JULK.E4.1.0040
v $xiirc/JULK.E4.1.0041
v $xiirc/JULK.E4.1.0042
v $xiirc/JULK.E4.1.0043
v $xiirc/JULK.E4.1.0044
v $xiirc/JULK.E4.1.0045
v $xiirc/JULK.E4.1.0046
v $xiirc/JULK.E4.1.0047
v $xiirc/JULK.E4.1.0048
v $xiirc/JULK.E4.1.0049
v $xiirc/JULK.E4.1.0050
v $xiirc/JULK.E4.1.0051
v $xiirc/JULK.E4.1.0052
v $xiirc/JULK.E4.1.0053
v $xiirc/JULK.E4.1.0054
v $xiirc/JULK.E4.1.0055
v $xiirc/JULK.E4.1.0056
v $xiirc/JULK.E4.1.0057
v $xiirc/JULK.E4.1.0058
v $xiirc/JULK.E4.1.0059
v $xiirc/JULK.E4.1.0060
v $xiirc/JULK.E4.1.0061
v $xiirc/JULK.E4.1.0062
v $xiirc/JULK.E4.1.0063
v $xiirc/JULK.E4.1.0064
v $xiirc/JULK.E4.1.0065
v $xiirc/JULK.E4.1.0066
v $xiirc/JULK.E4.1.0067
v $xiirc/JULK.E4.1.0068
v $xiirc/JULK.E4.1.0069
v $xiirc/JULK.E4.1.0070
v $xiirc/JULK.E4.1.0071
v $xiirc/JULK.E4.1.0072
v $xiirc/JULK.E4.1.0073
v $xiirc/JULK.E4.1.0074
v $xiirc/JULK.E4.1.0075
v $xiirc/JULK.E4.1.0076
v $xiirc/JULK.E4.1.0077
v $xiirc/JULK.E4.1.0078
v $xiirc/JULK.E4.1.0079
v $xiirc/JULK.E4.1.0080
v $xiirc/JULK.E4.1.0081
v $xiirc/JULK.E4.1.0082
v $xiirc/JULK.E4.1.0083
v $xiirc/JULK.E4.1.0084
v $xiirc/JULK.E4.1.0085
v $xiirc/JULK.E4.1.0086
v $xiirc/JULK.E4.1.0087
v $xiirc/JULK.E4.1.0088
v $xiirc/JULK.E4.1.0089
v $xiirc/JULK.E4.1.0090
v $xiirc/JULK.E4.1.0091
v $xiirc/JULK.E4.1.0092
v $xiirc/JULK.E4.1.0093
v $xiirc/JULK.E4.1.0094
v $xiirc/JULK.E4.1.0095
v $xiirc/JULK.E4.1.0096
v $xiirc/JULK.E4.1.0097
v $xiirc/JULK.E4.1.0098
v $xiirc/JULK.E4.1.0099
v $xiirc/JULK.E4.1.0100
v $xiirc/JULK.E4.1.0101
v $xiirc/JULK.E4.1.0102
v $xiirc/JULK.E4.1.0103
v $xiirc/JULK.E4.1.0104
v $xiirc/JULK.E4.1.0105
v $xiirc/JULK.E4.1.0106
v $xiirc/JULK.E4.1.0107
v $xiirc/JULK.E4.1.0108
v $xiirc/JULK.E4.1.0109
v $xiirc/JULK.E4.1.0110
v $xiirc/JULK.E4.1.0111
v $xiirc/JULK.E4.1.0112
v $xiirc/JULK.E4.1.0113
v $xiirc/JULK.E4.1.0114
v $xiirc/JULK.E4.1.0115
v $xiirc/JULK.E4.1.0116
v $xiirc/JULK.E4.1.0117
v $xiirc/JULK.E4.1.0118
v $xiirc/JULK.E4.1.0119
v $xiirc/JULK.E4.1.0120
v $xiirc/JULK.E4.1.0121
v $xiirc/JULK.E4.1.0122
v $xiirc/JULK.E4.1.0123
v $xiirc/JULK.E4.1.0124
v $xiirc/JULK.E4.1.0125
v $xiirc/JULK.E4.1.0126
v $xiirc/JULK.E4.1.0127
v $xiirc/JULK.E4.1.0128
Pdu ; anim3 A=$xiirc/JULK.E4.1. premiere=1 derniere=128
v $xiirc/JULK.E4.2.0001
v $xiirc/JULK.E4.2.0002
v $xiirc/JULK.E4.2.0003
v $xiirc/JULK.E4.2.0004
v $xiirc/JULK.E4.2.0005
v $xiirc/JULK.E4.2.0006
v $xiirc/JULK.E4.2.0007
v $xiirc/JULK.E4.2.0008
v $xiirc/JULK.E4.2.0009
v $xiirc/JULK.E4.2.0010
v $xiirc/JULK.E4.2.0011
v $xiirc/JULK.E4.2.0012
v $xiirc/JULK.E4.2.0013
v $xiirc/JULK.E4.2.0014
v $xiirc/JULK.E4.2.0015
v $xiirc/JULK.E4.2.0016
v $xiirc/JULK.E4.2.0017
v $xiirc/JULK.E4.2.0018
v $xiirc/JULK.E4.2.0019
v $xiirc/JULK.E4.2.0020
v $xiirc/JULK.E4.2.0021
v $xiirc/JULK.E4.2.0022
v $xiirc/JULK.E4.2.0023
v $xiirc/JULK.E4.2.0024
v $xiirc/JULK.E4.2.0025
v $xiirc/JULK.E4.2.0026
v $xiirc/JULK.E4.2.0027
v $xiirc/JULK.E4.2.0028
v $xiirc/JULK.E4.2.0029
v $xiirc/JULK.E4.2.0030
v $xiirc/JULK.E4.2.0031
v $xiirc/JULK.E4.2.0032
v $xiirc/JULK.E4.2.0033
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v $xiirc/JULK.E4.2.0035
v $xiirc/JULK.E4.2.0036
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v $xiirc/JULK.E4.2.0038
v $xiirc/JULK.E4.2.0039
v $xiirc/JULK.E4.2.0040
v $xiirc/JULK.E4.2.0041
v $xiirc/JULK.E4.2.0042
v $xiirc/JULK.E4.2.0043
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v $xiirc/JULK.E4.2.0048
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v $xiirc/JULK.E4.2.0054
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v $xiirc/JULK.E4.2.0070
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v $xiirc/JULK.E4.2.0073
v $xiirc/JULK.E4.2.0074
v $xiirc/JULK.E4.2.0075
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v $xiirc/JULK.E4.2.0078
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v $xiirc/JULK.E4.2.0080
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v $xiirc/JULK.E4.2.0082
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v $xiirc/JULK.E4.2.0087
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v $xiirc/JULK.E4.2.0089
v $xiirc/JULK.E4.2.0090
v $xiirc/JULK.E4.2.0091
v $xiirc/JULK.E4.2.0092
v $xiirc/JULK.E4.2.0093
v $xiirc/JULK.E4.2.0094
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v $xiirc/JULK.E4.2.0096
v $xiirc/JULK.E4.2.0097
v $xiirc/JULK.E4.2.0098
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v $xiirc/JULK.E4.2.0105
v $xiirc/JULK.E4.2.0106
v $xiirc/JULK.E4.2.0107
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v $xiirc/JULK.E4.2.0109
v $xiirc/JULK.E4.2.0110
v $xiirc/JULK.E4.2.0111
v $xiirc/JULK.E4.2.0112
v $xiirc/JULK.E4.2.0113
v $xiirc/JULK.E4.2.0114
v $xiirc/JULK.E4.2.0115
v $xiirc/JULK.E4.2.0116
v $xiirc/JULK.E4.2.0117
v $xiirc/JULK.E4.2.0118
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v $xiirc/JULK.E4.2.0125
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Pdu ; anim3 A=$xiirc/JULK.E4.2. premiere=1 derniere=128
v $xiirc/JULK.E4.21.0001
v $xiirc/JULK.E4.21.0002
v $xiirc/JULK.E4.21.0003
v $xiirc/JULK.E4.21.0004
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v $xiirc/JULK.E4.21.0008
v $xiirc/JULK.E4.21.0009
v $xiirc/JULK.E4.21.0010
v $xiirc/JULK.E4.21.0011
v $xiirc/JULK.E4.21.0012
v $xiirc/JULK.E4.21.0013
v $xiirc/JULK.E4.21.0014
v $xiirc/JULK.E4.21.0015
v $xiirc/JULK.E4.21.0016
v $xiirc/JULK.E4.21.0017
v $xiirc/JULK.E4.21.0018
v $xiirc/JULK.E4.21.0019
v $xiirc/JULK.E4.21.0020
v $xiirc/JULK.E4.21.0021
v $xiirc/JULK.E4.21.0022
v $xiirc/JULK.E4.21.0023
v $xiirc/JULK.E4.21.0024
v $xiirc/JULK.E4.21.0025
v $xiirc/JULK.E4.21.0026
v $xiirc/JULK.E4.21.0027
v $xiirc/JULK.E4.21.0028
v $xiirc/JULK.E4.21.0029
v $xiirc/JULK.E4.21.0030
v $xiirc/JULK.E4.21.0031
v $xiirc/JULK.E4.21.0032
v $xiirc/JULK.E4.21.0033
v $xiirc/JULK.E4.21.0034
v $xiirc/JULK.E4.21.0035
v $xiirc/JULK.E4.21.0036
v $xiirc/JULK.E4.21.0037
v $xiirc/JULK.E4.21.0038
v $xiirc/JULK.E4.21.0039
v $xiirc/JULK.E4.21.0040
v $xiirc/JULK.E4.21.0041
v $xiirc/JULK.E4.21.0042
v $xiirc/JULK.E4.21.0043
v $xiirc/JULK.E4.21.0044
v $xiirc/JULK.E4.21.0045
v $xiirc/JULK.E4.21.0046
v $xiirc/JULK.E4.21.0047
v $xiirc/JULK.E4.21.0048
v $xiirc/JULK.E4.21.0049
v $xiirc/JULK.E4.21.0050
v $xiirc/JULK.E4.21.0051
v $xiirc/JULK.E4.21.0052
v $xiirc/JULK.E4.21.0053
v $xiirc/JULK.E4.21.0054
v $xiirc/JULK.E4.21.0055
v $xiirc/JULK.E4.21.0056
v $xiirc/JULK.E4.21.0057
v $xiirc/JULK.E4.21.0058
v $xiirc/JULK.E4.21.0059
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v $xiirc/JULK.E4.21.0062
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v $xiirc/JULK.E4.21.0065
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v $xiirc/JULK.E4.21.0070
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v $xiirc/JULK.E4.21.0072
v $xiirc/JULK.E4.21.0073
v $xiirc/JULK.E4.21.0074
v $xiirc/JULK.E4.21.0075
v $xiirc/JULK.E4.21.0076
v $xiirc/JULK.E4.21.0077
v $xiirc/JULK.E4.21.0078
v $xiirc/JULK.E4.21.0079
v $xiirc/JULK.E4.21.0080
v $xiirc/JULK.E4.21.0081
v $xiirc/JULK.E4.21.0082
v $xiirc/JULK.E4.21.0083
v $xiirc/JULK.E4.21.0084
v $xiirc/JULK.E4.21.0085
v $xiirc/JULK.E4.21.0086
v $xiirc/JULK.E4.21.0087
v $xiirc/JULK.E4.21.0088
v $xiirc/JULK.E4.21.0089
v $xiirc/JULK.E4.21.0090
v $xiirc/JULK.E4.21.0091
v $xiirc/JULK.E4.21.0092
v $xiirc/JULK.E4.21.0093
v $xiirc/JULK.E4.21.0094
v $xiirc/JULK.E4.21.0095
v $xiirc/JULK.E4.21.0096
v $xiirc/JULK.E4.21.0097
v $xiirc/JULK.E4.21.0098
v $xiirc/JULK.E4.21.0099
v $xiirc/JULK.E4.21.0100
v $xiirc/JULK.E4.21.0101
v $xiirc/JULK.E4.21.0102
v $xiirc/JULK.E4.21.0103
v $xiirc/JULK.E4.21.0104
v $xiirc/JULK.E4.21.0105
v $xiirc/JULK.E4.21.0106
v $xiirc/JULK.E4.21.0107
v $xiirc/JULK.E4.21.0108
v $xiirc/JULK.E4.21.0109
v $xiirc/JULK.E4.21.0110
v $xiirc/JULK.E4.21.0111
v $xiirc/JULK.E4.21.0112
v $xiirc/JULK.E4.21.0113
v $xiirc/JULK.E4.21.0114
v $xiirc/JULK.E4.21.0115
v $xiirc/JULK.E4.21.0116
v $xiirc/JULK.E4.21.0117
v $xiirc/JULK.E4.21.0118
v $xiirc/JULK.E4.21.0119
v $xiirc/JULK.E4.21.0120
v $xiirc/JULK.E4.21.0121
v $xiirc/JULK.E4.21.0122
v $xiirc/JULK.E4.21.0123
v $xiirc/JULK.E4.21.0124
v $xiirc/JULK.E4.21.0125
v $xiirc/JULK.E4.21.0126
v $xiirc/JULK.E4.21.0127
v $xiirc/JULK.E4.21.0128
Pdu ; anim3 A=$xiirc/JULK.E4.21. premiere=1 derniere=128
v $xiac/JULK.E4.21$R16
v $xiac/JULK.E4.21$MPEG
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JULK_E4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET iPremiere=1 #
# $Z SET iDerniere=128 #
# $Z set _____ImagesR=$xiirc/JULK.E4 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.E4 #
# #
# $Z SET _____OJ=-1.133 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=2 #
# #
# $Z SET _____JRotationX=0 #
# Cette definition est destinee a 'v $xiirc/.JULJ.N2.1.$U _____JRotationX' afin de ne pas #
# forcer une valeur par defaut... #
# #
# $Z set LRo=`$xci/valeurs_inte$X p=$iPremiere d=$iDerniere lineaire=VRAI vD=0 vA=$pi` #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z SET index=1 #
# #
# $Z while ($index <= $#LRo) #
# $Z FilSTmpB FJRotationX #
# #
# $Z $CA $xcs/csh$Y \ #
# $Z >> $FJRotationX #
# $Z echo 'SET _____JRotationX=$LRo[$index]' \ #
# $Z >> $FJRotationX #
# #
# $Z source $FJRotationX #
# $Z setenv _____ParaJulia "ROTATION_OX=$_____JRotationX" #
# En effet, '$_____JRotationX' n'est compile qu'une seule fois ci-apres dans #
# 'v $xiirc/.JULJ.N2.1.$U (double)_____JRotationX'. Ce 'setenv' dans '$_____ParaJulia' est #
# donc la seule solution pour que '$_____JRotationX' change bien de valeur a chaque #
# iteration 'while(...)' ci-dessus... #
# #
# $Z FilSTmpE FJRotationX #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xTV/JULK.E4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_E4: #
# #
# #
# Ces images sont inspirees de 'v $xiirc/JULJ.U4.21' en faisant varier l'angle de #
# rotation autour de 'OX' entre 0 et pi... #
v $xiac/JULF.F4.Mandelbrot
v $xiirc/JULF.F4.1.0001
v $xiirc/JULF.F4.1.0002
v $xiirc/JULF.F4.1.0003
v $xiirc/JULF.F4.1.0004
v $xiirc/JULF.F4.1.0005
v $xiirc/JULF.F4.1.0006
v $xiirc/JULF.F4.1.0007
v $xiirc/JULF.F4.1.0008
v $xiirc/JULF.F4.1.0009
v $xiirc/JULF.F4.1.0010
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v $xiirc/JULF.F4.1.0012
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v $xiirc/JULF.F4.1.0014
v $xiirc/JULF.F4.1.0015
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v $xiirc/JULF.F4.1.0019
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v $xiirc/JULF.F4.1.0021
v $xiirc/JULF.F4.1.0022
v $xiirc/JULF.F4.1.0023
v $xiirc/JULF.F4.1.0024
v $xiirc/JULF.F4.1.0025
v $xiirc/JULF.F4.1.0026
v $xiirc/JULF.F4.1.0027
v $xiirc/JULF.F4.1.0028
v $xiirc/JULF.F4.1.0029
v $xiirc/JULF.F4.1.0030
v $xiirc/JULF.F4.1.0031
v $xiirc/JULF.F4.1.0032
v $xiirc/JULF.F4.1.0033
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v $xiirc/JULF.F4.1.0043
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v $xiirc/JULF.F4.1.0047
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v $xiirc/JULF.F4.1.0049
v $xiirc/JULF.F4.1.0050
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v $xiirc/JULF.F4.1.0052
v $xiirc/JULF.F4.1.0053
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v $xiirc/JULF.F4.1.0065
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v $xiirc/JULF.F4.1.0068
v $xiirc/JULF.F4.1.0069
v $xiirc/JULF.F4.1.0070
v $xiirc/JULF.F4.1.0071
v $xiirc/JULF.F4.1.0072
v $xiirc/JULF.F4.1.0073
v $xiirc/JULF.F4.1.0074
v $xiirc/JULF.F4.1.0075
v $xiirc/JULF.F4.1.0076
v $xiirc/JULF.F4.1.0077
v $xiirc/JULF.F4.1.0078
v $xiirc/JULF.F4.1.0079
v $xiirc/JULF.F4.1.0080
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v $xiirc/JULF.F4.1.0082
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v $xiirc/JULF.F4.1.0085
v $xiirc/JULF.F4.1.0086
v $xiirc/JULF.F4.1.0087
v $xiirc/JULF.F4.1.0088
v $xiirc/JULF.F4.1.0089
v $xiirc/JULF.F4.1.0090
v $xiirc/JULF.F4.1.0091
v $xiirc/JULF.F4.1.0092
v $xiirc/JULF.F4.1.0093
v $xiirc/JULF.F4.1.0094
v $xiirc/JULF.F4.1.0095
v $xiirc/JULF.F4.1.0096
v $xiirc/JULF.F4.1.0097
v $xiirc/JULF.F4.1.0098
v $xiirc/JULF.F4.1.0099
v $xiirc/JULF.F4.1.0100
v $xiirc/JULF.F4.1.0101
v $xiirc/JULF.F4.1.0102
v $xiirc/JULF.F4.1.0103
v $xiirc/JULF.F4.1.0104
Pdu ; anim3 A=$xiirc/JULF.F4.1. premiere=1 derniere=128
v $xiirc/JULF.F4.2.0001
v $xiirc/JULF.F4.2.0002
v $xiirc/JULF.F4.2.0003
v $xiirc/JULF.F4.2.0004
v $xiirc/JULF.F4.2.0005
v $xiirc/JULF.F4.2.0006
v $xiirc/JULF.F4.2.0007
v $xiirc/JULF.F4.2.0008
v $xiirc/JULF.F4.2.0009
v $xiirc/JULF.F4.2.0010
v $xiirc/JULF.F4.2.0011
v $xiirc/JULF.F4.2.0012
v $xiirc/JULF.F4.2.0013
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v $xiirc/JULF.F4.2.0015
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Pdu ; anim3 A=$xiirc/JULF.F4.2. premiere=1 derniere=128
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v $xiirc/JULF.F4.21.0102
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v $xiirc/JULF.F4.21.0104
Pdu ; anim3 A=$xiirc/JULF.F4.21. premiere=1 derniere=128
v $xiac/JULF.F4.1$R16
v $xiac/JULF.F4.1$MPEG
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JULK_F4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____ImagesR=$xiirc/JULK.F4 #
# #
# $Z FilSTmpB FCoNtOuR #
# #
# $Z set SaUt=20 #
# #
# $Z $xrc/julia.82$X \ #
# $Z saut=$SaUt \ #
# $Z RM=$xTV/MANDELBROT \ #
# $Z RC=$xTV/CONTOUR \ #
# $Z $formatI | \ #
# $Z $SE -e "s/^.* octonion=//" \ #
# $Z -e "s/[,()]/ /g" \ #
# $Z >> $FCoNtOuR #
# $Z set iPremiere=1 #
# $Z set iDerniere=`$CA $FCoNtOuR | $WCl` #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/MANDELBROT \ #
# $Z p=$xiP/arc_ciel.A1 \ #
# $Z R=$xTV/MANDELBROT \ #
# $Z $formatI #
# #
# $Z execRVB $xci/scale$X \ #
# $Z A=$xTV/MANDELBROT%s \ #
# $Z a=0.4 \ #
# $Z R=$xTV/MANDELBROT%s \ #
# $Z $formatI #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xTV/CONTOUR \ #
# $Z points=25 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=25 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.01 \ #
# $Z R=$xTV/CONTOUR \ #
# $Z $formatI #
# #
# $Z execRVB $xci/maximum$X \ #
# $Z A1=$xTV/MANDELBROT%s \ #
# $Z A2=$xTV/CONTOUR%s \ #
# $Z R=$_____ImagesR.Mandelbrot%s \ #
# $Z $formatI #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.F4 #
# #
# $Z set CoMp_r=`$CA $FCoNtOuR | $AW ' { print $1 } '` #
# $Z set CoMp_i=`$CA $FCoNtOuR | $AW ' { print $2 } '` #
# $Z set CoMp_j=`$CA $FCoNtOuR | $AW ' { print $3 } '` #
# $Z set CoMp_k=`$CA $FCoNtOuR | $AW ' { print $4 } '` #
# $Z set CoMp_s=`$CA $FCoNtOuR | $AW ' { print $5 } '` #
# $Z set CoMp_t=`$CA $FCoNtOuR | $AW ' { print $6 } '` #
# $Z set CoMp_u=`$CA $FCoNtOuR | $AW ' { print $7 } '` #
# $Z set CoMp_v=`$CA $FCoNtOuR | $AW ' { print $8 } '` #
# #
# $Z FilSTmpE FCoNtOuR #
# #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=2 #
# #
# $Z SET _____JRotationX=0 #
# Cette definition est destinee a 'v $xiirc/.JULJ.N2.1.$U _____JRotationX' afin de ne pas #
# forcer une valeur par defaut... #
# #
# $Z set LRo=`$xci/valeurs_inte$X p=$iPremiere d=$iDerniere lineaire=VRAI vD=0 vA=$pi` #
# On notera que '$LRo' ne sert a rien, sauf dans le 'while(...)' qui suit... Il est ici #
# present parce que la sequence {Debut_listG_JULK_F4,Fin_listG_JULK_F4} a ete "betement" #
# obtenue a partir de {Debut_listG_JULK_E4,Fin_listG_JULK_E4} sans que je me rende compte #
# de cette inutilite. On pourrait donc supprimer le "set LRo=..." et remplacer #
# 'SET index=1' par 'SET index=$iPremiere', ainsi que 'while ($index <= $#LRo)' #
# par 'while ($index <= $iDerniere'... #
# #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z SET index=1 #
# #
# $Z while ($index <= $#LRo) #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" r=$CoMp_r[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" i=$CoMp_i[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" j=$CoMp_j[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" k=$CoMp_k[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" s=$CoMp_s[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" t=$CoMp_t[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" u=$CoMp_u[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" v=$CoMp_v[$index]" #
# #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xTV/JULK.F4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_F4: #
# #
# #
# Ces images sont inspirees de 'v $xiac/$xiac/TO.Q.3G0RR16'... #
v $xiirc/JULK.G4.1.0001
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v $xiirc/JULK.G4.1.0062
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Pdu ; anim3 A=$xiirc/JULK.G4.1. premiere=1 derniere=64
v $xiirc/JULK.G4.2.0001
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v $xiirc/JULK.G4.2.0028
v $xiirc/JULK.G4.2.0029
v $xiirc/JULK.G4.2.0030
v $xiirc/JULK.G4.2.0031
v $xiirc/JULK.G4.2.0032
v $xiirc/JULK.G4.2.0033
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v $xiirc/JULK.G4.2.0035
v $xiirc/JULK.G4.2.0036
v $xiirc/JULK.G4.2.0037
v $xiirc/JULK.G4.2.0038
v $xiirc/JULK.G4.2.0039
v $xiirc/JULK.G4.2.0040
v $xiirc/JULK.G4.2.0041
v $xiirc/JULK.G4.2.0042
v $xiirc/JULK.G4.2.0043
v $xiirc/JULK.G4.2.0044
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v $xiirc/JULK.G4.2.0047
v $xiirc/JULK.G4.2.0048
v $xiirc/JULK.G4.2.0049
v $xiirc/JULK.G4.2.0050
v $xiirc/JULK.G4.2.0051
v $xiirc/JULK.G4.2.0052
v $xiirc/JULK.G4.2.0053
v $xiirc/JULK.G4.2.0054
v $xiirc/JULK.G4.2.0055
v $xiirc/JULK.G4.2.0056
v $xiirc/JULK.G4.2.0057
v $xiirc/JULK.G4.2.0058
v $xiirc/JULK.G4.2.0059
v $xiirc/JULK.G4.2.0060
v $xiirc/JULK.G4.2.0061
v $xiirc/JULK.G4.2.0062
v $xiirc/JULK.G4.2.0063
v $xiirc/JULK.G4.2.0064
Pdu ; anim3 A=$xiirc/JULK.G4.2. premiere=1 derniere=64
v $xiirc/JULK.G4.21.0001
v $xiirc/JULK.G4.21.0002
v $xiirc/JULK.G4.21.0003
v $xiirc/JULK.G4.21.0004
v $xiirc/JULK.G4.21.0005
v $xiirc/JULK.G4.21.0006
v $xiirc/JULK.G4.21.0007
v $xiirc/JULK.G4.21.0008
v $xiirc/JULK.G4.21.0009
v $xiirc/JULK.G4.21.0010
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v $xiirc/JULK.G4.21.0018
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v $xiirc/JULK.G4.21.0025
v $xiirc/JULK.G4.21.0026
v $xiirc/JULK.G4.21.0027
v $xiirc/JULK.G4.21.0028
v $xiirc/JULK.G4.21.0029
v $xiirc/JULK.G4.21.0030
v $xiirc/JULK.G4.21.0031
v $xiirc/JULK.G4.21.0032
v $xiirc/JULK.G4.21.0033
v $xiirc/JULK.G4.21.0034
v $xiirc/JULK.G4.21.0035
v $xiirc/JULK.G4.21.0036
v $xiirc/JULK.G4.21.0037
v $xiirc/JULK.G4.21.0038
v $xiirc/JULK.G4.21.0039
v $xiirc/JULK.G4.21.0040
v $xiirc/JULK.G4.21.0041
v $xiirc/JULK.G4.21.0042
v $xiirc/JULK.G4.21.0043
v $xiirc/JULK.G4.21.0044
v $xiirc/JULK.G4.21.0045
v $xiirc/JULK.G4.21.0046
v $xiirc/JULK.G4.21.0047
v $xiirc/JULK.G4.21.0048
v $xiirc/JULK.G4.21.0049
v $xiirc/JULK.G4.21.0050
v $xiirc/JULK.G4.21.0051
v $xiirc/JULK.G4.21.0052
v $xiirc/JULK.G4.21.0053
v $xiirc/JULK.G4.21.0054
v $xiirc/JULK.G4.21.0055
v $xiirc/JULK.G4.21.0056
v $xiirc/JULK.G4.21.0057
v $xiirc/JULK.G4.21.0058
v $xiirc/JULK.G4.21.0059
v $xiirc/JULK.G4.21.0060
v $xiirc/JULK.G4.21.0061
v $xiirc/JULK.G4.21.0062
v $xiirc/JULK.G4.21.0063
v $xiirc/JULK.G4.21.0064
Pdu ; anim3 A=$xiirc/JULK.G4.21. premiere=1 derniere=64
v $xiac/JULK.G4.2.R16
v $xiac/JULK.G4.2.MPEG
# Generee (sur '$CMAP28' -ex "porte-d-auteuil"-) par : #
# #
# #
# :Debut_listG_JULK_G4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set iPremiere=1 #
# $Z set iDerniere=64 #
# $Z set _____ImagesR=$xiirc/JULK.G4 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/JULK.G4 #
# #
# $Z SET _____OJ=-1.133 #
# $Z SET _____EJ=+1.120 #
# $Z SET _____Puissance=4 #
# $Z SET _____PuissanceR=0 #
# $Z SET _____PuissanceA=2 #
# $Z SET _____JRotationX=+0.7 #
# #
# $Z set ArGuMeNtS="p=$iPremiere d=$iDerniere lineaire=VRAI" #
# $Z set Lxbg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=-0.2` #
# $Z set Lybg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=-0.2` #
# $Z set Lxhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=+0.2` #
# $Z set Lyhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=+0.2` #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z set index=$iPremiere #
# #
# $Z while ($index <= $iDerniere) #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xbg=$Lxbg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" ybg=$Lybg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xhd=$Lxhd[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" yhd=$Lyhd[$index]" #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xTV/JULK.G4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z VBR #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_G4: #
# #
# #
# Ces images sont un zoom sur 'v $xiirc/JULJ.U4.21'... #
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Pdu ; anim3 A=$xiirc/JULK.G5.1. premiere=1 derniere=64
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v $xiirc/JULK.G5.2.0025
v $xiirc/JULK.G5.2.0026
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v $xiirc/JULK.G5.2.0047
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Pdu ; anim3 A=$xiirc/JULK.G5.2. premiere=1 derniere=64
v $xiirc/JULK.G5.21.0001
v $xiirc/JULK.G5.21.0002
v $xiirc/JULK.G5.21.0003
v $xiirc/JULK.G5.21.0004
v $xiirc/JULK.G5.21.0005
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v $xiirc/JULK.G5.21.0019
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v $xiirc/JULK.G5.21.0021
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v $xiirc/JULK.G5.21.0024
v $xiirc/JULK.G5.21.0025
v $xiirc/JULK.G5.21.0026
v $xiirc/JULK.G5.21.0027
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v $xiirc/JULK.G5.21.0029
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Pdu ; anim3 A=$xiirc/JULK.G5.21. premiere=1 derniere=64
v $xiac/JULK.G5.2.R16
v $xiac/JULK.G5.2.MPEG
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-, '$CMAP28' -ex "porte-d-auteuil"- #
# et enfin '$CMAP28' -ex "porte-pouchet"- en parallele) par : #
# #
# #
# :Debut_listG_JULK_G5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set iPremiere=1 #
# $Z set iDerniere=64 #
# $Z set _____ImagesR=$xiirc/JULK.G5 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/`GetLeaf $_____ImagesR` #
# #
# $Z SET _____OJ=-1.085 #
# $Z SET _____EJ=0 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# #
# $Z set ArGuMeNtS="p=$iPremiere d=$iDerniere lineaire=VRAI" #
# $Z set Lxbg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=0` #
# $Z set Lybg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=-0.5` #
# $Z set Lxhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=+0.5` #
# $Z set Lyhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=0` #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# $Z set VeRrOuS=$DtemporairesC/`GetLeaf $_____ImagesR` #
# ATTENTION : en cas de "reprises", il peut etre necessaire de faire un '$DELETE' des #
# eventuels fichiers '$VeRrOuS*' pre-existants et ce de facon "manuelle". En effet, il #
# n'est pas possible d'introduire a priori ici un '$DELETE $VeRrOuS*' puisque le '$Z' #
# correspondant peut etre en train de s'executer sur une ou plusieurs autres MACHINEs... #
# #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z set index=$iPremiere #
# #
# $Z while ($index <= $iDerniere) #
# $Z Parallele $VeRrOuS $VeRrOuS.$LNoMs[$index] CaLcUlEr #
# ATTENTION : si, par malheur, plusieurs de ces '$Z's s'executent sur la meme MACHINE #
# (c'est ce qu'il s'est passe lors d'un test sur 'LACT1A' aux environs du 20190327100505) #
# cela ne peut pas marcher correctement puisqu'alors le directory '$xTV' est le meme pour #
# toutes les occurences de ce '$Z'. Il y a donc alors des collisions dramatiques en ce qui #
# concerne les fichiers '$_____ImageT1'... #
# #
# $Z IfBasic ($CaLcUlEr == $EXIST) ThenBasic #
# #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xbg=$Lxbg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" ybg=$Lybg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xhd=$Lxhd[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" yhd=$Lyhd[$index]" #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$_____ImageT1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z RBV #
# $Z ElseBasic #
# $Z EndifBasic #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_G5: #
# #
# #
# Ces images sont un zoom sur 'v $xiirc/JULJ.R4.21'... #
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v $xiirc/JULK.G6.1.0032
v $xiirc/JULK.G6.1.0033
v $xiirc/JULK.G6.1.0034
v $xiirc/JULK.G6.1.0035
v $xiirc/JULK.G6.1.0036
v $xiirc/JULK.G6.1.0037
v $xiirc/JULK.G6.1.0038
v $xiirc/JULK.G6.1.0039
v $xiirc/JULK.G6.1.0040
v $xiirc/JULK.G6.1.0041
v $xiirc/JULK.G6.1.0042
v $xiirc/JULK.G6.1.0043
v $xiirc/JULK.G6.1.0044
v $xiirc/JULK.G6.1.0045
v $xiirc/JULK.G6.1.0046
v $xiirc/JULK.G6.1.0047
v $xiirc/JULK.G6.1.0048
v $xiirc/JULK.G6.1.0049
v $xiirc/JULK.G6.1.0050
v $xiirc/JULK.G6.1.0051
v $xiirc/JULK.G6.1.0052
v $xiirc/JULK.G6.1.0053
v $xiirc/JULK.G6.1.0054
v $xiirc/JULK.G6.1.0055
v $xiirc/JULK.G6.1.0056
v $xiirc/JULK.G6.1.0057
v $xiirc/JULK.G6.1.0058
v $xiirc/JULK.G6.1.0059
v $xiirc/JULK.G6.1.0060
v $xiirc/JULK.G6.1.0061
v $xiirc/JULK.G6.1.0062
v $xiirc/JULK.G6.1.0063
v $xiirc/JULK.G6.1.0064
Pdu ; anim3 A=$xiirc/JULK.G6.1. premiere=1 derniere=64
v $xiirc/JULK.G6.2.0001
v $xiirc/JULK.G6.2.0002
v $xiirc/JULK.G6.2.0003
v $xiirc/JULK.G6.2.0004
v $xiirc/JULK.G6.2.0005
v $xiirc/JULK.G6.2.0006
v $xiirc/JULK.G6.2.0007
v $xiirc/JULK.G6.2.0008
v $xiirc/JULK.G6.2.0009
v $xiirc/JULK.G6.2.0010
v $xiirc/JULK.G6.2.0011
v $xiirc/JULK.G6.2.0012
v $xiirc/JULK.G6.2.0013
v $xiirc/JULK.G6.2.0014
v $xiirc/JULK.G6.2.0015
v $xiirc/JULK.G6.2.0016
v $xiirc/JULK.G6.2.0017
v $xiirc/JULK.G6.2.0018
v $xiirc/JULK.G6.2.0019
v $xiirc/JULK.G6.2.0020
v $xiirc/JULK.G6.2.0021
v $xiirc/JULK.G6.2.0022
v $xiirc/JULK.G6.2.0023
v $xiirc/JULK.G6.2.0024
v $xiirc/JULK.G6.2.0025
v $xiirc/JULK.G6.2.0026
v $xiirc/JULK.G6.2.0027
v $xiirc/JULK.G6.2.0028
v $xiirc/JULK.G6.2.0029
v $xiirc/JULK.G6.2.0030
v $xiirc/JULK.G6.2.0031
v $xiirc/JULK.G6.2.0032
v $xiirc/JULK.G6.2.0033
v $xiirc/JULK.G6.2.0034
v $xiirc/JULK.G6.2.0035
v $xiirc/JULK.G6.2.0036
v $xiirc/JULK.G6.2.0037
v $xiirc/JULK.G6.2.0038
v $xiirc/JULK.G6.2.0039
v $xiirc/JULK.G6.2.0040
v $xiirc/JULK.G6.2.0041
v $xiirc/JULK.G6.2.0042
v $xiirc/JULK.G6.2.0043
v $xiirc/JULK.G6.2.0044
v $xiirc/JULK.G6.2.0045
v $xiirc/JULK.G6.2.0046
v $xiirc/JULK.G6.2.0047
v $xiirc/JULK.G6.2.0048
v $xiirc/JULK.G6.2.0049
v $xiirc/JULK.G6.2.0050
v $xiirc/JULK.G6.2.0051
v $xiirc/JULK.G6.2.0052
v $xiirc/JULK.G6.2.0053
v $xiirc/JULK.G6.2.0054
v $xiirc/JULK.G6.2.0055
v $xiirc/JULK.G6.2.0056
v $xiirc/JULK.G6.2.0057
v $xiirc/JULK.G6.2.0058
v $xiirc/JULK.G6.2.0059
v $xiirc/JULK.G6.2.0060
v $xiirc/JULK.G6.2.0061
v $xiirc/JULK.G6.2.0062
v $xiirc/JULK.G6.2.0063
v $xiirc/JULK.G6.2.0064
Pdu ; anim3 A=$xiirc/JULK.G6.2. premiere=1 derniere=64
v $xiirc/JULK.G6.21.0001
v $xiirc/JULK.G6.21.0002
v $xiirc/JULK.G6.21.0003
v $xiirc/JULK.G6.21.0004
v $xiirc/JULK.G6.21.0005
v $xiirc/JULK.G6.21.0006
v $xiirc/JULK.G6.21.0007
v $xiirc/JULK.G6.21.0008
v $xiirc/JULK.G6.21.0009
v $xiirc/JULK.G6.21.0010
v $xiirc/JULK.G6.21.0011
v $xiirc/JULK.G6.21.0012
v $xiirc/JULK.G6.21.0013
v $xiirc/JULK.G6.21.0014
v $xiirc/JULK.G6.21.0015
v $xiirc/JULK.G6.21.0016
v $xiirc/JULK.G6.21.0017
v $xiirc/JULK.G6.21.0018
v $xiirc/JULK.G6.21.0019
v $xiirc/JULK.G6.21.0020
v $xiirc/JULK.G6.21.0021
v $xiirc/JULK.G6.21.0022
v $xiirc/JULK.G6.21.0023
v $xiirc/JULK.G6.21.0024
v $xiirc/JULK.G6.21.0025
v $xiirc/JULK.G6.21.0026
v $xiirc/JULK.G6.21.0027
v $xiirc/JULK.G6.21.0028
v $xiirc/JULK.G6.21.0029
v $xiirc/JULK.G6.21.0030
v $xiirc/JULK.G6.21.0031
v $xiirc/JULK.G6.21.0032
v $xiirc/JULK.G6.21.0033
v $xiirc/JULK.G6.21.0034
v $xiirc/JULK.G6.21.0035
v $xiirc/JULK.G6.21.0036
v $xiirc/JULK.G6.21.0037
v $xiirc/JULK.G6.21.0038
v $xiirc/JULK.G6.21.0039
v $xiirc/JULK.G6.21.0040
v $xiirc/JULK.G6.21.0041
v $xiirc/JULK.G6.21.0042
v $xiirc/JULK.G6.21.0043
v $xiirc/JULK.G6.21.0044
v $xiirc/JULK.G6.21.0045
v $xiirc/JULK.G6.21.0046
v $xiirc/JULK.G6.21.0047
v $xiirc/JULK.G6.21.0048
v $xiirc/JULK.G6.21.0049
v $xiirc/JULK.G6.21.0050
v $xiirc/JULK.G6.21.0051
v $xiirc/JULK.G6.21.0052
v $xiirc/JULK.G6.21.0053
v $xiirc/JULK.G6.21.0054
v $xiirc/JULK.G6.21.0055
v $xiirc/JULK.G6.21.0056
v $xiirc/JULK.G6.21.0057
v $xiirc/JULK.G6.21.0058
v $xiirc/JULK.G6.21.0059
v $xiirc/JULK.G6.21.0060
v $xiirc/JULK.G6.21.0061
v $xiirc/JULK.G6.21.0062
v $xiirc/JULK.G6.21.0063
v $xiirc/JULK.G6.21.0064
Pdu ; anim3 A=$xiirc/JULK.G6.21. premiere=1 derniere=64
v $xiac/JULK.G6.2.R16
v $xiac/JULK.G6.2.MPEG
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-, '$CMAP28' -ex "porte-d-auteuil"-, #
# '$CMAP28' -ex "porte-pouchet"- et enfin '$CMAP28' -ex "republique"- en parallele) par : #
# #
# #
# :Debut_listG_JULK_G6: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set iPremiere=1 #
# $Z set iDerniere=64 #
# $Z set _____ImagesR=$xiirc/JULK.G6 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/`GetLeaf $_____ImagesR` #
# #
# $Z SET _____OJ=-1.085 #
# $Z SET _____EJ=0 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# #
# $Z set ArGuMeNtS="p=$iPremiere d=$iDerniere lineaire=VRAI" #
# $Z set Lxbg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=-0.5000` #
# $Z set Lybg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=+0.0625` #
# $Z set Lxhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=-0.2500` #
# $Z set Lyhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=+0.3125` #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# $Z set VeRrOuS=$DtemporairesC/`GetLeaf $_____ImagesR` #
# ATTENTION : en cas de "reprises", il peut etre necessaire de faire un '$DELETE' des #
# eventuels fichiers '$VeRrOuS*' pre-existants et ce de facon "manuelle". En effet, il #
# n'est pas possible d'introduire a priori ici un '$DELETE $VeRrOuS*' puisque le '$Z' #
# correspondant peut etre en train de s'executer sur une ou plusieurs autres MACHINEs... #
# #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z set index=$iPremiere #
# #
# $Z while ($index <= $iDerniere) #
# $Z Parallele $VeRrOuS $VeRrOuS.$LNoMs[$index] CaLcUlEr #
# ATTENTION : si, par malheur, plusieurs de ces '$Z's s'executent sur la meme MACHINE #
# (c'est ce qu'il s'est passe lors d'un test sur 'LACT1A' aux environs du 20190327100505) #
# cela ne peut pas marcher correctement puisqu'alors le directory '$xTV' est le meme pour #
# toutes les occurences de ce '$Z'. Il y a donc alors des collisions dramatiques en ce qui #
# concerne les fichiers '$_____ImageT1'... #
# #
# $Z IfBasic ($CaLcUlEr == $EXIST) ThenBasic #
# #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xbg=$Lxbg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" ybg=$Lybg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xhd=$Lxhd[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" yhd=$Lyhd[$index]" #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$_____ImageT1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z RBV #
# $Z ElseBasic #
# $Z EndifBasic #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_G6: #
# #
# #
# Ces images sont un zoom sur 'v $xiirc/JULJ.R4.21'... #
v $xiirc/JULK.H5.1.0001
v $xiirc/JULK.H5.1.0002
v $xiirc/JULK.H5.1.0003
v $xiirc/JULK.H5.1.0004
v $xiirc/JULK.H5.1.0005
v $xiirc/JULK.H5.1.0006
v $xiirc/JULK.H5.1.0007
v $xiirc/JULK.H5.1.0008
v $xiirc/JULK.H5.1.0009
v $xiirc/JULK.H5.1.0010
v $xiirc/JULK.H5.1.0011
v $xiirc/JULK.H5.1.0012
v $xiirc/JULK.H5.1.0013
v $xiirc/JULK.H5.1.0014
v $xiirc/JULK.H5.1.0015
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v $xiirc/JULK.H5.1.0017
v $xiirc/JULK.H5.1.0018
v $xiirc/JULK.H5.1.0019
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v $xiirc/JULK.H5.1.0021
v $xiirc/JULK.H5.1.0022
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v $xiirc/JULK.H5.1.0025
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v $xiirc/JULK.H5.1.0028
v $xiirc/JULK.H5.1.0029
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v $xiirc/JULK.H5.1.0031
v $xiirc/JULK.H5.1.0032
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v $xiirc/JULK.H5.1.0036
v $xiirc/JULK.H5.1.0037
v $xiirc/JULK.H5.1.0038
v $xiirc/JULK.H5.1.0039
v $xiirc/JULK.H5.1.0040
v $xiirc/JULK.H5.1.0041
v $xiirc/JULK.H5.1.0042
v $xiirc/JULK.H5.1.0043
v $xiirc/JULK.H5.1.0044
v $xiirc/JULK.H5.1.0045
v $xiirc/JULK.H5.1.0046
v $xiirc/JULK.H5.1.0047
v $xiirc/JULK.H5.1.0048
v $xiirc/JULK.H5.1.0049
v $xiirc/JULK.H5.1.0050
v $xiirc/JULK.H5.1.0051
v $xiirc/JULK.H5.1.0052
v $xiirc/JULK.H5.1.0053
v $xiirc/JULK.H5.1.0054
v $xiirc/JULK.H5.1.0055
v $xiirc/JULK.H5.1.0056
v $xiirc/JULK.H5.1.0057
v $xiirc/JULK.H5.1.0058
v $xiirc/JULK.H5.1.0059
v $xiirc/JULK.H5.1.0060
v $xiirc/JULK.H5.1.0061
v $xiirc/JULK.H5.1.0062
v $xiirc/JULK.H5.1.0063
v $xiirc/JULK.H5.1.0064
Pdu ; anim3 A=$xiirc/JULK.H5.1. premiere=1 derniere=64
v $xiirc/JULK.H5.2.0001
v $xiirc/JULK.H5.2.0002
v $xiirc/JULK.H5.2.0003
v $xiirc/JULK.H5.2.0004
v $xiirc/JULK.H5.2.0005
v $xiirc/JULK.H5.2.0006
v $xiirc/JULK.H5.2.0007
v $xiirc/JULK.H5.2.0008
v $xiirc/JULK.H5.2.0009
v $xiirc/JULK.H5.2.0010
v $xiirc/JULK.H5.2.0011
v $xiirc/JULK.H5.2.0012
v $xiirc/JULK.H5.2.0013
v $xiirc/JULK.H5.2.0014
v $xiirc/JULK.H5.2.0015
v $xiirc/JULK.H5.2.0016
v $xiirc/JULK.H5.2.0017
v $xiirc/JULK.H5.2.0018
v $xiirc/JULK.H5.2.0019
v $xiirc/JULK.H5.2.0020
v $xiirc/JULK.H5.2.0021
v $xiirc/JULK.H5.2.0022
v $xiirc/JULK.H5.2.0023
v $xiirc/JULK.H5.2.0024
v $xiirc/JULK.H5.2.0025
v $xiirc/JULK.H5.2.0026
v $xiirc/JULK.H5.2.0027
v $xiirc/JULK.H5.2.0028
v $xiirc/JULK.H5.2.0029
v $xiirc/JULK.H5.2.0030
v $xiirc/JULK.H5.2.0031
v $xiirc/JULK.H5.2.0032
v $xiirc/JULK.H5.2.0033
v $xiirc/JULK.H5.2.0034
v $xiirc/JULK.H5.2.0035
v $xiirc/JULK.H5.2.0036
v $xiirc/JULK.H5.2.0037
v $xiirc/JULK.H5.2.0038
v $xiirc/JULK.H5.2.0039
v $xiirc/JULK.H5.2.0040
v $xiirc/JULK.H5.2.0041
v $xiirc/JULK.H5.2.0042
v $xiirc/JULK.H5.2.0043
v $xiirc/JULK.H5.2.0044
v $xiirc/JULK.H5.2.0045
v $xiirc/JULK.H5.2.0046
v $xiirc/JULK.H5.2.0047
v $xiirc/JULK.H5.2.0048
v $xiirc/JULK.H5.2.0049
v $xiirc/JULK.H5.2.0050
v $xiirc/JULK.H5.2.0051
v $xiirc/JULK.H5.2.0052
v $xiirc/JULK.H5.2.0053
v $xiirc/JULK.H5.2.0054
v $xiirc/JULK.H5.2.0055
v $xiirc/JULK.H5.2.0056
v $xiirc/JULK.H5.2.0057
v $xiirc/JULK.H5.2.0058
v $xiirc/JULK.H5.2.0059
v $xiirc/JULK.H5.2.0060
v $xiirc/JULK.H5.2.0061
v $xiirc/JULK.H5.2.0062
v $xiirc/JULK.H5.2.0063
v $xiirc/JULK.H5.2.0064
Pdu ; anim3 A=$xiirc/JULK.H5.2. premiere=1 derniere=64
v $xiirc/JULK.H5.21.0001
v $xiirc/JULK.H5.21.0002
v $xiirc/JULK.H5.21.0003
v $xiirc/JULK.H5.21.0004
v $xiirc/JULK.H5.21.0005
v $xiirc/JULK.H5.21.0006
v $xiirc/JULK.H5.21.0007
v $xiirc/JULK.H5.21.0008
v $xiirc/JULK.H5.21.0009
v $xiirc/JULK.H5.21.0010
v $xiirc/JULK.H5.21.0011
v $xiirc/JULK.H5.21.0012
v $xiirc/JULK.H5.21.0013
v $xiirc/JULK.H5.21.0014
v $xiirc/JULK.H5.21.0015
v $xiirc/JULK.H5.21.0016
v $xiirc/JULK.H5.21.0017
v $xiirc/JULK.H5.21.0018
v $xiirc/JULK.H5.21.0019
v $xiirc/JULK.H5.21.0020
v $xiirc/JULK.H5.21.0021
v $xiirc/JULK.H5.21.0022
v $xiirc/JULK.H5.21.0023
v $xiirc/JULK.H5.21.0024
v $xiirc/JULK.H5.21.0025
v $xiirc/JULK.H5.21.0026
v $xiirc/JULK.H5.21.0027
v $xiirc/JULK.H5.21.0028
v $xiirc/JULK.H5.21.0029
v $xiirc/JULK.H5.21.0030
v $xiirc/JULK.H5.21.0031
v $xiirc/JULK.H5.21.0032
v $xiirc/JULK.H5.21.0033
v $xiirc/JULK.H5.21.0034
v $xiirc/JULK.H5.21.0035
v $xiirc/JULK.H5.21.0036
v $xiirc/JULK.H5.21.0037
v $xiirc/JULK.H5.21.0038
v $xiirc/JULK.H5.21.0039
v $xiirc/JULK.H5.21.0040
v $xiirc/JULK.H5.21.0041
v $xiirc/JULK.H5.21.0042
v $xiirc/JULK.H5.21.0043
v $xiirc/JULK.H5.21.0044
v $xiirc/JULK.H5.21.0045
v $xiirc/JULK.H5.21.0046
v $xiirc/JULK.H5.21.0047
v $xiirc/JULK.H5.21.0048
v $xiirc/JULK.H5.21.0049
v $xiirc/JULK.H5.21.0050
v $xiirc/JULK.H5.21.0051
v $xiirc/JULK.H5.21.0052
v $xiirc/JULK.H5.21.0053
v $xiirc/JULK.H5.21.0054
v $xiirc/JULK.H5.21.0055
v $xiirc/JULK.H5.21.0056
v $xiirc/JULK.H5.21.0057
v $xiirc/JULK.H5.21.0058
v $xiirc/JULK.H5.21.0059
v $xiirc/JULK.H5.21.0060
v $xiirc/JULK.H5.21.0061
v $xiirc/JULK.H5.21.0062
v $xiirc/JULK.H5.21.0063
v $xiirc/JULK.H5.21.0064
Pdu ; anim3 A=$xiirc/JULK.H5.21. premiere=1 derniere=64
v $xiac/JULK.H5.2.R16
v $xiac/JULK.H5.2.MPEG
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-, '$CMAP28' -ex "porte-d-auteuil"- #
# '$CMAP28' -ex "porte-brancion"- et enfin '$CMAP28' -ex "republique"- en parallele) par : #
# #
# #
# :Debut_listG_JULK_H5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set iPremiere=1 #
# $Z set iDerniere=64 #
# $Z set _____ImagesR=$xiirc/JULK.H5 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/`GetLeaf $_____ImagesR` #
# #
# $Z SET _____OJ=-1.085 #
# $Z SET _____EJ=0 #
# $Z SET _____Puissance=4 #
# $Z SET _____JRotationX=+0.7 #
# #
# $Z set ArGuMeNtS="p=$iPremiere d=$iDerniere lineaire=VRAI" #
# $Z set Lxbg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=0` #
# $Z set Lybg=`$xci/valeurs_inte$X $ArGuMeNtS vD=-1.0 vA=-0.5` #
# $Z set Lxhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=+0.5` #
# $Z set Lyhd=`$xci/valeurs_inte$X $ArGuMeNtS vD=+1.0 vA=0` #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# $Z set VeRrOuS=$DtemporairesC/`GetLeaf $_____ImagesR` #
# ATTENTION : en cas de "reprises", il peut etre necessaire de faire un '$DELETE' des #
# eventuels fichiers '$VeRrOuS*' pre-existants et ce de facon "manuelle". En effet, il #
# n'est pas possible d'introduire a priori ici un '$DELETE $VeRrOuS*' puisque le '$Z' #
# correspondant peut etre en train de s'executer sur une ou plusieurs autres MACHINEs... #
# #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z set index=$iPremiere #
# #
# $Z while ($index <= $iDerniere) #
# $Z Parallele $VeRrOuS $VeRrOuS.$LNoMs[$index] CaLcUlEr #
# ATTENTION : si, par malheur, plusieurs de ces '$Z's s'executent sur la meme MACHINE #
# (c'est ce qu'il s'est passe lors d'un test sur 'LACT1A' aux environs du 20190327100505) #
# cela ne peut pas marcher correctement puisqu'alors le directory '$xTV' est le meme pour #
# toutes les occurences de ce '$Z'. Il y a donc alors des collisions dramatiques en ce qui #
# concerne les fichiers '$_____ImageT1'... #
# #
# $Z IfBasic ($CaLcUlEr == $EXIST) ThenBasic #
# #
# $Z setenv _____ParaJulia "$K_VIDE" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xbg=$Lxbg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" ybg=$Lybg[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" xhd=$Lxhd[$index]" #
# $Z setenv _____ParaJulia "$_____ParaJulia"" yhd=$Lyhd[$index]" #
# ATTENTION : on notera que l'on n'interpole pas sur la coordonnee 'J'. Cela serait en effet #
# un peu complique puisqu'elle-meme est interpolee dans 'v $xiirc/.JULJ.N2.1.$U double....J'. #
# #
# #
# $m4 _____include(_____xiirc/.JULJ.N2.1._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirs/.EPIC.41.21._____U) #
# #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$_____ImageT1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.1 \ #
# $Z $_____ImagesR.1.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.2 \ #
# $Z $_____ImagesR.2.$LNoMs[$index] \ #
# $Z RBV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____ImagesR.21.$LNoMs[$index] \ #
# $Z RBV #
# $Z ElseBasic #
# $Z EndifBasic #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# :Fin_listG_JULK_H5: #
# #
# #
# Ces images sont un zoom sur 'v $xiirc/JULJ.R4.21'... #
v $xiirc/LYAP.61
v $xiirc/LYAP.61.1
v $xiirc/LYAP.61.2
v $xiirc/LYAP.61.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_61: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/LYAP.61 #
# #
# $Z $xrk/lyapunov.12$X \ #
# $Z images=$Nimages \ #
# $Z iterations=100 \ #
# $Z zD=2.6 zA=3.6 \ #
# $Z suite="111111222222333333" \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_61: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.875,3.824]x[3.000,3.700]x[2.600,3.600]. #
v $xiirc/LYAP.62
v $xiirc/LYAP.62.1
v $xiirc/LYAP.62.2
v $xiirc/LYAP.62.2.1
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_LYAP_62: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/LYAP.62 #
# #
# $Z $xrk/lyapunov.12$X \ #
# $Z images=$Nimages \ #
# $Z iterations=100 \ #
# $Z xbg=3.40 ybg=3.45 xhd=3.6 yhd=3.65 \ #
# $Z zD=2.6 zA=3.6 \ #
# $Z suite="111111222222333333" \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.62 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_62: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.363,3.636]x[3.450,3.650]x[2.600,3.600]. #
v $xiirc/LYAP.71.2.0001
v $xiirc/LYAP.71.2.0002
v $xiirc/LYAP.71.2.0003
v $xiirc/LYAP.71.2.0004
v $xiirc/LYAP.71.2.0005
v $xiirc/LYAP.71.2.0006
v $xiirc/LYAP.71.2.0007
v $xiirc/LYAP.71.2.0008
v $xiirc/LYAP.71.2.0009
v $xiirc/LYAP.71.2.0010
v $xiirc/LYAP.71.2.0011
v $xiirc/LYAP.71.2.0012
v $xiirc/LYAP.71.2.0013
v $xiirc/LYAP.71.2.0014
v $xiirc/LYAP.71.2.0015
v $xiirc/LYAP.71.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.71.2$R16' #
# #
v $xiirc/LYAP.72.2.0001
v $xiirc/LYAP.72.2.0002
v $xiirc/LYAP.72.2.0003
v $xiirc/LYAP.72.2.0004
v $xiirc/LYAP.72.2.0005
v $xiirc/LYAP.72.2.0006
v $xiirc/LYAP.72.2.0007
v $xiirc/LYAP.72.2.0008
v $xiirc/LYAP.72.2.0009
v $xiirc/LYAP.72.2.0010
v $xiirc/LYAP.72.2.0011
v $xiirc/LYAP.72.2.0012
v $xiirc/LYAP.72.2.0013
v $xiirc/LYAP.72.2.0014
v $xiirc/LYAP.72.2.0015
v $xiirc/LYAP.72.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.72.2$R16' #
# #
v $xiirc/LYAP.81
v $xiirc/LYAP.81.1
v $xiirc/LYAP.81.2
v $xiirc/LYAP.81.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_81: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.81 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.81 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_81: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
v $xiirc/LYAP.91.2.0001
v $xiirc/LYAP.91.2.0002
v $xiirc/LYAP.91.2.0003
v $xiirc/LYAP.91.2.0004
v $xiirc/LYAP.91.2.0005
v $xiirc/LYAP.91.2.0006
v $xiirc/LYAP.91.2.0007
v $xiirc/LYAP.91.2.0008
v $xiirc/LYAP.91.2.0009
v $xiirc/LYAP.91.2.0010
v $xiirc/LYAP.91.2.0011
v $xiirc/LYAP.91.2.0012
v $xiirc/LYAP.91.2.0013
v $xiirc/LYAP.91.2.0014
v $xiirc/LYAP.91.2.0015
v $xiirc/LYAP.91.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.91.2$R16' #
# #
v $xiirc/LYAP.A1
v $xiirc/LYAP.A1.1
v $xiirc/LYAP.A1.2
v $xiirc/LYAP.A1.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_A1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 8*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.A1 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.100 ybg=3.400 \ #
# $Z xhd=3.300 yhd=3.750 \ #
# $Z zD=4.0000 zA=3.750 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.A1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_A1: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.06,3.33]x[3.40,3.75]x[3.75,4.00]. #
v $xiirc/LYAP.B1.2.0001
v $xiirc/LYAP.B1.2.0002
v $xiirc/LYAP.B1.2.0003
v $xiirc/LYAP.B1.2.0004
v $xiirc/LYAP.B1.2.0005
v $xiirc/LYAP.B1.2.0006
v $xiirc/LYAP.B1.2.0007
v $xiirc/LYAP.B1.2.0008
v $xiirc/LYAP.B1.2.0009
v $xiirc/LYAP.B1.2.0010
v $xiirc/LYAP.B1.2.0011
v $xiirc/LYAP.B1.2.0012
v $xiirc/LYAP.B1.2.0013
v $xiirc/LYAP.B1.2.0014
v $xiirc/LYAP.B1.2.0015
v $xiirc/LYAP.B1.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.B1.2$R16' #
# #
v $xiirc/LYAP.C1
v $xiirc/LYAP.C1.1
v $xiirc/LYAP.C1.2
v $xiirc/LYAP.C1.2.1
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_LYAP_C1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.C1 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.C1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_C1: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
v $xiirc/LYAP.C2
v $xiirc/LYAP.C2.1
v $xiirc/LYAP.C2.2
v $xiirc/LYAP.C2.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_LYAP_C2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.C2 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____PaletteBrume=$xiP/gris.01 #
# $Z set _____imagesR=$xiirc/LYAP.C2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_C2: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
# Cette image est une version amelioree de 'v $xiirc/LYAP.C1.2' suite aux modifications #
# 'v $xiii/di_album$FON 20101121111043'... #
v $xiirc/LYAP.C3
v $xiirc/LYAP.C3.1
v $xiirc/LYAP.C3.2
v $xiirc/LYAP.C3.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_LYAP_C3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.C3 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=30 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____PaletteBrume=$xiP/gris.01 #
# $Z set _____imagesR=$xiirc/LYAP.C3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_C3: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
v $xiirc/LYAP.C3$HauteDef.1
v $xiirc/LYAP.C3$HauteDef.2
v $xiirc/LYAP.C3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_C3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.C3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_C3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Elle est identique a 'v $xiirc/LYAP.C3.21' mais en mode '$HauteDef' pour le livre de #
# Tom Mikulic ('v $Dcourrier_in/20150504091726 From.tmikulic@gmail.com..Thu.Apr.30.18:15'). #
v $xiirc/LYAP.C4
v $xiirc/LYAP.C4.1
v $xiirc/LYAP.C4.2
v $xiirc/LYAP.C4.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_LYAP_C4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.C4 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z "$xci/gradient.01$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z points=9 \ #
# $Z message_attention_extrema=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=20 sup=80 \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=0 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI" #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____PaletteBrume=$xiP/gris.01 #
# $Z set _____imagesR=$xiirc/LYAP.C4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_C4: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
v $xiirc/LYAP.C5
v $xiirc/LYAP.C5.1
v $xiirc/LYAP.C5.2
v $xiirc/LYAP.C5.2.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_LYAP_C5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.C5 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.000 ybg=3.500 \ #
# $Z xhd=3.350 yhd=3.850 \ #
# $Z zD=4 zA=3 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=15 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____PaletteBrume=$xiP/gris.01 #
# $Z set _____imagesR=$xiirc/LYAP.C5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_C5: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000]. #
v $xiirc/LYAP.D1
v $xiirc/LYAP.D1.1
v $xiirc/LYAP.D1.2
v $xiirc/LYAP.D1.2.1
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_D1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=127 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set NTaux=32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $xTV/TAUX #
# #
# $Z set _____ImageT1=$xTV/LYAP.D1 #
# #
# $Z $xrk/lyapunov.22$X \ #
# $Z images=$Nimages \ #
# $Z iterations=$NTaux \ #
# $Z LISTE_TAUX=$xTV/TAUX \ #
# $Z xbg=3.150 ybg=3.700 \ #
# $Z xhd=3.300 yhd=3.850 \ #
# $Z zD=4.000 zA=3.500 \ #
# $Z negatifs=VRAI \ #
# $Z positifs=FAUX \ #
# $Z editer_fenetre_courante=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/TAUX #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/seuil$X \ #
# $Z A=$_____ImageT1.%04d \ #
# $Z seuil=50 \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.3 #
# $Z set _____imagesR=$xiirc/LYAP.D1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_D1: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.123,3.327]x[3.700,3.850]x[3.000,3.500]. #
v $xiirc/LYAP.E5.2.0001
v $xiirc/LYAP.E5.2.0002
v $xiirc/LYAP.E5.2.0003
v $xiirc/LYAP.E5.2.0004
v $xiirc/LYAP.E5.2.0005
v $xiirc/LYAP.E5.2.0006
v $xiirc/LYAP.E5.2.0007
v $xiirc/LYAP.E5.2.0008
v $xiirc/LYAP.E5.2.0009
v $xiirc/LYAP.E5.2.0010
v $xiirc/LYAP.E5.2.0011
v $xiirc/LYAP.E5.2.0012
v $xiirc/LYAP.E5.2.0013
v $xiirc/LYAP.E5.2.0014
v $xiirc/LYAP.E5.2.0015
v $xiirc/LYAP.E5.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.E5.2$R16' #
# #
v $xiirc/LYAP.E6.2.0001
v $xiirc/LYAP.E6.2.0002
v $xiirc/LYAP.E6.2.0003
v $xiirc/LYAP.E6.2.0004
v $xiirc/LYAP.E6.2.0005
v $xiirc/LYAP.E6.2.0006
v $xiirc/LYAP.E6.2.0007
v $xiirc/LYAP.E6.2.0008
v $xiirc/LYAP.E6.2.0009
v $xiirc/LYAP.E6.2.0010
v $xiirc/LYAP.E6.2.0011
v $xiirc/LYAP.E6.2.0012
v $xiirc/LYAP.E6.2.0013
v $xiirc/LYAP.E6.2.0014
v $xiirc/LYAP.E6.2.0015
v $xiirc/LYAP.E6.2.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/LYAP.E6.2$R16' #
# #
v $xiirc/LYAP.F3.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_F3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.F3 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/un_sur_q.41$X #
# $c facteur=400000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.F3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_F3: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_q.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.F4.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_F4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.F4 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/un_sur_q.41$X #
# $c facteur=400000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=20 #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.F4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_F4: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_q.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.F4.2.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_F4_2_1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/RVB_en_HLS$X \ #
# $Z A=$xiirc/LYAP.F4.2 \ #
# $Z R=$xTV/LYAP.F4.2.1 \ #
# $Z $formatI #
# #
# $Z execHLS $xci/egaliseH.01$X \ #
# $Z A=$xTV/LYAP.F4.2.1%s \ #
# $Z plat=VRAI \ #
# $Z shuffling=VRAI \ #
# $Z R=$xTV/LYAP.F4.2.2%s \ #
# $Z $formatI #
# #
# $Z $xci/HLS_en_RVB$X \ #
# $Z A=$xTV/LYAP.F4.2.2 \ #
# $Z editer_messages_erreur=FAUX \ #
# $Z R=$xTV/LYAP.F4.2.3 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/LYAP.F4.2.3%s \ #
# $Z R=$xiirc/LYAP.F4.2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_LYAP_F4_2_1: #
# #
# #
v $xiirc/LYAP.F5.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_F5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.F5 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/un_sur_q.41$X #
# $c facteur=400000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=40 #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.F5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_F5: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_q.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.G3.2
# Generee (sur '$CMAP28' -ex "grenelle" et achevee sur "abbesses" suite au message #
# "grenelle kernel: Out of memory: Killed process 24392 (accumule.42.x)"-) par : #
# #
# #
# :Debut_listG_LYAP_G3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.G3 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/q_carre.41$X #
# $c facteur=0.0025 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.G3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_G3: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/q_carre.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.G4.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_G4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.G4 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/q_carre.41$X #
# $c facteur=0.0025 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=20 #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.G4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_G4: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/q_carre.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.G5.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_LYAP_G5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____TAUX $xTV/TAUX #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv NTaux 32 #
# #
# $Z $xci/valeurs_trig$X \ #
# $Z p=1 d=$NTaux \ #
# $Z aD=0 aA=`calcul 5*$pi` \ #
# $Z gamma=1 \ #
# $Z entier=VRAI \ #
# $Z epsilon=0.2 \ #
# $Z > $_____TAUX #
# #
# $Z setenv _____ImageT1_O1 $xTV/LYAP.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 4.0 #
# $c #define EZ 3.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrk/lyapunov.22$X #
# $c images=1 #
# $c iterations=$NTaux #
# $c LISTE_TAUX=$_____TAUX #
# $c xbg=3.000 ybg=3.500 #
# $c xhd=3.350 yhd=3.850 #
# $c zD=%f zA=%f #
# $c negatifs=VRAI #
# $c positifs=FAUX #
# $c efc=FAUX #
# $c premiere=%d #
# $c R=$_____ImageT1_O1. #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $DELETE $_____TAUX #
# #
# $Z setenv _____ImageT1 $xTV/LYAP.G5 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/q_carre.41$X #
# $c facteur=0.0025 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=40 #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/LYAP.G5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_G5: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/LYAP.C3.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/q_carre.41$K facteur_multiplicatif_homothetique'... #
v $xiirc/LYAP.H3$HauteDef.1
v $xiirc/LYAP.H3$HauteDef.2
v $xiirc/LYAP.H3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_H3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=12 #
# $Z set _____imagesR=$xiirc/LYAP.H3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_H3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R1,R2,R3,R1,R2,R3,R1,R1,R1 #
# #
v $xiirc/LYAP.H4$HauteDef.1
v $xiirc/LYAP.H4$HauteDef.2
v $xiirc/LYAP.H4$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_H4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=16 #
# $Z set _____imagesR=$xiirc/LYAP.H4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_H4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
v $xiirc/LYAP.H4.A1.1
v $xiirc/LYAP.H4.A1.2
v $xiirc/LYAP.H4.A1.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_H4_A1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=16 #
# $Z set _____SourceX=1 #
# $Z set _____SourceY=1 #
# $Z set _____SourceZ=1.5 #
# $Z set _____imagesR=$xiirc/LYAP.H4.A1 #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_H4_A1: #
# #
# #
# Image identique a 'v $xiirc/LYAP.H4$HauteDef.21' (mais en Pal) destinee a comprendre #
# les ombres via 'v $xiirc/LYAP.H4.A2.21'... #
v $xiirc/LYAP.H4.A2.1
v $xiirc/LYAP.H4.A2.2
v $xiirc/LYAP.H4.A2.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_LYAP_H4_A2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=16 #
# $Z set _____SourceX=1 #
# $Z set _____SourceY=1 #
# $Z set _____SourceZ=9.5 #
# $Z set _____imagesR=$xiirc/LYAP.H4.A2 #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_H4_A2: #
# #
# #
# Image identique a 'v $xiirc/LYAP.H4$HauteDef.21' (mais en Pal) destinee a comprendre #
# les ombres de 'v $xiirc/LYAP.H4.A1.21'. En fait le mystere des ombres difficiles a #
# interpreter dans 'v $xiirc/LYAP.H4$HauteDef.21' vient du fait que la source lumineuse #
# est tres pres de l'objet ({1,1,1.5}), alors que dans 'v $xiirc/LYAP.H4.A2.21' cette #
# source est beaucoup plus loin ({1,1,9.5}) ce qui ressemble alors a une projection #
# parallele ce qui facilite la validation de ces ombres qui sont donc correctement #
# calculees dans 'v $xiirc/LYAP.H4.A1.21' et donc dans 'v $xiirc/LYAP.H4$HauteDef.21'... #
v $xiirc/LYAP.H5$HauteDef.1
v $xiirc/LYAP.H5$HauteDef.2
v $xiirc/LYAP.H5$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_H5_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=64 #
# $Z set _____imagesR=$xiirc/LYAP.H5$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_H5_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R3,R3,R3,R3,R2,R2,R2,R2,R2,R2,R1,R1, #
# R1,R1,R1,R1,R1,R1,R1,R2,R2,R2,R3,R3,R3,R3,R2,R2, #
# R2,R1,R1,R1,R1,R1,R1,R1,R2,R2,R2,R3,R3,R3,R3,R3, #
# R2,R2,R2,R2,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1 #
# #
v $xiirc/LYAP.I5$HauteDef.1
v $xiirc/LYAP.I5$HauteDef.2
v $xiirc/LYAP.I5$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_I5_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____NTaux=64 #
# $Z SET _____R4=2.7 #
# $Z SET _____R5=2.9 #
# $Z set _____Alpha=2 #
# $Z set _____Gamma=2 #
# $Z set _____imagesR=$xiirc/LYAP.I5$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_I5_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3,4]x[2.7]x[2.9] #
# utilisant la structure en {R1,R2,R3,R4,R5} suivante au cours d'une periode : #
# #
# R5,R5,R5,R5,R5,R5,R5,R4,R4,R4,R4,R3,R3,R2,R2,R1, #
# R1,R1,R1,R1,R1,R2,R2,R3,R3,R4,R4,R5,R5,R4,R4,R3, #
# R2,R2,R1,R1,R1,R1,R1,R2,R3,R3,R4,R4,R5,R5,R5,R4, #
# R4,R4,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1 #
# #
# #
# On notera que cette image est ideale pour verifier que les ombres portees sont #
# correctes grace a une grande surface verticale de couleur magenta qui est localise en bas #
# et a droite de l'ecran quand cette image est visualisee sur '$LACT19' au format 'Pqu' sans #
# 'ext'... Il y a alors de tout petits "objets" qui flottent "au-dessus" de cette surface et #
# dont on voit les ombres portees dessus... #
# #
# Voir aussi 'v $xiirc/LYAP.P3.TestOmbresPortees.1' a ce sujet... #
v $xiirc/LYAP.J3$HauteDef.1
v $xiirc/LYAP.J3$HauteDef.2
v $xiirc/LYAP.J3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_J3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.J3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_J3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# #
# Pour information, ce calcul a ete effectue sur '$CMAP28 ex(1) "porte-pouchet"'. Il fut #
# lance a 'v $Dhistory/$CMAP28/20151015095911 20151014194717' et les images sont datees au #
# plus de 20151015085038. Soit une duree de calcul approximative de 13:03:21... #
v $xiirc/LYAP.J4$HauteDef.1
v $xiirc/LYAP.J4$HauteDef.2
v $xiirc/LYAP.J4$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_J4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____imagesR=$xiirc/LYAP.J4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_J4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un "leger" pseudo-zoom sur 'v $xiirc/LYAP.J3$HauteDef.21' ("pseudo-zoom" #
# parce qu'il ne porte que sur les coordonnees 'X' et 'Y'...). #
# #
# Cette image a ete regeneree en 'v $xiirc/LYAP.S4$HauteDef.21' via la nouvelle option #
# '$_____DoublerSections' devant donner une version plus correcte en ce qui concerne #
# l'eclairage. Au passage, cela repond enfin a la question concernant les zones trop #
# sombres : il s'agissait donc de zones correspond a des sections d'epaisseur unite... #
# C'est donc pourquoi la nouvelle image 'v $xiirc/LYAP.S4$HauteDef.21' est plus claire... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:33:40 #
# #
# $xci/accumule.42$X : 01:34:26 #
# #
v $xiirc/LYAP.J5$HauteDef.1
v $xiirc/LYAP.J5$HauteDef.2
v $xiirc/LYAP.J5$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_J5_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.1225 #
# $Z set _____R1hd=3.2800 #
# $Z set _____R2bg=3.5700 #
# $Z set _____R2hd=3.7275 #
# $Z set _____imagesR=$xiirc/LYAP.J5$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_J5_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.0944,3.3080]x[3.5700,3.7275]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un "leger" pseudo-zoom sur 'v $xiirc/LYAP.J4$HauteDef.21' ("pseudo-zoom" #
# parce qu'il ne porte que sur les coordonnees 'X' et 'Y'...). #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:48:13 #
# #
# $xci/accumule.42$X : 01:50:56 #
# #
v $xiirc/LYAP.J6$HauteDef.1
v $xiirc/LYAP.J6$HauteDef.2
v $xiirc/LYAP.J6$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_J6_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.20125 #
# $Z set _____R1hd=3.28000 #
# $Z set _____R2bg=3.64875 #
# $Z set _____R2hd=3.72750 #
# $Z set _____imagesR=$xiirc/LYAP.J6$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_J6_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.187212,3.294038]x[3.64875,3.7275]x[3.0,4.0] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un "leger" pseudo-zoom sur 'v $xiirc/LYAP.J5$HauteDef.21' ("pseudo-zoom" #
# parce qu'il ne porte que sur les coordonnees 'X' et 'Y'...). #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:13:57 #
# #
# $xci/accumule.42$X : 01:40:20 #
# #
v $xiirc/LYAP.J7$HauteDef.1
v $xiirc/LYAP.J7$HauteDef.2
v $xiirc/LYAP.J7$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_J7_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.211250 #
# $Z set _____R1hd=3.250625 #
# $Z set _____R2bg=3.648750 #
# $Z set _____R2hd=3.688125 #
# $Z set _____imagesR=$xiirc/LYAP.J7$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_J7_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.204231,3.257644]x[3.64875,3.688125]x[3.0,4.0] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un "leger" pseudo-zoom sur 'v $xiirc/LYAP.J6$HauteDef.21' ("pseudo-zoom" #
# parce qu'il ne porte que sur les coordonnees 'X' et 'Y'...). #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 06:28:16 #
# #
# $xci/accumule.42$X : 02:00:14 #
# #
v $xiirc/LYAP.K3$HauteDef.1
v $xiirc/LYAP.K3$HauteDef.2
v $xiirc/LYAP.K3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_K3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB _____FTaux #
# #
# $m4 _____include(_____xiirc/.LYAP.K3.1._____U) #
# #
# $Z set _____imagesR=$xiirc/LYAP.K3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z FilSTmpE _____FTaux #
# #
# :Fin_listG_LYAP_K3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R1,R2,R3,R1,R1,R2,R2,R3,R3,R1,R1,R1,R2,R2,R2,R3, #
# R3,R3,R1,R1,R1,R1,R2,R2,R2,R2,R3,R3,R3,R3 #
# #
v $xiirc/LYAP.K4$HauteDef.1
v $xiirc/LYAP.K4$HauteDef.2
v $xiirc/LYAP.K4$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_K4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB _____FTaux #
# #
# $m4 _____include(_____xiirc/.LYAP.K3.1._____U) #
# #
# $Z SET _____Compatibilite_20151007=$EXIST #
# $Z set _____R1bg=3.233 #
# $Z set _____R1hd=3.350 #
# $Z set _____R2bg=3.500 #
# $Z set _____R2hd=3.616 #
# $Z set _____R3d=4 #
# $Z set _____R3a=3 #
# $Z set _____imagesR=$xiirc/LYAP.K4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z FilSTmpE _____FTaux #
# #
# :Fin_listG_LYAP_K4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.212,3.370]x[3.500,3.616]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R1,R2,R3,R1,R1,R2,R2,R3,R3,R1,R1,R1,R2,R2,R2,R3, #
# R3,R3,R1,R1,R1,R1,R2,R2,R2,R2,R3,R3,R3,R3 #
# #
# #
# On notera que cette image est ideale pour verifier que les ombres portees sont #
# correctes grace a une grande surface verticale de couleur magenta qui est localise a droite #
# et un peu au-dessu du milieu quand cette image est visualisee sur '$LACT19' au format #
# 'ext Pdu'... Il y a alors de tout petits "objets" qui flottent "au-dessus" de cette #
# surface et dont on voit les ombres portees dessus... #
# #
# Voir aussi 'v $xiirc/LYAP.P3.TestOmbresPortees.1' a ce sujet... #
v $xiirc/LYAP.L5$HauteDef.1
v $xiirc/LYAP.L5$HauteDef.2
v $xiirc/LYAP.L5$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_L5_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____NTaux=64 #
# $Z set _____R3d=4.0 #
# $Z set _____R3a=3.0 #
# $Z SET _____R4d=3.8 #
# $Z SET _____R4a=3.2 #
# $Z SET _____R5d=3.6 #
# $Z SET _____R5a=3.4 #
# $Z set _____Alpha=2 #
# $Z set _____Gamma=2 #
# $Z set _____imagesR=$xiirc/LYAP.L5$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_L5_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans #
# [2.936,3.413]x[3.500,3.850]x[3,4]x[3.2,3.8]x[3.4,3.6] #
# utilisant la structure en {R1,R2,R3,R4,R5} suivante au cours d'une periode : #
# #
# R5,R5,R5,R5,R5,R5,R5,R4,R4,R4,R4,R3,R3,R2,R2,R1, #
# R1,R1,R1,R1,R1,R2,R2,R3,R3,R4,R4,R5,R5,R4,R4,R3, #
# R2,R2,R1,R1,R1,R1,R1,R2,R3,R3,R4,R4,R5,R5,R5,R4, #
# R4,R4,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1 #
# #
v $xiirc/LYAP.M3$HauteDef.1
v $xiirc/LYAP.M3$HauteDef.2
v $xiirc/LYAP.M3$HauteDef.21
v $xiac/LYAP.M3$HauteDef$R16
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_M3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.M3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# #
# $Z setenv _____ImageT2 $xTV/LYAP.M3.2 #
# $Z setenv _____ImageT1 $_____ImageT1 #
# #
# $Z SET Premiere=$cPremiere #
# $Z SET Derniere=$cDerniere #
# #
# $Z set _____ArgSurface_1="PARAMETRE_M=4" #
# $Z set _____Surface_1="bKlein.61" #
# $Z set _____ArgSurface_2="$K_VIDE" #
# $Z set _____Surface_2="sphere.11" #
# #
# $Z setenv _____imagesS $xTV/INTERPOLATION.1 #
# #
# $m4 _____include(_____xiirs/.PROJ.B1.1._____U) #
# #
# $m4 _____include(_____xiirc/.JULJ.X5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z set _____animation=$xiac/`GetLeaf $_____imagesR` #
# #
# $Z $xci/red_04_16_64$Z Sequence=$_____imagesS \ #
# $Z Premiere=$cPremiere \ #
# $Z Standard=FAUX \ #
# $Z Derniere=$cDerniere \ #
# $Z Couleurs="XYZ" \ #
# $Z Permuter=VRAI \ #
# $Z Reduction_R04=$NEXIST \ #
# $Z Reduction_R16=$EXIST \ #
# $Z Reduction_R64=$NEXIST \ #
# $Z Dilater=FAUX \ #
# $Z Moyenne=VRAI \ #
# $Z Maximum=FAUX \ #
# $Z Animation=$_____animation #
# #
# $Z execXYZ $xci/acces$X \ #
# $Z A=$_____animation$R16%s \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____animation$R16%s \ #
# $Z $formatI #
# #
# $Z $MV $_____animation$R16$COORD_X $_____animation$R16$ROUGE #
# $Z $MV $_____animation$R16$COORD_Y $_____animation$R16$VERTE #
# $Z $MV $_____animation$R16$COORD_Z $_____animation$R16$BLEUE #
# #
# :Fin_listG_LYAP_M3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# avec une transformation de 'v $xiirc/LYAP.C3$HauteDef.21' identique a celle de #
# 'v $xiirc/JULJ.X5.21', c'est-a-dire basee sur la triple bouteille de Bonan-Jeener-Klein #
# ('v $xiirs/BKLN.52')... #
# #
# On notera que l'on ne peut pas generer '$xiac/LYAP.M3$HauteDef$R64' car, en effet, la #
# commande 'v $xci/reduction_64$K' ne reconnait pas "standard=FAUX"... #
v $xiirc/LYAP.N3$HauteDef.1
v $xiirc/LYAP.N3$HauteDef.2
v $xiirc/LYAP.N3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_N3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.N3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# #
# $Z setenv _____ImageT2 $xTV/LYAP.N3.2 #
# $Z setenv _____ImageT1 $_____ImageT1 #
# #
# $Z SET Premiere=$cPremiere #
# $Z SET Derniere=$cDerniere #
# #
# $m4 _____include(_____xiirc/.JULJ.V5.1._____U) #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_N3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# avec une transformation de 'v $xiirc/LYAP.C3$HauteDef.21' identique a celle de #
# 'v $xiirf/MENG.77.5.21', c'est-a-dire une transformation homographique '(4xO+1)/(1xO-1)'. #
v $xiirc/LYAP.O3$HauteDef.1
v $xiirc/LYAP.O3$HauteDef.2
v $xiirc/LYAP.O3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_O3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set LArguments="$K_VIDE" #
# $Z set LArguments="$LArguments"" dynamique_etendue=VRAI" #
# $Z set LArguments="$LArguments"" exposant=1.5" #
# #
# $Z set _____NTaux=32 #
# $Z set _____R3d=3.99 #
# $Z set _____R3a=3.90 #
# $Z set _____imagesR=$xiirc/LYAP.O3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_O3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.900,3.990] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Elle est identique a 'v $xiirc/LYAP.C3$HauteDef.21' mais avec un exposant de 1.5 a la #
# place de 1 (et donc une dynamique non standard...). #
v $xiirc/LYAP.O4$HauteDef.1
v $xiirc/LYAP.O4$HauteDef.2
v $xiirc/LYAP.O4$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_O4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set LArguments="$K_VIDE" #
# $Z set LArguments="$LArguments"" dynamique_etendue=VRAI" #
# $Z set LArguments="$LArguments"" exposant=1.5" #
# #
# $Z set _____NTaux=32 #
# $Z set _____R3d=3.49 #
# $Z set _____R3a=3.00 #
# $Z set _____imagesR=$xiirc/LYAP.O4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_O4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.936,3.413]x[3.500,3.850]x[3.000,3.490] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Elle est voisine de 'v $xiirc/LYAP.C3$HauteDef.21' mais avec un exposant de 1.5 a la #
# place de 1 (et donc une dynamique non standard...). #
v $xiirc/LYAP.P3$HauteDef.1
v $xiirc/LYAP.P3$HauteDef.2
v $xiirc/LYAP.P3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_P3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____R1bg=2.500 #
# $Z set _____R2bg=3.000 #
# $Z set _____R3a=2.500 #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.P3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_P3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [2.347,3.502]x[3.000,3.850]x[2.500,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# #
# Concernant la validation des ombres portees, partant de ce qui precede, j'ai fait les #
# experiences suivantes en forcant les images '$_____ImageTd' en mode 'Pud' et avec #
# 64 couches, telles que : #
# #
# $_____ImageTd de 0000 a 0047 : $NOIR #
# $_____ImageTd de 0048 a 0063 : $BLANC #
# #
# puis en forcant a '$BLANC' les points {100,100}, {200,200} et {150,50} de l'image #
# '$_____ImageTd.0030' le tout suivi d'une dilatation avec "$xci/dilate.01$X points=225" #
# de cette image. Le resultat est parfait en ce qui concerne les ombres portees des trois #
# carres ('v $xiirc/LYAP.P3.TestOmbresPortees.1' ci-apres... #
v $xiirc/LYAP.P3$HauteDef.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_P3_HauteDef_1_1: #
# #
# $Z Pqu #
# #
# $Z set _____imagesA=$xiirc/LYAP.P3$HauteDef.1 #
# $Z set _____imagesR=$_____imagesA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA%s \ #
# $Z $formatI | \ #
# $Z $xci/jeu_vie.01$X \ #
# $Z iterations=3 \ #
# $Z R=$_____imagesR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_LYAP_P3_HauteDef_1_1: #
# #
v $xiirc/LYAP.P3$HauteDef.1.1$M
v $xiirc/LYAP.P3$HauteDef.1.1$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_P3_HauteDef_1_1_Mm: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesA=$xiirc/LYAP.P3$HauteDef.1.1 #
# $Z set _____imagesR=$_____imagesA #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____imagesA \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=1000 \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____imagesA%s \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____imagesA%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_LYAP_P3_HauteDef_1_1_Mm: #
# #
v $xiirc/LYAP.P3.TestOmbresPortees.1
v $xiirc/LYAP.P3.TestOmbresPortees.2
v $xiirc/LYAP.P3.TestOmbresPortees.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_P3_TestOmbresPortees: #
# #
# $Z Pud #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cDerniere=63 #
# $Z set _____R1bg=2.500 #
# $Z set _____R2bg=3.000 #
# $Z set _____R3a=2.500 #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.P3.TestOmbresPortees #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# #
# On notera que l'on fait ci-dessus des calculs inutiles (via '$xrk/lyapunov.22$Z'), mais #
# c'est afin de garantir le processus global... #
# #
# Ce qui suit est inspire de 'v $xiirc/.LYAP.C3.2.$U' : #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z SET _____Standard=VRAI #
# $Z set CoNvErTiR=FAUX #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# #
# Ce 'main(...)' est inspire de 'v $xiirf/.MENG.22.2.$U'... #
# #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c int niveau; #
# $c if (n <= 47) #
# $c { #
# $c niveau=0; #
# $c } #
# $c else #
# $c { #
# $c niveau=255; #
# #
# L'arriere plan doit faire plus d'un point d'epaisseur ('v $xiirv/.KNOT.81.2.$U') et #
# il est marque en BLANC : #
# #
# $c } #
# $c printf("$xci/init$X #
# $c n=%d #
# $c R=$_____ImageTd.%04d #
# $c $formatI\n" #
# $c ,niveau #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $xci/S_point$X \ #
# $Z A=$NOIR \ #
# $Z x=100 y=100 \ #
# $Z n=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z x=200 y=200 \ #
# $Z n=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z x=150 y=50 \ #
# $Z n=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z points=225 \ #
# $Z R=$_____ImageTd.0030 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_P3_TestOmbresPortees: #
# #
v $xiirc/LYAP.Q3$HauteDef.1
v $xiirc/LYAP.Q3$HauteDef.2
v $xiirc/LYAP.Q3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_Q3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cDerniere=1023 #
# $Z set _____R1bg=3.200 #
# $Z set _____R2bg=3.700 #
# $Z set _____R3a=2.500 #
# $Z set _____NTaux=32 #
# $Z set _____imagesR=$xiirc/LYAP.Q3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# :Fin_listG_LYAP_Q3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.173,3.376]x[3.700,3.850]x[2.500,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
v $xiirc/LYAP.P3Q3$HauteDef.1
v $xiirc/LYAP.P3Q3$HauteDef.2
v $xiirc/LYAP.P3Q3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_P3Q3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____imagesR=$xiirc/LYAP.P3Q3$HauteDef #
# #
# Ce qui suit est inspire de 'v $xiirc/.LYAP.C3.2.$U' : #
# #
# $Z set _____ImageT1=$xTV/`GetLeaf $_____imagesR` #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z SET _____Standard=VRAI #
# $Z set CoNvErTiR=FAUX #
# #
# $Z set _____ImageTd1=`echo $_____ImageTd | $SE -e "s/P3Q3/P3/"` #
# $Z set _____ImageTd2=`echo $_____ImageTd | $SE -e "s/P3Q3/Q3/"` #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# #
# Ce 'main(...)' est inspire de 'v $xiirf/.MENG.22.2.$U'... #
# #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/eor$X #
# $c A1=$_____ImageTd1.%04d #
# $c A2=$_____ImageTd2.%04d #
# $c R=$_____ImageTd.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LYAP_P3Q3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel "hybride" obtenu par "melange" des deux versions #
# 'v $xiirc/LYAP.P3$HauteDef.1' et 'v $xiirc/LYAP.Q3$HauteDef.1', en notant bien qu'elles #
# ne correspondent pas aux memes "boites" R1xR2xR3... #
v $xiirc/LYAP.P3Q3$HauteDef.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_P3Q3_HauteDef_1_1: #
# #
# $Z Pqu #
# #
# $Z set _____imagesA=$xiirc/LYAP.P3Q3$HauteDef.1 #
# $Z set _____imagesR=$_____imagesA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____imagesA%s \ #
# $Z $formatI | \ #
# $Z $xci/jeu_vie.01$X \ #
# $Z iterations=3 \ #
# $Z R=$_____imagesR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_LYAP_P3Q3_HauteDef_1_1: #
# #
v $xiirc/LYAP.P3Q3$HauteDef.1.1$M
v $xiirc/LYAP.P3Q3$HauteDef.1.1$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LYAP_P3Q3_HauteDef_1_1_Mm: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesA=$xiirc/LYAP.P3Q3$HauteDef.1.1 #
# $Z set _____imagesR=$_____imagesA #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____imagesA \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=1000 \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____imagesA%s \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z R=$_____imagesR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____imagesA%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_LYAP_P3Q3_HauteDef_1_1_Mm: #
# #
v $xiirc/LYAP.R3.1.0017
v $xiirc/LYAP.R3.2.0017
v $xiirc/LYAP.R3.21.0017
v $xiirc/LYAP.R3.1.0018
v $xiirc/LYAP.R3.2.0018
v $xiirc/LYAP.R3.21.0018
v $xiirc/LYAP.R3.1.0019
v $xiirc/LYAP.R3.2.0019
v $xiirc/LYAP.R3.21.0019
v $xiirc/LYAP.R3.1.0020
v $xiirc/LYAP.R3.2.0020
v $xiirc/LYAP.R3.21.0020
v $xiirc/LYAP.R3.1.0021
v $xiirc/LYAP.R3.2.0021
v $xiirc/LYAP.R3.21.0021
v $xiirc/LYAP.R3.1.0022
v $xiirc/LYAP.R3.2.0022
v $xiirc/LYAP.R3.21.0022
v $xiirc/LYAP.R3.1.0023
v $xiirc/LYAP.R3.2.0023
v $xiirc/LYAP.R3.21.0023
v $xiirc/LYAP.R3.1.0024
v $xiirc/LYAP.R3.2.0024
v $xiirc/LYAP.R3.21.0024
v $xiirc/LYAP.R3.1.0025
v $xiirc/LYAP.R3.2.0025
v $xiirc/LYAP.R3.21.0025
v $xiirc/LYAP.R3.1.0026
v $xiirc/LYAP.R3.2.0026
v $xiirc/LYAP.R3.21.0026
v $xiirc/LYAP.R3.1.0027
v $xiirc/LYAP.R3.2.0027
v $xiirc/LYAP.R3.21.0027
v $xiirc/LYAP.R3.1.0028
v $xiirc/LYAP.R3.2.0028
v $xiirc/LYAP.R3.21.0028
v $xiirc/LYAP.R3.1.0029
v $xiirc/LYAP.R3.2.0029
v $xiirc/LYAP.R3.21.0029
v $xiirc/LYAP.R3.1.0030
v $xiirc/LYAP.R3.2.0030
v $xiirc/LYAP.R3.21.0030
v $xiirc/LYAP.R3.1.0031
v $xiirc/LYAP.R3.2.0031
v $xiirc/LYAP.R3.21.0031
v $xiirc/LYAP.R3.1.0032
v $xiirc/LYAP.R3.2.0032
v $xiirc/LYAP.R3.21.0032
Pdu ; anim3 A=$xiirc/LYAP.R3.1. premiere=17 derniere=32
Pdu ; anim3 A=$xiirc/LYAP.R3.2. premiere=17 derniere=32
Pdu ; anim3 A=$xiirc/LYAP.R3.21. premiere=17 derniere=32
v $xiirc/LYAP.R3.21$R16
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-, '$CMAP28' -ex "republique"-, #
# '$CMAP28' -ex "porte-pouchet"-, '$CMAP28' -ex "porte-brancion"- et enfin #
# '$CMAP28' -ex "porte-d-auteuil"- en parallele, puis '$CMAP28' -ex "porte-de-la-chapelle"- #
# pour le regroupement) par : #
# #
# #
# :Debut_listG_LYAP_R3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cDerniere=1023 #
# #
# $Z set _____ImagesR=$xiirc/LYAP.R3 #
# #
# $Z setenv TaillePaquetsLinda 32 #
# #
# $Z @ NTaux = 16 #
# $Z @ Taux1 = 17 #
# $Z @ Taux2 = $Taux1 + $NTaux - 1 #
# #
# $Z set ATaux="$K_VIDE" #
# $Z set ATaux="$ATaux"" premiere=1" #
# $Z set ATaux="$ATaux"" derniere=$NTaux" #
# $Z set ATaux="$ATaux"" vD=$Taux1" #
# $Z set ATaux="$ATaux"" vA=$Taux2" #
# $Z set ATaux="$ATaux"" lineaire=VRAI" #
# $Z set ATaux="$ATaux"" entiers=VRAI" #
# $Z set LTaux=`$xci/valeurs_inte$X $ATaux` #
# #
# $Z set VeRrOuS=$DtemporairesC/`GetLeaf $_____ImagesR` #
# ATTENTION : en cas de "reprises", il peut etre necessaire de faire un '$DELETE' des #
# eventuels fichiers '$VeRrOuS*' pre-existants et ce de facon "manuelle". En effet, il #
# n'est pas possible d'introduire a priori ici un '$DELETE $VeRrOuS*' puisque le '$Z' #
# correspondant peut etre en train de s'executer sur une ou plusieurs autres MACHINEs... #
# #
# $Z set iPremiere=`$xci/nombres$X p=$Taux1 d=$Taux1` #
# $Z set iDerniere=`$xci/nombres$X p=$Taux2 d=$Taux2` #
# $Z set LNoMs=`$xci/nombres$X p=$iPremiere d=$iDerniere` #
# $Z set index=1 #
# #
# $Z foreach _____NTaux ($LTaux) #
# $Z Parallele $VeRrOuS $VeRrOuS.$LNoMs[$index] CaLcUlEr #
# #
# $Z IfBasic ($CaLcUlEr == $EXIST) ThenBasic #
# $Z echo "Taux=$_____NTaux" #
# #
# $Z set NuM=`$xci/nombres$X p=$_____NTaux d=$_____NTaux` #
# $Z set _____imagesR=$_____ImagesR.$NuM #
# #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z execRVB $MV $_____ImagesR.$NuM.1%s $_____ImagesR.1.$NuM%s #
# $Z execRVB $MV $_____ImagesR.$NuM.2%s $_____ImagesR.2.$NuM%s #
# $Z execRVB $MV $_____ImagesR.$NuM.21%s $_____ImagesR.21.$NuM%s #
# #
# $Z ElseBasic #
# $Z EndifBasic #
# #
# $Z @ index = $index + 1 #
# $Z end #
# #
# $Z set ChIfFrEs=`GetParam $xci/regroupe.01$X chiffres` #
# #
# $Z set NoMbRe=`calculINS sqrt($NTaux)` #
# #
# $Z if ($NEXIST) then #
# #
# En effet, a cause du mode 'Parallele' des calculs precedents, le '$xci/regroupe.02$Z' #
# qui suit ne peut s'executer tel quel. Il doit etre fait "a la main"... #
# #
# $Z execRVB $xci/regroupe.02$Z \ #
# $Z $_____ImagesR.21. \ #
# $Z $_____ImagesR.21$R16%s \ #
# $Z $iPremiere 1 \ #
# $Z $NoMbRe $NoMbRe \ #
# $Z "%s" \ #
# $Z '$K_QD$formatR_Phu$K_QD' \ #
# $Z $ChIfFrEs \ #
# $Z FAUX #
# $Z else #
# $Z endif #
# #
# :Fin_listG_LYAP_R3: #
# #
# #
# Ces images sont du type 'v $xiirc/LYAP.J3$HauteDef.21', le taux variant de 16 a 32... #
# #
# Voici pour les 16 images, d'une part la definition de chaque periode et d'autre part #
# les principales durees intermediaires : #
# #
# 0017 #
# R3,R3,R2,R2,R1,R1,R2,R3,R2,R1,R1,R3,R2,R2,R1,R1, #
# R1 #
# $xci/ombrage.11$X : 00:29:58 #
# $xci/accumule.42$X : 00:15:42 #
# #
# 0018 #
# R3,R3,R3,R2,R1,R1,R1,R3,R2,R1,R1,R2,R3,R2,R1,R1, #
# R1,R1 #
# $xci/ombrage.11$X : 00:47:14 #
# $xci/accumule.42$X : 00:25:12 #
# #
# 0019 #
# R3,R3,R3,R2,R1,R1,R1,R2,R3,R2,R1,R1,R2,R3,R2,R1, #
# R1,R1,R1 #
# $xci/ombrage.11$X : 00:46:09 #
# $xci/accumule.42$X : 00:23:40 #
# #
# 0020 #
# R3,R3,R3,R2,R1,R1,R1,R2,R3,R2,R1,R1,R2,R3,R3,R2, #
# R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:29:59 #
# $xci/accumule.42$X : 00:19:39 #
# #
# 0021 #
# R3,R3,R3,R2,R2,R1,R1,R1,R2,R3,R2,R1,R1,R2,R3,R2, #
# R2,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:25:37 #
# $xci/accumule.42$X : 00:16:08 #
# #
# 0022 #
# R3,R3,R3,R2,R2,R1,R1,R1,R2,R3,R2,R1,R1,R1,R2,R3, #
# R2,R2,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:36:56 #
# $xci/accumule.42$X : 00:20:20 #
# #
# 0023 #
# R3,R3,R3,R2,R2,R1,R1,R1,R2,R3,R3,R2,R1,R1,R2,R3, #
# R3,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:22:49 #
# $xci/accumule.42$X : 00:14:08 #
# #
# 0024 #
# R3,R3,R3,R2,R2,R1,R1,R1,R1,R2,R3,R2,R1,R1,R1,R2, #
# R3,R3,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:29:25 #
# $xci/accumule.42$X : 00:15:48 #
# #
# 0025 #
# R3,R3,R3,R2,R2,R2,R1,R1,R1,R2,R3,R3,R2,R1,R1,R1, #
# R2,R3,R2,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:45:04 #
# $xci/accumule.42$X : 00:23:23 #
# #
# 0026 #
# R3,R3,R3,R3,R2,R2,R1,R1,R1,R2,R2,R3,R2,R1,R1,R1, #
# R2,R2,R3,R2,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:46:19 #
# $xci/accumule.42$X : 00:23:42 #
# #
# 0027 #
# R3,R3,R3,R3,R2,R2,R1,R1,R1,R1,R2,R3,R2,R2,R1,R1, #
# R1,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:43:03 #
# $xci/accumule.42$X : 00:20:09 #
# #
# 0028 #
# R3,R3,R3,R3,R2,R2,R1,R1,R1,R1,R2,R3,R3,R2,R1,R1, #
# R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:33:44 #
# $xci/accumule.42$X : 00:17:04 #
# #
# 0029 #
# R3,R3,R3,R3,R2,R2,R1,R1,R1,R1,R2,R2,R3,R2,R2,R1, #
# R1,R1,R2,R2,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:29:08 #
# $xci/accumule.42$X : 00:16:02 #
# #
# 0030 #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R3,R3,R2,R1, #
# R1,R1,R1,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:59:13 #
# $xci/accumule.42$X : 00:27:57 #
# #
# 0031 #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R2,R2, #
# R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:48:28 #
# $xci/accumule.42$X : 00:23:33 #
# #
# 0032 #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# $xci/ombrage.11$X : 00:36:58 #
# $xci/accumule.42$X : 00:20:31 #
# #
v $xiirc/LYAP.S4$HauteDef.1
v $xiirc/LYAP.S4$HauteDef.2
v $xiirc/LYAP.S4$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_S4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=2047 #
# $Z SET _____DoublerSections=1 #
# #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____imagesR=$xiirc/LYAP.S4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_S4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un nouvelle version de 'v $xiirc/LYAP.J4$HauteDef.21' via la nouvelle option #
# '$_____DoublerSections'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 17:54:13 #
# #
# $xci/accumule.42$X : 05:29:01 #
# #
v $xiirc/LYAP.T3$HauteDef.1
v $xiirc/LYAP.T3$HauteDef.2
v $xiirc/LYAP.T3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_LYAP_T3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____imagesR=$xiirc/LYAP.T3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_T3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:17:28 #
# #
# $xci/accumule.42$X : 02:11:27 #
# #
v $xiirc/LYAP.T3.21$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_LYAP_T3_IdM: #
# #
# $Z Pqu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/LYAP.T3$HauteDef.21%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xiirc/LYAP.T3.21$IdM%s \ #
# $Z $formatR_TvB #
# #
# :Fin_listG_LYAP_T3_IdM: #
# #
v $xiirc/LYAP.T4$HauteDef.1
v $xiirc/LYAP.T4$HauteDef.2
v $xiirc/LYAP.T4$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_T4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=32 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____imagesR=$xiirc/LYAP.T4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_T4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R2,R2,R2,R1,R1,R1,R1,R2,R2,R3,R3,R2, #
# R1,R1,R1,R1,R2,R2,R3,R3,R2,R2,R1,R1,R1,R1,R1,R1 #
# #
# Il s'agit d'un nouvelle version de 'v $xiirc/LYAP.J4$HauteDef.21' via la nouvelle option #
# '$_____Epaissir'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 09:09:34 #
# #
# $xci/accumule.42$X : 05:36:20 #
# #
v $xiirc/LYAP.T5$HauteDef.1
v $xiirc/LYAP.T5$HauteDef.2
v $xiirc/LYAP.T5$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_T5_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=64 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____imagesR=$xiirc/LYAP.T5$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_T5_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R3,R3,R3,R3,R3,R3,R2,R2,R2,R2,R2,R2,R1,R1, #
# R1,R1,R1,R1,R1,R1,R1,R2,R2,R2,R3,R3,R3,R3,R2,R2, #
# R2,R1,R1,R1,R1,R1,R1,R1,R2,R2,R2,R3,R3,R3,R3,R3, #
# R2,R2,R2,R2,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 09:52:46 #
# #
# $xci/accumule.42$X : 07:27:56 #
# #
v $xiirc/LYAP.U3$HauteDef.1
v $xiirc/LYAP.U3$HauteDef.2
v $xiirc/LYAP.U3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_U3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# #
# $Z set _____LyapunovParam="$K_VIDE" #
# $Z set _____LyapunovParam="$_____LyapunovParam"" rotation=VRAI" #
# $Z set _____LyapunovParam="$_____LyapunovParam"" ROTATION_OY=0.025" #
# #
# $Z set _____imagesR=$xiirc/LYAP.U3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_U3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:34:22 #
# #
# $xci/accumule.42$X : 02:10:48 #
# #
v $xiirc/LYAP.V3$HauteDef.1
v $xiirc/LYAP.V3$HauteDef.2
v $xiirc/LYAP.V3$HauteDef.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_LYAP_V3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# #
# $Z set _____LyapunovParam="$K_VIDE" #
# $Z set _____LyapunovParam="$_____LyapunovParam"" exposant=0.9" #
# #
# $Z set _____imagesR=$xiirc/LYAP.V3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_V3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 03:20:46 #
# #
# $xci/accumule.42$X : 02:59:51 #
# #
v $xiirc/LYAP.V4$HauteDef.1
v $xiirc/LYAP.V4$HauteDef.2
v $xiirc/LYAP.V4$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_V4_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# #
# $Z set _____LyapunovParam="$K_VIDE" #
# $Z set _____LyapunovParam="$_____LyapunovParam"" exposant=1.1" #
# #
# $Z set _____imagesR=$xiirc/LYAP.V4$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_V4_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.000,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 05:14:56 #
# #
# $xci/accumule.42$X : 04:01:49 #
# #
v $xiirc/LYAP.W3$HauteDef.1
v $xiirc/LYAP.W3$HauteDef.2
v $xiirc/LYAP.W3$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_W3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____R3d=4.000 #
# $Z set _____R3a=3.900 #
# $Z set _____imagesR=$xiirc/LYAP.W3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_W3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.900,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:50:10 #
# #
# $xci/accumule.42$X : 01:23:45 #
# #
v $xiirc/LYAP.X3$HauteDef.1
v $xiirc/LYAP.X3$HauteDef.2
v $xiirc/LYAP.X3$HauteDef.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_LYAP_X3_HauteDef: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# $Z set _____Epaissir=VRAI #
# #
# $Z set _____NTaux=16 #
# $Z set _____R1bg=3.070 #
# $Z set _____R1hd=3.280 #
# $Z set _____R2bg=3.570 #
# $Z set _____R2hd=3.780 #
# $Z set _____R3d=4.000 #
# $Z set _____R3a=3.500 #
# $Z set _____imagesR=$xiirc/LYAP.X3$HauteDef #
# $m4 _____include(_____xiirc/.LYAP.C3.1._____U) #
# $m4 _____include(_____xiirc/.LYAP.C3.2._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z RBV #
# #
# :Fin_listG_LYAP_X3_HauteDef: #
# #
# #
# Ensemble de Lyapunov tridimensionnel dans [3.032,3.317]x[3.570,3.780]x[3.500,4.000] #
# utilisant la structure en {R1,R2,R3} suivante au cours d'une periode : #
# #
# R3,R3,R2,R2,R1,R1,R2,R2,R1,R1,R2,R3,R2,R1,R1,R1 #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:45:10 #
# #
# $xci/accumule.42$X : 01:31:18 #
# #
v $xiirc/LYAP.X3$HauteDef.1.1$m
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_LYAP_X3_HD_1_1_m: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $DStemporairesG #
# #
# $Z set _____imagesA=$xiirc/LYAP.X3$HauteDef.1 #
# $Z set _____imagesR=$_____imagesA.1$m #
# #
# $Z $xci/luminance.01$X A=$_____imagesA \ #
# $Z R=$xTV/LYAP.X3.HD.1.1 \ #
# $Z $formatI #
# #
# $Z $xci/acces$X A=$xTV/LYAP.X3.HD.1.1 \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X navap=VRAI \ #
# $Z standard=FAUX \ #
# $Z passes=16 \ #
# $Z R=$xTV/LYAP.X3.HD.1.2 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X A=$xTV/LYAP.X3.HD.1.1 \ #
# $Z p=$xiP/random.86 \ #
# $Z p=$xiP/trou_noir.C4 \ #
# #
# Le fait que deux palettes soient referencees ci-dessus n'est pas une erreur, mais traduit #
# les essais effectues pour trouver la meilleure (qui est donc en derniere position...). #
# #
# $Z R=$xTV/LYAP.X3.HD.1.3 \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/montagne.01$X \ #
# $Z A=$xTV/LYAP.X3.HD.1.2 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/LYAP.X3.HD.1.3%s \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/neutre$X R=$_____imagesR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_LYAP_X3_HD_1_1_m: #
# #
Gamma $Gamma_lorenz
v $xiirc/MA.42.1 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011416_011479 #
# #
# suivant la commande : #
# #
# $xci/accumule.01$X A=$xw1/MAND.2 premiere=1 derniere=64 \ #
# attenuation=0.0 renormaliser=VRAI \ #
# R=$xiirc/MA.42.1 \ #
# $formatI #
# #
Gamma $Gamma_mandel
v $xiirc/MA.42.2.0.128 p=$xiP/sepia.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011416_011479 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/MAND.2 premiere=1 derniere=64 inverser=VRAI \ #
# seuil=128 binariser=FAUX \ #
# R=$xiirc/MA.42.2.0.128 \ #
# $formatI #
# #
# On notera la necessite d'inverser l'ordre des images car, en effet, dans la sequence #
# #
# xivPdf 2 1 / 011416_011479 #
# #
# la composante 'J' varie de -1.0 a 0.0. #
Gamma $Gamma_lorenz
v $xiirc/MA.42.2.1.128 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011416_011479 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/MAND.2 premiere=1 derniere=64 inverser=VRAI \ #
# seuil=128 binariser=VRAI \ #
# R=$xiirc/MA.42.2.1.128 \ #
# $formatI #
# #
# On notera la necessite d'inverser l'ordre des images car, en effet, dans la sequence #
# #
# xivPdf 2 1 / 011416_011479 #
# #
# la composante 'J' varie de -1.0 a 0.0. #
Gamma $Gamma_lorenz
v $xiirc/MA.43.1 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011480_011607 #
# #
# suivant la commande : #
# #
# $xci/accumule.01$X A=$xw1/MAND.3 premiere=1 derniere=128 \ #
# attenuation=0.0 renormaliser=VRAI \ #
# R=$xiirc/MA.43.1 \ #
# $formatI #
# #
Gamma $Gamma_mandel
v $xiirc/MA.43.2.0.110 p=$xiP/sepia.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011480_011607 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/MAND.3 premiere=1 derniere=128 inverser=VRAI \ #
# seuil=110 binariser=FAUX \ #
# R=$xiirc/MA.43.2.0.110 \ #
# $formatI #
# #
# On notera la necessite d'inverser l'ordre des images car, en effet, dans la sequence #
# #
# xivPdf 2 1 / 011480_011607 #
# #
# la composante 'J' varie de -1.0 a +1.0. #
Gamma $Gamma_lorenz
v $xiirc/MA.43.2.1.110 p=$xiP/arc_ciel.01
# Correspond a l'integration de la sequence d'images suivantes : #
# #
# xivPdf 2 1 / 011480_011607 #
# #
# suivant la commande : #
# #
# $xci/accumule.02$X A=$xw1/MAND.3 premiere=1 derniere=128 inverser=VRAI \ #
# seuil=110 binariser=VRAI \ #
# R=$xiirc/MA.43.2.1.110 \ #
# $formatI #
# #
# On notera la necessite d'inverser l'ordre des images car, en effet, dans la sequence #
# #
# xivPdf 2 1 / 011480_011607 #
# #
# la composante 'J' varie de -1.0 a +1.0. #
v $xiirc/MAJU.11.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MAJU_11: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_N1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79628076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_N1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1_D6 $xTV/JULJ.D6 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -1.0 #
# $c #define EJ 0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/julia.81$X #
# $c images=1 #
# $c exposant=1 #
# $c iterations=8 #
# $c r=-0.5815147625160462 #
# $c i=+0.6358885017421603 #
# $c j=0 #
# $c k=0 #
# $c s=0 #
# $c t=0 #
# $c u=0 #
# $c v=0 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c eRho=7 #
# $c pA1=8 tA1=0.2 #
# $c pA2=8 tA2=0.2 #
# $c pA3=8 tA3=0.2 #
# $c pA4=8 tA4=0.2 #
# $c pA5=8 tA5=0.2 #
# $c pA6=8 tA6=0.2 #
# $c pA7=8 tA7=0.2 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_D6.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____ImageT1=$xTV/MAJU.11 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_N1.%04d \ #
# $Z A2=$_____ImageT1_D6.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MAJU.11 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MAJU_11: #
# #
# #
# Melange entre 'v $xiirc/MANE.N1.2' et 'v $xiirc/JULJ.D6.2'... #
v $xiirc/MAJU.21.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MAJU_21: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1_D6 $xTV/JULJ.D6 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -1.0 #
# $c #define EJ 0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/julia.81$X #
# $c images=1 #
# $c exposant=1 #
# $c iterations=8 #
# $c r=-0.5815147625160462 #
# $c i=+0.6358885017421603 #
# $c j=0 #
# $c k=0 #
# $c s=0 #
# $c t=0 #
# $c u=0 #
# $c v=0 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c eRho=7 #
# $c pA1=8 tA1=0.2 #
# $c pA2=8 tA2=0.2 #
# $c pA3=8 tA3=0.2 #
# $c pA4=8 tA4=0.2 #
# $c pA5=8 tA5=0.2 #
# $c pA6=8 tA6=0.2 #
# $c pA7=8 tA7=0.2 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_D6.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____ImageT1=$xTV/MAJU.21 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_O1.%04d \ #
# $Z A2=$_____ImageT1_D6.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MAJU.21 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MAJU_21: #
# #
# #
# Melange entre 'v $xiirc/MANE.O1.2' et 'v $xiirc/JULJ.D6.2'... #
v $xiirc/MANB.11
v $xiirc/MANB.11.1
v $xiirc/MANB.11.2
v $xiirc/MANB.12
v $xiirc/MANB.12.1
v $xiirc/MANB.12.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANB_11_12: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.11 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.12.2 #
# $Z set _____ImageT23=$xTV/MANB.12.3 #
# #
# $Z $DELETE $xTV/param.11 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+2.677 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.11 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z seuil=15 \ #
# $Z COMPOSANTE_J=$xTV/param.11 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1 ybg=-1 xhd=+1 yhd=+1 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z transformer_suite_point_repliement_S_R=-1 \ #
# $Z transformer_suite_point_repliement_S_I=-1 \ #
# $Z transformer_suite_point_repliement_S_J=-1 \ #
# $Z transformer_suite_point_repliement_S_K=-1 \ #
# $Z transformer_suite_point_inversion_Rs2_R=1000000 \ #
# $Z transformer_suite_point_inversion_Rs2_I=1000000 \ #
# $Z transformer_suite_point_inversion_Rs2_J=1000000 \ #
# $Z transformer_suite_point_inversion_Rs2_K=1000000 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.11 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.11%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.11%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.11.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.11.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.11.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MANB.12%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.12%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.12.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.12.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.12.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_11_12: #
# #
# #
# Generation d'une "MandelBox"... #
v $xiirc/MANB.21
v $xiirc/MANB.21.1
v $xiirc/MANB.21.2
v $xiirc/MANB.22
v $xiirc/MANB.22.1
v $xiirc/MANB.22.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANB_21_22: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.21 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.22.2 #
# $Z set _____ImageT23=$xTV/MANB.22.3 #
# #
# $Z $DELETE $xTV/param.21 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+6.002 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.21 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z seuil=40 \ #
# $Z COMPOSANTE_J=$xTV/param.21 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-6 ybg=-6 xhd=+6 yhd=+6 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z transformer_suite_point_inversion_Ri2_R=0.01 \ #
# $Z transformer_suite_point_inversion_Ri2_I=0.01 \ #
# $Z transformer_suite_point_inversion_Ri2_J=0.01 \ #
# $Z transformer_suite_point_inversion_Ri2_K=0.01 \ #
# $Z transformer_suite_point_inversion_Rs2_R=4 \ #
# $Z transformer_suite_point_inversion_Rs2_I=4 \ #
# $Z transformer_suite_point_inversion_Rs2_J=4 \ #
# $Z transformer_suite_point_inversion_Rs2_K=4 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.21 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.21%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.21%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.21.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.21.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.21.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MANB.22%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.22%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.22.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.22.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.22.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_21_22: #
# #
# #
# Generation d'une "MandelBox"... #
v $xiirc/MANB.31
v $xiirc/MANB.31.1
v $xiirc/MANB.31.2
v $xiirc/MANB.32
v $xiirc/MANB.32.1
v $xiirc/MANB.32.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANB_31_32: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.31 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.32.2 #
# $Z set _____ImageT23=$xTV/MANB.32.3 #
# #
# $Z $DELETE $xTV/param.31 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+1 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.31 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=15 \ #
# $Z seuil=50 \ #
# $Z COMPOSANTE_J=$xTV/param.31 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-6 ybg=-6 xhd=+6 yhd=+6 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.31 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.31%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.31%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.31.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.31.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.31.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.32%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.32%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.32.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.32.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.32.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_31_32: #
# #
# #
# Generation d'une "MandelBox"... #
v $xiirc/MANB.42.1.0001
v $xiirc/MANB.42.1.0002
v $xiirc/MANB.42.1.0003
v $xiirc/MANB.42.1.0004
v $xiirc/MANB.42.1.0005
v $xiirc/MANB.42.1.0006
v $xiirc/MANB.42.1.0007
v $xiirc/MANB.42.1.0008
v $xiirc/MANB.42.1.0009
v $xiirc/MANB.42.1.0010
v $xiirc/MANB.42.1.0011
v $xiirc/MANB.42.1.0012
v $xiirc/MANB.42.1.0013
v $xiirc/MANB.42.1.0014
v $xiirc/MANB.42.1.0015
v $xiirc/MANB.42.1.0016
v $xiirc/MANB.42.2.0001
v $xiirc/MANB.42.2.0002
v $xiirc/MANB.42.2.0003
v $xiirc/MANB.42.2.0004
v $xiirc/MANB.42.2.0005
v $xiirc/MANB.42.2.0006
v $xiirc/MANB.42.2.0007
v $xiirc/MANB.42.2.0008
v $xiirc/MANB.42.2.0009
v $xiirc/MANB.42.2.0010
v $xiirc/MANB.42.2.0011
v $xiirc/MANB.42.2.0012
v $xiirc/MANB.42.2.0013
v $xiirc/MANB.42.2.0014
v $xiirc/MANB.42.2.0015
v $xiirc/MANB.42.2.0016
# Correspond aux images des sequences : #
# #
# 'v $xiac/MANB.42.1$R16' #
# 'v $xiac/MANB.42.2$R16' #
# #
v $xiirc/MANB.51
v $xiirc/MANB.51.1
v $xiirc/MANB.51.2
v $xiirc/MANB.52
v $xiirc/MANB.52.1
v $xiirc/MANB.52.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANB_51_52: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.51 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.52.2 #
# $Z set _____ImageT23=$xTV/MANB.52.3 #
# #
# $Z $DELETE $xTV/param.51 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+3.208 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.51 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z seuil=25 \ #
# $Z COMPOSANTE_J=$xTV/param.51 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-3 ybg=-3 xhd=+3 yhd=+3 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z tsprlR=FAUX tsprlI=FAUX tsprlJ=FAUX tsprlK=FAUX \ #
# $Z tsprSR=-0.11 tsprSI=-0.11 \ #
# $Z tsprSJ=-0.11 tsprSK=-0.11 \ #
# $Z tsprxnR=-1.4 tsprxpR=1.4 \ #
# $Z tsprxnI=-1.4 tsprxpI=1.4 \ #
# $Z tsprxnJ=-1.4 tsprxpJ=1.4 \ #
# $Z tsprxnK=-1.4 tsprxpK=1.4 \ #
# $Z tsplAR=2.3 tsplAI=2.3 tsplAJ=2.3 tsplAK=2.3 \ #
# $Z tspiRi2R=0.01 tspiRi2I=0.01 \ #
# $Z tspiRi2J=0.01 tspiRi2K=0.01 \ #
# $Z tspiRs2R=14 tspiRs2I=14 tspiRs2J=14 tspiRs2K=14 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.51 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.51%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.51%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.51.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.51.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.51.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.52%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.52%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.52.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.52.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.52.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_51_52: #
# #
# #
# Generation d'une "MandelBox"... #
v $xiirc/MANB.61
v $xiirc/MANB.61.1
v $xiirc/MANB.61.2
v $xiirc/MANB.62
v $xiirc/MANB.62.1
v $xiirc/MANB.62.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANB_61_62: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.61 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.62.2 #
# $Z set _____ImageT23=$xTV/MANB.62.3 #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+1 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z seuil=5000000 \ #
# $Z tspnr=9 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-3 ybg=-3 xhd=+3 yhd=+3 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z tsprlR=FAUX tsprlI=FAUX tsprlJ=FAUX tsprlK=FAUX \ #
# $Z tsprSR=-0.11 tsprSI=-0.11 \ #
# $Z tsprSJ=-0.11 tsprSK=-0.11 \ #
# $Z tsprxnR=-1.4 tsprxpR=1.4 \ #
# $Z tsprxnI=-1.4 tsprxpI=1.4 \ #
# $Z tsprxnJ=-1.4 tsprxpJ=1.4 \ #
# $Z tsprxnK=-1.4 tsprxpK=1.4 \ #
# $Z tsplAR=2.3 tsplAI=2.3 tsplAJ=2.3 tsplAK=2.3 \ #
# $Z tspiRi2R=0.01 tspiRi2I=0.01 \ #
# $Z tspiRi2J=0.01 tspiRi2K=0.01 \ #
# $Z tspiRs2R=14 tspiRs2I=14 tspiRs2J=14 tspiRs2K=14 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.61%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.61%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.61.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.61.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.61.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.62%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.62%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.62.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.62.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.62.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_61_62: #
# #
# #
# Generation d'une "MandelBox"... #
v $xiirc/MANB.71
v $xiirc/MANB.71.1
v $xiirc/MANB.71.2
v $xiirc/MANB.72
v $xiirc/MANB.72.1
v $xiirc/MANB.72.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANB_71_72: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.71 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.72.2 #
# $Z set _____ImageT23=$xTV/MANB.72.3 #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.15 vA=+0.20 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.71 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=15 \ #
# $Z seuil=50 \ #
# $Z COMPOSANTE_J=$xTV/param.71 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+1.631311 ybg=+3.134247 \ #
# $Z xhd=+2.431311 yhd=+3.934247 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.71%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.71%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.71.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.71.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.71.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.72%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.72%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.72.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.72.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.72.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_71_72: #
# #
# #
# Generation d'une "MandelBox" (detail)... #
v $xiirc/MANB.81
v $xiirc/MANB.81.1
v $xiirc/MANB.81.2
v $xiirc/MANB.82
v $xiirc/MANB.82.1
v $xiirc/MANB.82.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANB_81_82: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.81 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.82.2 #
# $Z set _____ImageT23=$xTV/MANB.82.3 #
# #
# $Z $DELETE $xTV/param.81 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+0.04 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.81 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z seuil=25 \ #
# $Z COMPOSANTE_J=$xTV/param.81 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+1.169454 ybg=+2.236934 \ #
# $Z xhd=+1.369454 yhd=+2.436934 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z tsprlR=FAUX tsprlI=FAUX tsprlJ=FAUX tsprlK=FAUX \ #
# $Z tsprSR=-0.11 tsprSI=-0.11 \ #
# $Z tsprSJ=-0.11 tsprSK=-0.11 \ #
# $Z tsprxnR=-1.4 tsprxpR=1.4 \ #
# $Z tsprxnI=-1.4 tsprxpI=1.4 \ #
# $Z tsprxnJ=-1.4 tsprxpJ=1.4 \ #
# $Z tsprxnK=-1.4 tsprxpK=1.4 \ #
# $Z tsplAR=2.3 tsplAI=2.3 tsplAJ=2.3 tsplAK=2.3 \ #
# $Z tspiRi2R=0.01 tspiRi2I=0.01 \ #
# $Z tspiRi2J=0.01 tspiRi2K=0.01 \ #
# $Z tspiRs2R=14 tspiRs2I=14 tspiRs2J=14 tspiRs2K=14 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.81 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.81%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.81%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.81.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.81.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.81.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.82%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.82%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.82.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.82.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.82.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_81_82: #
# #
# #
# Generation d'une "MandelBox" (detail) de type "polynomial"... #
v $xiirc/MANB.81.2.1
v $xiirc/MANB.81.2.2
# Generee (sur '$LACT18') : #
# #
# #
# :Debut_listG_MANB_81_2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/MANB.81.2%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xTV/MANB.31%s \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xTV/MANB.31%s \ #
# $Z R=$xTV/MANB.32%s \ #
# $Z $formatI #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xTV/MANB.32%s \ #
# $Z R=$xTV/MANB.33%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/MANB.31%s \ #
# $Z R=$xTV/MANB.41%s \ #
# $Z $formatI #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/MANB.32%s \ #
# $Z R=$xTV/MANB.42%s \ #
# $Z $formatI #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/MANB.33%s \ #
# $Z R=$xTV/MANB.43%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xTV/MANB.43%s \ #
# $Z M=$xTV/MANB.42%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xTV/MANB.52%s \ #
# $Z $formatI #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xTV/MANB.52%s \ #
# $Z M=$xTV/MANB.41%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xTV/MANB.51%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/MANB.51%s \ #
# $Z R=$xTV/MANB.61%s \ #
# $Z $formatI #
# #
# $Z $xci/color_NB.01$Z $xTV/MANB.51 $xiirc/MANB.81.2.1 $xiP/trou_noir.A4 #
# $Z $xci/color_NB.01$Z $xTV/MANB.61 $xiirc/MANB.81.2.2 $xiP/trou_noir.A4 #
# #
# :Fin_listG_MANB_81_2: #
# #
v $xiirc/MANB.81.2.3
# Generee (sur '$LACT18') : #
# #
# #
# :Debut_listG_MANB_81_2_3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z execRVB "$xci/luminance.01$X \ #
# $Z A=$xiirc/MANB.81.2.1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z R=$xTV/MANB.51 \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/montagne.01$X \ #
# $Z A=$xTV/MANB.51 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xiirc/MANB.81.2.2%s \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/MANB.45%s \ #
# $Z $formatI" #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xTV/MANB.45%s \ #
# $Z R=$xTV/MANB.46%s \ #
# $Z $formatI #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z iterations=6 \ #
# $Z graine=1947 \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z p=$xiP/gris.46 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$xTV/MANB.82 \ #
# $Z $formatI #
# $Z execRVB $xci/interpole.02$X \ #
# $Z A1=$xTV/MANB.45%s \ #
# $Z A2=$xTV/MANB.46%s \ #
# $Z P=$xTV/MANB.82 \ #
# $Z R=$xiirc/MANB.81.2.3%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_81_2_3: #
# #
v $xiirc/MANB.91
v $xiirc/MANB.91.1
v $xiirc/MANB.91.2
v $xiirc/MANB.92
v $xiirc/MANB.92.1
v $xiirc/MANB.92.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANB_91_92: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.91 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.92.2 #
# $Z set _____ImageT23=$xTV/MANB.92.3 #
# #
# $Z $DELETE $xTV/param.91 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+2 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.91 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z seuil=30 \ #
# $Z COMPOSANTE_J=$xTV/param.91 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+1.5 ybg=+1.5 xhd=+3 yhd=+3 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z tsprlR=FAUX tsprlI=FAUX tsprlJ=FAUX tsprlK=FAUX \ #
# $Z tsprpR=FAUX tsprpI=FAUX tsprpJ=FAUX tsprpK=FAUX \ #
# $Z tsprsR=VRAI tsprsI=VRAI tsprsJ=VRAI tsprsK=VRAI \ #
# $Z tsprSR=-0.11 tsprSI=-0.11 \ #
# $Z tsprSJ=-0.11 tsprSK=-0.11 \ #
# $Z tsprxpR=0.7 \ #
# $Z tsprxpI=0.7 \ #
# $Z tsprxpJ=0.7 \ #
# $Z tsprxpK=0.7 \ #
# $Z tsplAR=2.3 tsplAI=2.3 tsplAJ=2.3 tsplAK=2.3 \ #
# $Z tspiRi2R=0.1 tspiRi2I=0.1 \ #
# $Z tspiRi2J=0.1 tspiRi2K=0.1 \ #
# $Z tspiRs2R=13 tspiRs2I=13 tspiRs2J=13 tspiRs2K=13 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.91 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANB.91%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.91%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.91.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.91.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.91.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z ROTATION_OY=+0.3 \ #
# $Z R=$xiirc/MANB.92%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANB.92%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANB.92.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANB.92.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANB.92.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANB_91_92: #
# #
# #
# Generation d'une "MandelBox" (detail) de type "sinusoidal"... #
v $xiirc/MANB.A1
v $xiirc/MANB.A1.1
v $xiirc/MANB.A1.2
v $xiirc/MANB.A1.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANB_A1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANB.A1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANB.A2.2 #
# $Z set _____ImageT23=$xTV/MANB.A2.3 #
# #
# $Z $DELETE $xTV/param.A1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.15 vA=+0.20 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.A1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=15 \ #
# $Z seuil=50 \ #
# $Z COMPOSANTE_J=$xTV/param.A1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+1.631311 ybg=+3.134247 \ #
# $Z xhd=+2.431311 yhd=+3.934247 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z transformer_suite_point=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.A1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANB.A1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANB_A1: #
# #
# #
# Generation d'une "MandelBox" (detail) identiques a 'v $xiirc/MANB.71.2' mais avec les #
# ombres portees... #
v $xiirc/MANB.B1.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANB_B1: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv PCMemorySizeMB 100 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANB.B1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.15 #
# $c #define EJ 0.20 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.41$X #
# $c images=1 #
# $c iterations=15 #
# $c seuil=50 #
# $c J=%f #
# $c K=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=+1.631311 #
# $c xhd=+2.431311 #
# $c ybg=+3.134247 #
# $c yhd=+3.934247 #
# $c pnt=FAUX #
# $c tsp=VRAI #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANB.B1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANB_B1: #
# #
# #
# Generation d'une "MandelBox" (detail) identiques a 'v $xiirc/MANB.A1.2' mais avec une #
# bien meilleure resolution... #
v $xiirc/MAND.51$m
# Generee par : #
# #
# $Z Sdu #
# #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 iterations=256 \ #
# $Z xbgD=-2.5 ybgD=-1.5 \ #
# $Z xhdD=0.5 yhdD=1.5 \ #
# $Z arguments=FAUX \ #
# $Z R=$xT/MANDEL.1. \ #
# $Z $formatI #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 iterations=256 \ #
# $Z xbgD=-2.5 ybgD=-1.5 \ #
# $Z xhdD=0.5 yhdD=1.5 \ #
# $Z arguments=VRAI \ #
# $Z R=$xT/MANDEL.2. \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xT/MANDEL.2.0000 \ #
# $Z p=$xiP/random.06 \ #
# $Z RVB=VRAI \ #
# $Z R=$xT/MANDEL.2 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xT/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xT/MANDEL.1.0000 \ #
# $Z N=$xT/GAUSS \ #
# $Z R=$xT/MANDEL.1 \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xT/MANDEL.1 \ #
# $Z T=$xT/MANDEL.2$ROUGE \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/transpose$X \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z R=$xiirc/MAND.51$m$ROUGE \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xT/MANDEL.1 \ #
# $Z T=$xT/MANDEL.2$VERTE \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/transpose$X \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z R=$xiirc/MAND.51$m$VERTE \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xT/MANDEL.1 \ #
# $Z T=$xT/MANDEL.2$BLEUE \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/transpose$X \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z R=$xiirc/MAND.51$m$BLEUE \ #
# $Z $formatI #
# #
# #
# $X $xci/genere$X c='ro $xiirc/MAND.51$m%s' RVB=VRAI #
# #
# $X $xci/genere$X c='$xcg/unite$Z $xiirc/MAND.51$m%s' RVB=VRAI #
# #
# Cette image correspond au projet de couverture pour Computer Graphics and Applications #
# du 03/1997 demande par l'IEEE ('v $Dcourrier_in/19970109135025'). #
v $xiirc/MAND.B1$M.0000 p=$xiP/trou_noir.A4
v $xiirc/MAND.B1$M.0104 p=$xiP/trou_noir.A4
v $xiirc/MAND.B1$M.0136 p=$xiP/trou_noir.A4
v $xiirc/MAND.B1$M.0168 p=$xiP/trou_noir.A4
# Correspond a quelques images de la sequence d'images suivante : #
# #
# xivPdf 9 1 / 005756_006011 #
# xivPdf 9 1 / 006012_006267 #
# #
# recalculee bien tardivement (aux alentours du 20060414175215) sur '$LACT17'. Au passage, #
# cela a demande les modifications suivantes 'v $xrc/mandel.02$K 20060414171417' et #
# 'v $xrc/mandel.02$K 20060414173128'. Du coup 'v $xiac/MAND.B1$M$R16 p=$xiP/trou_noir.A4' #
# a ete recalcule pour ameliorer sa qualite en ce qui concerne les "falaises avant" des #
# montagnes ('v $xrc/mandel.02$K 20060414173128')... #
# #
# Afin d'assurer la coherence avec les images 'v $xiac/MAND.B1$M$R1 p=$xiP/trou_noir.A4' et #
# 'v $xiac/MAND.B1$M$R64 p=$xiP/trou_noir.A4', apres tous les transferts inter-MACHINEs #
# utiles, ont ete faits des : #
# #
# retouche $xiirc/MAND.B1$M.0000 19951215000000 #
# retouche $xiirc/MAND.B1$M.0104 19951215000000 #
# retouche $xiirc/MAND.B1$M.0136 19951215000000 #
# retouche $xiirc/MAND.B1$M.0168 19951215000000 #
# #
# qui sont justifies car, meme si ces images ont ete (re) calcules aux alentours du #
# 20060414175215, elles avaient concues (et calcules pour generer les '$R16' et '$R64', #
# puis detruites) aux alentours du 19951215000000... #
v $xiirc/MA.E1$M.0000
v $xiirc/MA.E1$M.0016
v $xiirc/MA.E1$M.0056
v $xiirc/MA.E1$M.0072
v $xiirc/MA.E1$M.0104
# Correspond aux images '0000', '0016', '0056', '0072' et '0104' de la sequence : #
# #
# xivPdf 12 1 / 016604_016731 #
# #
v $xiirc/MA.E2$M.0005
v $xiirc/MA.E2$M.0017
v $xiirc/MA.E2$M.0058
v $xiirc/MA.E2$M.0075
# Correspond aux images '0005', '0017', '0058' et '0075' de la sequence : : #
# #
# xivPdf 12 1 / 016860_016987 #
# #
v $xiirc/MA.F1$M.0000
v $xiirc/MA.F1$M.0016
v $xiirc/MA.F1$M.0056
v $xiirc/MA.F1$M.0072
v $xiirc/MA.F1$M.0104
# Correspond aux images '0000', '0016', '0056', '0072' '0078', '0098' et '0104' de la #
# sequence : #
# #
# 'v $xiac/MA.F1$M$R16' #
# #
v $xiirc/MA.F2$M.0000
v $xiirc/MA.F2$M.0016
v $xiirc/MA.F2$M.0056
v $xiirc/MA.F2$M.0072
v $xiirc/MA.F2$M.0078
v $xiirc/MA.F2$M.0098
v $xiirc/MA.F2$M.0104
# Correspond aux images '0000', '0016', '0056', '0072' '0078', '0098' et '0104' de la #
# sequence : #
# #
# 'v $xiac/MA.F2$M$R16' #
# #
v $xiirc/MA.F3$M.0000
v $xiirc/MA.F3$M.0016
v $xiirc/MA.F3$M.0056
v $xiirc/MA.F3$M.0072
v $xiirc/MA.F3$M.0078
v $xiirc/MA.F3$M.0098
v $xiirc/MA.F3$M.0104
# Correspond aux images '0000', '0016', '0056', '0072' et '0104' de la sequence : #
# #
# 'v $xiac/MA.F3$M$R16' #
# #
v $xiirc/MA.G2$M.0000
v $xiirc/MA.G2$M.0015
v $xiirc/MA.G2$M.0030
v $xiirc/MA.G2$M.0045
v $xiirc/MA.G2$M.0060
v $xiirc/MA.G2$M.0075
v $xiirc/MA.G2$M.0090
v $xiirc/MA.G2$M.0105
v $xiirc/MA.G2$M.0120
Pal ; anim3 A=$xiirc/MA.G2$M. premiere=0 derniere=120 pas=15
# Correspond a neuf images de la sequence : #
# #
# 'v $xiac/MA.G2$M$R16' #
# #
v $xiirc/MA.G3$M.0000
v $xiirc/MA.G3$M.0015
v $xiirc/MA.G3$M.0030
v $xiirc/MA.G3$M.0045
v $xiirc/MA.G3$M.0060
v $xiirc/MA.G3$M.0075
v $xiirc/MA.G3$M.0090
v $xiirc/MA.G3$M.0105
v $xiirc/MA.G3$M.0120
Pal ; anim3 A=$xiirc/MA.G3$M. premiere=0 derniere=120 pas=15
# Correspond a neuf images de la sequence : #
# #
# 'v $xiac/MA.G3$M$R16' #
# #
v $xiirc/MA.H3$M.0000
v $xiirc/MA.H3$M.0015
v $xiirc/MA.H3$M.0030
v $xiirc/MA.H3$M.0045
v $xiirc/MA.H3$M.0060
v $xiirc/MA.H3$M.0075
v $xiirc/MA.H3$M.0090
v $xiirc/MA.H3$M.0105
v $xiirc/MA.H3$M.0120
Pal ; anim3 A=$xiirc/MA.H3$M. premiere=0 derniere=120 pas=15
# Correspond a neuf images de la sequence : #
# #
# 'v $xiac/MA.H3$M$R16' #
# #
v $xiirc/MA.R3$M.0001
v $xiirc/MA.R3$M.0016
v $xiirc/MA.R3$M.0032
v $xiirc/MA.R3$M.0048
v $xiirc/MA.R3$M.0064
v $xiirc/MA.R3$M.0080
v $xiirc/MA.R3$M.0096
v $xiirc/MA.R3$M.0112
v $xiirc/MA.R3$M.0128
Pdu ; anim3 A=$xiirc/MA.R3$M. premiere=1 derniere=128 pas=15
# Correspond a neuf images de la sequence : #
# #
# 'v $xiac/MA.R3$M$R16' #
# #
v $xiirc/MA.R3$M.0321
v $xiirc/MA.R3$M.0433
v $xiirc/MA.R3$M.0497
# Correspond a trois images de la sequence : #
# #
# 'v $xiac/MA.S3$M$R16' #
# #
v $xiirc/MAND.R1$M
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_MAND_R1_M: #
# #
# $Z Pal #
# #
# #
# $Z $xrc/mandel.01$X \ #
# $Z images=1 \ #
# $Z arguments=VRAI \ #
# $Z etendre_precision=FAUX \ #
# $Z R=$xTV/MANDEL.1 \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# $Z $xrc/mandel.01$X \ #
# $Z images=1 \ #
# $Z arguments=VRAI \ #
# $Z etendre_precision=VRAI \ #
# $Z R=$xTV/MANDEL.21 \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/MANDEL.1 \ #
# $Z N=$xTV/GAUSS \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/TEXTURE \ #
# $Z p=$xiP/arc_ciel.01 \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/MANDEL.21 \ #
# $Z N=$xTV/GAUSS \ #
# $Z standardA=FAUX \ #
# $Z seuil=250 \ #
# $Z R=$xTV/MANDEL.22 \ #
# $Z standardR=FAUX \ #
# $Z $formatI #
# #
# $Z set PaRaM="$K_VIDE" #
# $Z set PaRaM="$PaRaM"" A=$xTV/MANDEL.22" #
# $Z set PaRaM="$PaRaM"" standard=FAUX zero=FAUX" #
# $Z set PaRaM="$PaRaM"" T=$xTV/TEXTURE%s" #
# $Z set PaRaM="$PaRaM"" fond=VRAI F=$BLANC" #
# $Z set PaRaM="$PaRaM"" avion=FAUX" #
# $Z set PaRaM="$PaRaM"" Z-Buffer=VRAI Z=$xTV/BRUME" #
# #
# $Z execRVB $xci/montagne.01$X $PaRaM R=$xiirc/MAND.R1$M%s $formatI #
# #
# $Z $xci/complement$X \ #
# $Z A=$xTV/BRUME \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z set PaRaM="$K_VIDE" #
# $Z set PaRaM="$PaRaM"" A=$xiirc/MAND.R1$M%s" #
# $Z set PaRaM="$PaRaM"" B=$xTV/BRUME" #
# #
# $Z execRVB $xci/brume.11$X $PaRaM R=$xiirc/MAND.R1$M%s $formatI #
# #
# $Z set PaRaM="$K_VIDE" #
# $Z set PaRaM="$PaRaM"" A=$xiirc/MAND.R1$M%s" #
# $Z set PaRaM="$PaRaM"" points=9" #
# $Z set PaRaM="$PaRaM"" seuil=0.05" #
# #
# $Z execRVB $xci/pt_isole.01$X $PaRaM R=$xiirc/MAND.R1$M%s $formatI #
# #
# :Fin_listG_MAND_R1_M: #
# #
v $xiirc/MAND.S1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_MAND_S1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/param.S1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.S1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z COMPOSANTE_J=$xTV/param.S1 \ #
# $Z K=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$xTV/MAND.S1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.S1 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/MAND.S1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z R=$xTV/MAND.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/MAND.11 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/MAND.0001 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/reduction_04$X \ #
# $Z A=$xTV/MAND. \ #
# $Z postfixe=%s \ #
# $Z premiere=1 ErreurLecture=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xTV/MAND.12%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/MAND.12%s \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/MAND.S1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_MAND_S1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions... #
v $xiirc/MAND.S2
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_MAND_S2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/param.S2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.0 vA=+1.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.S2 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=32 \ #
# $Z COMPOSANTE_J=$xTV/param.S2 \ #
# $Z K=0 \ #
# $Z arithmetique_folklorique_C=VRAI \ #
# $Z sR_R2xR1=0.2 sI_R2xI1=0.2 \ #
# $Z pRa0110=0.2 pIa0101=0.2 \ #
# $Z sR_I2xR2xR1=0.2 sI_I2xR2xI1=0.2 \ #
# $Z pRa1110=0.2 pIa1101=0.2 \ #
# $Z sR_I2xI1xR1=0.2 sIa1011=0.2 \ #
# $Z pRa1011=0.2 pIa1011=0.2 \ #
# $Z sR_R2xI1xR1=0.2 sIa0111=0.2 \ #
# $Z pRa0111=0.2 pIa0111=0.2 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$xTV/MAND.S2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.S2 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xTV/MAND.S2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=+0.00195695 try=0 \ #
# $Z R=$xTV/MAND.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/MAND.11 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/MAND.0001 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/reduction_04$X \ #
# $Z A=$xTV/MAND. \ #
# $Z postfixe=%s \ #
# $Z premiere=1 ErreurLecture=FAUX \ #
# $Z moyenne=VRAI \ #
# $Z R=$xTV/MAND.12%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/MAND.12%s \ #
# $Z $formatI \ #
# $Z mode=3 \ #
# $Z R=$xiirc/MAND.S2%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_MAND_S2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec l'arithmetique "folklorique" dans C... #
v $xiirc/MAND.S3.1
v $xiirc/MAND.S3.2
v $xiirc/MAND.S3.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MAND_S3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MAND.S3 #
# #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pR_R2xI1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pI_R2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_I2xR2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_I2xR2xI1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pR_I2xR2xI1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pI_I2xR2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_I2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_I2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pR_I2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pI_I2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pR_R2xI1xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" pI_R2xI1xR1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MAND.S3.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MAND.S3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MAND_S3: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec l'arithmetique "folklorique" dans C... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:09:09 #
# #
# $xci/accumule.42$X : 00:20:42 #
# #
v $xiirc/MAND.T1 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T1 #
# #
# $Z $DELETE $xTV/param.T1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-0.32686074820968 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=128 \ #
# $Z COMPOSANTE_J=$xTV/param.T1 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.5 ybg=-1.0 xhd=+0.5 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T1 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T1 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(0),(1.PHI)+(0)}... #
v $xiirc/MAND.T2 p=$xiP/fractal.11
v $xiirc/MAND.T2.1 p=$xiP/gris.01
v $xiirc/MAND.T2.2 p=$xiP/gris.01
v $xiirc/MAND.T2.2 p=$xiP/trou_noir.94
v $xiirc/MAND.T2.3 p=$xiP/gris.01
v $xiirc/MAND.T2.3 p=$xiP/trou_noir.94
v $xiirc/MAND.T2.4 p=$xiP/gris.01
v $xiirc/MAND.T2.4 p=$xiP/trou_noir.94
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T2 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.T2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2787401574803 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T2 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T2 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.2 ybg=-1.0 xhd=+0.8 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z tTheta=$pis2 tPhi=$pis2 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T2 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T2 \ #
# $Z $formatI #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z $xci/accumule.41$X \ #
# $Z A=$_____ImageTd. \ #
# $Z standard=FAUX \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z inverser_Z=VRAI \ #
# $Z interpoler=VRAI lineaire=VRAI \ #
# $Z source_lumineuse=FAUX \ #
# $Z cn=FAUX cnl=FAUX ccXYZ=VRAI pZ=1 \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z R=$xiirc/MAND.T2.1 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.41$X \ #
# $Z A=$_____ImageTd. \ #
# $Z standard=FAUX \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z inverser_Z=VRAI \ #
# $Z interpoler=VRAI lineaire=VRAI \ #
# $Z source_lumineuse=VRAI \ #
# $Z cn=FAUX cnl=VRAI ccXYZ=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z R=$xiirc/MAND.T2.2 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.41$X \ #
# $Z A=$_____ImageTd. \ #
# $Z standard=FAUX \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z inverser_Z=VRAI \ #
# $Z interpoler=VRAI lineaire=VRAI \ #
# $Z source_lumineuse=VRAI \ #
# $Z speculaire=4 \ #
# $Z cn=FAUX cnl=VRAI ccXYZ=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z R=$xiirc/MAND.T2.3 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.41$X \ #
# $Z A=$_____ImageTd. \ #
# $Z standard=FAUX \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z inverser_Z=VRAI \ #
# $Z interpoler=VRAI lineaire=VRAI \ #
# $Z ROTATION_OX=+1 \ #
# $Z source_lumineuse=VRAI \ #
# $Z speculaire=4 \ #
# $Z cn=FAUX cnl=VRAI ccXYZ=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z R=$xiirc/MAND.T2.4 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi/2),(1.PHI)+(pi/2)}... #
v $xiirc/MAND.T3 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T3 #
# #
# $Z $DELETE $xTV/param.T3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2787401574803 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T3 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T3 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pis2 tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T3 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T3 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T3: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi/2),(2.PHI)+(pi)}... #
v $xiirc/MAND.T4 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T4: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T4 #
# #
# $Z $DELETE $xTV/param.T4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.58453487506974 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T4 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T4 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.5 ybg=-1.0 xhd=+1.5 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z tTheta=$pis2 tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T4 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T4 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T4: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi/2),(1.PHI)+(pi)}... #
v $xiirc/MAND.T5 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T5: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T5 #
# #
# $Z $DELETE $xTV/param.T5 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.58453487506974 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T5 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T5 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.8 ybg=-1.0 xhd=+0.2 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T5 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T5 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T5: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(1.PHI)+(pi)}... #
v $xiirc/MAND.T6 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T6: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T6 #
# #
# $Z $DELETE $xTV/param.T6 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.58453487506974 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T6 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T6 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T6 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T6 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T6: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)}... #
v $xiirc/MAND.T7 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T7: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T7 #
# #
# $Z $DELETE $xTV/param.T7 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.1149606299213 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T7 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T7 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.84 ybg=-0.84 xhd=+0.84 yhd=+0.84 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pis2 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T7 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T7 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T7: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(2.PHI)+(pi/2)}... #
v $xiirc/MAND.T8 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_T8: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.T8 #
# #
# $Z $DELETE $xTV/param.T8 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.T8 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.T8 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.8 ybg=-1.1 xhd=+0.4 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.T8 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.T8 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_T8: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(2.PHI)+(pi)}... #
v $xiirc/MAND.U1
v $xiirc/MAND.U1.1
v $xiirc/MAND.U1.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_U1: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.U1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.U1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.U1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=60 \ #
# $Z COMPOSANTE_J=$xTV/param.U1 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.U1 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z seuil=25 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=`calcul 2/$dimX` try=0 \ #
# $Z R=$_____ImageT1 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____ImageT1 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$_____ImageT1 \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/convol.01$X \ #
# $Z A=$_____ImageT1%s \ #
# $Z points=25 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xiirc/MAND.U1%s \ #
# $Z $formatR_Pal" #
# #
# $Z Pal #
# #
# $Z $xci/detourage.11$Z $xiirc/MAND.U1 $xiirc/MAND.U1.1 6 80 $EXIST $NEXIST #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.U1.1%s \ #
# $Z R=$xiirc/MAND.U1.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_U1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)}... #
v $xiirc/MAND.U1.0001
v $xiirc/MAND.U1.0002
v $xiirc/MAND.U1.0003
v $xiirc/MAND.U1.0004
v $xiirc/MAND.U1.0005
v $xiirc/MAND.U1.0006
v $xiirc/MAND.U1.0007
v $xiirc/MAND.U1.0008
v $xiirc/MAND.U1.0009
v $xiirc/MAND.U1.0010
v $xiirc/MAND.U1.0011
v $xiirc/MAND.U1.0012
v $xiirc/MAND.U1.0013
v $xiirc/MAND.U1.0014
v $xiirc/MAND.U1.0015
v $xiirc/MAND.U1.0016
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.U1$R16' #
# #
v $xiirc/MAND.U1.2.0001
v $xiirc/MAND.U1.2.0002
v $xiirc/MAND.U1.2.0003
v $xiirc/MAND.U1.2.0004
v $xiirc/MAND.U1.2.0005
v $xiirc/MAND.U1.2.0006
v $xiirc/MAND.U1.2.0007
v $xiirc/MAND.U1.2.0008
v $xiirc/MAND.U1.2.0009
v $xiirc/MAND.U1.2.0010
v $xiirc/MAND.U1.2.0011
v $xiirc/MAND.U1.2.0012
v $xiirc/MAND.U1.2.0013
v $xiirc/MAND.U1.2.0014
v $xiirc/MAND.U1.2.0015
v $xiirc/MAND.U1.2.0016
# Generee (sur '$LACT18') : #
# #
# #
# :Debut_listG_MAND_U1_2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____ImageR1=$xiirc/MAND.U1 #
# $Z set _____ImageR2=$xiirc/MAND.U1.2 #
# #
# $c #include <stdio.h> #
# $c #
# $c extern double cos(); #
# $c extern double sin(); #
# $c #
# $c #define N0 Premiere #
# $c #define N Derniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("Pal\n"); #
# $c #
# $c printf("$xci/detourage.11$Z #
# $c $_____ImageR1.%04d #
# $c $xTV/DETOURAGE.1 #
# $c 6 #
# $c 80 #
# $c $EXIST #
# $c $NEXIST\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("execRVB %c$xci/format.01$X #
# $c A=$xTV/DETOURAGE.1%%s #
# $c $formatI #
# $c mode=2 #
# $c R=$xTV/DETOURAGE.2%%s #
# $c $formatR_Pqu%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# $c #
# $c printf("Pqu\n"); #
# $c #
# $c printf("execRVB %c$xci/convol.01$X #
# $c A=$xTV/DETOURAGE.2%%s #
# $c points=25 #
# $c $formatI | #
# $c $xci/format.01$X #
# $c mode=2 #
# $c R=$_____ImageR2.%04d%%s #
# $c $formatR_Pal%c\n" #
# $c ,'"' #
# $c ,n #
# $c ,'"' #
# $c ); #
# $c #
# $c printf("Pal\n"); #
# $c #
# $c } #
# $c } #
# #
# :Fin_listG_MAND_U1_2: #
# #
v $xiirc/MAND.V1 p=$xiP/fractal.11
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_V1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.V1 #
# #
# $Z $DELETE $xTV/param.V1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.75 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.V1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z exposant=8 \ #
# $Z COMPOSANTE_J=$xTV/param.V1 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.V1 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.V1 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_V1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(0),(1.PHI)+(0)} et avec l'exposant 8 (et non 2)... #
v $xiirc/MAND.V8 p=$xiP/fractal.11
# Generee (sur '$LACT18') : #
# #
# #
# :Debut_listG_MAND_V8: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.V8 #
# #
# $Z $DELETE $xTV/param.V8 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.V8 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z exposant=8 \ #
# $Z COMPOSANTE_J=$xTV/param.V8 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.V8 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=VRAI \ #
# $Z binariser=VRAI \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirc/MAND.V8 \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_V8: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(2.PHI)+(pi)} et avec l'exposant 8 (et non 2)... #
v $xiirc/MAND.W2
v $xiirc/MAND.W2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_W2: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=`$xcg/MAX2.01$X x=$dimX y=$dimY signe="$K_VIDE"` #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.W2 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.W2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2787401574803 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.W2 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.W2 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.2 ybg=-1.0 xhd=+0.8 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z tTheta=$pis2 tPhi=$pis2 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.W2 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=+1" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.W2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.W2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.W2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_W2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi/2),(1.PHI)+(pi/2)}... #
v $xiirc/MAND.X1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_X1: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.X1 #
# #
# $Z $DELETE $xTV/param.X1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.40 vA=+0.60 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.X1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=60 \ #
# $Z COMPOSANTE_J=$xTV/param.X1 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=0.1 xhd=0.3 ybg=0.1 yhd=0.3 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=FAUX \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.X1 #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z inverser=FAUX \ #
# $Z binariser=VRAI \ #
# $Z seuil=50 \ #
# $Z translation_quelconque=FAUX \ #
# $Z stereo=0.0 \ #
# $Z trx=`calcul 2/$dimX` try=0 \ #
# $Z R=$_____ImageT1 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____ImageT1 \ #
# $Z p=$xiP/fractal.11 \ #
# $Z RVB=VRAI \ #
# $Z R=$_____ImageT1 \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/convol.01$X \ #
# $Z A=$_____ImageT1%s \ #
# $Z points=25 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xiirc/MAND.X1%s \ #
# $Z $formatR_Pal" #
# #
# :Fin_listG_MAND_X1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} avec zoom dans une region interesante... #
v $xiirc/MAND.X2
v $xiirc/MAND.X2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_X2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.X2 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.X2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.40 vA=+0.60 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.X2 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=15 \ #
# $Z COMPOSANTE_J=$xTV/param.X2 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=0.1 xhd=0.3 ybg=0.1 yhd=0.3 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.X2 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.X2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.X2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.X2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_X2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} avec zoom dans une region interesante... #
v $xiirc/MAND.X3
v $xiirc/MAND.X3.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_X3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.X3 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.X3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.40 vA=+0.60 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.X3 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=15 \ #
# $Z COMPOSANTE_J=$xTV/param.X3 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=0.1 xhd=0.3 ybg=0.1 yhd=0.3 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.X3 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.X3%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.X3%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.X3.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_X3: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} avec zoom dans une region interesante... #
v $xiirc/MAND.Y1
v $xiirc/MAND.Y1.1
v $xiirc/MAND.Y1.1$HauteDef
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_Y1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.Y1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.Y1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.Y1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z COMPOSANTE_J=$xTV/param.Y1 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.Y1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.Y1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.Y1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.Y1.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_Y1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} et une composante 'K' non nulle... #
# #
# L'image 'v $xiirc/MAND.Y1.1$HauteDef' a ete obtenu avec 'Pqu' et '$execRVB_Para=FAUX'. #
v $xiirc/MAND.Z1
v $xiirc/MAND.Z1.1
v $xiirc/MAND.Z2
v $xiirc/MAND.Z2.1
v $xiirc/MAND.Z2.2
v $xiirc/MAND.Z2.2$HauteDef
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MAND_Z1_Z2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.Z1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.Z2.2 #
# $Z set _____ImageT23=$xTV/MAND.Z2.3 #
# #
# $Z $DELETE $xTV/param.Z1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.Z1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z COMPOSANTE_J=$xTV/param.Z1 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.Z1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.Z1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.Z1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.Z1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.Z2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.Z2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.Z2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.Z2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.Z2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.Z2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.Z2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_Z1_Z2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} et une composante 'K' non nulle... #
# #
# L'image 'v $xiirc/MAND.Z2.2$HauteDef' a ete obtenu avec 'Pqu' et '$execRVB_Para=FAUX'. #
v $xiirc/MAND.a1
v $xiirc/MAND.a1.1
v $xiirc/MAND.a2
v $xiirc/MAND.a2.1
v $xiirc/MAND.a2.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_a1_a2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.a1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.a2.2 #
# $Z set _____ImageT23=$xTV/MAND.a2.3 #
# #
# $Z $DELETE $xTV/param.a1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.a1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=10 \ #
# $Z COMPOSANTE_J=$xTV/param.a1 \ #
# $Z K=+0.1 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.a1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.a1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.a1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.a1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.a2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.a2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.a2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.a2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.a2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.a2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.a2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_a1_a2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)}... #
v $xiirc/MAND.b1
v $xiirc/MAND.b1.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_b1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.b1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.b1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+0.01 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.b1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=50 \ #
# $Z COMPOSANTE_J=$xTV/param.b1 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.745 xhd=-0.725 ybg=0.200 yhd=0.220 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.b1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.b1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.b1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.b1.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_b1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" avec #
# visualisation d'une zone des "hippocampes"... #
v $xiirc/MAND.b2
v $xiirc/MAND.b2.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_b2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.b2 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.b2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.b2 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=50 \ #
# $Z COMPOSANTE_J=$xTV/param.b2 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.745 xhd=-0.725 ybg=0.200 yhd=0.220 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.b2 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.b2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.b2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.b2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_b2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" avec #
# visualisation d'une zone des "hippocampes"... #
v $xiirc/MAND.b3
v $xiirc/MAND.b3.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_b3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.b3 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.b3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+0.001 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.b3 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=50 \ #
# $Z COMPOSANTE_J=$xTV/param.b3 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.735 xhd=-0.715 ybg=0.200 yhd=0.220 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z ROTATION_OY=0.01 \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.b3 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.b3%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.b3%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.b3.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_b3: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" avec #
# visualisation d'une zone des "hippocampes"... #
v $xiirc/MAND.b4
v $xiirc/MAND.b4.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_b4: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.b4 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.b4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0 vA=+0.002 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.b4 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=50 \ #
# $Z COMPOSANTE_J=$xTV/param.b4 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.745 xhd=-0.725 ybg=0.200 yhd=0.220 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z ROTATION_OY=0.0001 \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.b4 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.b4%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.b4%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.b4.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_b4: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" avec #
# visualisation d'une zone des "hippocampes"... #
v $xiirc/MAND.c1
v $xiirc/MAND.c1.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_c1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.c1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# #
# $Z $DELETE $xTV/param.c1 #
# #
# $Z set Cxbg_=-0.745 #
# $Z set Cxhd_=-0.725 #
# $Z set Cybg_=+0.200 #
# $Z set Cyhd_=+0.220 #
# $Z set CzD__=0 #
# $Z set CzA__=0.001 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=$CzD__ vA=$CzA__ \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.c1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=50 \ #
# $Z COMPOSANTE_J=$xTV/param.c1 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=$Cxbg_ xhd=$Cxhd_ ybg=$Cybg_ yhd=$Cyhd_ \ #
# $Z produit_non_theorique=VRAI \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z ROTATION_OY=0.5 \ #
# $Z Xrot=`calcul ($Cxbg_+$Cxhd_)/2` \ #
# $Z Yrot=`calcul ($Cybg_+$Cyhd_)/2` \ #
# $Z Zrot=`calcul ($CzD__+$CzA__)/2` \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.c1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# $Z set PaRaMA="$PaRaMA"" ROTATION_OX=0" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z R=$xiirc/MAND.c1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.c1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.c1.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_c1: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" avec #
# visualisation d'une zone des "hippocampes"... #
v $xiirc/MAND.d2.1.0001
v $xiirc/MAND.d2.1.0002
v $xiirc/MAND.d2.1.0003
v $xiirc/MAND.d2.1.0004
v $xiirc/MAND.d2.1.0005
v $xiirc/MAND.d2.1.0006
v $xiirc/MAND.d2.1.0007
# Correspond aux sept premieres images de la sequence : #
# #
# 'v $xiac/MAND.d2.1$R16' #
# #
v $xiirc/MAND.d2.2.0001
v $xiirc/MAND.d2.2.0002
v $xiirc/MAND.d2.2.0003
v $xiirc/MAND.d2.2.0004
v $xiirc/MAND.d2.2.0005
v $xiirc/MAND.d2.2.0006
v $xiirc/MAND.d2.2.0007
# Correspond aux sept premieres images de la sequence : #
# #
# 'v $xiac/MAND.d2.2$R16' #
# #
v $xiirc/MAND.e1
v $xiirc/MAND.e1.1
v $xiirc/MAND.e2
v $xiirc/MAND.e2.1
v $xiirc/MAND.e2.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_e1_e2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.e1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.e2.2 #
# $Z set _____ImageT23=$xTV/MAND.e2.3 #
# #
# $Z $DELETE $xTV/param.e1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.e1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.e1 \ #
# $Z K=0 \ #
# $Z exposant=2 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.8 ybg=-1.1 xhd=+0.4 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.e1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.e1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.e1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.e1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.e2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.e2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.e2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.e2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.e2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.e2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.e2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_e1_e2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(2.PHI)+(pi)} et calcule avec un polynome de degre 2. #
v $xiirc/MAND.f1
v $xiirc/MAND.f1.1
v $xiirc/MAND.f2
v $xiirc/MAND.f2.1
v $xiirc/MAND.f2.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_f1_f2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.f1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.f2.2 #
# $Z set _____ImageT23=$xTV/MAND.f2.3 #
# #
# $Z $DELETE $xTV/param.f1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.2 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.f1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.f1 \ #
# $Z K=0 \ #
# $Z exposant=8 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.f1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.f1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.f1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.f1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.f2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.f2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.f2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.f2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.f2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.f2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.f2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_f1_f2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(pi),(2.PHI)+(pi)} et calcule avec un polynome de degre 8. #
v $xiirc/MAND.g1
v $xiirc/MAND.g1.1
v $xiirc/MAND.g2
v $xiirc/MAND.g2.1
v $xiirc/MAND.g2.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_g1_g2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.g1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.g2.2 #
# $Z set _____ImageT23=$xTV/MAND.g2.3 #
# #
# $Z $DELETE $xTV/param.g1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.g1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.g1 \ #
# $Z K=0 \ #
# $Z exposant=8 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=2 pPhi=2 \ #
# $Z tTheta=$pi tPhi=$pi \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.g1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.g1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.g1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.g1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.g2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.g2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.g2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.g2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.g2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.g2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.g2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_g1_g2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} et calcule avec un polynome de degre 8. #
v $xiirc/MAND.h1
v $xiirc/MAND.h1.1
v $xiirc/MAND.h2
v $xiirc/MAND.h2.1
v $xiirc/MAND.h2.2
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MAND_h1_h2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.h1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.h2.2 #
# $Z set _____ImageT23=$xTV/MAND.h2.3 #
# #
# $Z $DELETE $xTV/param.h1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.77 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.h1 #
# #
# #
# $Z set ExPoSaNt=8 #
# #
# $Z set pTheta1=2 #
# $Z set tTheta1=$pi #
# #
# $Z set pTheta2=`$xcg/EquaPnThQ.01$X n=$ExPoSaNt nA=$pTheta1 nB=$tTheta1 pra=1 prb=0` #
# $Z set tTheta2=`$xcg/EquaPnThQ.01$X n=$ExPoSaNt nA=$pTheta1 nB=$tTheta1 pra=0 prb=1` #
# #
# $Z set pPhi1=2 #
# $Z set tPhi1=$pi #
# #
# $Z set pPhi2=`$xcg/EquaPnThQ.01$X n=$ExPoSaNt nA=$pPhi1 nB=$tPhi1 pra=1 prb=0` #
# $Z set tPhi2=`$xcg/EquaPnThQ.01$X n=$ExPoSaNt nA=$pPhi1 nB=$tPhi1 pra=0 prb=1` #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.h1 \ #
# $Z K=0 \ #
# $Z exposant=$ExPoSaNt \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=$pTheta2 pPhi=$pPhi2 \ #
# $Z tTheta=$tTheta2 tPhi=$tPhi2 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.h1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.h1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.h1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.h1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.h2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.h2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.h2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.h2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.h2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.h2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.h2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_h1_h2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(2.THETA)+(pi),(2.PHI)+(pi)} et calcule avec un polynome de degre 8, mais en prenant #
# en compte le fait que l'exponentiation entiere (a la puissante 'N') est faite d'une #
# suite de 'N-1' multiplications... #
v $xiirc/MAND.i1
v $xiirc/MAND.i1.1
v $xiirc/MAND.i2
v $xiirc/MAND.i2.1
v $xiirc/MAND.i2.2
# Generee (sur '$CMAP28' -ex "maubert"-) par : #
# #
# #
# :Debut_listG_MAND_i1_i2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.i1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.i2.2 #
# $Z set _____ImageT23=$xTV/MAND.i2.3 #
# #
# $Z $DELETE $xTV/param.i1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.735 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.i1 #
# #
# $Z set ExPoSaNt=8 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.i1 \ #
# $Z K=0 \ #
# $Z exposant=$ExPoSaNt \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=1 pPhi=1 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.i1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.i1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.i1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.i1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.i2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.i2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.i2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.i2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.i2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.i2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.i2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_i1_i2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(1.THETA)+(0),(1.PHI)+(0)} et calcule avec un polynome de degre 8. #
v $xiirc/MAND.j1
v $xiirc/MAND.j1.1
v $xiirc/MAND.j2
v $xiirc/MAND.j2.1
v $xiirc/MAND.j2.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MAND_j1_j2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.j1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.j2.2 #
# $Z set _____ImageT23=$xTV/MAND.j2.3 #
# #
# $Z $DELETE $xTV/param.j1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.735 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.j1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.j1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.j1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.j1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.j1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.j1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.j2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.j2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.j2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.j2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.j2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.j2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.j2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_j1_j2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0)} et en elevant 'Rho' a la puissance 1 avec un polynome de #
# degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome de #
# degre 8 (par definition du "produit non theorique"...). #
v $xiirc/MAND.k1
v $xiirc/MAND.k1.1
v $xiirc/MAND.k2
v $xiirc/MAND.k2.1
v $xiirc/MAND.k2.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MAND_k1_k2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.k1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.k2.2 #
# $Z set _____ImageT23=$xTV/MAND.k2.3 #
# #
# $Z $DELETE $xTV/param.k1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.k1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.k1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.k1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.k1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.k1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.k1.1%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.k2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.k2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.k2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.k2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.k2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.k2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.k2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_k1_k2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0)} et en elevant 'Rho' a la puissance 8 avec un polynome de #
# degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 8 (par definition du "produit non theorique"...). #
v $xiirc/MAND.l2.1.0001
v $xiirc/MAND.l2.1.0002
v $xiirc/MAND.l2.1.0003
v $xiirc/MAND.l2.1.0004
v $xiirc/MAND.l2.1.0005
v $xiirc/MAND.l2.1.0006
v $xiirc/MAND.l2.1.0007
v $xiirc/MAND.l2.1.0008
v $xiirc/MAND.l2.1.0009
v $xiirc/MAND.l2.1.0010
v $xiirc/MAND.l2.1.0011
v $xiirc/MAND.l2.1.0012
v $xiirc/MAND.l2.1.0013
v $xiirc/MAND.l2.1.0014
v $xiirc/MAND.l2.1.0015
v $xiirc/MAND.l2.1.0016
Pal ; anim3 A=$xiirc/MAND.l2.1. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.l2.1$R16' #
# #
v $xiirc/MAND.l2.2.0001
v $xiirc/MAND.l2.2.0002
v $xiirc/MAND.l2.2.0003
v $xiirc/MAND.l2.2.0004
v $xiirc/MAND.l2.2.0005
v $xiirc/MAND.l2.2.0006
v $xiirc/MAND.l2.2.0007
v $xiirc/MAND.l2.2.0008
v $xiirc/MAND.l2.2.0009
v $xiirc/MAND.l2.2.0010
v $xiirc/MAND.l2.2.0011
v $xiirc/MAND.l2.2.0012
v $xiirc/MAND.l2.2.0013
v $xiirc/MAND.l2.2.0014
v $xiirc/MAND.l2.2.0015
v $xiirc/MAND.l2.2.0016
Pal ; anim3 A=$xiirc/MAND.l2.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.l2.2$R16' #
# #
v $xiirc/MAND.m2.1.0001
v $xiirc/MAND.m2.1.0002
v $xiirc/MAND.m2.1.0003
v $xiirc/MAND.m2.1.0004
v $xiirc/MAND.m2.1.0005
v $xiirc/MAND.m2.1.0006
v $xiirc/MAND.m2.1.0007
v $xiirc/MAND.m2.1.0008
v $xiirc/MAND.m2.1.0009
v $xiirc/MAND.m2.1.0010
v $xiirc/MAND.m2.1.0011
v $xiirc/MAND.m2.1.0012
v $xiirc/MAND.m2.1.0013
v $xiirc/MAND.m2.1.0014
v $xiirc/MAND.m2.1.0015
v $xiirc/MAND.m2.1.0016
Pal ; anim3 A=$xiirc/MAND.m2.1. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.m2.1$R16' #
# #
v $xiirc/MAND.m2.2.0001
v $xiirc/MAND.m2.2.0002
v $xiirc/MAND.m2.2.0003
v $xiirc/MAND.m2.2.0004
v $xiirc/MAND.m2.2.0005
v $xiirc/MAND.m2.2.0006
v $xiirc/MAND.m2.2.0007
v $xiirc/MAND.m2.2.0008
v $xiirc/MAND.m2.2.0009
v $xiirc/MAND.m2.2.0010
v $xiirc/MAND.m2.2.0011
v $xiirc/MAND.m2.2.0012
v $xiirc/MAND.m2.2.0013
v $xiirc/MAND.m2.2.0014
v $xiirc/MAND.m2.2.0015
v $xiirc/MAND.m2.2.0016
Pal ; anim3 A=$xiirc/MAND.m2.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.m2.2$R16' #
# #
v $xiirc/MAND.n2.1.0001
v $xiirc/MAND.n2.1.0002
v $xiirc/MAND.n2.1.0003
v $xiirc/MAND.n2.1.0004
v $xiirc/MAND.n2.1.0005
v $xiirc/MAND.n2.1.0006
v $xiirc/MAND.n2.1.0007
v $xiirc/MAND.n2.1.0008
v $xiirc/MAND.n2.1.0009
v $xiirc/MAND.n2.1.0010
v $xiirc/MAND.n2.1.0011
v $xiirc/MAND.n2.1.0012
v $xiirc/MAND.n2.1.0013
v $xiirc/MAND.n2.1.0014
v $xiirc/MAND.n2.1.0015
v $xiirc/MAND.n2.1.0016
Pal ; anim3 A=$xiirc/MAND.n2.1. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.n2.1$R16' #
# #
v $xiirc/MAND.n2.2.0001
v $xiirc/MAND.n2.2.0002
v $xiirc/MAND.n2.2.0003
v $xiirc/MAND.n2.2.0004
v $xiirc/MAND.n2.2.0005
v $xiirc/MAND.n2.2.0006
v $xiirc/MAND.n2.2.0007
v $xiirc/MAND.n2.2.0008
v $xiirc/MAND.n2.2.0009
v $xiirc/MAND.n2.2.0010
v $xiirc/MAND.n2.2.0011
v $xiirc/MAND.n2.2.0012
v $xiirc/MAND.n2.2.0013
v $xiirc/MAND.n2.2.0014
v $xiirc/MAND.n2.2.0015
v $xiirc/MAND.n2.2.0016
Pal ; anim3 A=$xiirc/MAND.n2.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.n2.2$R16' #
# #
v $xiirc/MAND.o1
v $xiirc/MAND.o1.1
v $xiirc/MAND.o1.2
v $xiirc/MAND.o2
v $xiirc/MAND.o2.1
v $xiirc/MAND.o2.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_o1_o2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.o1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.o2.2 #
# $Z set _____ImageT23=$xTV/MAND.o2.3 #
# #
# $Z $DELETE $xTV/param.o1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.20000000 vA=0.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.o1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.o1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+0.607445 ybg=+0.398258 \ #
# $Z xhd=+0.807445 yhd=+0.598258 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.o1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.o2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.o1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.o1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.o1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.o2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.o1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.o1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.o2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.o2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.o2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.o2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.o2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.o2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.o2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_o1_o2: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0)} et calcule avec un polynome #
# de degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 8 (par definition du "produit non theorique"...) et en elevant 'Rho' a la #
# puissance 8. #
v $xiirc/MAND.p1
v $xiirc/MAND.p1.1
v $xiirc/MAND.p1.2
v $xiirc/MAND.p2
v $xiirc/MAND.p2.1
v $xiirc/MAND.p2.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MAND_p1_p2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.p1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.p2.2 #
# $Z set _____ImageT23=$xTV/MAND.p2.3 #
# #
# $Z $DELETE $xTV/param.p1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.09747 vA=+0.03149 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.p1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.p1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=+0.715949 ybg=+0.516812 \ #
# $Z xhd=+0.765949 yhd=+0.566812 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.p1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.p2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.p1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.p1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.p1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.p2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.p1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.p1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.p2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.p2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.p2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.p2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.p2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.p2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.p2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_p1_p2: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0)} et calcule avec un polynome #
# de degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 8 (par definition du "produit non theorique"...) et en elevant 'Rho' a la #
# puissance 8. #
v $xiirc/MAND.q1
v $xiirc/MAND.q1.1
v $xiirc/MAND.q1.2
v $xiirc/MAND.q2
v $xiirc/MAND.q2.1
v $xiirc/MAND.q2.2
v $xiirc/MAND.q1.2$HauteDef
v $xiirc/MAND.q2.2$HauteDef
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MAND_q1_q2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.q1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.q2.2 #
# $Z set _____ImageT23=$xTV/MAND.q2.3 #
# #
# $Z $DELETE $xTV/param.q1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.820 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.q1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.q1 \ #
# $Z K=+0.7 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.q1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.q2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.q1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.q1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.q1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.q2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.q1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.q1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.q2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.q2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.q2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.q2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.q2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.q2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.q2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_q1_q2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et en elevant 'Rho' a la puissance 8 avec un #
# polynome de degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0),(1.ALPHA)+(0)} #
# avec un polynome de degre 8 (par definition du "produit non theorique"...). #
# #
# Les images 'v $xiirc/MAND.q1.2$HauteDef' et 'v $xiirc/MAND.q2.2$HauteDef' ont ete obtenues #
# avec 'Pqu' et '$execRVB_Para=FAUX'. #
v $xiirc/MAND.q1.2.1
v $xiirc/MAND.q1.2.2
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_MAND_q1_2_12: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xT/GAUSS \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/un_sur_z.01$X \ #
# $Z A=$xiirc/MAND.q1.2%s \ #
# $Z facteur=400000 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/convol.02$X \ #
# $Z N=$xT/GAUSS \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z V=$BLANC \ #
# $Z F=$BLANC \ #
# $Z R=$xTV/MAND.01%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/convol.01$X \ #
# $Z A=$xiirc/MAND.q1.2%s \ #
# $Z points=625 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/z_carre.01$X \ #
# $Z facteur=0.02 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xTV/MAND.02%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/cache$X \ #
# $Z A=$xTV/MAND.02%s \ #
# $Z M=$xTV/MAND.01%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xiirc/MAND.q1.2.1%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/cache$X \ #
# $Z A=$xTV/MAND.01%s \ #
# $Z M=$xTV/MAND.02%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xiirc/MAND.q1.2.2%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MAND_q1_2_12: #
# #
v $xiirc/MAND.q1.2.3
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MAND_q1_2_3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z mx=0.2 my=0.2 \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z p=$xiP/gris.47 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=1 \ #
# $Z R=$xTV/FRACTAL \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=128 #
# $Z SET Nimages=`calcul $Derniere-$Premiere+1` #
# #
# $Z $DELETE $xTV/EXPANSION #
# $Z $xci/valeurs_inte$X \ #
# $Z p=$Premiere d=$Derniere \ #
# $Z vD=0.1 vA=1.2 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/EXPANSION #
# #
# $Z $xrr/univers.10$X \ #
# $Z np=$Nimages \ #
# $Z aleatoire=VRAI \ #
# $Z siR=$GRIS_4 ssR=$GRIS_8 \ #
# $Z siV=$GRIS_0 ssV=$GRIS_7 \ #
# $Z siB=$GRIS_0 ssB=$GRIS_1 \ #
# $Z fichier=$xie/galaxies.5015 \ #
# $Z FACTEUR_D_EXPANSION=$xTV/EXPANSION \ #
# $Z FACTEUR_DU_RAYON=0.5 \ #
# $Z R=$xTV/UNIVERS. \ #
# $Z $formatI #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$xTV/UNIVERS. \ #
# $Z postfixe=%s \ #
# $Z premiere=$Premiere derniere=$Derniere \ #
# $Z attenuation=0.95 \ #
# $Z maximum=VRAI \ #
# $Z R=$xTV/UNIVERS%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/substitue$X \ #
# $Z A=$xTV/UNIVERS%s \ #
# $Z p=$xiP/gris.81 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$xTV/UNIVERS%s \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/interpole.02$X \ #
# $Z A1=$xTV/UNIVERS%s \ #
# $Z A2=$xiirc/MAND.q2.2%s \ #
# $Z P=$xTV/FRACTAL \ #
# $Z R=$xiirc/MAND.q1.2.3%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MAND_q1_2_3: #
# #
# #
# Le calcul de '$xT/FRACTAL' au format 'Pal' est lie d'une part au besoin de reduire le #
# temps de calcul et d'autre part a la necessite d'eviter le message : #
# #
# Lors du calcul d'un noeud par rapport au centre, le processus boucle #
# #
# lors du calcul (par exemple avec le format 'Pdu'...). #
v $xiirc/MAND.r2.1.0001
v $xiirc/MAND.r2.1.0002
v $xiirc/MAND.r2.1.0003
v $xiirc/MAND.r2.1.0004
v $xiirc/MAND.r2.1.0005
v $xiirc/MAND.r2.1.0006
v $xiirc/MAND.r2.1.0007
v $xiirc/MAND.r2.1.0008
v $xiirc/MAND.r2.1.0009
v $xiirc/MAND.r2.1.0010
v $xiirc/MAND.r2.1.0011
v $xiirc/MAND.r2.1.0012
v $xiirc/MAND.r2.1.0013
v $xiirc/MAND.r2.1.0014
v $xiirc/MAND.r2.1.0015
v $xiirc/MAND.r2.1.0016
Pal ; anim3 A=$xiirc/MAND.r2.1. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.r2.1$R16' #
# #
v $xiirc/MAND.r2.2.0001
v $xiirc/MAND.r2.2.0002
v $xiirc/MAND.r2.2.0003
v $xiirc/MAND.r2.2.0004
v $xiirc/MAND.r2.2.0005
v $xiirc/MAND.r2.2.0006
v $xiirc/MAND.r2.2.0007
v $xiirc/MAND.r2.2.0008
v $xiirc/MAND.r2.2.0009
v $xiirc/MAND.r2.2.0010
v $xiirc/MAND.r2.2.0011
v $xiirc/MAND.r2.2.0012
v $xiirc/MAND.r2.2.0013
v $xiirc/MAND.r2.2.0014
v $xiirc/MAND.r2.2.0015
v $xiirc/MAND.r2.2.0016
Pal ; anim3 A=$xiirc/MAND.r2.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MAND.r2.2$R16' #
# #
v $xiirc/MAND.s1
v $xiirc/MAND.s1.1
v $xiirc/MAND.s1.2
v $xiirc/MAND.s2
v $xiirc/MAND.s2.1
v $xiirc/MAND.s2.2
v $xiac/MAND.s12$R16 p=$xiP/nuages.02
v $xiac/MAND.s12$R64 p=$xiP/nuages.02
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_s1_s2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.s1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.s2.2 #
# $Z set _____ImageT23=$xTV/MAND.s2.3 #
# #
# $Z setenv _____imagesS $_____ImageT1.t #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____imagesS. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z p=$xiP/nuages.02 \ #
# $Z R=$_____imagesS. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.s1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.s1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.s1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.s1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" T=$_____imagesS." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiereA=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" premiereT=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_ZA=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=FAUX" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="ZBuffer=VRAI Z=$xTV/Z_BUFFER.s2" #
# $Z set exec_aV="$K_VIDE" #
# $Z set exec_aB="$K_VIDE" #
# $Z execRVB $xci/accumule.42$X \ #
# $Z $PaRaMA \ #
# $Z postfixeT=%s \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.s1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.s1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.s1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.s2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.s1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.s1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="ZBuffer=VRAI Z=$xTV/Z_BUFFER.s2" #
# $Z set exec_aV="$K_VIDE" #
# $Z set exec_aB="$K_VIDE" #
# $Z execRVB $xci/accumule.42$X \ #
# $Z $PaRaMA \ #
# $Z postfixeT=%s \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.s2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.s2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.s2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.s2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.s2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.s2.2%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesS #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/MAND.s12 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_MAND_s1_s2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0)} et en elevant 'Rho' a la puissance 8 avec un polynome de #
# degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 8 (par definition du "produit non theorique"...), le tout avec une texture #
# "nuageuse"... #
v $xiirc/MAND.t1
v $xiirc/MAND.t1.1
v $xiirc/MAND.t1.2
v $xiirc/MAND.t2
v $xiirc/MAND.t2.1
v $xiirc/MAND.t2.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_t1_t2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.t1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.t2.2 #
# $Z set _____ImageT23=$xTV/MAND.t2.3 #
# #
# $Z setenv _____imagesS1 $_____ImageT1.1 #
# $Z setenv _____imagesS2 $_____ImageT1.2 #
# $Z setenv _____imagesS3 $_____ImageT1.3 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/passe_bande$X #
# $c A=$_____imagesS1.%04d #
# $c forcer_niveau_intermediaire=VRAI #
# $c niveau_intermediaire=$BLANC #
# $c seuil_inferieur=`calcul $GRIS_4-3` #
# $c seuil_superieur=`calcul $GRIS_4+3` #
# $c R=$_____imagesS2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# $Z $DELETE $xTV/param.t1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.t1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.t1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.t1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/substitue$X #
# $c A=$_____imagesS1.%04d #
# $c p=$xiP/gris.47 #
# $c substitution=L_SUBSTITUTION_ROUGE #
# $c $formatI | #
# $c $xci/interpole.02$X #
# $c A1=$_____imagesS2.%04d #
# $c A2=$_____ImageT1.%04d #
# $c R=$_____imagesS3.%04d #
# $c $formatI\n" #
# $c ,(N-n)+N0 #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____imagesS3. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" ddgX=2 ddgY=2 ddgZ=2" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.t2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.t1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.t1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.t1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.t2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.t1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.t1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.t2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.t2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.t2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.t2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.t2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.t2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.t2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_t1_t2: #
# #
# #
# Interpolation entre 'v $xiirc/MAND.k2.2' et '$xiirf/FRA3.O2.1'... #
v $xiirc/MAND.u1
v $xiirc/MAND.u1.1
v $xiirc/MAND.u1.2
v $xiirc/MAND.u2
v $xiirc/MAND.u2.1
v $xiirc/MAND.u2.2
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_u1_u2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.u1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.u2.2 #
# $Z set _____ImageT23=$xTV/MAND.u2.3 #
# #
# $Z setenv _____imagesS1 $_____ImageT1.1 #
# $Z setenv _____imagesS2 $_____ImageT1.2 #
# $Z setenv _____imagesS3 $_____ImageT1.3 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/passe_bande$X #
# $c A=$_____imagesS1.%04d #
# $c forcer_niveau_intermediaire=VRAI #
# $c niveau_intermediaire=$BLANC #
# $c seuil_inferieur=`calcul $GRIS_4-1` #
# $c seuil_superieur=`calcul $GRIS_4+1` #
# $c R=$_____imagesS2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $DELETE $xTV/param.u1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.u1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.u1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.u1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/maximum$X #
# $c A1=$_____imagesS2.%04d #
# $c A2=$_____ImageT1.%04d #
# $c R=$_____imagesS3.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____imagesS3. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" ddgX=2 ddgY=2 ddgZ=2" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.u2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.u1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.u1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.u1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.u2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.u1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.u1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.u2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.u2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.u2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.u2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.u2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.u2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.u2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_u1_u2: #
# #
# #
# Melange entre 'v $xiirc/MAND.k2.2' et '$xiirf/FRA3.O2.1'... #
v $xiirc/MAND.v1
v $xiirc/MAND.v1.1
v $xiirc/MAND.v1.2
v $xiirc/MAND.v2
v $xiirc/MAND.v2.1
v $xiirc/MAND.v2.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MAND_v1_v2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.v1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.v2.2 #
# $Z set _____ImageT23=$xTV/MAND.v2.3 #
# #
# $Z setenv _____imagesS1 $_____ImageT1.1 #
# $Z setenv _____imagesS2 $_____ImageT1.2 #
# $Z setenv _____imagesS3 $_____ImageT1.3 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.5 my=0.5 mz=0.5 #
# $c Z=%.16f #
# $c R=$_____imagesS1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/passe_bande$X #
# $c A=$_____imagesS1.%04d #
# $c forcer_niveau_intermediaire=VRAI #
# $c niveau_intermediaire=$BLANC #
# $c seuil_inferieur=`calcul $GRIS_4-1` #
# $c seuil_superieur=`calcul $GRIS_4+1` #
# $c R=$_____imagesS2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $DELETE $xTV/param.v1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.v1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.v1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.v1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/maximum$X #
# $c A1=$_____imagesS2.%04d #
# $c A2=$_____ImageT1.%04d #
# $c R=$_____imagesS3.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____imagesS3. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" ddgX=2 ddgY=2 ddgZ=2" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.v2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.v1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.v1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.v1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.v2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.v1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.v1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.v2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.v2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.v2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.v2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.v2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.v2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.v2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_v1_v2: #
# #
# #
# Melange entre 'v $xiirc/MAND.k2.2' et un fractale du type 'v $xiirf/FRA3.O2.1'... #
v $xiirc/MAND.w1
v $xiirc/MAND.w1.1
v $xiirc/MAND.w1.2
v $xiirc/MAND.w2
v $xiirc/MAND.w2.1
v $xiirc/MAND.w2.2
v $xiac/MAND.w12$R16 p=$xiP/fract.02$Fi
v $xiac/MAND.w12$R64 p=$xiP/fract.02$Fi
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MAND_w1_w2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.w1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.w2.2 #
# $Z set _____ImageT23=$xTV/MAND.w2.3 #
# #
# $Z setenv _____imagesS $_____ImageT1.t #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____imagesS. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z p=$xiP/fract.02$Fi \ #
# $Z R=$_____imagesS. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.w1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.085 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.w1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.w1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.w1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" T=$_____imagesS." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiereA=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" premiereT=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_ZA=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=FAUX" #
# $Z set PaRaMA="$PaRaMA"" speculaire=4" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="ZBuffer=VRAI Z=$xTV/Z_BUFFER.w2" #
# $Z set exec_aV="$K_VIDE" #
# $Z set exec_aB="$K_VIDE" #
# $Z execRVB $xci/accumule.42$X \ #
# $Z $PaRaMA \ #
# $Z postfixeT=%s \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.w1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.w1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.w1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.w2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.w1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.w1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="ZBuffer=VRAI Z=$xTV/Z_BUFFER.w2" #
# $Z set exec_aV="$K_VIDE" #
# $Z set exec_aB="$K_VIDE" #
# $Z execRVB $xci/accumule.42$X \ #
# $Z $PaRaMA \ #
# $Z postfixeT=%s \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.w2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.w2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.w2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.w2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.w2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.w2.2%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesS #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/MAND.w12 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_MAND_w1_w2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0)} et en elevant 'Rho' a la puissance 8 avec un polynome de #
# degre 1, qui devrait etre semblable a {(1.THETA)+(0),(1.PHI)+(0)} avec un polynome #
# de degre 8 (par definition du "produit non theorique"...), le tout avec une texture #
# "fractale"... #
v $xiirc/MAND.x1
v $xiirc/MAND.x1.1
v $xiirc/MAND.x1.2
v $xiirc/MAND.x2
v $xiirc/MAND.x2.1
v $xiirc/MAND.x2.2
# Generee (sur '$CMAP28' -ex "maubert"-) par : #
# #
# #
# :Debut_listG_MAND_x1_x2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.x1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.x2.2 #
# $Z set _____ImageT23=$xTV/MAND.x2.3 #
# #
# $Z $DELETE $xTV/param.x1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.730 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.x1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.x1 \ #
# $Z K=+0.7 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=3 pPhi=5 pAlpha=7 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.x1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.x2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.x1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.x1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.x1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.x2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.x1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.x1.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.x2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/MAND.x2%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.x2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.x2.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.x2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.x2.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.x2.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_x1_x2: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(3.THETA)+(0),(5.PHI)+(0),(7.ALPHA)+(0)} et en elevant 'Rho' a la puissance 8 avec un #
# polynome de degre 1... #
v $xiirc/MAND.y1
v $xiirc/MAND.y1.1
v $xiirc/MAND.y1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MAND_y1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.y1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.y2.2 #
# $Z set _____ImageT23=$xTV/MAND.y2.3 #
# #
# $Z $DELETE $xTV/param.y1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.y1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.y1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04303889 xhd=-0.03375372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.y1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.y2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.y1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.y1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.y1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.y2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.y1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.y1.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_y1: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8. #
v $xiirc/MAND.z1
v $xiirc/MAND.z1.1
v $xiirc/MAND.z1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MAND_z1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MAND.z1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MAND.z2.2 #
# $Z set _____ImageT23=$xTV/MAND.z2.3 #
# #
# $Z $DELETE $xTV/param.z1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.z1 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.z1 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.03955695125 xhd=-0.03491436625 \ #
# $Z ybg=-0.362083185 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 \ #
# $Z tTheta=0 tPhi=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.z1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.z2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MAND.z1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MAND.z1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MAND.z1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.z2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MAND.z1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MAND.z1.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MAND_z1: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8. #
v $xiirc/MANE.11
v $xiirc/MANE.11.1
v $xiirc/MANE.11.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_11: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.11 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/MANE.12.2 #
# $Z set _____ImageT23=$xTV/MANE.12.3 #
# #
# $Z $DELETE $xTV/param.11 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.11 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.11 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04303889 xhd=-0.038396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.11 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/MANE.11%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/MANE.11%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/MANE.11.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/MANE.11.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANE.11.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_11: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8. #
v $xiirc/MANE.22.1.0001
v $xiirc/MANE.22.1.0002
v $xiirc/MANE.22.1.0003
v $xiirc/MANE.22.1.0004
v $xiirc/MANE.22.1.0005
v $xiirc/MANE.22.1.0006
v $xiirc/MANE.22.1.0007
v $xiirc/MANE.22.1.0008
v $xiirc/MANE.22.1.0009
v $xiirc/MANE.22.1.0010
v $xiirc/MANE.22.1.0011
v $xiirc/MANE.22.1.0012
v $xiirc/MANE.22.1.0013
v $xiirc/MANE.22.1.0014
v $xiirc/MANE.22.1.0015
v $xiirc/MANE.22.1.0016
Pal ; anim3 A=$xiirc/MANE.22.1. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.22.1$R16' #
# #
v $xiirc/MANE.22.2.0001
v $xiirc/MANE.22.2.0002
v $xiirc/MANE.22.2.0003
v $xiirc/MANE.22.2.0004
v $xiirc/MANE.22.2.0005
v $xiirc/MANE.22.2.0006
v $xiirc/MANE.22.2.0007
v $xiirc/MANE.22.2.0008
v $xiirc/MANE.22.2.0009
v $xiirc/MANE.22.2.0010
v $xiirc/MANE.22.2.0011
v $xiirc/MANE.22.2.0012
v $xiirc/MANE.22.2.0013
v $xiirc/MANE.22.2.0014
v $xiirc/MANE.22.2.0015
v $xiirc/MANE.22.2.0016
Pal ; anim3 A=$xiirc/MANE.22.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.22.2$R16' #
# #
v $xiirc/MANE.31
v $xiirc/MANE.31.1
v $xiirc/MANE.31.2
v $xiirc/MANE.31.2.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANE_31: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.31 #
# #
# $Z $DELETE $xTV/param.31 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.31 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.31 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04303889 xhd=-0.038396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.31 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.31 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_31: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees... #
v $xiirc/MANE.41
v $xiirc/MANE.41.1
v $xiirc/MANE.41.2
v $xiirc/MANE.41.2.1
v $xiac/MANE.41$R16 p=$xiP/trou_noir.D4
v $xiac/MANE.41$R64 p=$xiP/trou_noir.D4
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_41: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.41 #
# #
# $Z $DELETE $xTV/param.41 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.41 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.41 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.41 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z setenv _____imagesS $_____ImageT1.t #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c iterations=2 #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____imagesS. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z p=$xiP/trou_noir.D4 \ #
# $Z R=$_____imagesS. \ #
# $Z $formatI #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z execRVB $xci/multi_02.01$X \ #
# $Z A1=$_____ImageTo.%04d \ #
# $Z A2=$_____imagesS.%04d%%s \ #
# $Z renormaliser=FAUX \ #
# $Z R=$_____ImageTT.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="$K_VIDE" #
# $Z set _____exec_aV="$K_VIDE" #
# $Z set _____exec_aB="$K_VIDE" #
# $Z set _____PostfixeT="%s" #
# $Z set _____imagesR=$xiirc/MANE.41 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z set _____images=$_____imagesS #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/MANE.41 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_MANE_41: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees et une #
# texture fractale tridimensionnelle... #
v $xiirc/MANE.51
v $xiirc/MANE.51.1
v $xiirc/MANE.51.2
v $xiirc/MANE.51.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_51: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.51 #
# #
# $Z $DELETE $xTV/param.51 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.51 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.51 \ #
# $Z K=+0.0001 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04303889 xhd=-0.038396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0.15 tPhi=0.15 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.51 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.51 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_51: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees... #
v $xiirc/MANE.61
v $xiirc/MANE.61.1
v $xiirc/MANE.61.2
v $xiirc/MANE.61.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANE_61: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.61 #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.61 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.61 \ #
# $Z K=0 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=1 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.61 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_61: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
v $xiirc/MANE.71
v $xiirc/MANE.71.1
v $xiirc/MANE.71.2
v $xiirc/MANE.71.2.1
# Generee (sur '$CMAP28' -ex "maubert"-) par : #
# #
# #
# :Debut_listG_MANE_71: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.71 #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.820 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.71 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.71 \ #
# $Z K=+0.7 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.71 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.71 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_71: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et en elevant 'Rho' a la puissance 8 avec un #
# polynome de degre 1, identique a 'v $xiirc/MAND.q1.2' avec les ombres portees. #
v $xiirc/MANE.72
v $xiirc/MANE.72.1
v $xiirc/MANE.72.2
v $xiirc/MANE.72.2.1
# Generee (sur '$CMAP28' -ex "maubert"-) par : #
# #
# #
# :Debut_listG_MANE_72: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.72 #
# #
# $Z $DELETE $xTV/param.72 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.820 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.72 #
# #
# $Z $xrc/mandel.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.72 \ #
# $Z K=+0.7 \ #
# $Z exposant=1 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pTheta=8 pPhi=8 pAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.72 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.72 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_72: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et en elevant 'Rho' a la puissance 8 avec un #
# polynome de degre 1, identique a 'v $xiirc/MAND.q2.2' avec les ombres portees. #
v $xiirc/MANE.81.2.0001
v $xiirc/MANE.81.2.0002
v $xiirc/MANE.81.2.0003
v $xiirc/MANE.81.2.0004
v $xiirc/MANE.81.2.0005
v $xiirc/MANE.81.2.0006
v $xiirc/MANE.81.2.0007
v $xiirc/MANE.81.2.0008
v $xiirc/MANE.81.2.0009
v $xiirc/MANE.81.2.0010
v $xiirc/MANE.81.2.0011
v $xiirc/MANE.81.2.0012
v $xiirc/MANE.81.2.0013
v $xiirc/MANE.81.2.0014
v $xiirc/MANE.81.2.0015
v $xiirc/MANE.81.2.0016
Pal ; anim3 A=$xiirc/MANE.81.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.81.2$R16' #
# #
v $xiirc/MANE.81.2$STEREO
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_81_2_STEREO: #
# #
# $Z Pal #
# #
# $Z $xci/anaglyphe.31$Z $xiirc/MANE.81.2.0008 $xiirc/MANE.81.2.0009 \ #
# $Z $xiirc/MANE.81.2$STEREO #
# #
# :Fin_listG_MANE_81_2_STEREO: #
# #
v $xiirc/MANE.81.2$STEREO.0001
v $xiirc/MANE.81.2$STEREO.0002
v $xiirc/MANE.81.2$STEREO.0003
v $xiirc/MANE.81.2$STEREO.0004
v $xiirc/MANE.81.2$STEREO.0005
v $xiirc/MANE.81.2$STEREO.0006
v $xiirc/MANE.81.2$STEREO.0007
v $xiirc/MANE.81.2$STEREO.0008
v $xiirc/MANE.81.2$STEREO.0009
v $xiirc/MANE.81.2$STEREO.0010
v $xiirc/MANE.81.2$STEREO.0011
v $xiirc/MANE.81.2$STEREO.0012
v $xiirc/MANE.81.2$STEREO.0013
v $xiirc/MANE.81.2$STEREO.0014
v $xiirc/MANE.81.2$STEREO.0015
Pal ; anim3 A=$xiirc/MANE.81.2$STEREO. premiere=1 derniere=15
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_81_2_STEREO_00: #
# #
# $Z Pal #
# #
# $Z alias genere 'set NuA1=\!:1 ; set NuA2=\!:2 ; set NuR=\!:3 ; \\ #
# $Z $xci/anaglyphe.31$Z \\ #
# $Z $xiirc/MANE.81.2.$NuA1 \\ #
# $Z $xiirc/MANE.81.2.$NuA2 \\ #
# $Z $xiirc/MANE.81.2$STEREO.$NuR \\ #
# $Z unset NuA1 NuA2 NuR' #
# #
# $Z genere 0001 0002 0001 #
# $Z genere 0002 0003 0002 #
# $Z genere 0003 0004 0003 #
# $Z genere 0004 0005 0004 #
# $Z genere 0005 0006 0005 #
# $Z genere 0006 0007 0006 #
# $Z genere 0007 0008 0007 #
# $Z genere 0008 0009 0008 #
# $Z genere 0009 0010 0009 #
# $Z genere 0010 0011 0010 #
# $Z genere 0011 0012 0011 #
# $Z genere 0012 0013 0012 #
# $Z genere 0013 0014 0013 #
# $Z genere 0014 0015 0014 #
# $Z genere 0015 0016 0015 #
# #
# :Fin_listG_MANE_81_2_STEREO_00: #
# #
# #
# Cette sequence presente 'v $xiirc/MANE.81.2$STEREO' en animation... #
v $xiirc/MANE.91.2.0001
v $xiirc/MANE.91.2.0002
v $xiirc/MANE.91.2.0003
v $xiirc/MANE.91.2.0004
v $xiirc/MANE.91.2.0005
v $xiirc/MANE.91.2.0006
v $xiirc/MANE.91.2.0007
v $xiirc/MANE.91.2.0008
v $xiirc/MANE.91.2.0009
v $xiirc/MANE.91.2.0010
v $xiirc/MANE.91.2.0011
v $xiirc/MANE.91.2.0012
v $xiirc/MANE.91.2.0013
v $xiirc/MANE.91.2.0014
v $xiirc/MANE.91.2.0015
v $xiirc/MANE.91.2.0016
Pal ; anim3 A=$xiirc/MANE.91.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.91.2$R16' #
# #
v $xiirc/MANE.91.2$STEREO
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_91_2_STEREO: #
# #
# $Z Pal #
# #
# $Z $xci/anaglyphe.31$Z $xiirc/MANE.91.2.0008 $xiirc/MANE.91.2.0009 \ #
# $Z $xiirc/MANE.91.2$STEREO #
# #
# :Fin_listG_MANE_91_2_STEREO: #
# #
v $xiirc/MANE.A1.32 p=$xiP/cercle.35
v $xiirc/MANE.A1.64 p=$xiP/cercle.35
v $xiirc/MANE.A1.32_64 p=$xiP/cercle.35
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_A1: #
# #
# $Z Shu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# #
# $Z xtc #
# $Z $Cc mandel.11.32$c #
# $Z $DELETE $xiirc/MANE.A1.32 #
# $Z $aPout > $xiirc/MANE.A1.32 #
# #
# $Z xtc #
# $Z $Cc mandel.11.64$c #
# $Z $DELETE $xiirc/MANE.A1.64 #
# $Z $aPout > $xiirc/MANE.A1.64 #
# #
# $Z $xci/distance.01$X \ #
# $Z A1=$xiirc/MANE.A1.32 \ #
# $Z A2=$xiirc/MANE.A1.64 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilatation=VRAI \ #
# $Z points=49 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirc/MANE.A1.32_64 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_A1: #
# #
# #
# Comparaison entre l'ensemble de Mandelbrot calcule en 32 bits et celui calcule en 64 bits. #
# On notera que le calcul doit se faire suivant un format d'image carre ('Std' par exemple) #
# afin que les proportions entre les axes 'OX' et 'OY' soient respectees... #
v $xiirc/MANE.B1.0000
v $xiirc/MANE.B1.0015
v $xiirc/MANE.B1.0030
v $xiirc/MANE.B1.0045
v $xiirc/MANE.B1.0060
v $xiirc/MANE.B1.0075
v $xiirc/MANE.B1.0090
v $xiirc/MANE.B1.0105
v $xiirc/MANE.B1.0120
Pal ; anim3 A=$xiirc/MANE.B1. premiere=0 derniere=120 pas=15
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_B1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set __________imagesR=$xiirc/MANE.B1 #
# $m4 _____include(_____xiirc/.MANE.B1.1._____U) #
# #
# :Fin_listG_MANE_B1: #
# #
v $xiirc/MANE.B2.0000
v $xiirc/MANE.B2.0015
v $xiirc/MANE.B2.0030
v $xiirc/MANE.B2.0045
v $xiirc/MANE.B2.0060
v $xiirc/MANE.B2.0075
v $xiirc/MANE.B2.0090
v $xiirc/MANE.B2.0105
v $xiirc/MANE.B2.0120
Pal ; anim3 A=$xiirc/MANE.B2. premiere=0 derniere=120 pas=15
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANE_B2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET _____MinProportion=0.25 #
# $Z set __________imagesR=$xiirc/MANE.B2 #
# $m4 _____include(_____xiirc/.MANE.B1.1._____U) #
# #
# :Fin_listG_MANE_B2: #
# #
v $xiirc/MANE.C1.0000
v $xiirc/MANE.C1.0008
v $xiirc/MANE.C1.0016
v $xiirc/MANE.C1.0024
v $xiirc/MANE.C1.0032
v $xiirc/MANE.C1.0040
v $xiirc/MANE.C1.0048
v $xiirc/MANE.C1.0056
v $xiirc/MANE.C1.0064
v $xiirc/MANE.C1.0072
v $xiirc/MANE.C1.0080
v $xiirc/MANE.C1.0088
v $xiirc/MANE.C1.0096
v $xiirc/MANE.C1.0104
v $xiirc/MANE.C1.0112
v $xiirc/MANE.C1.0120
Pal ; anim1 A=$xiirc/MANE.C1. premiere=0 Zmax=120 pas=8 p=$xiP/fractal.91
Pal ; anim1 A=$xiirc/MANE.C1. premiere=0 Zmax=120 pas=8 p=$xiP/inter.02.11
Pal ; anim1 A=$xiirc/MANE.C1. premiere=0 Zmax=120 pas=8 p=$xiP/orange.11
Pal ; anim3 A=$xiirc/MANE.C1. premiere=0 derniere=120 pas=8
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.C1$R16' #
# #
v $xiirc/MANE.D1
v $xiirc/MANE.D1.1
v $xiirc/MANE.D1.2
v $xiirc/MANE.D1.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_D1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.D1 #
# #
# $Z $DELETE $xTV/param.D1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z F_ITERATION_DANS_HHC_____compatibilite_20110825=VRAI \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.D1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.D1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_D1: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les octonions avec le #
# "produit non theorique" utilisant {(8.A1)+(0),(8.A2)+(0),(8.A3)+(0)} et calcule avec #
# un polynome de degre 2 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
# Ce calcul est assez similaire, en ce qui concerne les parametres, a 'v $xiirc/MANE.61.2' #
# effectue quant a lui dans les quaternions, mais avec un exposant egal a 2 implicitement. #
v $xiirc/MANE.D2
v $xiirc/MANE.D2.1
v $xiirc/MANE.D2.2
v $xiirc/MANE.D2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_D2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.D2 #
# #
# $Z $DELETE $xTV/param.D2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z F_ITERATION_DANS_HHC_____compatibilite_20110825=VRAI \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.D2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04094383 xhd=-0.03784877 \ #
# $Z ybg=-0.36363071 yhd=-0.36053565 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.D2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_D2: #
# #
# #
# Zoom "trois fois" (sur les coordonnees 'X' et 'Y', mais pas 'Z'...) au centre de #
# 'v $xiirc/MANE.D1.2'... #
v $xiirc/MANE.D3
v $xiirc/MANE.D3.0 p=$xiP/gris.01
v $xiirc/MANE.D3.1
v $xiirc/MANE.D3.2
v $xiirc/MANE.D3.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_D3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.D3 #
# #
# $Z $DELETE $xTV/param.D3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80020500307087 vA=0.7995707819685 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z F_ITERATION_DANS_HHC_____compatibilite_20110825=VRAI \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.D3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.03969630 xhd=-0.03909630 \ #
# $Z ybg=-0.36238318 yhd=-0.36178318 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.D3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_D3: #
# #
# #
# Zoom "dix fois" (sur les coordonnees 'X' et 'Y', mais pas 'Z'...) au centre de #
# 'v $xiirc/MANE.D2.2'... #
v $xiirc/MANE.D4
v $xiirc/MANE.D4.0 p=$xiP/gris.01
v $xiirc/MANE.D4.1
v $xiirc/MANE.D4.2
v $xiirc/MANE.D4.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_D4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.D4 #
# #
# $Z set Xbg1=-0.03969630 #
# $Z set Xhd1=-0.03909630 #
# $Z set Ybg1=-0.36238318 #
# $Z set Yhd1=-0.36178318 #
# #
# $Z set FaCtEuR=0.1 #
# $Z set TrAnSlAtIoN=0 #
# #
# $Z set PaRaMRS="facteur=$FaCtEuR translation=$TrAnSlAtIoN" #
# #
# $Z set Xbg2=`$xcg/SegReduct.01$X bg=$Xbg1 bd=$Xhd1 cbg=VRAI $PaRaMRS` #
# $Z set Xhd2=`$xcg/SegReduct.01$X bg=$Xbg1 bd=$Xhd1 cbd=VRAI $PaRaMRS` #
# $Z set Ybg2=`$xcg/SegReduct.01$X bg=$Ybg1 bd=$Yhd1 cbg=VRAI $PaRaMRS` #
# $Z set Yhd2=`$xcg/SegReduct.01$X bg=$Ybg1 bd=$Yhd1 cbd=VRAI $PaRaMRS` #
# #
# $Z $DELETE $xTV/param.D4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80005019319549 vA=0.79972559184388 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.D4 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z F_ITERATION_DANS_HHC_____compatibilite_20110825=VRAI \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.D4 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=$Xbg2 xhd=$Xhd2 \ #
# $Z ybg=$Ybg2 yhd=$Yhd2 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.D4 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.D4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_D4: #
# #
# #
# Zoom "dix fois" (sur les coordonnees 'X' et 'Y', mais pas 'Z'...) au centre de #
# 'v $xiirc/MANE.D3.2'... #
v $xiirc/MANE.E2
v $xiirc/MANE.E2.1
v $xiirc/MANE.E2.2
v $xiirc/MANE.E2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_E2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.E2 #
# #
# $Z $DELETE $xTV/param.E2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.820 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.E2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z F_ITERATION_DANS_HHC_____compatibilite_20110825=VRAI \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.E2 \ #
# $Z K=+0.7 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=8 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.E2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.E2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_E2: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les octonions avec le #
# "produit non theorique" utilisant {(8.A1)+(0),(8.A2)+(0),(8.A3)+(0)} et calcule avec #
# un polynome de degre 2 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
# Ce calcul est assez similaire, en ce qui concerne les parametres, a 'v $xiirc/MANE.72.2' #
# effectue quant a lui dans les quaternions, mais avec un exposant egal a 2 implicitement. #
v $xiirc/MANE.F2
v $xiirc/MANE.F2.1
v $xiirc/MANE.F2.2
v $xiirc/MANE.F2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_F2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.F2 #
# #
# $Z $DELETE $xTV/param.F2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.820 vA=0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.F2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.F2 \ #
# $Z K=+0.7 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.85 ybg=-0.85 xhd=+0.85 yhd=+0.85 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=8 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.F2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.F2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_F2: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les octonions avec le #
# "produit non theorique" utilisant {(8.A1)+(0),(8.A2)+(0),(8.A3)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
# Ce calcul est assez similaire, en ce qui concerne les parametres, a 'v $xiirc/MANE.72.2' #
# effectue quant a lui dans les quaternions... #
v $xiirc/MANE.G2
v $xiirc/MANE.G2.1
v $xiirc/MANE.G2.2
v $xiirc/MANE.G2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_G2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.G2 #
# #
# $Z $DELETE $xTV/param.G2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.75314960629921 vA=+0.63844999689999 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G2 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.65 ybg=-0.65 xhd=+0.65 yhd=+0.65 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.G2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_G2: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les octonions avec le #
# "produit non theorique" utilisant {(8.Ai)+(0) pour i E [1,7]} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
v $xiirc/MANE.G3
v $xiirc/MANE.G3.1
v $xiirc/MANE.G3.2
v $xiirc/MANE.G3.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANE_G3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.G3 #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.71973318466322 vA=+0.63844999689999 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G3 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.15 ybg=-0.15 xhd=+0.15 yhd=+0.15 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.G3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_G3: #
# #
# #
# Zoom au centre de 'v $xiirc/MANE.G2.2'... #
v $xiirc/MANE.G4
v $xiirc/MANE.G4.1
v $xiirc/MANE.G4.2
v $xiirc/MANE.G4.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_G4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.G4 #
# #
# $Z $DELETE $xTV/param.G4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.70501260735177 vA=+0.66085087541742 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G4 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G4 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.15 ybg=-0.15 xhd=+0.15 yhd=+0.15 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G4 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.G4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_G4: #
# #
# #
# Zoom au centre de 'v $xiirc/MANE.G3.2'... #
v $xiirc/MANE.H1
v $xiirc/MANE.H1.1
v $xiirc/MANE.H1.2
v $xiirc/MANE.H1.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_H1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.H1 #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.H1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_H1: #
# #
# #
# Agrandissement d'un detail d'un ensemble de Mandelbrot dans les octonions avec le #
# "produit non theorique" utilisant {(8.Ai)+(0) pour i E [1,7]} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8, avec les ombres portees. #
# Ce calcul est assez similaire, en ce qui concerne les parametres, a 'v $xiirc/MANE.61.2' #
# effectue quant a lui dans les quaternions... #
v $xiirc/MANE.H2
v $xiirc/MANE.H2.1
v $xiirc/MANE.H2.2
v $xiirc/MANE.H2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_H2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.039396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.H2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_H2: #
# #
# #
# Petit zoom sur le coin bas gauche de 'v $xiirc/MANE.H1.2'... #
v $xiirc/MANE.H3
v $xiirc/MANE.H3.1
v $xiirc/MANE.H3.2
v $xiirc/MANE.H3.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_H3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.H3 #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79739064 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.041717597 \ #
# $Z ybg=-0.36672577 yhd=-0.364404477 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.H3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_H3: #
# #
# #
# Petit zoom sur le coin bas gauche de 'v $xiirc/MANE.H2.2'... #
v $xiirc/MANE.I1
v $xiirc/MANE.I1.1
v $xiirc/MANE.I1.2
v $xiirc/MANE.I1.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_I1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_G3=$xTV/MANE.G3 #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.71973318466322 vA=+0.63844999689999 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G3 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.15 ybg=-0.15 xhd=+0.15 yhd=+0.15 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_G3. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z set _____ImageT1_H1=$xTV/MANE.H1 #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=1 tA3=0 \ #
# $Z pA4=1 tA4=0 \ #
# $Z pA5=1 tA5=0 \ #
# $Z pA6=1 tA6=0 \ #
# $Z pA7=1 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z set _____ImageT1=$xTV/MANE.I1 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_G3.%04d \ #
# $Z A2=$_____ImageT1_H1.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.I1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_I1: #
# #
# #
# Melange entre 'v $xiirc/MANE.G3.2' et 'v $xiirc/MANE.H1.2'... #
v $xiirc/MANE.I2
v $xiirc/MANE.I2.1
v $xiirc/MANE.I2.2
v $xiirc/MANE.I2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_I2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_G3=$xTV/MANE.G3 #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.71973318466322 vA=+0.63844999689999 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G3 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.15 ybg=-0.15 xhd=+0.15 yhd=+0.15 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_G3. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G3 #
# #
# $Z set _____ImageT1_H2=$xTV/MANE.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=1 tA3=0 \ #
# $Z pA4=1 tA4=0 \ #
# $Z pA5=1 tA5=0 \ #
# $Z pA6=1 tA6=0 \ #
# $Z pA7=1 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z set _____ImageT1=$xTV/MANE.I2 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_G3.%04d \ #
# $Z A2=$_____ImageT1_H2.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.I2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_I2: #
# #
# #
# Melange entre 'v $xiirc/MANE.G3.2' et 'v $xiirc/MANE.H2.2'... #
v $xiirc/MANE.I3
v $xiirc/MANE.I3.1
v $xiirc/MANE.I3.2
v $xiirc/MANE.I3.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_I3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_G4=$xTV/MANE.G4 #
# #
# $Z $DELETE $xTV/param.G4 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+0.70501260735177 vA=+0.66085087541742 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.G4 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.G4 \ #
# $Z K=+0.3 \ #
# $Z S=+0.01 \ #
# $Z T=+0.01 \ #
# $Z U=+0.01 \ #
# $Z V=+0.01 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.15 ybg=-0.15 xhd=+0.15 yhd=+0.15 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_G4. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.G4 #
# #
# $Z set _____ImageT1_H2=$xTV/MANE.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=1 tA3=0 \ #
# $Z pA4=1 tA4=0 \ #
# $Z pA5=1 tA5=0 \ #
# $Z pA6=1 tA6=0 \ #
# $Z pA7=1 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z set _____ImageT1=$xTV/MANE.I3 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_G4.%04d \ #
# $Z A2=$_____ImageT1_H2.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.I3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_I3: #
# #
# #
# Melange entre 'v $xiirc/MANE.G4.2' et 'v $xiirc/MANE.H2.2'... #
v $xiirc/MANE.J1
v $xiirc/MANE.J1.1
v $xiirc/MANE.J1.2
v $xiirc/MANE.J1.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANE_J1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_H1=$xTV/MANE.H1 #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z set _____ImageT1_H2=$xTV/MANE.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.039396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z set _____ImageT1=$xTV/MANE.J1 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_H1.%04d \ #
# $Z A2=$_____ImageT1_H2.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.J1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_J1: #
# #
# #
# Melange entre 'v $xiirc/MANE.H1.2' et 'v $xiirc/MANE.H2.2'... #
v $xiirc/MANE.J2
v $xiirc/MANE.J2.1
v $xiirc/MANE.J2.2
v $xiirc/MANE.J2.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_J2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_H1=$xTV/MANE.H1 #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z set _____ImageT1_H3=$xTV/MANE.H3 #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79739064 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.041717597 \ #
# $Z ybg=-0.36672577 yhd=-0.364404477 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H3. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $Z set _____ImageT1=$xTV/MANE.J2 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_H1.%04d \ #
# $Z A2=$_____ImageT1_H3.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.J2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_J2: #
# #
# #
# Melange entre 'v $xiirc/MANE.H1.2' et 'v $xiirc/MANE.H3.2'... #
v $xiirc/MANE.J3
v $xiirc/MANE.J3.1
v $xiirc/MANE.J3.2
v $xiirc/MANE.J3.2.1
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_MANE_J3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1_H2=$xTV/MANE.H2 #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H2 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H2 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.039396305 \ #
# $Z ybg=-0.36672577 yhd=-0.362083185 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H2. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H2 #
# #
# $Z set _____ImageT1_H3=$xTV/MANE.H3 #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79739064 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H3 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H3 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.041717597 \ #
# $Z ybg=-0.36672577 yhd=-0.364404477 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1_H3. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H3 #
# #
# $Z set _____ImageT1=$xTV/MANE.J3 #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z $xci/minmax$X \ #
# $Z A1=$_____ImageT1_H2.%04d \ #
# $Z A2=$_____ImageT1_H3.%04d \ #
# $Z R=$_____ImageT1.%04d \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.J3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_J3: #
# #
# #
# Melange entre 'v $xiirc/MANE.H2.2' et 'v $xiirc/MANE.H3.2'... #
v $xiirc/MANE.K1
v $xiirc/MANE.K1.1
v $xiirc/MANE.K1.2
v $xiirc/MANE.K1.2.1
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_MANE_K1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.K1 #
# #
# $Z $DELETE $xTV/param.K1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.1 vA=+1.1 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.K1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=8 \ #
# $Z iterations=32 \ #
# $Z COMPOSANTE_J=$xTV/param.K1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.K1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.K1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_K1: #
# #
# #
# Ensemble de Mandelbrot avec le produit theorique et un exposant egal a 8. #
v $xiirc/MANE.L1
v $xiirc/MANE.L1.1
v $xiirc/MANE.L1.2
v $xiirc/MANE.L1.2.1
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_MANE_L1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.L1 #
# #
# $Z $DELETE $xTV/param.L1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=-1.1 vA=+1.1 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.L1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=32 \ #
# $Z COMPOSANTE_J=$xTV/param.L1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.1 ybg=-1.1 xhd=+1.1 yhd=+1.1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 tA1=0 \ #
# $Z pA2=8 tA2=0 \ #
# $Z pA3=8 tA3=0 \ #
# $Z pA4=8 tA4=0 \ #
# $Z pA5=8 tA5=0 \ #
# $Z pA6=8 tA6=0 \ #
# $Z pA7=8 tA7=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.L1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.L1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_L1: #
# #
# #
# Ensemble de Mandelbrot avec le produit non theorique et un exposant egal a 1. #
v $xiirc/MANE.M1.2
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_MANE_M1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/MANE.M1 #
# #
# $Z $DELETE $xTV/param.M1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.M1 #
# #
# $Z $xrc/mandel.81$X \ #
# $Z images=$Nimages \ #
# $Z exposant=1 \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.M1 \ #
# $Z K=0 \ #
# $Z S=0 \ #
# $Z T=0 \ #
# $Z U=0 \ #
# $Z V=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.04403889 xhd=-0.03475372 \ #
# $Z ybg=-0.36672577 yhd=-0.35744060 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z eRho=8 \ #
# $Z pA1=8 pA2=8 pA3=1 \ #
# $Z tA1=0 tA2=0 tA3=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.M1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.M1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_M1: #
# #
# #
# Identique a 'v $xiirc/MANE.H1.2' mais avec 256 couches de J. #
v $xiirc/MANE.N1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_N1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79628076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.N1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_N1: #
# #
# #
# Identique a 'v $xiirc/MANE.31.2' mais avec 256 couches de J. #
v $xiirc/MANE.O1.1
v $xiirc/MANE.O1.2
v $xiirc/MANE.O1.21
# Generee (sur '$CMAP28' -ex "abbesses"- pour 'v $xiirc/MANE.O1.2', puis sur '$CMAP28' #
# -"ex picpus"- pour 'v $xiirc/MANE.O1.1' aux environs du 20121105165824, puis sur #
# '$LACT19' pour 'v $xiirc/MANE.O1.21' aux environs du 20130216093146) par : #
# #
# #
# :Debut_listG_MANE_O1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.O1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_O1: #
# #
# #
# :Debut_listG_MANE_O1_21: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z set _____imagesR=$xiirc/MANE.O1 #
# #
# $Z execRVB $xci/interpole.02$X \ #
# $Z A1=$_____imagesR.2%s \ #
# $Z A2=$_____imagesR.1%s \ #
# $Z P=$xTV/GAUSS \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_O1_21: #
# #
v $xiirc/MANE.O1.2.0001
v $xiirc/MANE.O1.2.0002
v $xiirc/MANE.O1.2.0003
v $xiirc/MANE.O1.2.0004
v $xiirc/MANE.O1.2.0005
v $xiirc/MANE.O1.2.0006
v $xiirc/MANE.O1.2.0007
v $xiirc/MANE.O1.2.0008
v $xiirc/MANE.O1.2.0009
v $xiirc/MANE.O1.2.0010
v $xiirc/MANE.O1.2.0011
v $xiirc/MANE.O1.2.0012
v $xiirc/MANE.O1.2.0013
v $xiirc/MANE.O1.2.0014
v $xiirc/MANE.O1.2.0015
v $xiirc/MANE.O1.2.0016
Pal ; anim3 A=$xiirc/MANE.O1.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.O1.2$R16' #
# #
v $xiirc/MANE.O1.2$STEREO
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_O1_2_STEREO: #
# #
# $Z Pal #
# #
# $Z $xci/anaglyphe.31$Z $xiirc/MANE.O1.2.0008 $xiirc/MANE.O1.2.0009 \ #
# $Z $xiirc/MANE.O1.2$STEREO #
# #
# :Fin_listG_MANE_O1_2_STEREO: #
# #
v $xiirc/MANE.O1.2$STEREO.0001
v $xiirc/MANE.O1.2$STEREO.0002
v $xiirc/MANE.O1.2$STEREO.0003
v $xiirc/MANE.O1.2$STEREO.0004
v $xiirc/MANE.O1.2$STEREO.0005
v $xiirc/MANE.O1.2$STEREO.0006
v $xiirc/MANE.O1.2$STEREO.0007
v $xiirc/MANE.O1.2$STEREO.0008
v $xiirc/MANE.O1.2$STEREO.0009
v $xiirc/MANE.O1.2$STEREO.0010
v $xiirc/MANE.O1.2$STEREO.0011
v $xiirc/MANE.O1.2$STEREO.0012
v $xiirc/MANE.O1.2$STEREO.0013
v $xiirc/MANE.O1.2$STEREO.0014
v $xiirc/MANE.O1.2$STEREO.0015
Pal ; anim3 A=$xiirc/MANE.O1.2$STEREO. premiere=1 derniere=15
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_O1_2_STEREO_00: #
# #
# $Z Pal #
# #
# $Z alias genere 'set NuA1=\!:1 ; set NuA2=\!:2 ; set NuR=\!:3 ; \\ #
# $Z $xci/anaglyphe.31$Z \\ #
# $Z $xiirc/MANE.O1.2.$NuA1 \\ #
# $Z $xiirc/MANE.O1.2.$NuA2 \\ #
# $Z $xiirc/MANE.O1.2$STEREO.$NuR \\ #
# $Z unset NuA1 NuA2 NuR' #
# #
# $Z genere 0001 0002 0001 #
# $Z genere 0002 0003 0002 #
# $Z genere 0003 0004 0003 #
# $Z genere 0004 0005 0004 #
# $Z genere 0005 0006 0005 #
# $Z genere 0006 0007 0006 #
# $Z genere 0007 0008 0007 #
# $Z genere 0008 0009 0008 #
# $Z genere 0009 0010 0009 #
# $Z genere 0010 0011 0010 #
# $Z genere 0011 0012 0011 #
# $Z genere 0012 0013 0012 #
# $Z genere 0013 0014 0013 #
# $Z genere 0014 0015 0014 #
# $Z genere 0015 0016 0015 #
# #
# :Fin_listG_MANE_O1_2_STEREO_00: #
# #
# #
# Cette sequence presente 'v $xiirc/MANE.O1.2$STEREO' en animation... #
v $xiirc/MANE.O1.21$m
v $xiirc/MANE.O1.21.1$M
v $xiirc/MANE.O1.21.2$M
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_O1_M: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Ty=0.64 #
# $Z set _____imageR=$xiirc/MANE.O1.21 #
# $m4 _____include(_____xiirf/.FRB3.Z1.21.M.1._____U) #
# #
# :Fin_listG_MANE_O1_M: #
# #
v $xiirc/MANE.O2.1
v $xiirc/MANE.O2.2
v $xiirc/MANE.O2.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_O2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.O2 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____Speculaire=8 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.O2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_O2: #
# #
# #
# Ces images sont identiques a 'v $xiirc/MANE.O1.2' avec une specularite plus "violente"... #
v $xiirc/MANE.O3.1
v $xiirc/MANE.O3.2
v $xiirc/MANE.O3.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_O3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.O3 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceX=-1 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____Speculaire=8 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.O3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_O3: #
# #
# #
# Ces images sont identiques a 'v $xiirc/MANE.O1.2' avec une specularite plus "violente" #
# et la source lumineuse a gauche (et non pas a droite)... #
v $xiirc/MANE.O5.1
v $xiirc/MANE.O5.2
v $xiirc/MANE.O5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_O5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.O5 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.O5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_O5: #
# #
# #
# En fait, cette image est identique a 'v $xiirc/MANE.O1.1', mais avec d'une part deux fois #
# plus de couches (512 au lieu de 256) et d'autre part en remplacant : #
# #
# _____include(_____xiirc/.MANE.41.2._____U) #
# #
# par : #
# #
# _____include(_____xiirf/.MENG.22.2._____U) #
# #
# beaucoup plus rapide... #
v $xiirc/MANE.P1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/un_sur_z.01$X #
# $c facteur=400000 #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P1: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_z.01$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.P2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P2 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/un_sur_o.81$X #
# $c facteur=400000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P2: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_o.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.P3.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P3 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/o_carre.81$X #
# $c facteur=0.0025 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P3: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_carre.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.P4.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P4 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/o_homogra.81$X #
# $c RA=4 RB=1 RC=1 RD=-1 #
# $c facteur=50000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P4: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_homogra.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.P5.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P5 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 500.0 #
# $c #define EJ 700.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/o_hyperbol.81$X #
# $c pTAN=1 ATm=0.002 #
# $c pSIN=1 ASm=0.020 BSm=$pis2 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P5: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_hyperbol.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.P6.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_P6: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P6 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 700.0 #
# $c #define EJ 500.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/o_hyperbol.81$X #
# $c pTAN=1 ATm=0.002 #
# $c pSIN=1 ASm=0.020 BSm=$pis2 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P6: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.O1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_hyperbol.81$K facteur_multiplicatif_homothetique'... #
# #
# La difference entre 'v $xiirc/MANE.P5.2' et 'v $xiirc/MANE.P6.2' consiste en le sens de #
# parcours de 'J' : [500,700] pour la premiere et [700,500] (soit l'inverse...) pour la #
# seconde. #
v $xiirc/MANE.P7.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_P7: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/gauss$X \ #
# $Z standard=FAUX \ #
# $Z c=200 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/spiArchimede$X \ #
# $Z standard=FAUX \ #
# $Z mr=4 mt=+1 \ #
# $Z $formatI | \ #
# $Z $xci/maximum$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GAUSS \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_X \ #
# $Z $formatI #
# #
# $Z $xci/spiArchimede$X \ #
# $Z standard=FAUX \ #
# $Z mr=4 mt=-1 \ #
# $Z $formatI | \ #
# $Z $xci/maximum$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GAUSS \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_Y \ #
# $Z $formatI #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_O1 $xTV/MANE.O1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_O1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.P7 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_O1.%04d #
# $c $formatI | #
# $c $xci/acces$X #
# $c convertir=VRAI #
# $c R=$xTV/CHAMP #
# $c $formatI ; #
# $c $xci/deformi.01$X #
# $c A=$xTV/CHAMP #
# $c DX=$xTV/DEFORMATION$COORD_X #
# $c DY=$xTV/DEFORMATION$COORD_Y #
# $c iterer2D=VRAI nombre_iterations2D=1 #
# $c tridimensionnelle=FAUX #
# $c bilineaire=VRAI #
# $c $formatI | #
# $c $xci/acces$X #
# $c standard=FAUX #
# $c brutal=VRAI #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.P7 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_P7: #
# #
# #
# Transformation inspiree de 'v $xiirv/STRU.c1' des couches periodisees de #
# 'v $xiirc/MANE.O1.2'. #
v $xiirc/MANE.Q1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Q1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_N1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_N1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Q1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_N1.%04d #
# $c $formatI | #
# $c $xci/un_sur_z.01$X #
# $c facteur=400000 #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Q1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Q1: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.N1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_z.01$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.Q2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Q2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_N1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_N1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Q2 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_N1.%04d #
# $c $formatI | #
# $c $xci/un_sur_o.81$X #
# $c facteur=400000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Q2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Q2: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.N1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/un_sur_o.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.Q3.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Q3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_N1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_N1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Q3 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_N1.%04d #
# $c $formatI | #
# $c $xci/o_carre.81$X #
# $c facteur=0.0025 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Q3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Q3: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.N1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_carre.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.Q4.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_Q4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1_N1 $xTV/MANE.N1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04303889 #
# $c xhd=-0.038396305 #
# $c ybg=-0.36672577 #
# $c yhd=-0.362083185 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1_N1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Q4 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ -100.0 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT1_N1.%04d #
# $c $formatI | #
# $c $xci/o_homogra.81$X #
# $c RA=4 RB=1 RC=1 RD=-1 #
# $c facteur=50000 #
# $c m2_IJ=1 m2_RJ=1 #
# $c J=%f #
# $c $formatI | #
# $c $xci/seuil$X #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,J #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Q4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Q4: #
# #
# #
# Transformation conforme de chacune des couches periodisees de 'v $xiirc/MANE.N1.2', en #
# notant que l'option "facteur_multiplicatif_homothetique=VRAI" ne fut pas utilisee dans #
# 'v $xci/o_homogra.81$K facteur_multiplicatif_homothetique'... #
v $xiirc/MANE.R1.2.0001
v $xiirc/MANE.R1.2.0002
v $xiirc/MANE.R1.2.0003
v $xiirc/MANE.R1.2.0004
v $xiirc/MANE.R1.2.0005
v $xiirc/MANE.R1.2.0006
v $xiirc/MANE.R1.2.0007
v $xiirc/MANE.R1.2.0008
v $xiirc/MANE.R1.2.0009
v $xiirc/MANE.R1.2.0010
v $xiirc/MANE.R1.2.0011
v $xiirc/MANE.R1.2.0012
v $xiirc/MANE.R1.2.0013
v $xiirc/MANE.R1.2.0014
v $xiirc/MANE.R1.2.0015
v $xiirc/MANE.R1.2.0016
Pal ; anim3 A=$xiirc/MANE.R1.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.R1.2$R16' #
# #
v $xiirc/MANE.S1.2
# Generee (sur '$CMAP28' -ex "abbesses", en notant que le calcul a demande exactement 24 #
# heures et utilise plus de 65% de la memoire malgre '$execRVB_Para' forcant la partie #
# la plus lourde du calcul en mode non parallele-) par : #
# #
# #
# :Debut_listG_MANE_S1: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_S1: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais avec une definition 2x2x2 fois #
# superieure... #
v $xiirc/MANE.S1.2.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_S1_2_1: #
# #
# $Z Pqu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z $xci/trefle$X \ #
# $Z standard=FAUX \ #
# $Z Cc=+1.0 \ #
# $Z Ct=3 \ #
# $Z Ex=0.8 Ey=0.8 \ #
# $Z carre_X_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z carre_Y_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_X \ #
# $Z $formatI #
# #
# $Z $xci/trefle$X \ #
# $Z standard=FAUX \ #
# $Z Cc=-1.0 \ #
# $Z Ct=3 \ #
# $Z Ex=0.8 Ey=0.8 \ #
# $Z carre_X_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z carre_Y_CHAMP_3D_____compatibilite_20100210=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_Y \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$xiirc/MANE.S1.2%s \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z R=$xTV/CHAMP%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/deformi.01$X \ #
# $Z A=$xTV/CHAMP%s \ #
# $Z DX=$xTV/DEFORMATION$COORD_X \ #
# $Z DY=$xTV/DEFORMATION$COORD_Y \ #
# $Z appliquer_une_matrice_de_transformation=VRAI \ #
# $Z mxx=0.5 mxy=0 mxz=0 \ #
# $Z myx=0 myy=0.5 myz=0 \ #
# $Z mzx=0 mzy=0 mzz=0 \ #
# $Z tridimensionnelle=FAUX \ #
# $Z bilineaire=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX \ #
# $Z brutal=VRAI \ #
# $Z R=$xiirc/MANE.S1.2.1%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MANE_S1_2_1: #
# #
# #
# Il s'agit d'une transformation de 'v $xiirc/MANE.S1.2' inspiree de 'v $xiirv/STRU.d3'... #
v $xiirc/MANE.S1.2.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_S1_2_2: #
# #
# $Z Pqu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z $xci/gauss$X \ #
# $Z standard=FAUX \ #
# $Z c=200 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/spiArchimede$X \ #
# $Z standard=FAUX \ #
# $Z mr=4 mt=+1 \ #
# $Z $formatI | \ #
# $Z $xci/maximum$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GAUSS \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_X \ #
# $Z $formatI #
# #
# $Z $xci/spiArchimede$X \ #
# $Z standard=FAUX \ #
# $Z mr=4 mt=-1 \ #
# $Z $formatI | \ #
# $Z $xci/maximum$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GAUSS \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/DEFORMATION$COORD_Y \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$xiirc/MANE.S1.2%s \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z R=$xTV/CHAMP%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/deformi.01$X \ #
# $Z A=$xTV/CHAMP%s \ #
# $Z DX=$xTV/DEFORMATION$COORD_X \ #
# $Z DY=$xTV/DEFORMATION$COORD_Y \ #
# $Z iterer2D=VRAI nombre_iterations2D=1 \ #
# $Z tridimensionnelle=FAUX \ #
# $Z bilineaire=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX \ #
# $Z brutal=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/pt_isole.01$X \ #
# $Z points=9 \ #
# $Z seuil=0.05 \ #
# $Z R=$xiirc/MANE.S1.2.2%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MANE_S1_2_2: #
# #
# #
# Il s'agit d'une transformation de 'v $xiirc/MANE.S1.2' inspiree de 'v $xiirv/STRU.c1'... #
v $xiirc/MANE.T1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_T1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.T1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.80055635 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04205694 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36556512 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.T1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_T1: #
# #
# #
# Cette image est un zoom dans le coin inferieur droit de 'v $xiirc/MANE.O1.2' afin de #
# s'approcher de la "fleur"... #
v $xiirc/MANE.U1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_U1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.U1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.80055635 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04145809 #
# $c xhd=-0.04113311 #
# $c ybg=-0.36682153 #
# $c yhd=-0.36649655 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.U1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_U1: #
# #
# #
# Cette image est un zoom dans le coin inferieur droit de 'v $xiirc/MANE.T1.2' afin de #
# s'approcher de la "fleur" et d'etre centree sur elle... #
v $xiirc/MANE.V1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_V1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.V1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 1.088 #
# $c #define EJ 0.000 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-1.0 #
# $c xhd=+1.0 #
# $c ybg=-1.0 #
# $c yhd=+1.0 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.V1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_V1: #
# #
# #
# Cette image presente l'ensemble de Mandelbrot pour lequel 'v $xiirc/MANE.O1.2', #
# 'v $xiirc/MANE.T1.2' et 'v $xiirc/MANE.U1.2' sont des details... #
v $xiirc/MANE.V1.2.0001
v $xiirc/MANE.V1.2.0002
v $xiirc/MANE.V1.2.0003
v $xiirc/MANE.V1.2.0004
v $xiirc/MANE.V1.2.0005
v $xiirc/MANE.V1.2.0006
v $xiirc/MANE.V1.2.0007
v $xiirc/MANE.V1.2.0008
v $xiirc/MANE.V1.2.0009
v $xiirc/MANE.V1.2.0010
v $xiirc/MANE.V1.2.0011
v $xiirc/MANE.V1.2.0012
v $xiirc/MANE.V1.2.0013
v $xiirc/MANE.V1.2.0014
v $xiirc/MANE.V1.2.0015
v $xiirc/MANE.V1.2.0016
Pal ; anim3 A=$xiirc/MANE.V1.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.V1.2$R16' #
# #
v $xiirc/MANE.W2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_W2: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv PCMemorySizeMB 100 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.820 #
# $c #define EJ 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=+0.7 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.85 #
# $c xhd=+0.85 #
# $c ybg=-0.85 #
# $c yhd=+0.85 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/MANE.W2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_W2: #
# #
# #
# Ensemble de Mandelbrot identique a 'v $xiirc/MANE.72.2' mais avec une bien meilleure #
# resolution... #
v $xiirc/MANE.W2.2$m
v $xiirc/MANE.W2.2.1$M
v $xiirc/MANE.W2.2.2$M
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_W2_M: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Ty=0.52 #
# $Z set _____imageR=$xiirc/MANE.W2.2 #
# $m4 _____include(_____xiirf/.FRB3.Z1.21.M.1._____U) #
# #
# :Fin_listG_MANE_W2_M: #
# #
v $xiirc/MANE.X1.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_X1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.X1 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageTW.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.X1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_X1: #
# #
# #
# Cette image repose sur un calcul identique a 'v $xiirc/MANE.O1.2' mais en traitant #
# la structure fractale a l'aide du jeu de la vie tridimensionnel parametre comme pour #
# l'image 'v $xiirk/JWIG.32.2'... #
v $xiirc/MANE.X2.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_X2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.X2 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageTW.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.X2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_X2: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.X1.2', mais avec une resolution double suivant #
# les trois axes... #
v $xiirc/MANE.Y1.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_Y1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Y1 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c $formatI | #
# $c $xci/jeu_vie.11$X #
# $c iterations=1 #
# $c R=$_____ImageTW.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Y1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Y1: #
# #
# #
# Cette image repose sur un calcul identique a 'v $xiirc/MANE.O1.2' mais en traitant #
# la structure fractale dans un premier temps avec le jeu de la vie bidimensionnel #
# (une iteration), puis dans un second temps avec le jeu de la vie tridimensionnel #
# parametre comme pour l'image 'v $xiirk/JWIG.32.2'... #
v $xiirc/MANE.Y2.2
# Generee (sur '$CMAP28' -ex "ternes"-) par : #
# #
# #
# :Debut_listG_MANE_Y2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Y2 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c $formatI | #
# $c $xci/jeu_vie.11$X #
# $c iterations=2 #
# $c R=$_____ImageTW.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Y2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Y2: #
# #
# #
# Cette image repose sur un calcul identique a 'v $xiirc/MANE.O1.2' mais en traitant #
# la structure fractale dans un premier temps avec le jeu de la vie bidimensionnel #
# (deux iterations), puis dans un second temps avec le jeu de la vie tridimensionnel #
# parametre comme pour l'image 'v $xiirk/JWIG.32.2'... #
v $xiirc/MANE.Y3.2
# Generee (sur '$CMAP28' -ex "ternes"-) par : #
# #
# #
# :Debut_listG_MANE_Y3: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Y3 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c $formatI | #
# $c $xci/jeu_vie.11$X #
# $c iterations=100 #
# $c R=$_____ImageTW.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.Y3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Y3: #
# #
# #
# Cette image repose sur un calcul identique a 'v $xiirc/MANE.O1.2' mais en traitant #
# la structure fractale dans un premier temps avec le jeu de la vie bidimensionnel #
# (cent iterations), puis dans un second temps avec le jeu de la vie tridimensionnel #
# parametre comme pour l'image 'v $xiirk/JWIG.32.2'... #
v $xiirc/MANE.Z3.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Z3: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd1.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=4 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Z3 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.Z3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Z3: #
# #
# #
# Cette image est une interpolation entre 'v $xiirc/MANE.S1.2' (avec une symetrie par #
# rapport a 'OY' afin qu'il y ait plus de "matiere" a gauche, alors que la courbe de #
# Hilbert sera plutot a droite) et 'v $xiirv/HILB.34.2' (a droite donc...). On rappelle #
# que l'interpolation faite ('v $xci/interpole.12$K') ne "commute" pas et que l'ordre #
# importe enormement. Ici, on associe : #
# #
# a chaque point non vide de 'A1=$_____ImageTd2' ('HILB.34') #
# | #
# | #
# --0--> un unique point non vide de 'A2=$_____ImageTd1' ('MANE.S1') #
# #
# or il y a beaucoup moins de points dans 'HILB.34' que dans 'MANE.S1' et donc ainsi #
# il y a peu de points dans 'MANE.Z3' (autant que dans 'HILB.34'), d'ou l'aspect un #
# peu vide de 'v $xiirc/MANE.Z3.2' par rapport a 'v $xiirc/MANE.S1.2'... #
v $xiirc/MANE.Z4.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Z4: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd1.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Z4 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.Z4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Z4: #
# #
# #
# Cette image est une interpolation entre 'v $xiirc/MANE.S1.2' (avec une symetrie par #
# rapport a 'OY' afin qu'il y ait plus de "matiere" a gauche, alors que la courbe de #
# Hilbert sera plutot a droite) et 'v $xiirv/HILB.35.2' (a droite donc...). On rappelle #
# que l'interpolation faite ('v $xci/interpole.12$K') ne "commute" pas et que l'ordre #
# importe enormement. Ici, on associe : #
# #
# a chaque point non vide de 'A1=$_____ImageTd2' ('HILB.35') #
# | #
# | #
# --0--> un unique point non vide de 'A2=$_____ImageTd1' ('MANE.S1') #
# #
# or il y a beaucoup moins de points dans 'HILB.35' que dans 'MANE.S1' et donc ainsi #
# il y a peu de points dans 'MANE.Z4' (autant que dans 'HILB.35'), d'ou l'aspect un #
# peu vide de 'v $xiirc/MANE.Z4.2' par rapport a 'v $xiirc/MANE.S1.2'... #
v $xiirc/MANE.Z5.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_Z5: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd1.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $Z set _____MinX=0.1 #
# $Z set _____MaxX=0.9 #
# $Z set _____MinY=0.1 #
# $Z set _____MaxY=0.9 #
# $Z set _____MinZ=0.0 #
# $Z set _____MaxZ=1.0 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.Z5 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.Z5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_Z5: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.Z4.2' mais d'une part en resolution moitie #
# ('Std' et 256 couches) et d'autre part la courbe de Hilbert etant calculee dans la boite #
# [0.1,0.9]x[0.1,0.9]x[0,1] (et non plus dans [0.2,0.8]x[0.2,0.8]x[0.2,0.8]) afin de simuler #
# un zoom (en reduisant l'espace {OX,OY}) et en reduisant le temps d'interpolation en #
# utilisant tout l'espace 'OZ' ce qui fait qu'il y aura des points dans toutes les couche... #
v $xiirc/MANE.a4.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_a4: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd2.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.a4 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.a4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_a4: #
# #
# #
# Cette image est une interpolation entre 'v $xiirc/MANE.S1.2' (avec une symetrie par #
# rapport a 'OY' afin qu'il y ait plus de "matiere" a gauche, alors que la courbe de #
# Hilbert sera plutot a droite) et 'v $xiirv/HILB.35.2' (a droite donc...). On rappelle #
# que l'interpolation faite ('v $xci/interpole.12$K') ne "commute" pas et que l'ordre #
# importe enormement. Ici, on associe : #
# #
# a chaque point non vide de 'A1=$_____ImageTd2' ('MANE.S1') #
# | #
# | #
# --0--> un unique point non vide de 'A2=$_____ImageTd1' ('HILB.35') #
# #
# ainsi, '$_____ImageTd1' et '$_____ImageTd2' ont ete permutes par rappoart a ce qu'ils #
# etaient pour 'v $xiirc/MANE.Z4.2'... #
v $xiirc/MANE.a5.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_a5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd2.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.a5 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.a5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_a5: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.a4.2', mais en format 'Sdu' au lieu de 'Std' #
# et 512 couches au lieu de 256 (donc une meilleure resolution...). #
# #
# On notera que j'ai interrompu le calcul au bout d'environ une semaine, alors que les images #
# '$_____ImageTi' (calculees par '$xci/interpole.12$X') 0465 a 0512 n'avaient pas encore ete #
# calculees et qu'en toute logique elles devaient etre nulles, celles qui les precedaient #
# l'etant. Ces images manquantes ont donc ete generees a priori avec '$xci/init$X'... #
v $xiirc/MANE.a6.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_a6: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd2.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.a6 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Inverser=VRAI #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.a6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_a6: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.a4.2', sauf que le ponderateur d'interpolation #
# ('$xTV/MIRE') est inverse... #
v $xiirc/MANE.b5.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_b5: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTS #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.S1 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd2=$_____ImageTd #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/Sy$X #
# $c A=$_____ImageTd2.%04d #
# $c standard=FAUX #
# $c R=$_____ImageTd2.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT1 $xTV/HILB.34 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set _____Profondeur=5 #
# $Z set _____MinX=0.1 #
# $Z set _____MaxX=0.9 #
# $Z set _____MinY=0.1 #
# $Z set _____MaxY=0.9 #
# $Z set _____MinZ=0.0 #
# $Z set _____MaxZ=1.0 #
# $m4 _____include(_____xiirv/.HILB.31._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____ImageTd1=$_____ImageTd #
# #
# $Z setenv _____ImageT1 $xTV/MANE.b5 #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z set _____RotationX=-0.7 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiirc/MANE.b5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_b5: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.a5.2' mais d'une part en resolution moitie #
# ('Std' et 256 couches) et d'autre part la courbe de Hilbert etant calculee dans la boite #
# [0.1,0.9]x[0.1,0.9]x[0,1] (et non plus dans [0.2,0.8]x[0.2,0.8]x[0.2,0.8]) afin de simuler #
# un zoom (en reduisant l'espace {OX,OY}) et en reduisant le temps d'interpolation en #
# utilisant tout l'espace 'OZ' ce qui fait qu'il y aura des points dans toutes les couche... #
v $xiirc/MANE.c1.1
v $xiirc/MANE.c1.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_c1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.c1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0 maxnr=1.00" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0 maxnr=0.94" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0 maxnr=0.47" #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.c1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_c1: #
# #
# #
# Cette image est similaire a 'v $xiirc/MANE.O1.2' si ce n'est que le coloriage n'est pas #
# fait en fonction de {X,Y,Z} mais uniformement avec {R,V,B}={1.00,0.94,0.47} (dans [0,1])... #
# #
# On notera qu'avant ce parametrage fut essaye : #
# #
# set _____exec_aR="pX=0 pY=0 pZ=0 maxnr=1.0 rnr=FAUX" #
# set _____exec_aV="pX=0 pY=0 pZ=0 maxnr=0.8 rnr=FAUX" #
# set _____exec_aB="pX=0 pY=0 pZ=0 maxnr=0.4 rnr=FAUX" #
# #
# qui donnait de bon resultat mais passe par un 'v $xiii/di_album$FON TRON.niveau_resultant' #
# pas tres "propre"... #
v $xiirc/MANE.d1.1
v $xiirc/MANE.d1.2
v $xiirc/MANE.d1$Z_BUFFER
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_d1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z p=$xiP/trou_noir.E5 \ #
# $Z R=$_____ImageT2. \ #
# $Z $formatI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.d1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z execRVB $xci/multi_02.01$X \ #
# $Z A1=$_____ImageTo.%04d \ #
# $Z A2=$_____ImageT2.%04d%%s \ #
# $Z renormaliser=FAUX \ #
# $Z R=$_____ImageTT.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0" #
# $Z set _____PostfixeT="%s" #
# $Z SET _____Detruire_1=$NEXIST #
# $Z SET _____ConserverZB=$EXIST #
# $Z set _____imagesR=$xiirc/MANE.d1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_d1: #
# #
# #
# Cette image est similaire a 'v $xiirc/MANE.O1.2' si ce n'est que le coloriage n'est pas #
# fait en fonction de {X,Y,Z} mais a l'aide d'une texture tridimensionnelle (au passage, #
# celle qui est a la base des structures du type 'v $xiirf/FRB3.32.2'... #
v $xiirc/MANE.d1.2.0001
v $xiirc/MANE.d1.2.0002
v $xiirc/MANE.d1.2.0003
v $xiirc/MANE.d1.2.0004
v $xiirc/MANE.d1.2.0005
v $xiirc/MANE.d1.2.0006
v $xiirc/MANE.d1.2.0007
v $xiirc/MANE.d1.2.0008
v $xiirc/MANE.d1.2.0009
v $xiirc/MANE.d1.2.0010
v $xiirc/MANE.d1.2.0011
v $xiirc/MANE.d1.2.0012
v $xiirc/MANE.d1.2.0013
v $xiirc/MANE.d1.2.0014
v $xiirc/MANE.d1.2.0015
v $xiirc/MANE.d1.2.0016
Pdu ; anim3 A=$xiirc/MANE.d1.2. premiere=1 derniere=16
# Correspond aux images de la sequence : #
# #
# 'v $xiac/MANE.d1.2$R16' #
# #
v $xiirc/MANE.d1.1.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_d1_1_2: #
# #
# $Z Pdu #
# #
# $Z set _____imagesA=$xiirc/MANE.d1.1 #
# #
# $Z $xci/RVB_RVB.01$Z \ #
# $Z $_____imagesA \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $_____imagesA.2 #
# #
# :Fin_listG_MANE_d1_1_2: #
# #
v $xiirc/MANE.d1.2.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_d1_2_2: #
# #
# $Z Pdu #
# #
# $Z set _____imagesA=$xiirc/MANE.d1.2 #
# #
# $Z $xci/RVB_RVB.01$Z \ #
# $Z $_____imagesA \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $xiP/arc_ciel.B1 \ #
# $Z $_____imagesA.2 #
# #
# :Fin_listG_MANE_d1_2_2: #
# #
v $xiirc/MANE.e1.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_MANE_e1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z $xci/random.01$X \ #
# $Z graine=1947 \ #
# $Z R=$xTV/RANDOM \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=32 \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/RANDOM \ #
# $Z N=$xTV/GAUSS \ #
# $Z avertir_non_implicite=FAUX \ #
# $Z seuil=253 \ #
# $Z R=$xTV/RANDOM$Fi \ #
# $Z $formatI #
# #
# $Z $xci/bordurage.11$X \ #
# $Z A=$xTV/RANDOM$Fi \ #
# $Z xbg=$Xmin ybg=$Ymin \ #
# $Z xhd=$Xmin yhd=$Ymax \ #
# $Z R=$xTV/BANDES.1 \ #
# $Z $formatI #
# #
# $Z $xci/Sy$X \ #
# $Z A=$xTV/BANDES.1 \ #
# $Z $formatI | \ #
# $Z $xci/maximum$X \ #
# $Z A1=$xTV/BANDES.1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/BANDES \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$xTV/BANDES \ #
# $Z chiffresA=0 \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z p=$xiP/trou_noir.E5 \ #
# $Z R=$_____ImageT2. \ #
# $Z $formatI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.e1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere \ #
# $Z execRVB $xci/multi_02.01$X \ #
# $Z A1=$_____ImageTo.%04d \ #
# $Z A2=$_____ImageT2.%04d%%s \ #
# $Z renormaliser=FAUX \ #
# $Z R=$_____ImageTT.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0" #
# $Z set _____PostfixeT="%s" #
# $Z set _____imagesR=$xiirc/MANE.e1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_e1: #
# #
# #
# Cette image est similaire a 'v $xiirc/MANE.O1.2' si ce n'est que le coloriage n'est pas #
# fait en fonction de {X,Y,Z} mais a l'aide d'une texture tridimensionnelle fait de "plaques" #
# horizontales homogenes... #
v $xiirc/MANE.f1.1
v $xiirc/MANE.f1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_MANE_f1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.f1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double repliement=2.0; #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c re=VRAI #
# $c Ro=%f Re=%f #
# $c Io=%f Ie=%f #
# $c Jo=%f Je=%f #
# $c Ko=%f Ke=%f #
# $c So=%f Se=%f #
# $c To=%f Te=%f #
# $c Uo=%f Ue=%f #
# $c Vo=%f Ve=%f #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.f1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_f1: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais en repliant l'espace suivant #
# [-2.0,+2.0]^8... #
v $xiirc/MANE.f2.1
v $xiirc/MANE.f2.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_f2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.f2 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double repliement=2.5; #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c re=VRAI #
# $c Ro=%f Re=%f #
# $c Io=%f Ie=%f #
# $c Jo=%f Je=%f #
# $c Ko=%f Ke=%f #
# $c So=%f Se=%f #
# $c To=%f Te=%f #
# $c Uo=%f Ue=%f #
# $c Vo=%f Ve=%f #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.f2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_f2: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais en repliant l'espace suivant #
# [-2.5,+2.5]^8... #
v $xiirc/MANE.f3.1
v $xiirc/MANE.f3.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_f3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.f3 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double repliement=3.0; #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c re=VRAI #
# $c Ro=%f Re=%f #
# $c Io=%f Ie=%f #
# $c Jo=%f Je=%f #
# $c Ko=%f Ke=%f #
# $c So=%f Se=%f #
# $c To=%f Te=%f #
# $c Uo=%f Ue=%f #
# $c Vo=%f Ve=%f #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.f3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_f3: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais en repliant l'espace suivant #
# [-3.0,+3.0]^8... #
v $xiirc/MANE.f4.1
v $xiirc/MANE.f4.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_f4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.f4 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double repliement=5.0; #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c re=VRAI #
# $c Ro=%f Re=%f #
# $c Io=%f Ie=%f #
# $c Jo=%f Je=%f #
# $c Ko=%f Ke=%f #
# $c So=%f Se=%f #
# $c To=%f Te=%f #
# $c Uo=%f Ue=%f #
# $c Vo=%f Ve=%f #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.f4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_f4: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais en repliant l'espace suivant #
# [-5.0,+5.0]^8... #
v $xiirc/MANE.f5.1
v $xiirc/MANE.f5.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_f5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.f5 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double repliement=10.0; #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c re=VRAI #
# $c Ro=%f Re=%f #
# $c Io=%f Ie=%f #
# $c Jo=%f Je=%f #
# $c Ko=%f Ke=%f #
# $c So=%f Se=%f #
# $c To=%f Te=%f #
# $c Uo=%f Ue=%f #
# $c Vo=%f Ve=%f #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,-repliement,+repliement #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirc/MANE.f5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_f5: #
# #
# #
# Cette image est identique a 'v $xiirc/MANE.O1.2', mais en repliant l'espace suivant #
# [-10.0,+10.0]^8... #
v $xiirc/MANE.g1$m
v $xiirc/MANE.g1$m.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_g1_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set FeNeTrE="xbg=-3 ybg=-1.75 xhd=+0.5 yhd=+1.75" #
# #
# $Z $xrc/mandel.01$X \ #
# $Z n=1 \ #
# $Z $FeNeTrE \ #
# $Z arguments=FAUX \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/MAND.11 \ #
# $Z $formatI #
# #
# $Z $xci/acces$X \ #
# $Z A=$xTV/MAND.11 \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z passes=100 \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/MAND.12 \ #
# $Z $formatI #
# #
# $Z $xrc/mandel.01$X \ #
# $Z n=1 \ #
# $Z $FeNeTrE \ #
# $Z arguments=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/MAND.21 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/MAND.21 \ #
# $Z p=$xiP/roug0_jaun0 \ #
# $Z R=$xTV/MAND.22 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/MAND.22%s \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z points=49 \ #
# $Z R=$xTV/MAND.23%s \ #
# $Z $formatI #
# #
# $Z @ PlAnChEr = $NOIR_PLANCHER + 1 #
# #
# $Z execRVB "$xci/montagne.01$X \ #
# $Z A=$xTV/MAND.12 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z avion=VRAI \ #
# $Z NOIR=$NOIR \ #
# $Z falaise=FAUX \ #
# $Z T=$xTV/MAND.23%s \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$PlAnChEr \ #
# $Z sup=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z NOIR_uniquement=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/transpose$X \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z R=$xiirc/MANE.g1$m%s \ #
# $Z $formatI" #
# #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirc/MANE.g1$m%s \ #
# $Z iterations=3 \ #
# $Z R=$xiirc/MANE.g1$m.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_g1_m: #
# #
v $xiirc/MANE.h5.5.1
v $xiirc/MANE.h5.5.2
v $xiirc/MANE.h5.5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_h5_5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.h5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.h5.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=1600000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.h5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_h5_5: #
# #
# #
# Donne une transformation conforme 1/O dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.h6.5.1
v $xiirc/MANE.h6.5.2
v $xiirc/MANE.h6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_h6_5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.h6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.h6.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=0.0050 #
# $m4 _____include(_____xiirf/.MENG.66.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.h6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_h6_5: #
# #
# #
# Donne une transformation conforme OxO dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.h7.5.1
v $xiirc/MANE.h7.5.2
v $xiirc/MANE.h7.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_h7_5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.h7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.h7.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=200000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.h7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_h7_5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.i5.5.1
v $xiirc/MANE.i5.5.2
v $xiirc/MANE.i5.5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_i5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.i5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.i5.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=1600000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.i5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_i5_5: #
# #
# #
# Donne une transformation conforme 1/O dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.i6.5.1
v $xiirc/MANE.i6.5.2
v $xiirc/MANE.i6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_i6_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.i6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.i6.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=0.0050 #
# $m4 _____include(_____xiirf/.MENG.66.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.i6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_i6_5: #
# #
# #
# Donne une transformation conforme OxO dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.i7.5.1
v $xiirc/MANE.i7.5.2
v $xiirc/MANE.i7.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_i7_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.i7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.i7.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=200000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.i7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_i7_5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble de #
# Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.j5.5.1
v $xiirc/MANE.j5.5.2
v $xiirc/MANE.j5.5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_j5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.j5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.j5.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=1600000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.j5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_j5_5: #
# #
# #
# Donne une transformation conforme 1/O dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.j6.5.1
v $xiirc/MANE.j6.5.2
v $xiirc/MANE.j6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_j6_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.j6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.j6.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=0.0050 #
# $m4 _____include(_____xiirf/.MENG.66.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.j6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_j6_5: #
# #
# #
# Donne une transformation conforme OxO dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.j7.5.1
v $xiirc/MANE.j7.5.2
v $xiirc/MANE.j7.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_j7_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.j7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.j7.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=200000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.j7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_j7_5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.k5.5.1
v $xiirc/MANE.k5.5.2
v $xiirc/MANE.k5.5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_k5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.k5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.k5.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=240000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.k5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_k5_5: #
# #
# #
# Donne une transformation conforme 1/O dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.k6.5.1
v $xiirc/MANE.k6.5.2
v $xiirc/MANE.k6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_k6_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.k6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.k6.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=0.0005 #
# $m4 _____include(_____xiirf/.MENG.66.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.k6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_k6_5: #
# #
# #
# Donne une transformation conforme OxO dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.k7.5.1
v $xiirc/MANE.k7.5.2
v $xiirc/MANE.k7.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_k7_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.k7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.k7.5.1 #
# #
# $Z SET _____Jdecimales=8 #
# $Z SET _____OJ=0.80407145 #
# $Z SET _____EJ=0.78912515 #
# $Z SET _____XYdecimales=12 #
# $Z SET _____xbg=-0.04219935 #
# $Z SET _____xhd=-0.01481494 #
# $Z SET _____ybg=-0.35992086 #
# $Z SET _____yhd=-0.33253645 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=63000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.k7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_k7_5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions d'un zoom #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.l5.5.1
v $xiirc/MANE.l5.5.2
v $xiirc/MANE.l5.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_l5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.l5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.l5.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=240000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.l5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_l5_5: #
# #
# #
# Donne une transformation conforme 1/O dans les octonions de #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.l6.5.1
v $xiirc/MANE.l6.5.2
v $xiirc/MANE.l6.5.21
# Generee (sur '$CMAP28' -ex "porte-d-auteuil"-) par : #
# #
# #
# :Debut_listG_MANE_l6_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.l6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.l6.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=0.0005 #
# $m4 _____include(_____xiirf/.MENG.66.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.l6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_l6_5: #
# #
# #
# Donne une transformation conforme OxO dans les octonions de #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.l7.5.1
v $xiirc/MANE.l7.5.2
v $xiirc/MANE.l7.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_l7_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.l7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.l7.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z SET _____Facteur=63000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.l7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_l7_5: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de #
# l'ensemble de Mandelbrot 'v $xiirc/MANE.V1.2'. #
v $xiirc/MANE.m1.5.0 p=$xiP/gris.01
v $xiirc/MANE.m1.5.0 p=$xiP/CEN.11
v $xiirc/MANE.m1.5.0 p=$xiP/fractal.11
v $xiirc/MANE.m1.5.1
v $xiirc/MANE.m1.5.2
v $xiirc/MANE.m1.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_m1_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.m1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.m1.5.1 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.m1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_m1_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.V1.2' mais avec une meilleure definition... #
v $xiirc/MANE.m1.5.21.2
# Generee (sur '$LACT1A', puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANE_m1_5_21_2: #
# #
# $Z Squ #
# #
# $Z execRVB $xci/nettete.01$X \ #
# $Z A=$xiirc/MANE.m1.5.21%s \ #
# $Z R=$xiirc/MANE.m1.5.21.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_m1_5_21_2: #
# #
v $xiirc/MANE.m1.5.21.3
# Generee (sur '$LACT1A', puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANE_m1_5_21_3: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xci/scroll$X \ #
# $Z A=$GRIS_2 \ #
# $Z toreX=FAUX \ #
# $Z trX=+0.990 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z toreX=FAUX \ #
# $Z trX=-0.495 \ #
# $Z R=$xTV/BARRE \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/scroll$X \ #
# $Z A=$xiirc/MANE.m1.5.21%s \ #
# $Z toreX=FAUX \ #
# $Z trX=+0.5 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z toreX=FAUX \ #
# $Z trX=-0.5 \ #
# $Z R=$xTV/MANE.m1.5.21$GAUCHE%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/scroll$X \ #
# $Z A=$xiirc/MANE.m1.5.21.2%s \ #
# $Z toreX=FAUX \ #
# $Z trX=-0.5 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z toreX=FAUX \ #
# $Z trX=+0.5 \ #
# $Z R=$xTV/MANE.m1.5.21$DROITE%s \ #
# $Z $formatI" #
# #
# $Z execRVB "$xci/or_02$X \ #
# $Z A1=$xTV/MANE.m1.5.21$GAUCHE%s \ #
# $Z A2=$xTV/MANE.m1.5.21$DROITE%s \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z M=$xTV/BARRE \ #
# $Z R=$xiirc/MANE.m1.5.21.3%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MANE_m1_5_21_3: #
# #
v $xiirc/MANE.n2.5.0 p=$xiP/gris.01
v $xiirc/MANE.n2.5.0 p=$xiP/CEN.11
v $xiirc/MANE.n2.5.0 p=$xiP/fractal.11
v $xiirc/MANE.n2.5.1
v $xiirc/MANE.n2.5.2
v $xiirc/MANE.n2.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANE_n2_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.n2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.n2.5.1 #
# #
# $Z SET _____OJ=+0.820 #
# $Z SET _____EJ=+0.0 #
# $Z SET _____K=+0.7 #
# $Z SET _____xbg=-0.85 #
# $Z SET _____xhd=+0.85 #
# $Z SET _____ybg=-0.85 #
# $Z SET _____yhd=+0.85 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.n2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_n2_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.W2.2' mais avec une meilleure definition... #
v $xiirc/MANE.o1.5.0 p=$xiP/gris.01
v $xiirc/MANE.o1.5.1
v $xiirc/MANE.o1.5.2
v $xiirc/MANE.o1.5.21
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_MANE_o1_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.o1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.o1.5.1 #
# #
# $Z SET _____OJ=+1.345 #
# $Z SET _____Puissance=3 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.o1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT1. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_o1_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.m1.5' mais avec un exposant de 3 au lieu de 8... #
# #
# On notera que l'ombrage demande 02:18 et l'accumulation 02:11... #
v $xiirc/MANE.p1 p=$xiP/arc_ciel.01
v $xiirc/MANE.p1 p=$xiP/random.13$Fi
v $xiirc/MANE.p1 p=$xiP/random.A5
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_p1: #
# #
# $Z Sud #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageT=$xTV/MANE.p1. #
# $Z set _____ImageR=$xiirc/MANE.p1 #
# #
# $Z set CaDrE=1.4 #
# #
# $Z @ NoMbReHV = 4 #
# $Z @ NoMbRe = $NoMbReHV * $NoMbReHV #
# $Z @ PrEmIeRe = 1 #
# $Z @ DeRnIeRe = $PrEmIeRe + $NoMbRe - 1 #
# #
# $Z set ExPoSaNt=$PrEmIeRe #
# #
# $Z while ($ExPoSaNt <= $DeRnIeRe) #
# $Z set NuMeRo=`$xci/nombres$X A="$K_VIDE" premiere=$ExPoSaNt derniere=$ExPoSaNt` #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z exposant=$ExPoSaNt \ #
# $Z xbg=-$CaDrE ybg=-$CaDrE \ #
# $Z xhd=+$CaDrE yhd=+$CaDrE \ #
# $Z arguments=VRAI \ #
# $Z R=$_____ImageT$NuMeRo \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# $Z @ ExPoSaNt = $ExPoSaNt + 1 #
# $Z end #
# #
# $Z $xci/regroupe.02$Z \ #
# $Z $_____ImageT \ #
# $Z $_____ImageR \ #
# $Z $PrEmIeRe 1 \ #
# $Z $NoMbReHV $NoMbReHV \ #
# $Z "$K_VIDE" \ #
# $Z "$formatR_Sdu" \ #
# $Z "$K_VIDE" \ #
# $Z FAUX #
# #
# :Fin_listG_MANE_p1: #
# #
# #
# qui montre l'ensemble de Mandelbrot avec des exposants variant de 1 a 16... #
v $xiirc/MANE.p1$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_p1_m: #
# #
# $Z Sud #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageT=$xTV/MANE.p1. #
# $Z set _____ImageR=$xiirc/MANE.p1 #
# #
# $Z $xci/gauss$X \ #
# $Z c=32 \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z set CaDrE=1.4 #
# #
# $Z set PaLeTtE=$xiP/random.A5 #
# #
# $Z @ NoMbReHV = 4 #
# $Z @ NoMbRe = $NoMbReHV * $NoMbReHV #
# $Z @ PrEmIeRe = 1 #
# $Z @ DeRnIeRe = $PrEmIeRe + $NoMbRe - 1 #
# #
# $Z set ExPoSaNt=$PrEmIeRe #
# #
# $Z set ArGs="$K_VIDE" #
# $Z set ArGs="$ArGs"" N=1" #
# $Z set ArGs="$ArGs"" xbg=-$CaDrE ybg=-$CaDrE" #
# $Z set ArGs="$ArGs"" xhd=+$CaDrE yhd=+$CaDrE" #
# $Z set ArGs="$ArGs"" chiffres=0" #
# #
# $Z while ($ExPoSaNt <= $DeRnIeRe) #
# $Z set NuMeRo=`$xci/nombres$X A="$K_VIDE" premiere=$ExPoSaNt derniere=$ExPoSaNt` #
# #
# $Z $xrc/mandel.01$X \ #
# $Z $ArGs \ #
# $Z exposant=$ExPoSaNt \ #
# $Z arguments=VRAI \ #
# $Z R=$_____ImageT"1."$NuMeRo \ #
# $Z $formatI #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____ImageT"1."$NuMeRo \ #
# $Z p=$PaLeTtE \ #
# $Z R=$_____ImageT"1."$NuMeRo \ #
# $Z $formatI #
# #
# $Z $xrc/mandel.01$X \ #
# $Z $ArGs \ #
# $Z exposant=$ExPoSaNt \ #
# $Z arguments=FAUX \ #
# $Z R=$_____ImageT"2."$NuMeRo \ #
# $Z $formatI #
# $Z $xci/filtre.01$X \ #
# $Z A=$_____ImageT"2."$NuMeRo \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=150 \ #
# $Z R=$_____ImageT"2."$NuMeRo \ #
# $Z $formatI #
# #
# $Z $xci/acces$X \ #
# $Z A=$_____ImageT"2."$NuMeRo \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=20 \ #
# $Z normaliser_avant_apres=VRAI \ #
# $Z R=$_____ImageT"2."$NuMeRo \ #
# $Z $formatI #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$_____ImageT"2."$NuMeRo \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____ImageT"1."$NuMeRo%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____ImageT$NuMeRo%s \ #
# $Z $formatI #
# #
# $Z @ ExPoSaNt = $ExPoSaNt + 1 #
# $Z end #
# #
# $Z set ChIfFrEs=`GetParam $xci/regroupe.01$X chiffres` #
# #
# $Z execRVB $xci/regroupe.02$Z \ #
# $Z $_____ImageT \ #
# $Z $_____ImageR$m%s \ #
# $Z $PrEmIeRe 1 \ #
# $Z $NoMbReHV $NoMbReHV \ #
# $Z "%s" \ #
# $Z '$K_QD$formatR_Sdu$K_QD' \ #
# $Z $ChIfFrEs \ #
# $Z FAUX #
# #
# :Fin_listG_MANE_p1_m: #
# #
# #
# qui montre tridimensionnellemnt l'ensemble de Mandelbrot avec des exposants variant #
# de 1 a 16... #
v $xiirc/MANE.q2.5.1
v $xiirc/MANE.q2.5.2
v $xiirc/MANE.q2.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_q2_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.q2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.q2.5.1 #
# #
# $Z SET _____OJ=+1.0 #
# $Z SET _____EJ=+0.0 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-1.00 #
# $Z SET _____xhd=+1.00 #
# $Z SET _____ybg=-1.00 #
# $Z SET _____yhd=+1.00 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.q2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_q2_5: #
# #
# #
# Image identique theoriquement a la "vieille" image 'v $xiirc/MAND.Z2.2', mais en notant #
# que pour cette derniere il y avait "tTheta=$pi tPhi=$pi', alors qu'ici ces deux parametres #
# semblent etre nuls. Enfin, la vieille image utilisait '$xrc/mandel.41$X' au lieu de #
# '$xrc/mandel.81$X' ici... #
v $xiirc/MANE.r2.5.1
v $xiirc/MANE.r2.5.2
v $xiirc/MANE.r2.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_r2_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.r2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.r2.5.1 #
# #
# $Z SET _____OJ=+1.0 #
# $Z SET _____EJ=+0.0 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-1.00 #
# $Z SET _____xhd=+1.00 #
# $Z SET _____ybg=-1.00 #
# $Z SET _____yhd=+1.00 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.r2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_r2_5: #
# #
# #
# Image identique theoriquement a la "vieille" image 'v $xiirc/MAND.Z2.2', mais en mieux... #
v $xiirc/MANE.r3.5.1
v $xiirc/MANE.r3.5.2
v $xiirc/MANE.r3.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_r3_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.r3.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.r3.5.1 #
# #
# $Z SET _____OJ=+1.1 #
# $Z SET _____EJ=+0.0 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-1.10 #
# $Z SET _____xhd=+1.10 #
# $Z SET _____ybg=-1.10 #
# $Z SET _____yhd=+1.10 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.r3.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_r3_5: #
# #
# #
# On notera que '_____EJ=+0.0' est en arriere plan, alores que '_____OJ=+1.1' est au #
# premier plan... #
v $xiirc/MANE.r3.5.21$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_MANE_r3_5_21_IdM: #
# #
# $Z Squ #
# #
# $Z set _____ImageA=$xiirc/MANE.r3.5.21 #
# $Z set _____ImageR=$_____ImageA$IdM #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$_____ImageA%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatR_TvB #
# #
# :Fin_listG_MANE_r3_5_21_IdM: #
# #
v $xiirc/MANE.r4.5.1
v $xiirc/MANE.r4.5.2
v $xiirc/MANE.r4.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_r4_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.r4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.r4.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.15 #
# $Z SET _____ybg=-0.30 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.10 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.r4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_r4_5: #
# #
v $xiirc/MANE.r5.5.1
v $xiirc/MANE.r5.5.2
v $xiirc/MANE.r5.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_r5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.r5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.r5.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.r5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_r5_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 19:31:38 #
# #
# $xci/accumule.42$X : 03:49:30 #
# #
v $xiirc/MANE.r5.6.1
v $xiirc/MANE.r5.6.2
v $xiirc/MANE.r5.6.21
# Generee (sur '$CMAP28' -ex "porte-d-auteuil"-) par : #
# #
# #
# :Debut_listG_MANE_r5_6: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.r5.6.2 #
# $Z setenv _____ImageT1 $xTV/MANE.r5.6.1 #
# #
# $Z SET _____OJ=+1.066812 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=+0.02500 #
# $Z SET _____ybg=-0.19858 #
# $Z SET _____xhd=+0.03750 #
# $Z SET _____yhd=-0.18608 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.r5.6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_r5_6: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:55:35 #
# #
# $xci/accumule.42$X : 03:39:59 #
# #
v $xiirc/MANE.s4.5.1
v $xiirc/MANE.s4.5.2
v $xiirc/MANE.s4.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_s4_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.s4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.s4.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.15 #
# $Z SET _____ybg=-0.30 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.10 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.s4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_s4_5: #
# #
# #
# Cette image est le resultat de la transformation 1/O de 'v $xiirc/MANE.r4.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/tapisserie$X #
# $xci/o_homogra.81$X : 00:16:51 #
# #
# $xci/ombrage.11$X : 09:46:28 #
# #
# $xci/accumule.42$X : 02:30:47 #
# #
v $xiirc/MANE.s5.5.1
v $xiirc/MANE.s5.5.2
v $xiirc/MANE.s5.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_s5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.s5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.s5.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.s5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_s5_5: #
# #
# #
# Cette image est le resultat de la transformation (1/O)^1 de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/tapisserie$X #
# $xci/o_homogra.81$X : 00:12:36 #
# #
# $xci/ombrage.11$X : 25:41:27 #
# #
# $xci/accumule.42$X : 04:20:57 #
# #
v $xiirc/MANE.s5.6.1
v $xiirc/MANE.s5.6.2
v $xiirc/MANE.s5.6.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_s5_6: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.s5.6.2 #
# $Z setenv _____ImageT1 $xTV/MANE.s5.6.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.s5.6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_s5_6: #
# #
# #
# Cette image est le resultat de la transformation (1/O)^2 de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 22:03:12 #
# #
# $xci/accumule.42$X : 04:22:47 #
# #
# #
# On notera qu'en fait ce n'est pas le '$Z' {Debut_listG_MANE_s5_6,Fin_listG_MANE_s5_6} qui #
# a ete genere puis execute. Pour gagner du temps, immediatement apres l'execution du '$Z' #
# {Debut_listG_MANE_s5_5,Fin_listG_MANE_s5_5}, ce dernier a vu disparaitre la sequence #
# correspondant aux generations des tranches de Mandelbrot, soit : #
# #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# Ainsi, ne restait que : #
# #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# qui transforme la sequence '$_____ImageT2' en elle-meme. Ainsi ce '$Z' modifie etait #
# strictement equivalent a : #
# #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# On notera une petite subtilite : sur '$CMAP28' -ex "porte-pouchet"', durant tous ces #
# calculs, la definition de '$DStemporaires' est passee de '/tmp' a '/users'. Il a donc #
# fallu modifier la definition '$DStemporaires' pour revenir temporairement a '/tmp'... #
# #
# #
# En fait le 20170515092217 (a cause de 'v $Fdirectories 20170515091557'), ces images #
# furent regenerees de facon "classique"... #
v $xiirc/MANE.s5.7.1
v $xiirc/MANE.s5.7.2
v $xiirc/MANE.s5.7.21
# Generee (sur '$CMAP28' -ex "porte-d-auteuil"-) par : #
# #
# #
# :Debut_listG_MANE_s5_7: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.s5.7.2 #
# $Z setenv _____ImageT1 $xTV/MANE.s5.7.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.s5.7 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_s5_7: #
# #
# #
# Cette image est le resultat de la transformation (1/O)^3 de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 14:17:11 #
# #
# $xci/accumule.42$X : 06:13:59 #
# #
v $xiirc/MANE.t5.5.1
v $xiirc/MANE.t5.5.2
v $xiirc/MANE.t5.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_t5_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.t5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.t5.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.t5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_t5_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.r5.5.1', mais avec "compatibilite_20170517=FAUX" pour #
# 'v $xci/ombrage.11$K compatibilite_20170517'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 09:37:52 #
# #
# $xci/accumule.42$X : 03:44:06 #
# #
v $xiirc/MANE.u4.5.1
v $xiirc/MANE.u4.5.2
v $xiirc/MANE.u4.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_u4_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.u4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.u4.5.1 #
# #
# $Z SET _____OJ=+1.077870 #
# $Z SET _____EJ=+0.800000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.22 #
# $Z SET _____xhd=0.0 #
# $Z SET _____ybg=-0.28 #
# $Z SET _____yhd=-0.06 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.u4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BVR #
# #
# :Fin_listG_MANE_u4_5: #
# #
# #
# On notera que des tests sur '$LACT1A' avaient donne "_____OJ=+1.077728", alors que #
# '$CMAP28' -ex "porte-pouchet"- a donne "_____OJ=+1.077870" (au passage, on cherche a #
# a faire en sorte que le premier champ ('.0001') soit '$NOIR' et que le second ('.0002') #
# soit '$BLANC' -en ce qui concerne le maximum-). Ou est la difference ? Mystere... #
# #
# On notera de plus les deux '$xci/permute_RVB.11$Z' en cascade, alors que j'aurai pu #
# revenir a l'image originale, mais c'est pour eviter les erreurs... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 12:49:17 #
# #
# $xci/accumule.42$X : 09:12:22 #
# #
# On notera que cette image est parfaite pour verifier le bon calcul des ombres portees... #
v $xiirc/MANE.v4.5.1
v $xiirc/MANE.v4.5.2
v $xiirc/MANE.v4.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_v4_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.v4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.v4.5.1 #
# #
# $Z SET _____OJ=+1.077870 #
# $Z SET _____EJ=+0.800000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.22 #
# $Z SET _____xhd=0.0 #
# $Z SET _____ybg=-0.28 #
# $Z SET _____yhd=-0.06 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.v4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BVR #
# #
# :Fin_listG_MANE_v4_5: #
# #
# #
# Cette image est le resultat de la transformation 1/O de 'v $xiirc/MANE.u4.5.21'... #
# #
# On notera de plus les deux '$xci/permute_RVB.11$Z' en cascade, alors que j'aurai pu #
# revenir a l'image originale, mais c'est pour eviter les erreurs... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/tapisserie$X #
# $xci/o_homogra.81$X : 00:38:26 #
# #
# $xci/ombrage.11$X : 10:49:56 #
# #
# $xci/accumule.42$X : 09:14:26 #
# #
v $xiirc/MANE.w1 p=$xiP/fract.03$Fi
v $xiirc/MANE.w1 p=$xiP/random.32$Fi
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANE_w1: #
# #
# $Z Pqu #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z iterations=256 \ #
# $Z arguments=FAUX \ #
# $Z chiffres=0 \ #
# $Z R=$xiirc/MANE.w1 \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_w1: #
# #
v $xiirc/MANE.x1.1
v $xiirc/MANE.x1.2
v $xiirc/MANE.x1.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# #
# :Debut_listG_MANE_x1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.x1 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.x1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_x1: #
# #
# #
# Donne une nouvelle version de 'v $xiirc/MANE.S1.2'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:45:09 #
# #
# $xci/accumule.42$X : 00:34:45 #
# #
v $xiirc/MANE.y1.1
v $xiirc/MANE.y1.2
v $xiirc/MANE.y1.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# #
# :Debut_listG_MANE_y1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.y1 #
# $Z setenv _____ImageT2 $xTV/MANE.y2 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT1.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT2.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT2.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT1.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/MANE.y1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_y1: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble #
# 'v $xiirc/MANE SANS rotation. #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:44:11 #
# #
# $xci/accumule.42$X : 00:43:51 #
# #
v $xiirc/MANE.y2.1
v $xiirc/MANE.y2.2
v $xiirc/MANE.y2.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# #
# :Debut_listG_MANE_y2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.y1 #
# $Z setenv _____ImageT2 $xTV/MANE.y2 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.80131489 #
# $c #define EJ 0.79828076 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/mandel.81$X #
# $c images=1 #
# $c iterations=20 #
# $c J=%f #
# $c K=0 #
# $c S=0 #
# $c T=0 #
# $c U=0 #
# $c V=0 #
# $c exposant=1 #
# $c fdai=VRAI #
# $c xbg=-0.04553889 #
# $c xhd=-0.04089630 #
# $c ybg=-0.36672577 #
# $c yhd=-0.36208318 #
# $c pnt=VRAI #
# $c eRho=8 #
# $c pA1=8 tA1=0 #
# $c pA2=8 tA2=0 #
# $c pA3=8 tA3=0 #
# $c pA4=1 tA4=0 #
# $c pA5=1 tA5=0 #
# $c pA6=1 tA6=0 #
# $c pA7=1 tA7=0 #
# $c appartenance=VRAI #
# $c chiffres=0 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT1.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT2.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $Z SET _____Facteur=300000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT2.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT1.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/neutre$X $ArGuMeNtS $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.4 #
# $Z set _____RotationY=+0.2 #
# $Z set _____imagesR=$xiirc/MANE.y2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANE_y2: #
# #
# #
# Donne une transformation conforme (4xO+1)/(1xO-1) dans les octonions de l'ensemble #
# 'v $xiirc/MANE AVEC rotation. #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:44:01 #
# #
# $xci/accumule.42$X : 01:26:44 #
# #
v $xiirc/MANE.z5.5.1
v $xiirc/MANE.z5.5.2
v $xiirc/MANE.z5.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANE_z5_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.z5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.z5.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.z5.5._____U) #
# #
# $Z setenv _____ImageD $xTV/SECTIONS.d #
# #
# $m4 _____include(_____xiirf/.MENH.43.5.1._____U) #
# #
# $Z SET _____Mxx=4 #
# $Z SET _____Myy=4 #
# $Z SET _____Mzz=1 #
# #
# $Z set _____DeformiPara="$K_VIDE" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_X3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Y3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Z3D=VRAI" #
# $m4 _____include(_____xiirf/.MENG.z1.5.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.z5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_z5_5: #
# #
# #
# Cette image est le resultat d'une transformation de type entrelacs ('v $xiirv/STRU.d3') #
# de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:52:33 #
# #
# $xci/accumule.42$X : 00:20:00 #
# #
v $xiirc/MANE.z6.5.1
v $xiirc/MANE.z6.5.2
v $xiirc/MANE.z6.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANE_z6_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DFtemporairesG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.z6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.z6.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.z5.5._____U) #
# #
# $Z setenv _____ImageD $xTV/SECTIONS.d #
# #
# $m4 _____include(_____xiirf/.MENH.43.5.1._____U) #
# #
# $Z SET _____Mxx=2 #
# $Z SET _____Myy=2 #
# $Z SET _____Mzz=1 #
# #
# $Z set _____DeformiPara="$K_VIDE" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_X3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Y3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Z3D=VRAI" #
# $m4 _____include(_____xiirf/.MENG.z1.5.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANE.z6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_z6_5: #
# #
# #
# Cette image est le resultat d'une transformation de type entrelacs ('v $xiirv/STRU.d3') #
# de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:25:40 #
# #
# $xci/accumule.42$X : 00:22:39 #
# #
v $xiirc/MANE.z7.5.1
v $xiirc/MANE.z7.5.2
v $xiirc/MANE.z7.5.21
v $xiirc/MANE.z7.5$COORD_X$R16 p=$xiP/cercle.35
v $xiirc/MANE.z7.5$COORD_Y$R16 p=$xiP/cercle.35
v $xiirc/MANE.z7.5$COORD_Z$R16 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"- et sur '$LACT1A' pour les '$R16's) par : #
# #
# #
# :Debut_listG_MANE_z7_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANE.z7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANE.z7.5.1 #
# #
# $Z SET _____OJ=+1.076106 #
# $Z SET _____EJ=+1.018000 #
# $Z SET _____K=+0.1 #
# $Z SET _____Exposant=2 #
# $Z SET _____xbg=-0.00 #
# $Z SET _____ybg=-0.23 #
# $Z SET _____xhd=+0.05 #
# $Z SET _____yhd=-0.18 #
# $Z SET _____Puissance=2 #
# $Z SET _____Translation=$pi #
# $m4 _____include(_____xiirc/.MANE.r2.5._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.z5.5._____U) #
# #
# $Z setenv _____ImageD $xTV/SECTIONS.d #
# #
# $m4 _____include(_____xiirf/.MENH.43.5.1._____U) #
# #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# #
# $Z set _____imagesR=$xiirc/MANE.z7.5 #
# #
# $Z set _____images=$_____ImageD$COORD_X #
# $Z set _____animation=$_____imagesR$COORD_X #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.13._____U) #
# #
# $Z set _____images=$_____ImageD$COORD_Y #
# $Z set _____animation=$_____imagesR$COORD_Y #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.13._____U) #
# #
# $Z set _____images=$_____ImageD$COORD_Z #
# $Z set _____animation=$_____imagesR$COORD_Z #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.13._____U) #
# #
# $Z SET _____Mxx=1 #
# $Z SET _____Myy=1 #
# $Z SET _____Mzz=1 #
# #
# $Z set _____DeformiPara="$K_VIDE" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_X3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Y3D=VRAI" #
# $Z set _____DeformiPara="$_____DeformiPara"" periodiser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" symetriser_Z3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_X3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Y3D=FAUX" #
# $Z set _____DeformiPara="$_____DeformiPara"" prolonger_Z3D=VRAI" #
# $m4 _____include(_____xiirf/.MENG.z1.5.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____CercleInscrit=VRAI #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z BRV #
# #
# :Fin_listG_MANE_z7_5: #
# #
# #
# Cette image est le resultat d'une transformation de type entrelacs ('v $xiirv/STRU.d3') #
# de 'v $xiirc/MANE.r5.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:58:57 #
# #
# $xci/accumule.42$X : 00:15:52 #
# #
v $xiirc/MANE.z7.5.21.1
v $xiirc/MANE.z7.5.21.1$m
# Generee (sur '$LACT19) par : #
# #
# #
# :Debut_listG_MANE_z7_5_1: #
# #
# $Z Sdu #
# #
# $Z set _____ImageA=$xiirc/MANE.z7.5.21 #
# $Z set _____ImageR=$_____ImageA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____ImageA%s \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z trX=0 \ #
# $Z trY=0.5 toreY=VRAI \ #
# $Z R=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI" #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/TAPISSERIE.1%s \ #
# $Z R=$xTV/TAPISSERIE.2%s \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=16 \ #
# $Z $formatI | \ #
# $Z $xci/multi_02.01$X \ #
# $Z puissance_image=VRAI \ #
# $Z exposant=3 \ #
# $Z R=$xTV/PONDERATEUR \ #
# $Z $formatI #
# #
# $Z execRVB $xci/interpole.02$X \ #
# $Z A1=$xTV/TAPISSERIE.2%s \ #
# $Z A2=$xTV/TAPISSERIE.1%s \ #
# $Z P=$xTV/PONDERATEUR \ #
# $Z R=$xTV/TEXTURE%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/TEXTURE \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z navap=VRAI \ #
# $Z passes=100 \ #
# $Z R=$xTV/ALTITUDE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xTV/TAPISSERIE.1%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/ALTITUDE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TEXTURE%s \ #
# $Z avion=VRAI \ #
# $Z Sy=40 \ #
# $Z R=$_____ImageR$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANE_z7_5_1: #
# #
v $xiirc/MANF.11$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANF_11_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set FeNeTrE="xbg=-0.5 xhd=-0.25 ybg=0.25 yhd=0.5" #
# #
# $Z set ExTeNsIoN="$K_VIDE" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" arithmetique_etendue_C=VRAI" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxMAXMIN_ADD2=0.2" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxMOYZSI_ADD2=0.3" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxMINMAX_MUL2=0.2" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxMOYZSI_MUL2=0.2" #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z $FeNeTrE \ #
# $Z $ExTeNsIoN \ #
# $Z arguments=FAUX \ #
# $Z chiffres=0 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z navap=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z $FeNeTrE \ #
# $Z $ExTeNsIoN \ #
# $Z arguments=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/MAND.11 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/MAND.11 \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=250 \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/TEXTURE \ #
# $Z p=$xiP/random.A5 \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TEXTURE%s \ #
# $Z avion=VRAI \ #
# $Z R=$xiirc/MANF.11$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_11_m: #
# #
v $xiirc/MANF.21$m
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANF_21_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set FeNeTrE="xbg=-0.0750 xhd=+0.0500 ybg=-0.7000 yhd=-0.5750" #
# #
# $Z set ExTeNsIoN="$K_VIDE" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" arithmetique_etendue_C=VRAI" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxADD2_ADD2=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxDIVZ_ADD2=0.00000000000000000002" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxMUL2_MUL2=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pxDIVZ_MUL2=0.00000000000000000002" #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z $FeNeTrE \ #
# $Z $ExTeNsIoN \ #
# $Z arguments=FAUX \ #
# $Z chiffres=0 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=50 \ #
# $Z navap=VRAI \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z $FeNeTrE \ #
# $Z $ExTeNsIoN \ #
# $Z arguments=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/MAND.21 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=16 \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/MAND.21 \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=240 \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/TEXTURE \ #
# $Z p=$xiP/random.B3$Fi \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/SURFACE \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/TEXTURE%s \ #
# $Z avion=VRAI \ #
# $Z R=$xiirc/MANF.21$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_21_m: #
# #
v $xiirc/MANF.31
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANF_31: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set FeNeTrE="xbg=-1.60 xhd=+0.90 ybg=-1.50 yhd=+1.00" #
# #
# $Z set ExTeNsIoN="$K_VIDE" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" arithmetique_folklorique_C=VRAI" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" sR_R2=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" sR_I2xR2xI1=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pR_I2xI1xR1=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pR_I2xR2xI1=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pI_R2xR1=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pI_R2xI1xR1=1" #
# $Z set ExTeNsIoN="$ExTeNsIoN"" pI_I2xR2xI1xR1=1" #
# #
# $Z $xrc/mandel.01$X \ #
# $Z N=1 \ #
# $Z $FeNeTrE \ #
# $Z $ExTeNsIoN \ #
# $Z arguments=FAUX \ #
# $Z chiffres=0 \ #
# $Z R=$xiirc/MANF.31 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_31: #
# #
v $xiirc/MANF.41.1
v $xiirc/MANF.41.2
v $xiirc/MANF.41.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_41: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.41 #
# #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.5" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.5" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.41 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_41: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:22:18 #
# #
# $xci/accumule.42$X : 00:49:44 #
# #
v $xiirc/MANF.44.1
v $xiirc/MANF.44.2
v $xiirc/MANF.44.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_44: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=2048 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.44 #
# #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.44 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_44: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:18:58 #
# #
# $xci/accumule.42$X : 00:49:18 #
# #
v $xiirc/MANF.52.1
v $xiirc/MANF.52.2
v $xiirc/MANF.52.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_52: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.52 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.0" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.0" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.52 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_52: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:06:34 #
# #
# $xci/accumule.42$X : 00:11:25 #
# #
v $xiirc/MANF.53.1
v $xiirc/MANF.53.2
v $xiirc/MANF.53.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_53: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.53 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.1" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.1" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.53 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_53: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:10:25 #
# #
# $xci/accumule.42$X : 00:17:01 #
# #
v $xiirc/MANF.54.1
v $xiirc/MANF.54.2
v $xiirc/MANF.54.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_54: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.54 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.2" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.2" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.54 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_54: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:11:24 #
# #
# $xci/accumule.42$X : 00:17:41 #
# #
v $xiirc/MANF.55.1
v $xiirc/MANF.55.2
v $xiirc/MANF.55.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_55: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.55 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.3" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.3" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.55 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_55: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:08:09 #
# #
# $xci/accumule.42$X : 00:12:55 #
# #
v $xiirc/MANF.56.1
v $xiirc/MANF.56.2
v $xiirc/MANF.56.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_56: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.56 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.4" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.4" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.56 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_56: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:14:17 #
# #
# $xci/accumule.42$X : 00:18:28 #
# #
v $xiirc/MANF.57.1
v $xiirc/MANF.57.2
v $xiirc/MANF.57.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_57: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANF.57 #
# #
# $Z SET _____Iterations=8 #
# $Z SET _____xbg=-2.05 #
# $Z SET _____ybg=-1.13 #
# $Z SET _____xhd=+0.58 #
# $Z SET _____yhd=+2.00 #
# $Z SET _____OJ=-1.29 #
# $Z SET _____EJ=+1.14 #
# $Z setenv _____MandelPara "$K_VIDE" #
# $Z setenv _____MandelPara "$_____MandelPara"" sR_R2xR1=0.5" #
# $Z setenv _____MandelPara "$_____MandelPara"" sI_R2xI1=0.5" #
# #
# ('v $ximcf/common$DEF 20220822173403') #
# #
# $m4 _____include(_____xiirc/.MANF.41.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationY=+0.5 #
# $Z set _____imagesR=$xiirc/MANF.57 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_57: #
# #
# #
# Version "folklorique" de 'v $xiirc/MAND.S1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:17:29 #
# #
# $xci/accumule.42$X : 00:19:25 #
# #
v $xiirc/MANF.61.5.0 p=$xiP/gris.01
v $xiirc/MANF.61.5.0 p=$xiP/CEN.11
v $xiirc/MANF.61.5.0 p=$xiP/fractal.11
v $xiirc/MANF.61.5.1
v $xiirc/MANF.61.5.2
v $xiirc/MANF.61.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_61_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.61.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.61.5.1 #
# #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.61.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z execRVB $xci/transpose$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_61_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:36:33 #
# #
# $xci/accumule.42$X : 03:05:40 #
# #
v $xiirc/MANF.62.5.0 p=$xiP/gris.01
v $xiirc/MANF.62.5.0 p=$xiP/CEN.11
v $xiirc/MANF.62.5.0 p=$xiP/fractal.11
v $xiirc/MANF.62.5.1
v $xiirc/MANF.62.5.2
v $xiirc/MANF.62.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_62_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.62.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.62.5.1 #
# #
# $Z SET _____OJ=-3.600 #
# $Z SET _____EJ=0.000 #
# $Z SET _____Iterations=10 #
# $Z SET _____PuissanceA2=2 #
# $Z SET _____Seuil2=160 #
# $Z setenv _____ParaCh "$K_VIDE" #
# $Z setenv _____ParaCh "$_____ParaCh"" puissance_unite_neutre=FAUX" #
# $Z setenv _____ParaCh "$_____ParaCh"" exposant=1" #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.62.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z execRVB $xci/transpose$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_62_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:52:05 #
# #
# $xci/accumule.42$X : 01:38:30 #
# #
v $xiirc/MANF.63.5.0 p=$xiP/gris.01
v $xiirc/MANF.63.5.0 p=$xiP/CEN.11
v $xiirc/MANF.63.5.0 p=$xiP/fractal.11
v $xiirc/MANF.63.5.1
v $xiirc/MANF.63.5.2
v $xiirc/MANF.63.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_63_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.63.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.63.5.1 #
# #
# $Z SET _____xbg=-4.4 #
# $Z SET _____xhd=+3.4 #
# $Z SET _____ybg=-3.4 #
# $Z SET _____yhd=+4.4 #
# $Z SET _____OJ=-4.650 #
# $Z SET _____EJ=0.000 #
# $Z SET _____JRotationX=+1.0 #
# $Z SET _____JRotationY=+1.0 #
# $Z SET _____JRotationZ=+1.0 #
# $Z SET _____Iterations=10 #
# $Z SET _____PuissanceA2=2 #
# $Z SET _____Seuil2=160 #
# $Z setenv _____ParaCh "$K_VIDE" #
# $Z setenv _____ParaCh "$_____ParaCh"" puissance_unite_neutre=FAUX" #
# $Z setenv _____ParaCh "$_____ParaCh"" exposant=1" #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.63.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z execRVB $xci/transpose$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_63_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:05:34 #
# #
# $xci/accumule.42$X : 01:54:02 #
# #
v $xiirc/MANF.71.5.0 p=$xiP/gris.01
v $xiirc/MANF.71.5.0 p=$xiP/CEN.11
v $xiirc/MANF.71.5.0 p=$xiP/fractal.11
v $xiirc/MANF.71.5.1
v $xiirc/MANF.71.5.2
v $xiirc/MANF.71.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_71_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.71.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.71.5.1 #
# #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.71.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_71_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:33:17 #
# #
# $xci/accumule.42$X : 01:50:14 #
# #
v $xiirc/MANF.71.6.0 p=$xiP/gris.01
v $xiirc/MANF.71.6.0 p=$xiP/CEN.11
v $xiirc/MANF.71.6.0 p=$xiP/fractal.11
v $xiirc/MANF.71.6.1
v $xiirc/MANF.71.6.2
v $xiirc/MANF.71.6.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_71_6: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.71.6.2 #
# $Z setenv _____ImageT1 $xTV/MANF.71.6.1 #
# #
# $Z SET _____xbg=-4.0 #
# $Z SET _____xhd=+2.0 #
# $Z SET _____ybg=-3.0 #
# $Z SET _____yhd=+3.0 #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.71.6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_71_6: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 05:39:16 #
# #
# $xci/accumule.42$X : 02:42:02 #
# #
v $xiirc/MANF.72.5.0 p=$xiP/gris.01
v $xiirc/MANF.72.5.0 p=$xiP/CEN.11
v $xiirc/MANF.72.5.0 p=$xiP/fractal.11
v $xiirc/MANF.72.5.1
v $xiirc/MANF.72.5.2
v $xiirc/MANF.72.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_72_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.72.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.72.5.1 #
# #
# $Z SET _____xbg=-3.0 #
# $Z SET _____xhd=+1.0 #
# $Z SET _____ybg=-2.0 #
# $Z SET _____yhd=+2.0 #
# $Z SET _____OJ=-3.600 #
# $Z SET _____EJ=0.000 #
# $Z SET _____Iterations=10 #
# $Z SET _____PuissanceA2=2 #
# $Z SET _____Seuil2=160 #
# $Z setenv _____ParaCh "$K_VIDE" #
# $Z setenv _____ParaCh "$_____ParaCh"" puissance_unite_neutre=FAUX" #
# $Z setenv _____ParaCh "$_____ParaCh"" exposant=1" #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.72.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z execRVB $xci/transpose$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_72_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 11:52:24 #
# #
# $xci/accumule.42$X : 10:32:47 #
# #
v $xiirc/MANF.81.5.0 p=$xiP/gris.01
v $xiirc/MANF.81.5.0 p=$xiP/CEN.11
v $xiirc/MANF.81.5.0 p=$xiP/fractal.11
v $xiirc/MANF.81.5.1
v $xiirc/MANF.81.5.2
v $xiirc/MANF.81.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_81_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.81.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.81.5.1 #
# #
# $Z SET _____xbg=0.0 #
# $Z SET _____xhd=+0.2 #
# $Z SET _____ybg=+0.1 #
# $Z SET _____yhd=+0.3 #
# $Z SET _____OJ=-0.510 #
# $Z SET _____EJ=0.000 #
# $Z SET _____Seuil2=180 #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.81.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_81_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 03:37:51 #
# #
# $xci/accumule.42$X : 02:34:31 #
# #
v $xiirc/MANF.81.6.0 p=$xiP/gris.01
v $xiirc/MANF.81.6.0 p=$xiP/CEN.11
v $xiirc/MANF.81.6.0 p=$xiP/fractal.11
v $xiirc/MANF.81.6.1
v $xiirc/MANF.81.6.2
v $xiirc/MANF.81.6.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_81_6: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.81.6.2 #
# $Z setenv _____ImageT1 $xTV/MANF.81.6.1 #
# #
# $Z SET _____xbg=0.0 #
# $Z SET _____xhd=+0.2 #
# $Z SET _____ybg=+0.1 #
# $Z SET _____yhd=+0.3 #
# $Z SET _____OJ=-0.530 #
# $Z SET _____EJ=0.000 #
# $Z SET _____Seuil2=200 #
# $Z SET _____Iterations=14 #
# $Z setenv TaillePaquetsLinda 1 #
# $m4 _____include(_____xiirc/.MANF.61.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.81.6 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/permute_RVB.11$Z \ #
# $Z $_____imagesR.21 \ #
# $Z $_____imagesR.21 \ #
# $Z VBR #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_81_6: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:18:52 #
# #
# $xci/accumule.42$X : 01:04:11 #
# #
v $xiirc/MANF.91.5.0 p=$xiP/gris.01
v $xiirc/MANF.91.5.0 p=$xiP/CEN.11
v $xiirc/MANF.91.5.0 p=$xiP/fractal.11
v $xiirc/MANF.91.5.1
v $xiirc/MANF.91.5.2
v $xiirc/MANF.91.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_91_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.91.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.91.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=1.088 #
# $Z SET _____EJ=0.000 #
# $Z SET _____xbg=-1.0 #
# $Z SET _____xhd=+1.0 #
# $Z SET _____ybg=-1.0 #
# $Z SET _____yhd=+1.0 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.91.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_91_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.m1.5.21' mais a la puissance 5 au lieu de 8... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B1.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:15:38 #
# #
# $xci/accumule.42$X : 02:53:03 #
# #
v $xiirc/MANF.92.5.0 p=$xiP/gris.01
v $xiirc/MANF.92.5.0 p=$xiP/CEN.11
v $xiirc/MANF.92.5.0 p=$xiP/fractal.11
v $xiirc/MANF.92.5.1
v $xiirc/MANF.92.5.2
v $xiirc/MANF.92.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_92_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.92.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.92.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=1.048 #
# $Z SET _____EJ=0.136 #
# $Z SET _____xbg=+0.2 #
# $Z SET _____xhd=+0.5 #
# $Z SET _____ybg=+0.2 #
# $Z SET _____yhd=+0.5 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.92.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_92_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B2.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 04:14:15 #
# #
# $xci/accumule.42$X : 06:05:47 #
# #
v $xiirc/MANF.93.5.0 p=$xiP/gris.01
v $xiirc/MANF.93.5.0 p=$xiP/CEN.11
v $xiirc/MANF.93.5.0 p=$xiP/fractal.11
v $xiirc/MANF.93.5.1
v $xiirc/MANF.93.5.2
v $xiirc/MANF.93.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_93_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.93.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.93.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=1.048 #
# $Z SET _____EJ=0.536 #
# $Z SET _____xbg=+0.35 #
# $Z SET _____xhd=+0.45 #
# $Z SET _____ybg=+0.35 #
# $Z SET _____yhd=+0.45 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.93.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_93_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B3.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:37:28 #
# #
# $xci/accumule.42$X : 03:31:45 #
# #
v $xiirc/MANF.94.5.0 p=$xiP/gris.01
v $xiirc/MANF.94.5.0 p=$xiP/CEN.11
v $xiirc/MANF.94.5.0 p=$xiP/fractal.11
v $xiirc/MANF.94.5.1
v $xiirc/MANF.94.5.2
v $xiirc/MANF.94.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_94_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.94.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.94.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=1.000 #
# $Z SET _____EJ=0.640 #
# $Z SET _____xbg=+0.40 #
# $Z SET _____xhd=+0.45 #
# $Z SET _____ybg=+0.40 #
# $Z SET _____yhd=+0.45 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.94.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_94_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B4.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 01:26:36 #
# #
# $xci/accumule.42$X : 01:13:03 #
# #
v $xiirc/MANF.95.5.0 p=$xiP/gris.01
v $xiirc/MANF.95.5.0 p=$xiP/CEN.11
v $xiirc/MANF.95.5.0 p=$xiP/fractal.11
v $xiirc/MANF.95.5.1
v $xiirc/MANF.95.5.2
v $xiirc/MANF.95.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_95_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.95.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.95.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=0.96000 #
# $Z SET _____EJ=0.89975 #
# $Z SET _____xbg=+0.425 #
# $Z SET _____xhd=+0.435 #
# $Z SET _____ybg=+0.425 #
# $Z SET _____yhd=+0.435 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.95.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_95_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B5.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:51:48 #
# #
# $xci/accumule.42$X : 00:51:34 #
# #
v $xiirc/MANF.96.5.0 p=$xiP/gris.01
v $xiirc/MANF.96.5.0 p=$xiP/CEN.11
v $xiirc/MANF.96.5.0 p=$xiP/fractal.11
v $xiirc/MANF.96.5.1
v $xiirc/MANF.96.5.2
v $xiirc/MANF.96.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_96_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.96.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.96.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=0.92300 #
# $Z SET _____EJ=0.91960 #
# $Z SET _____xbg=+0.4320 #
# $Z SET _____xhd=+0.4325 #
# $Z SET _____ybg=+0.4320 #
# $Z SET _____yhd=+0.4325 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.96.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_96_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B6.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:53:30 #
# #
# $xci/accumule.42$X : 00:43:32 #
# #
v $xiirc/MANF.97.5.0 p=$xiP/gris.01
v $xiirc/MANF.97.5.0 p=$xiP/CEN.11
v $xiirc/MANF.97.5.0 p=$xiP/fractal.11
v $xiirc/MANF.97.5.1
v $xiirc/MANF.97.5.2
v $xiirc/MANF.97.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_97_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.97.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.97.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=0.92225625 #
# $Z SET _____EJ=0.92151250 #
# $Z SET _____xbg=+0.43220 #
# $Z SET _____xhd=+0.43230 #
# $Z SET _____ybg=+0.43220 #
# $Z SET _____yhd=+0.43230 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.97.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_97_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B7.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:59:04 #
# #
# $xci/accumule.42$X : 00:52:06 #
# #
# #
v $xiirc/MANF.98.5.0 p=$xiP/gris.01
v $xiirc/MANF.98.5.0 p=$xiP/CEN.11
v $xiirc/MANF.98.5.0 p=$xiP/fractal.11
v $xiirc/MANF.98.5.1
v $xiirc/MANF.98.5.2
v $xiirc/MANF.98.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_98_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.98.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.98.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=0.92220000 #
# $Z SET _____EJ=0.92161000 #
# $Z SET _____xbg=+0.43224 #
# $Z SET _____xhd=+0.43226 #
# $Z SET _____ybg=+0.43224 #
# $Z SET _____yhd=+0.43226 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.98.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_98_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B8.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:07:32 #
# #
# $xci/accumule.42$X : 01:14:03 #
# #
# #
v $xiirc/MANF.99.5.0 p=$xiP/gris.01
v $xiirc/MANF.99.5.0 p=$xiP/CEN.11
v $xiirc/MANF.99.5.0 p=$xiP/fractal.11
v $xiirc/MANF.99.5.1
v $xiirc/MANF.99.5.2
v $xiirc/MANF.99.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_99_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.99.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.99.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____OJ=0.921660 #
# $Z SET _____EJ=0.921639 #
# $Z SET _____xbg=+0.432246 #
# $Z SET _____xhd=+0.432247 #
# $Z SET _____ybg=+0.432246 #
# $Z SET _____yhd=+0.432247 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.99.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_99_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.91.5.21'... #
# #
# ATTENTION : il n'y a pas assez de decimales pour {J,K} ('v $xiirc/MANF.B9.5.21')... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 02:55:45 #
# #
# $xci/accumule.42$X : 02:05:34 #
# #
# #
v $xiirc/MANF.A1.5.0 p=$xiP/gris.01
v $xiirc/MANF.A1.5.0 p=$xiP/CEN.11
v $xiirc/MANF.A1.5.0 p=$xiP/fractal.11
v $xiirc/MANF.A1.5.1
v $xiirc/MANF.A1.5.2
v $xiirc/MANF.A1.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_A1_5: #
# #
# $Z Squ #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.A1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.A1.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____xbg=-0.75 #
# $Z SET _____xhd=+0.75 #
# $Z SET _____ybg=-0.75 #
# $Z SET _____yhd=+0.75 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z SET _____RA=0 #
# $Z SET _____RB=1 #
# $Z SET _____RC=1 #
# $Z SET _____RD=0 #
# $Z SET _____OHJ=-300.0 #
# $Z SET _____EHJ=-150.0 #
# $Z SET _____Facteur=1000000 #
# $m4 _____include(_____xiirf/.MENG.67.5._____U) #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.A1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_A1_5: #
# #
# #
# Transformation 1/O de 'v $xiirc/MANF.91.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 05:58:50 #
# #
# $xci/accumule.42$X : 05:07:29 #
# #
v $xiirc/MANF.B1.5.0 p=$xiP/gris.01
v $xiirc/MANF.B1.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B1.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B1.5.1
v $xiirc/MANF.B1.5.2
v $xiirc/MANF.B1.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# Validation du format "carre" du domaine [xbg,xhd]x[ybg,yhd] (introduit le 20210507103542) #
# et ce lorsque '$_____XYdecimales' a conserve sa valeur par defaut (=6) en fait trop faible #
# lorsque les coordonnees deviennent trop petite, donnant au domaine des dimensions du meme #
# ordre que 10^$_____XYdecimales : #
# #
# #
# :Debut_listG_CheckFormat: #
# #
# $Z alias EdIt 'set xbg=\!:1 ; set xhd=\!:2 ; set ybg=\!:3 ; set yhd=\!:4 ; \\ #
# $Z set xbg=`echo $xbg | $SE -e "s/^.*=//"` ; \\ #
# $Z set xhd=`echo $xhd | $SE -e "s/^.*=//"` ; \\ #
# $Z set ybg=`echo $ybg | $SE -e "s/^.*=//"` ; \\ #
# $Z set yhd=`echo $yhd | $SE -e "s/^.*=//"` ; \\ #
# $Z set SaVe_PC=$PrecisionCalcul ; \\ #
# $Z set PrecisionCalcul=12 ; \\ #
# $Z set Lxhd_xbg=`calcul ($xhd)-($xbg)` ; \\ #
# $Z set Lyhd_ybg=`calcul ($yhd)-($ybg)` ; \\ #
# $Z set PrecisionCalcul=$SaVe_PC ; \\ #
# $Z set Lxhd_xbg=`echo "$Lxhd_xbg" | $SE -e "s/^[-+]//"` ; \\ #
# $Z set Lyhd_ybg=`echo "$Lyhd_ybg" | $SE -e "s/^[-+]//"` ; \\ #
# $Z echo "|xhd - xbg| = $Lxhd_xbg" ; \\ #
# $Z echo "|yhd - ybg| = $Lyhd_ybg" ; \\ #
# $Z unset xbg xhd ybg yhd Lxhd_xbg Lyhd_ybg SaVe_PC' #
# $Z #
# $Z alias ChEc 'set DeBuT=\!* ; \\ #
# $Z FilSTmpB FiLeT1 ; \\ #
# $Z (glistN $DeBuT) | \\ #
# $Z $SE -e "s/^ *//" | \\ #
# $Z $GRE -v '"'"'^$'"'"' | \\ #
# $Z $GRE -v "^reference " | \\ #
# $Z $GRE -v " " \\ #
# $Z >> $FiLeT1 ; \\ #
# $Z set PrOgR=`$CA $FiLeT1` ; \\ #
# $Z FilSTmpE FiLeT1 ; \\ #
# $Z FilSTmpB FiLeT2 ; \\ #
# $Z eval $CA $PrOgR | \\ #
# $Z $GRE " xbg=" | \\ #
# $Z $R "$K_BLANC" "$K_NL" | \\ #
# $Z $GRE "^[xy][hb][gd]=" \\ #
# $Z >> $FiLeT2 ; \\ #
# $Z eval $DELETE $PrOgR ; \\ #
# $Z set CoOrD=`$CA $FiLeT2` ; \\ #
# $Z FilSTmpE FiLeT2 ; \\ #
# $Z eval EdIt $CoOrD ; \\ #
# $Z unset DeBuT PrOgR CoOrD' #
# #
# :Fin_listG_CheckFormat: #
# #
# #
# puis : #
# #
# listG $xiirc/$Fnota :Debut_listG_""CheckFormat: EtIqUeTtE_GeNeRaTeUr(Fin_listG_""CheckFormat,:Fin_listG_""CheckFormat:) #
# #
# (les double-quotes "" sont destinees a eviter les messages #
# 'v $xEa/listMN$vv$Y _____est_multiplement_definie'). #
# #
# #
# :Debut_listG_MANF_B1_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B1.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.088 #
# $Z SET _____EJ=0.000 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 2 #
# |yhd - ybg| = 2 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-1.0 #
# $Z SET _____xhd=+1.0 #
# $Z SET _____ybg=-1.0 #
# $Z SET _____yhd=+1.0 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B1_5: #
# #
# #
# Image identique a 'v $xiirc/MANE.91.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:07:26 #
# #
# $xci/accumule.42$X : 00:17:47 #
# #
v $xiirc/MANF.B1.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B1_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B1_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B1_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B2_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B2_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B1.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B1_5_21_cadre: #
# #
v $xiirc/MANF.B2.5.0 p=$xiP/gris.01
v $xiirc/MANF.B2.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B2.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B2.5.1
v $xiirc/MANF.B2.5.2
v $xiirc/MANF.B2.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANF_B2_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B2.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.048 #
# $Z SET _____EJ=0.136 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.3 #
# |yhd - ybg| = 0.3 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.2 #
# $Z SET _____xhd=+0.5 #
# $Z SET _____ybg=+0.2 #
# $Z SET _____yhd=+0.5 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B2_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.92.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:23:50 #
# #
# $xci/accumule.42$X : 00:36:28 #
# #
v $xiirc/MANF.B2.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B2_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B2_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B2_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B3_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B3_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B2.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B2_5_21_cadre: #
# #
v $xiirc/MANF.B3.5.0 p=$xiP/gris.01
v $xiirc/MANF.B3.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B3.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B3.5.1
v $xiirc/MANF.B3.5.2
v $xiirc/MANF.B3.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANF_B3_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B3.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B3.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.048 #
# $Z SET _____EJ=0.536 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.1 #
# |yhd - ybg| = 0.1 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.35 #
# $Z SET _____xhd=+0.45 #
# $Z SET _____ybg=+0.35 #
# $Z SET _____yhd=+0.45 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B3.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B3_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.93.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:08:49 #
# #
# $xci/accumule.42$X : 00:21:30 #
# #
v $xiirc/MANF.B3.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B3_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B3_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B3_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B4_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B4_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B3.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B3_5_21_cadre: #
# #
v $xiirc/MANF.B4.5.0 p=$xiP/gris.01
v $xiirc/MANF.B4.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B4.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B4.5.1
v $xiirc/MANF.B4.5.2
v $xiirc/MANF.B4.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_B4_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B4.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.000 #
# $Z SET _____EJ=0.640 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.05 #
# |yhd - ybg| = 0.05 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.40 #
# $Z SET _____xhd=+0.45 #
# $Z SET _____ybg=+0.40 #
# $Z SET _____yhd=+0.45 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B4_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.94.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:09:32 #
# #
# $xci/accumule.42$X : 00:08:53 #
# #
v $xiirc/MANF.B4.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B4_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B4_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B4_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B5_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B5_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B4.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B4_5_21_cadre: #
# #
v $xiirc/MANF.B5.5.0 p=$xiP/gris.01
v $xiirc/MANF.B5.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B5.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B5.5.1
v $xiirc/MANF.B5.5.2
v $xiirc/MANF.B5.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_B5_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B5.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.96000 #
# $Z SET _____EJ=0.89975 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.01 #
# |yhd - ybg| = 0.01 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.425 #
# $Z SET _____xhd=+0.435 #
# $Z SET _____ybg=+0.425 #
# $Z SET _____yhd=+0.435 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B5_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.95.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:05:35 #
# #
# $xci/accumule.42$X : 00:06:10 #
# #
v $xiirc/MANF.B5.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B5_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B5_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B5_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B6_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B6_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B5.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B5_5_21_cadre: #
# #
v $xiirc/MANF.B6.5.0 p=$xiP/gris.01
v $xiirc/MANF.B6.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B6.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B6.5.1
v $xiirc/MANF.B6.5.2
v $xiirc/MANF.B6.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_B6_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B6.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.92300 #
# $Z SET _____EJ=0.91960 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.0005 #
# |yhd - ybg| = 0.0005 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.4320 #
# $Z SET _____xhd=+0.4325 #
# $Z SET _____ybg=+0.4320 #
# $Z SET _____yhd=+0.4325 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B6_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.96.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:05:22 #
# #
# $xci/accumule.42$X : 00:05:11 #
# #
v $xiirc/MANF.B6.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B6_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B6_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B6_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B7_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B7_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B6.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B6_5_21_cadre: #
# #
v $xiirc/MANF.B7.5.0 p=$xiP/gris.01
v $xiirc/MANF.B7.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B7.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B7.5.1
v $xiirc/MANF.B7.5.2
v $xiirc/MANF.B7.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_B7_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B7.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.92225625 #
# $Z SET _____EJ=0.92151250 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.0001 #
# |yhd - ybg| = 0.0001 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.43220 #
# $Z SET _____xhd=+0.43230 #
# $Z SET _____ybg=+0.43220 #
# $Z SET _____yhd=+0.43230 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B7_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.97.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:06:01 #
# #
# $xci/accumule.42$X : 00:06:35 #
# #
# #
v $xiirc/MANF.B7.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B7_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B7_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B7_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B8_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B8_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B7.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B7_5_21_cadre: #
# #
v $xiirc/MANF.B8.5.0 p=$xiP/gris.01
v $xiirc/MANF.B8.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B8.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B8.5.1
v $xiirc/MANF.B8.5.2
v $xiirc/MANF.B8.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_B8_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B8.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B8.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.92220000 #
# $Z SET _____EJ=0.92161000 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 2e-05 #
# |yhd - ybg| = 2e-05 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.43224 #
# $Z SET _____xhd=+0.43226 #
# $Z SET _____ybg=+0.43224 #
# $Z SET _____yhd=+0.43226 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B8.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B8_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.98.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:12:07 #
# #
# $xci/accumule.42$X : 00:09:09 #
# #
# #
v $xiirc/MANF.B8.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_B8_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_B8_5" #
# $Z set _____Fin1__="Fin_listG_MANF_B8_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_B9_5" #
# $Z set _____Fin2__="Fin_listG_MANF_B9_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.B8.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_B8_5_21_cadre: #
# #
v $xiirc/MANF.B9.5.0 p=$xiP/gris.01
v $xiirc/MANF.B9.5.0 p=$xiP/CEN.11
v $xiirc/MANF.B9.5.0 p=$xiP/fractal.11
v $xiirc/MANF.B9.5.1
v $xiirc/MANF.B9.5.2
v $xiirc/MANF.B9.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_B9_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.B9.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.B9.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.921660 #
# $Z SET _____EJ=0.921639 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 9.99999999973e-07 #
# |yhd - ybg| = 9.99999999973e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=+0.432246 #
# $Z SET _____xhd=+0.432247 #
# $Z SET _____ybg=+0.432246 #
# $Z SET _____yhd=+0.432247 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.B9.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_B9_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21'... #
# #
# Image identique a 'v $xiirc/MANE.99.5.21' mais avec plus de decimales pour {J,K}... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:15:11 #
# #
# $xci/accumule.42$X : 00:15:39 #
# #
# #
v $xiirc/MANF.C2.5.0 p=$xiP/gris.01
v $xiirc/MANF.C2.5.0 p=$xiP/CEN.11
v $xiirc/MANF.C2.5.0 p=$xiP/fractal.11
v $xiirc/MANF.C2.5.1
v $xiirc/MANF.C2.5.2
v $xiirc/MANF.C2.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_C2_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.C2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.C2.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.98271 #
# $Z SET _____EJ=0.63174 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.07 #
# |yhd - ybg| = 0.07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.27 #
# $Z SET _____xhd=-0.20 #
# $Z SET _____ybg=-0.27 #
# $Z SET _____yhd=-0.20 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.C2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_C2_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21' mais fifferent de 'v $xiirc/MANF.B2.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:35:34 #
# #
# $xci/accumule.42$X : 00:41:09 #
# #
v $xiirc/MANF.C3.5.0 p=$xiP/gris.01
v $xiirc/MANF.C3.5.0 p=$xiP/CEN.11
v $xiirc/MANF.C3.5.0 p=$xiP/fractal.11
v $xiirc/MANF.C3.5.1
v $xiirc/MANF.C3.5.2
v $xiirc/MANF.C3.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_C3_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.C3.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.C3.5.1 #
# #
# $Z SET _____Puissance=5 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.90418 #
# $Z SET _____EJ=0.85986 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.001 #
# |yhd - ybg| = 0.001 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.235 #
# $Z SET _____xhd=-0.234 #
# $Z SET _____ybg=-0.235 #
# $Z SET _____yhd=-0.234 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.C3.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_C3_5: #
# #
# #
# Zoom sur 'v $xiirc/MANF.B1.5.21' mais fifferent de 'v $xiirc/MANF.B3.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:52:27 #
# #
# $xci/accumule.42$X : 01:06:47 #
# #
v $xiirc/MANF.D1.5.0 p=$xiP/gris.01
v $xiirc/MANF.D1.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D1.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D1.5.1
v $xiirc/MANF.D1.5.2
v $xiirc/MANF.D1.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_D1_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D1.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.088 #
# $Z SET _____EJ=0.000 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 2 #
# |yhd - ybg| = 2 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-1.0 #
# $Z SET _____xhd=+1.0 #
# $Z SET _____ybg=-1.0 #
# $Z SET _____yhd=+1.0 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D1_5: #
# #
# #
# Image theoriquement identique a 'v $xiirc/MANE.m1.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:23:50 #
# #
# $xci/accumule.42$X : 00:45:57 #
# #
v $xiirc/MANF.D1.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D1_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D1_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D1_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D2_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D2_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D1.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D1_5_21_cadre: #
# #
v $xiirc/MANF.D2.5.0 p=$xiP/gris.01
v $xiirc/MANF.D2.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D2.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D2.5.1
v $xiirc/MANF.D2.5.2
v $xiirc/MANF.D2.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D2_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D2.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.08800 #
# $Z SET _____EJ=0.51059 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.464259 #
# |yhd - ybg| = 0.464259 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.275347095 #
# $Z SET _____xhd=+0.188911905 #
# $Z SET _____ybg=-0.596533975 #
# $Z SET _____yhd=-0.132274975 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D2_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:38:52 #
# #
# $xci/accumule.42$X : 00:26:57 #
# #
v $xiirc/MANF.D2.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D2_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D2_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D2_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D3_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D3_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D2.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D2_5_21_cadre: #
# #
v $xiirc/MANF.D3.5.0 p=$xiP/gris.01
v $xiirc/MANF.D3.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D3.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D3.5.1
v $xiirc/MANF.D3.5.2
v $xiirc/MANF.D3.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_D3_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D3.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D3.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.98271 #
# $Z SET _____EJ=0.58532 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 0.046426 #
# |yhd - ybg| = 0.046425 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.066430545 #
# $Z SET _____xhd=-0.020004645 #
# $Z SET _____ybg=-0.387617425 #
# $Z SET _____yhd=-0.341191525 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D3.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D3_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:27:10 #
# #
# $xci/accumule.42$X : 00:26:54 #
# #
v $xiirc/MANF.D3.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D3_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D3_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D3_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D4_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D4_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D3.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D3_5_21_cadre: #
# #
v $xiirc/MANF.D4.5.0 p=$xiP/gris.01
v $xiirc/MANF.D4.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D4.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D4.5.0 p=$xiP/random.86
v $xiirc/MANF.D4.5.1
v $xiirc/MANF.D4.5.2
v $xiirc/MANF.D4.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D4_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D4.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.80131489 #
# $Z SET _____EJ=0.79828076 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.004643 #
# |yhd - ybg| = 0.004643 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04553889 #
# $Z SET _____xhd=-0.04089630 #
# $Z SET _____ybg=-0.36672577 #
# $Z SET _____yhd=-0.36208318 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# :Milieu_listG_MANF_D4_5: #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D4_5: #
# #
# #
# Image theoriquement identique a 'v $xiirc/MANE.O1.21' au format pres... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:26:03 #
# #
# $xci/accumule.42$X : 00:14:35 #
# #
v $xiirc/MANF.D4.5.0.1$m
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_MANF_D4_5_0_1_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# #
# $Z set _____imagesA=$xiirc/MANF.D4.5.0 #
# $Z set _____imagesR=$_____imagesA.1$m #
# #
# $Z $xci/acces$X A=$_____imagesA \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X navap=VRAI \ #
# $Z standard=FAUX \ #
# $Z passes=128 \ #
# $Z R=$xTV/MANF.D4.5.0.2 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X A=$_____imagesA \ #
# $Z p=$xiP/random.86 \ #
# $Z p=$xiP/rouge_orang.12 \ #
# $Z R=$xTV/MANF.D4.5.0.3 \ #
# $Z $formatI #
# #
# Le fait que deux palettes soient referencees ci-dessus n'est pas une erreur, mais traduit #
# les essais effectues pour trouver la meilleure (qui est donc en derniere position...). #
# #
# $Z execRVB "$xci/montagne.01$X \ #
# $Z A=$xTV/MANF.D4.5.0.2 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/MANF.D4.5.0.3%s \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/tapisserie$X R=$_____imagesR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_MANF_D4_5_0_1_m: #
# #
v $xiirc/MANF.D4.5.0.2$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_MANF_D4_5_0_2_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# #
# $Z set _____imagesA1=$xiirc/MANF.D4.5.0 #
# $Z set _____imagesA2=$_____imagesA1.1$m #
# $Z set _____imagesR=$_____imagesA1.2$m #
# #
# $Z set TrAnS_X=0.31 #
# $Z set TrAnS_Y=0.67 #
# #
# $Z set SeUiL=$GRIS_2 #
# #
# $Z set DeCaLaGe=$GRIS_3 #
# $Z set EcHeLlE=`calcul ($BLANC-$DeCaLaGe)/$COULEURS` #
# #
# $Z $xci/tapisserie$X A=$_____imagesA1 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreY=FAUX trY=+$TrAnS_Y \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreY=FAUX trY=-$TrAnS_Y \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreX=FAUX trX=+$TrAnS_X \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreX=FAUX trX=-$TrAnS_X \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreX=FAUX trX=-$TrAnS_X \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X toreX=FAUX trX=+$TrAnS_X \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X seuil=$SeUiL \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X points=225 \ #
# $Z $formatI | \ #
# $Z $xci/scale$X a=$EcHeLlE b=$DeCaLaGe \ #
# $Z R=$xTV/MANF.D4.5.0.4 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/multi_02.01$X A1=$xTV/MANF.D4.5.0.4 \ #
# $Z A2=$_____imagesA2%s \ #
# $Z renormaliser=FAUX \ #
# $Z R=$_____imagesR%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D4_5_0_2_m: #
# #
v $xiirc/MANF.D4.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D4_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D4_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D4_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D5_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D5_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D4.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D4_5_21_cadre: #
# #
v $xiirc/MANF.D5.5.0 p=$xiP/gris.01
v $xiirc/MANF.D5.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D5.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D5.5.1
v $xiirc/MANF.D5.5.2
v $xiirc/MANF.D5.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D5_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D5.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.80055398 #
# $Z SET _____EJ=0.79828076 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 0.000696 #
# |yhd - ybg| = 0.000697 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04286940075 #
# $Z SET _____xhd=-0.04217301225 #
# $Z SET _____ybg=-0.3648687340 #
# $Z SET _____yhd=-0.3641723455 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D5_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:23:53 #
# #
# $xci/accumule.42$X : 00:20:57 #
# #
v $xiirc/MANF.D5.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D5_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D5_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D5_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D6_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D6_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D5.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D5_5_21_cadre: #
# #
v $xiirc/MANF.D6.5.0 p=$xiP/gris.01
v $xiirc/MANF.D6.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D6.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D6.5.1
v $xiirc/MANF.D6.5.2
v $xiirc/MANF.D6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D6_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D6.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.8000406723 #
# $Z SET _____EJ=0.7982807600 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 6.9e-05 #
# |yhd - ybg| = 7e-05 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259940075 #
# $Z SET _____xhd=-0.04252976190 #
# $Z SET _____ybg=-0.36450873400 #
# $Z SET _____yhd=-0.36443909510 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D6_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:29:02 #
# #
# $xci/accumule.42$X : 00:20:33 #
# #
v $xiirc/MANF.D6.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D6_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D6_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D6_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_D7_5" #
# $Z set _____Fin2__="Fin_listG_MANF_D7_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D6.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D6_5_21_cadre: #
# #
v $xiirc/MANF.D7.5.0 p=$xiP/gris.01
v $xiirc/MANF.D7.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D7.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D7.5.1
v $xiirc/MANF.D7.5.2
v $xiirc/MANF.D7.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D7_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D7.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# #
# On notera que les valeurs essayees precedemment (la veille...) : #
# #
# SET _____OJ=0.7999771675 #
# SET _____EJ=0.7999613621 #
# SET _____xbg=-0.04257140075 #
# SET _____xhd=-0.04256443686 #
# SET _____ybg=-0.36449673400 #
# SET _____yhd=-0.36448977010 #
# #
# donnaient des plans de coupe '$_____ImageT2.????' quasiment identiques, mais en translation #
# vers le haut-gauche, d'ou une structure sans interet puisque ne variant quasiment pas #
# suivant la coordonnee 'Z' (au passage, cela correspond a des structures semblant planes et #
# qui apparaissent en magenta au premier plan de 'v $xiirc/MANF.D6.5.21'). D'ou ces nouvelles #
# valeurs : #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 7e-06 #
# |yhd - ybg| = 7.00000000003e-06 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259940075 #
# $Z SET _____xhd=-0.04259243686 #
# $Z SET _____ybg=-0.36450873400 #
# $Z SET _____yhd=-0.36450177010 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.D7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D7_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:15:00 #
# #
# $xci/accumule.42$X : 00:07:35 #
# #
v $xiirc/MANF.D7.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_D7_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z SET _____Compatibilite_20210506=$EXIST #
# #
# $Z set _____Debut1="Debut_listG_MANF_D7_5" #
# $Z set _____Fin1__="Fin_listG_MANF_D7_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_DC_5" #
# $Z set _____Fin2__="Fin_listG_MANF_DC_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.D7.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_D7_5_21_cadre: #
# #
v $xiirc/MANF.D8.5.0 p=$xiP/gris.01
v $xiirc/MANF.D8.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D8.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D8.5.NonCompatible_20160125.1
v $xiirc/MANF.D8.5.NonCompatible_20160125.2
v $xiirc/MANF.D8.5.NonCompatible_20160125.21
v $xiirc/MANF.D8.5.1
v $xiirc/MANF.D8.5.2
v $xiirc/MANF.D8.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D8_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D8.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D8.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# SET _____OJ=0.7999509984 #
# SET _____EJ=0.7999459938 #
# SET _____xbg=-0.04259940075 #
# SET _____xhd=-0.04259870436 #
# SET _____ybg=-0.36450873400 #
# SET _____yhd=-0.36450803760 #
# #
# donnaient des plans de coupe '$_____ImageT2.????' quasiment identiques, mais en translation #
# vers le haut-gauche, d'ou une structure sans interet puisque ne variant quasiment pas #
# suivant la coordonnee 'Z' (au passage, cela correspond a des structures semblant planes et #
# qui apparaissent en magenta au premier plan de 'v $xiirc/MANF.D6.5.21'). D'ou ces nouvelles #
# valeurs : #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 6.96299999998e-07 #
# |yhd - ybg| = 6.964e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259313325 #
# $Z SET _____xhd=-0.04259243686 #
# $Z SET _____ybg=-0.36450246650 #
# $Z SET _____yhd=-0.36450177010 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# Voir les images '$xiirc/MANF.D8.5.NonCompatible_20160125.*' si cette option de #
# compatibilite est absente... #
# #
# $Z set _____imagesR=$xiirc/MANF.D8.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D8_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:10:30 #
# #
# $xci/accumule.42$X : 00:05:34 #
# #
v $xiirc/MANF.D9.5.0 p=$xiP/gris.01
v $xiirc/MANF.D9.5.0 p=$xiP/CEN.11
v $xiirc/MANF.D9.5.0 p=$xiP/fractal.11
v $xiirc/MANF.D9.5.1
v $xiirc/MANF.D9.5.2
v $xiirc/MANF.D9.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_D9_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.D9.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.D9.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7995934583 #
# $Z SET _____EJ=0.7995848123 #
# $Z SET _____xbg=-0.04259313325 #
# $Z SET _____xhd=-0.04259243686 #
# $Z SET _____ybg=-0.36450246650 #
# $Z SET _____yhd=-0.36450177010 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.D9.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_D9_5: #
# #
# #
# Image calculee dans la meme fenetre {xbg,xhd,ybg,yhd} que 'v $xiirc/MANF.D8.5.21', mais #
# avec un segemnt 'J' different... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:25:24 #
# #
# $xci/accumule.42$X : 00:20:55 #
# #
v $xiirc/MANF.DA.5.0 p=$xiP/gris.01
v $xiirc/MANF.DA.5.0 p=$xiP/CEN.11
v $xiirc/MANF.DA.5.0 p=$xiP/fractal.11
v $xiirc/MANF.DA.5.1
v $xiirc/MANF.DA.5.2
v $xiirc/MANF.DA.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_DA_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.DA.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.DA.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 1.741e-07 #
# |yhd - ybg| = 1.74100000028e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259261096 #
# $Z SET _____xhd=-0.04259243686 #
# $Z SET _____ybg=-0.36450211830 #
# $Z SET _____yhd=-0.36450194420 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.DA.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_DA_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:11:19 #
# #
# $xci/accumule.42$X : 00:05:41 #
# #
v $xiirc/MANF.DB.5.0 p=$xiP/gris.01
v $xiirc/MANF.DB.5.0 p=$xiP/CEN.11
v $xiirc/MANF.DB.5.0 p=$xiP/fractal.11
v $xiirc/MANF.DB.5.1
v $xiirc/MANF.DB.5.2
v $xiirc/MANF.DB.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_DB_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.DB.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.DB.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 1.741e-07 #
# |yhd - ybg| = 1.74100000028e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259261095 #
# $Z SET _____xhd=-0.04259243685 #
# $Z SET _____ybg=-0.36450208350 #
# $Z SET _____yhd=-0.36450190940 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.DB.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_DB_5: #
# #
# #
# Ces images montrent un grave defaut ('v $xiii/di_album$FON 20210424103808') que j'espere #
# corriger avec 'v $xiirc/MANF.DC.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:12:31 #
# #
# $xci/accumule.42$X : 00:05:48 #
# #
v $xiirc/MANF.DC.5.0 p=$xiP/gris.01
v $xiirc/MANF.DC.5.0 p=$xiP/CEN.11
v $xiirc/MANF.DC.5.0 p=$xiP/fractal.11
v $xiirc/MANF.DC.5.1
v $xiirc/MANF.DC.5.2
v $xiirc/MANF.DC.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_DC_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# $Z SET _____DoublerSections=1 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.DC.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.DC.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 1.741e-07 #
# |yhd - ybg| = 1.74100000028e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259261095 #
# $Z SET _____xhd=-0.04259243685 #
# $Z SET _____ybg=-0.36450208350 #
# $Z SET _____yhd=-0.36450190940 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.DC.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_DC_5: #
# #
# #
# Ces images corrigent un grave defaut ('v $xiii/di_album$FON 20210424103808') rencontre #
# avec 'v $xiirc/MANF.DB.5.21' grace a l'option '$_____DoublerSections'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:45:54 #
# #
# $xci/accumule.42$X : 00:21:50 #
# #
v $xiirc/MANF.DD.5.0 p=$xiP/gris.01
v $xiirc/MANF.DD.5.0 p=$xiP/CEN.11
v $xiirc/MANF.DD.5.0 p=$xiP/fractal.11
v $xiirc/MANF.DD.5.1
v $xiirc/MANF.DD.5.2
v $xiirc/MANF.DD.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_DD_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.DD.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.DD.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 1.741e-07 #
# |yhd - ybg| = 1.74100000028e-07 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259261095 #
# $Z SET _____xhd=-0.04259243685 #
# $Z SET _____ybg=-0.36450208350 #
# $Z SET _____yhd=-0.36450190940 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.DD.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$_____ImageT2. \ #
# $Z premiere=$cPremiere derniere=$cDerniere \ #
# $Z R=$_____imagesR.0 \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_DD_5: #
# #
# #
# Ces images corrigent un grave defaut ('v $xiii/di_album$FON 20210424103808') rencontre #
# avec 'v $xiirc/MANF.DB.5.21' grace a l'option '$_____Epaissir'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:12:05 #
# #
# $xci/accumule.42$X : 00:11:55 #
# #
v $xiirc/MANF.E1.5.1
v $xiirc/MANF.E1.5.2
v $xiirc/MANF.E1.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANF_E1_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E1.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E1.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.088 #
# $Z SET _____EJ=0.000 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 2 #
# |yhd - ybg| = 2 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-1.0 #
# $Z SET _____xhd=+1.0 #
# $Z SET _____ybg=-1.0 #
# $Z SET _____yhd=+1.0 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E1.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E1_5: #
# #
# #
# Image theoriquement identique a 'v $xiirc/MANE.m1.5.21'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:09:31 #
# #
# $xci/accumule.42$X : 00:39:28 #
# #
v $xiirc/MANF.E1.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E1_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E1_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E1_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E2_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E2_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E1.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E1_5_21_cadre: #
# #
v $xiirc/MANF.E2.5.1
v $xiirc/MANF.E2.5.2
v $xiirc/MANF.E2.5.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_MANF_E2_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E2.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E2.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=1.08800 #
# $Z SET _____EJ=0.51059 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.464259 #
# |yhd - ybg| = 0.464259 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.275347095 #
# $Z SET _____xhd=+0.188911905 #
# $Z SET _____ybg=-0.596533975 #
# $Z SET _____yhd=-0.132274975 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E2.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E2_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:29:09 #
# #
# $xci/accumule.42$X : 00:42:59 #
# #
v $xiirc/MANF.E2.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E2_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E2_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E2_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E3_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E3_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E2.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E2_5_21_cadre: #
# #
v $xiirc/MANF.E3.5.1
v $xiirc/MANF.E3.5.2
v $xiirc/MANF.E3.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_E3_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E3.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E3.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.98271 #
# $Z SET _____EJ=0.58532 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 0.046426 #
# |yhd - ybg| = 0.046425 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.066430545 #
# $Z SET _____xhd=-0.020004645 #
# $Z SET _____ybg=-0.387617425 #
# $Z SET _____yhd=-0.341191525 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E3.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E3_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:49:48 #
# #
# $xci/accumule.42$X : 01:47:56 #
# #
v $xiirc/MANF.E3.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E3_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E3_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E3_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E4_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E4_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E3.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E3_5_21_cadre: #
# #
v $xiirc/MANF.E4.5.1
v $xiirc/MANF.E4.5.2
v $xiirc/MANF.E4.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_E4_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E4.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.80131489 #
# $Z SET _____EJ=0.79828076 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.004643 #
# |yhd - ybg| = 0.004643 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04553889 #
# $Z SET _____xhd=-0.04089630 #
# $Z SET _____ybg=-0.36672577 #
# $Z SET _____yhd=-0.36208318 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E4_5: #
# #
# #
# Image theoriquement identique a 'v $xiirc/MANE.O1.21' au format pres... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:48:02 #
# #
# $xci/accumule.42$X : 00:56:57 #
# #
v $xiirc/MANF.E4.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E4_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E4_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E4_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E5_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E5_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E4.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E4_5_21_cadre: #
# #
v $xiirc/MANF.E5.5.1
v $xiirc/MANF.E5.5.2
v $xiirc/MANF.E5.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_E5_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E5.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.80055398 #
# $Z SET _____EJ=0.79828076 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 0.000696 #
# |yhd - ybg| = 0.000697 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04286940075 #
# $Z SET _____xhd=-0.04217301225 #
# $Z SET _____ybg=-0.3648687340 #
# $Z SET _____yhd=-0.3641723455 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E5_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:23:33 #
# #
# $xci/accumule.42$X : 00:41:41 #
# #
v $xiirc/MANF.E5.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E5_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E5_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E5_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E6_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E6_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E5.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E5_5_21_cadre: #
# #
v $xiirc/MANF.E6.5.1
v $xiirc/MANF.E6.5.2
v $xiirc/MANF.E6.5.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_MANF_E6_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E6.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.8000406723 #
# $Z SET _____EJ=0.7982807600 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 6.9e-05 #
# |yhd - ybg| = 7e-05 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259940075 #
# $Z SET _____xhd=-0.04252976190 #
# $Z SET _____ybg=-0.36450873400 #
# $Z SET _____yhd=-0.36443909510 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E6_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:29:12 #
# #
# $xci/accumule.42$X : 00:40:49 #
# #
v $xiirc/MANF.E6.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E6_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E6_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E6_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_E7_5" #
# $Z set _____Fin2__="Fin_listG_MANF_E7_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E6.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E6_5_21_cadre: #
# #
v $xiirc/MANF.E7.5.1
v $xiirc/MANF.E7.5.2
v $xiirc/MANF.E7.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_E7_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.E7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.E7.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 7e-06 #
# |yhd - ybg| = 7.00000000003e-06 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04259940075 #
# $Z SET _____xhd=-0.04259243686 #
# $Z SET _____ybg=-0.36450873400 #
# $Z SET _____yhd=-0.36450177010 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.E7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_E7_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:15:36 #
# #
# $xci/accumule.42$X : 00:15:47 #
# #
v $xiirc/MANF.E7.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_E7_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E7_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E7_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_ED_5" #
# $Z set _____Fin2__="Fin_listG_MANF_ED_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.E7.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_E7_5_21_cadre: #
# #
# #
# ATTENTION : sur l'image 'v $xiirc/MANF.E7.5.21.cadre' est tres discret. Il est en haut et #
# a droite, etant de plus proche du bord de l'image et d'une couleur (blanc) tres proche de #
# l'image 'v $xiirc/MANF.E7.5.21' en ce lieu. Ceci fut note le 20210916075938 sur '$LACT1B' #
# en mettant de plus en evidence le probleme 'v $xiirc/.MANF.B1.1.$U 20210916074130'... #
v $xiirc/MANF.ED.5.1
v $xiirc/MANF.ED.5.2
v $xiirc/MANF.ED.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_ED_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.ED.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.ED.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.7999713844 #
# $Z SET _____EJ=0.7995428847 #
# $Z SET _____xbg=-0.04259261095 #
# $Z SET _____xhd=-0.04259243685 #
# $Z SET _____ybg=-0.36450208350 #
# $Z SET _____yhd=-0.36450190940 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" compatibilite_20141005=VRAI" #
# #
# $Z set _____imagesR=$xiirc/MANF.ED.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_ED_5: #
# #
# #
# Ces images corrigent un grave defaut ('v $xiii/di_album$FON 20210424103808') rencontre #
# avec 'v $xiirc/MANF.EB.5.21' grace a l'option '$_____Epaissir'... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:12:24 #
# #
# $xci/accumule.42$X : 00:11:47 #
# #
v $xiirc/MANF.F3.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_F3_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_E3_5" #
# $Z set _____Fin1__="Fin_listG_MANF_E3_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_F4_5" #
# $Z set _____Fin2__="Fin_listG_MANF_F4_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.F3.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $Z set _____imagesA=$xiirc/MANF.E3.5.21 #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_F3_5_21_cadre: #
# #
v $xiirc/MANF.F4.5.1
v $xiirc/MANF.F4.5.2
v $xiirc/MANF.F4.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_F4_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.F4.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.F4.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.9671193474 #
# $Z SET _____EJ=0.7856384303 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est quasi-carre, #
# mais on notera quand meme que : #
# #
# |xhd - xbg| = 0.004642 #
# |yhd - ybg| = 0.004643 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.047860185 #
# $Z SET _____xhd=-0.043217595 #
# $Z SET _____ybg=-0.356047813 #
# $Z SET _____yhd=-0.351405223 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.F4.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_F4_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:15:57 #
# #
# $xci/accumule.42$X : 00:23:50 #
# #
v $xiirc/MANF.F4.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_F4_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_F4_5" #
# $Z set _____Fin1__="Fin_listG_MANF_F4_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_F5_5" #
# $Z set _____Fin2__="Fin_listG_MANF_F5_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.F4.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_F4_5_21_cadre: #
# #
v $xiirc/MANF.F5.5.1
v $xiirc/MANF.F5.5.2
v $xiirc/MANF.F5.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_F5_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.F5.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.F5.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.9555967495 #
# $Z SET _____EJ=0.7856384303 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 0.000464 #
# |yhd - ybg| = 0.000464 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.0436818540 #
# $Z SET _____xhd=-0.0432175900 #
# $Z SET _____ybg=-0.3529372777 #
# $Z SET _____yhd=-0.3524730187 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.F5.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_F5_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:12:05 #
# #
# $xci/accumule.42$X : 00:17:22 #
# #
v $xiirc/MANF.F5.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_F5_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_F5_5" #
# $Z set _____Fin1__="Fin_listG_MANF_F5_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_F6_5" #
# $Z set _____Fin2__="Fin_listG_MANF_F6_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.F5.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_F5_5_21_cadre: #
# #
v $xiirc/MANF.F6.5.1
v $xiirc/MANF.F6.5.2
v $xiirc/MANF.F6.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_F6_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.F6.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.F6.5.1 #
# #
# $Z SET _____Puissance=8 #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____OJ=0.9555967495 #
# $Z SET _____EJ=0.7856384303 #
# #
# Malgre l'absence de '_____XYdecimales=10' le domaine [xbg,xhd]x[ybg,yhd] est bien carre #
# avec : #
# #
# |xhd - xbg| = 4.6e-05 #
# |yhd - ybg| = 4.6e-05 #
# #
# avec donc '$_____XYdecimales=6' decimales (par defaut)... #
# #
# $Z SET _____xbg=-0.04334294128 #
# $Z SET _____xhd=-0.04329651488 #
# $Z SET _____ybg=-0.35258908350 #
# $Z SET _____yhd=-0.35254265760 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.F6.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_F6_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:11:15 #
# #
# $xci/accumule.42$X : 00:17:11 #
# #
v $xiirc/MANF.F6.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_F6_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_F6_5" #
# $Z set _____Fin1__="Fin_listG_MANF_F6_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_F7_5" #
# $Z set _____Fin2__="Fin_listG_MANF_F7_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.F6.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_F6_5_21_cadre: #
# #
v $xiirc/MANF.F7.5.1
v $xiirc/MANF.F7.5.2
v $xiirc/MANF.F7.5.21
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_MANF_F7_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.F7.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.F7.5.1 #
# #
# $Z SET _____Puissance=8 #
# #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.9555967495 #
# $Z SET _____EJ=0.7856384303 #
# $Z SET _____xbg=-0.04333504879 #
# $Z SET _____xhd=-0.04333040615 #
# $Z SET _____ybg=-0.35257237020 #
# $Z SET _____yhd=-0.35256772760 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.F7.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_F7_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:09:36 #
# #
# $xci/accumule.42$X : 00:16:02 #
# #
v $xiirc/MANF.F7.5.21.cadre
# Generee (sur '$LACT1A' puis sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_F7_5_21_cadre: #
# #
# $Z Sdu #
# #
# $Z set _____Debut1="Debut_listG_MANF_F7_5" #
# $Z set _____Fin1__="Fin_listG_MANF_F7_5" #
# #
# $Z set _____Debut2="Debut_listG_MANF_F8_5" #
# $Z set _____Fin2__="Fin_listG_MANF_F8_5" #
# #
# $Z set _____imagesA=$xiirc/MANF.F7.5.21 #
# $Z set _____imagesR=$_____imagesA.cadre #
# $m4 _____include(_____xiirc/.MANF.B1.1._____U) #
# #
# :Fin_listG_MANF_F7_5_21_cadre: #
# #
v $xiirc/MANF.F8.5.1
v $xiirc/MANF.F8.5.2
v $xiirc/MANF.F8.5.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_MANF_F8_5: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# $Z set _____Epaissir=VRAI #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/MANF.F8.5.2 #
# $Z setenv _____ImageT1 $xTV/MANF.F8.5.1 #
# #
# $Z SET _____Puissance=8 #
# #
# $Z SET _____Jdecimales=10 #
# $Z SET _____Kdecimales=10 #
# $Z SET _____XYdecimales=10 #
# #
# $Z SET _____OJ=0.9555967495 #
# $Z SET _____EJ=0.7856384303 #
# #
# ATTENTION, pour 'v $xiirc/MANF.F7.5.21', il y avait par defaut : #
# #
# SET _____XYdecimales=6 #
# #
# et donc, en fait {xbg,xhd,ybg,yhd} valaient : #
# #
# SET _____xbg=-0.043335 #
# SET _____xhd=-0.043330 #
# SET _____ybg=-0.352572 #
# SET _____yhd=-0.352568 #
# #
# et ce sont donc ces valeurs qu'il faut utiliser pour determiner les nouvelles ci-apres : #
# #
# $Z SET _____xbg=-0.04333105 #
# $Z SET _____xhd=-0.04333065 #
# $Z SET _____ybg=-0.35256880 #
# $Z SET _____yhd=-0.35256840 #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# ATTENTION : les rotations par defaut {$_____JRotationX,$_____JRotationY,$_____JRotationZ} #
# definies ci-dessus, le sont via '$xrc/julia.81$X' et non pas '$xrc/mandel.81$X' (ceci fut #
# note le 20210207160405 lors des tests de 'v $xrc/trih_sh.81$K' en mode "pnt=VRAI")... #
# #
# $Z neutre #
# #
# $m4 _____include(_____xiirc/.MANE.h5.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____CercleInscrit=VRAI #
# $Z set _____imagesR=$xiirc/MANF.F8.5 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_MANF_F8_5: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:17:18 #
# #
# $xci/accumule.42$X : 00:29:16 #
# #
v $xiirc/MANF.G1
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_G1: #
# #
# $Z Suh #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET _____XYmax=`$xcg/MIN2.01$X x=$Xmax y=$Ymax signe="$K_VIDE"` #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=`calcul $cPremiere+$_____XYmax` #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# #
# $m4 _____include(_____xiirc/.MANE.h5.5._____U) #
# #
# $Z set _____Zoom=0.80 #
# $Z set _____RotationX=0.2 #
# $Z set _____RotationY=2.7 #
# $Z set _____RayonMinimal=0.005 #
# $Z set _____RayonMaximal=0.200 #
# $Z set _____FormatImage=Sdu #
# #
# $Z set _____Palette=$xiP/arc_ciel.L1 #
# $Z set _____ImageR=$xiirc/MANF.G1 #
# #
# $m4 _____include(_____xiirf/.MENH.91.2._____U) #
# #
# $Z execRVB $xci/scroll$X \ #
# $Z A=$_____ImageR%s \ #
# $Z trX=-0.08 \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_G1: #
# #
# #
# Cette image reprend les parametres de l'ensemble de Mandelbrot 'v $xiirc/MANE.m1.5.21'... #
v $xiirc/MANF.G1$m
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_MANF_G1_m: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____ImageA=$xiirc/MANF.G1 #
# $Z set _____ImageR=$_____ImageA$m #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageA \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z navap=VRAI \ #
# $Z passes=100 \ #
# $Z R=$xTV/MANF.G1 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.2 \ #
# $Z A=$xTV/MANF.G1 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____ImageA%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_MANF_G1_m: #
# #
v $xiirc/POLY.11
v $xiirc/POLY.11.1
v $xiirc/POLY.11.2
v $xiirc/POLY.12
v $xiirc/POLY.12.1
v $xiirc/POLY.12.2
v $xiac/POLY.112$R16 p=$xiP/cercle.35
v $xiac/POLY.112$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_POLY_11_12: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.11 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.12.2 #
# $Z setenv _____ImageT23 $xTV/POLY.12.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.05 my=0.05 mz=0.05 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c pondPA=0 #
# $c pondPC=1 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApTheta=5 #
# $c ApPhi=8 #
# $c ApAlpha=11 #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=9 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.11%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.11%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.11.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.11.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.11.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.12%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.12%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.12.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.12.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.12.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.112 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_11_12: #
# #
# #
# Ensemble de Mandelbrot dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement) dynamiques. #
v $xiirc/POLY.21
v $xiirc/POLY.21.1
v $xiirc/POLY.21.2
v $xiirc/POLY.22
v $xiirc/POLY.22.1
v $xiirc/POLY.22.2
v $xiac/POLY.212$R16 p=$xiP/cercle.35
v $xiac/POLY.212$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_POLY_21_22: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.22.2 #
# $Z setenv _____ImageT23 $xTV/POLY.22.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.05 my=0.05 mz=0.05 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApTheta=5 #
# $c ApPhi=8 #
# $c ApAlpha=11 #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.21%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.21%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.21.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.21.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.21.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.22%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.22%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.22.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.22.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.22.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.212 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_21_22: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement) dynamiques. #
v $xiirc/POLY.31
v $xiirc/POLY.31.1
v $xiirc/POLY.31.2
v $xiirc/POLY.32
v $xiirc/POLY.32.1
v $xiirc/POLY.32.2
v $xiac/POLY.312$R16 p=$xiP/cercle.35
v $xiac/POLY.312$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "villiers"-) par : #
# #
# #
# :Debut_listG_POLY_31_32: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.31 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.32.2 #
# $Z setenv _____ImageT23 $xTV/POLY.32.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.05 my=0.05 mz=0.05 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=16 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApTheta=5 #
# $c ApPhi=7 #
# $c ApAlpha=9 #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.31%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.31%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.31.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.31.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.31.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.32%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.32%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.32.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.32.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.32.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.312 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_31_32: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement) dynamiques. #
v $xiirc/POLY.41
v $xiirc/POLY.41.1
v $xiirc/POLY.41.2
v $xiirc/POLY.42
v $xiirc/POLY.42.1
v $xiirc/POLY.42.2
v $xiac/POLY.412$R16 p=$xiP/cercle.35
v $xiac/POLY.412$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_POLY_41_42: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.41 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.42.2 #
# $Z setenv _____ImageT23 $xTV/POLY.42.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.20 my=0.20 mz=0.20 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApTheta=5 #
# $c ApPhi=8 #
# $c ApAlpha=11 #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.41%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.41%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.41.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.41.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.41.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.42%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.42%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.42.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.42.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.42.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.412 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_41_42: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement) dynamiques. #
v $xiirc/POLY.51
v $xiirc/POLY.51.1
v $xiirc/POLY.51.2
v $xiirc/POLY.52
v $xiirc/POLY.52.1
v $xiirc/POLY.52.2
v $xiac/POLY.512$R16 p=$xiP/cercle.35
v $xiac/POLY.512$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_POLY_51_52: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.51 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.52.2 #
# $Z setenv _____ImageT23 $xTV/POLY.52.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.20 my=0.20 mz=0.20 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=6 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.75 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.75 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1.3 ybg=-1.3 #
# $c xhd=+1.3 yhd=+1.3 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApTheta=5 #
# $c ApPhi=8 #
# $c ApAlpha=11 #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=5 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.51%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.51%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.51.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.51.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.51.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.52%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.52%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.52.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.52.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.52.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.512 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_51_52: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement) dynamiques. #
v $xiirc/POLY.61
v $xiirc/POLY.61.1
v $xiirc/POLY.61.2
v $xiirc/POLY.62
v $xiirc/POLY.62.1
v $xiirc/POLY.62.2
v $xiac/POLY.612$R16 p=$xiP/cercle.35
v $xiac/POLY.612$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_POLY_61_62: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.61 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.62.2 #
# $Z setenv _____ImageT23 $xTV/POLY.62.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.20 my=0.20 mz=0.20 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=8 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 1.200 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.0 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1.3 ybg=-1.3 #
# $c xhd=+1.3 yhd=+1.3 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeR=$_____ImageF.%04d #
# $c iApT=FAUX #
# $c ApT=$_____ImageF.%04d #
# $c iApP=FAUX #
# $c ApP=$_____ImageF.%04d #
# $c iApA=FAUX #
# $c ApA=$_____ImageF.%04d #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=8 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.61%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.61%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.61.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.61.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.61.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.62%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.62%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.62.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.62.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.62.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.612 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_61_62: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via {"AeRho","ApTheta","ApPhi","ApAlpha"}, mais ATTENTION #
# a la remarque 'v $ximcd/operator$FON 20100210182653' relative aux ponderations non #
# entieres des angles ce qui est le cas ici...) dynamiques. #
v $xiirc/POLY.71
v $xiirc/POLY.71.1
v $xiirc/POLY.71.2
v $xiirc/POLY.72
v $xiirc/POLY.72.1
v $xiirc/POLY.72.2
v $xiac/POLY.712$R16 p=$xiP/cercle.35
v $xiac/POLY.712$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "grenelle"-) par : #
# #
# #
# :Debut_listG_POLY_71_72: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.71 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# $Z setenv _____ImageT22 $xTV/POLY.72.2 #
# $Z setenv _____ImageT23 $xTV/POLY.72.3 #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.20 my=0.20 mz=0.20 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=8 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 1.200 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.0 #
# $c #define EK 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.41$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1.3 ybg=-1.3 #
# $c xhd=+1.3 yhd=+1.3 #
# $c r=0 i=1 j=0 k=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeR=$_____ImageF.%04d #
# $c ApT=$_____ImageF.%04d #
# $c ApP=$_____ImageF.%04d #
# $c ApA=$_____ImageF.%04d #
# $c J=%+f #
# $c K=%+f #
# $c appartenance=VRAI #
# $c iterations=8 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.71%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.71%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.71.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.71.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.71.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.12" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/POLY.72%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.72%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.72.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.12 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.72.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.72.2%s \ #
# $Z $formatI #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.712 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_71_72: #
# #
# #
# Ensemble de Julia dans les quaternions avec le "produit non theorique" utilisant #
# un polynome et un produit (via {"AeRho","ApTheta","ApPhi","ApAlpha"}). #
v $xiirc/POLY.82.1.0001
v $xiirc/POLY.82.1.0002
v $xiirc/POLY.82.1.0003
v $xiirc/POLY.82.1.0004
v $xiirc/POLY.82.1.0005
v $xiirc/POLY.82.1.0006
v $xiirc/POLY.82.1.0007
v $xiirc/POLY.82.1.0008
v $xiirc/POLY.82.1.0009
v $xiirc/POLY.82.1.0010
v $xiirc/POLY.82.1.0011
v $xiirc/POLY.82.1.0012
v $xiirc/POLY.82.1.0013
v $xiirc/POLY.82.1.0014
v $xiirc/POLY.82.1.0015
v $xiirc/POLY.82.1.0016
v $xiirc/POLY.82.2.0001
v $xiirc/POLY.82.2.0002
v $xiirc/POLY.82.2.0003
v $xiirc/POLY.82.2.0004
v $xiirc/POLY.82.2.0005
v $xiirc/POLY.82.2.0006
v $xiirc/POLY.82.2.0007
v $xiirc/POLY.82.2.0008
v $xiirc/POLY.82.2.0009
v $xiirc/POLY.82.2.0010
v $xiirc/POLY.82.2.0011
v $xiirc/POLY.82.2.0012
v $xiirc/POLY.82.2.0013
v $xiirc/POLY.82.2.0014
v $xiirc/POLY.82.2.0015
v $xiirc/POLY.82.2.0016
v $xiirc/POLY.82.1
v $xiirc/POLY.82.2 p=$xiP/enfer.03
v $xiirc/POLY.82.2 p=$xiP/trou_noir.13
v $xiirc/POLY.82.3
v $xiirc/POLY.82.4 p=$xiP/enfer.03
v $xiirc/POLY.82.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.82.1$R16' #
# #
v $xiirc/POLY.92.1.0001
v $xiirc/POLY.92.1.0002
v $xiirc/POLY.92.1.0003
v $xiirc/POLY.92.1.0004
v $xiirc/POLY.92.1.0005
v $xiirc/POLY.92.1.0006
v $xiirc/POLY.92.1.0007
v $xiirc/POLY.92.1.0008
v $xiirc/POLY.92.1.0009
v $xiirc/POLY.92.1.0010
v $xiirc/POLY.92.1.0011
v $xiirc/POLY.92.1.0012
v $xiirc/POLY.92.1.0013
v $xiirc/POLY.92.1.0014
v $xiirc/POLY.92.1.0015
v $xiirc/POLY.92.1.0016
v $xiirc/POLY.92.2.0001
v $xiirc/POLY.92.2.0002
v $xiirc/POLY.92.2.0003
v $xiirc/POLY.92.2.0004
v $xiirc/POLY.92.2.0005
v $xiirc/POLY.92.2.0006
v $xiirc/POLY.92.2.0007
v $xiirc/POLY.92.2.0008
v $xiirc/POLY.92.2.0009
v $xiirc/POLY.92.2.0010
v $xiirc/POLY.92.2.0011
v $xiirc/POLY.92.2.0012
v $xiirc/POLY.92.2.0013
v $xiirc/POLY.92.2.0014
v $xiirc/POLY.92.2.0015
v $xiirc/POLY.92.2.0016
v $xiirc/POLY.92.1
v $xiirc/POLY.92.2 p=$xiP/enfer.03
v $xiirc/POLY.92.2 p=$xiP/trou_noir.13
v $xiirc/POLY.92.3
v $xiirc/POLY.92.4 p=$xiP/enfer.03
v $xiirc/POLY.92.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.92.1$R16' #
# #
v $xiirc/POLY.A2.1.0001
v $xiirc/POLY.A2.1.0002
v $xiirc/POLY.A2.1.0003
v $xiirc/POLY.A2.1.0004
v $xiirc/POLY.A2.1.0005
v $xiirc/POLY.A2.1.0006
v $xiirc/POLY.A2.1.0007
v $xiirc/POLY.A2.1.0008
v $xiirc/POLY.A2.1.0009
v $xiirc/POLY.A2.1.0010
v $xiirc/POLY.A2.1.0011
v $xiirc/POLY.A2.1.0012
v $xiirc/POLY.A2.1.0013
v $xiirc/POLY.A2.1.0014
v $xiirc/POLY.A2.1.0015
v $xiirc/POLY.A2.1.0016
v $xiirc/POLY.A2.2.0001
v $xiirc/POLY.A2.2.0002
v $xiirc/POLY.A2.2.0003
v $xiirc/POLY.A2.2.0004
v $xiirc/POLY.A2.2.0005
v $xiirc/POLY.A2.2.0006
v $xiirc/POLY.A2.2.0007
v $xiirc/POLY.A2.2.0008
v $xiirc/POLY.A2.2.0009
v $xiirc/POLY.A2.2.0010
v $xiirc/POLY.A2.2.0011
v $xiirc/POLY.A2.2.0012
v $xiirc/POLY.A2.2.0013
v $xiirc/POLY.A2.2.0014
v $xiirc/POLY.A2.2.0015
v $xiirc/POLY.A2.2.0016
v $xiirc/POLY.A2.1
v $xiirc/POLY.A2.2 p=$xiP/enfer.03
v $xiirc/POLY.A2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.A2.3
v $xiirc/POLY.A2.4 p=$xiP/enfer.03
v $xiirc/POLY.A2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.A2.1$R16' #
# #
v $xiirc/POLY.B2.1.0001
v $xiirc/POLY.B2.1.0002
v $xiirc/POLY.B2.1.0003
v $xiirc/POLY.B2.1.0004
v $xiirc/POLY.B2.1.0005
v $xiirc/POLY.B2.1.0006
v $xiirc/POLY.B2.1.0007
v $xiirc/POLY.B2.1.0008
v $xiirc/POLY.B2.1.0009
v $xiirc/POLY.B2.1.0010
v $xiirc/POLY.B2.1.0011
v $xiirc/POLY.B2.1.0012
v $xiirc/POLY.B2.1.0013
v $xiirc/POLY.B2.1.0014
v $xiirc/POLY.B2.1.0015
v $xiirc/POLY.B2.1.0016
v $xiirc/POLY.B2.2.0001
v $xiirc/POLY.B2.2.0002
v $xiirc/POLY.B2.2.0003
v $xiirc/POLY.B2.2.0004
v $xiirc/POLY.B2.2.0005
v $xiirc/POLY.B2.2.0006
v $xiirc/POLY.B2.2.0007
v $xiirc/POLY.B2.2.0008
v $xiirc/POLY.B2.2.0009
v $xiirc/POLY.B2.2.0010
v $xiirc/POLY.B2.2.0011
v $xiirc/POLY.B2.2.0012
v $xiirc/POLY.B2.2.0013
v $xiirc/POLY.B2.2.0014
v $xiirc/POLY.B2.2.0015
v $xiirc/POLY.B2.2.0016
v $xiirc/POLY.B2.1
v $xiirc/POLY.B2.2 p=$xiP/enfer.03
v $xiirc/POLY.B2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.B2.3
v $xiirc/POLY.B2.4 p=$xiP/enfer.03
v $xiirc/POLY.B2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.B2.1$R16' #
# #
v $xiirc/POLY.C2.1.0001
v $xiirc/POLY.C2.1.0002
v $xiirc/POLY.C2.1.0003
v $xiirc/POLY.C2.1.0004
v $xiirc/POLY.C2.1.0005
v $xiirc/POLY.C2.1.0006
v $xiirc/POLY.C2.1.0007
v $xiirc/POLY.C2.1.0008
v $xiirc/POLY.C2.1.0009
v $xiirc/POLY.C2.1.0010
v $xiirc/POLY.C2.1.0011
v $xiirc/POLY.C2.1.0012
v $xiirc/POLY.C2.1.0013
v $xiirc/POLY.C2.1.0014
v $xiirc/POLY.C2.1.0015
v $xiirc/POLY.C2.1.0016
v $xiirc/POLY.C2.2.0001
v $xiirc/POLY.C2.2.0002
v $xiirc/POLY.C2.2.0003
v $xiirc/POLY.C2.2.0004
v $xiirc/POLY.C2.2.0005
v $xiirc/POLY.C2.2.0006
v $xiirc/POLY.C2.2.0007
v $xiirc/POLY.C2.2.0008
v $xiirc/POLY.C2.2.0009
v $xiirc/POLY.C2.2.0010
v $xiirc/POLY.C2.2.0011
v $xiirc/POLY.C2.2.0012
v $xiirc/POLY.C2.2.0013
v $xiirc/POLY.C2.2.0014
v $xiirc/POLY.C2.2.0015
v $xiirc/POLY.C2.2.0016
v $xiirc/POLY.C2.1
v $xiirc/POLY.C2.2 p=$xiP/enfer.03
v $xiirc/POLY.C2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.C2.3
v $xiirc/POLY.C2.4 p=$xiP/enfer.03
v $xiirc/POLY.C2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.C2.1$R16' #
# #
v $xiirc/POLY.D2.1.0001
v $xiirc/POLY.D2.1.0002
v $xiirc/POLY.D2.1.0003
v $xiirc/POLY.D2.1.0004
v $xiirc/POLY.D2.1.0005
v $xiirc/POLY.D2.1.0006
v $xiirc/POLY.D2.1.0007
v $xiirc/POLY.D2.1.0008
v $xiirc/POLY.D2.1.0009
v $xiirc/POLY.D2.1.0010
v $xiirc/POLY.D2.1.0011
v $xiirc/POLY.D2.1.0012
v $xiirc/POLY.D2.1.0013
v $xiirc/POLY.D2.1.0014
v $xiirc/POLY.D2.1.0015
v $xiirc/POLY.D2.1.0016
v $xiirc/POLY.D2.2.0001
v $xiirc/POLY.D2.2.0002
v $xiirc/POLY.D2.2.0003
v $xiirc/POLY.D2.2.0004
v $xiirc/POLY.D2.2.0005
v $xiirc/POLY.D2.2.0006
v $xiirc/POLY.D2.2.0007
v $xiirc/POLY.D2.2.0008
v $xiirc/POLY.D2.2.0009
v $xiirc/POLY.D2.2.0010
v $xiirc/POLY.D2.2.0011
v $xiirc/POLY.D2.2.0012
v $xiirc/POLY.D2.2.0013
v $xiirc/POLY.D2.2.0014
v $xiirc/POLY.D2.2.0015
v $xiirc/POLY.D2.2.0016
v $xiirc/POLY.D2.1
v $xiirc/POLY.D2.2 p=$xiP/enfer.03
v $xiirc/POLY.D2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.D2.3
v $xiirc/POLY.D2.4 p=$xiP/enfer.03
v $xiirc/POLY.D2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.D2.1$R16' #
# #
v $xiirc/POLY.E2.1.0001
v $xiirc/POLY.E2.1.0002
v $xiirc/POLY.E2.1.0003
v $xiirc/POLY.E2.1.0004
v $xiirc/POLY.E2.1.0005
v $xiirc/POLY.E2.1.0006
v $xiirc/POLY.E2.1.0007
v $xiirc/POLY.E2.1.0008
v $xiirc/POLY.E2.1.0009
v $xiirc/POLY.E2.1.0010
v $xiirc/POLY.E2.1.0011
v $xiirc/POLY.E2.1.0012
v $xiirc/POLY.E2.1.0013
v $xiirc/POLY.E2.1.0014
v $xiirc/POLY.E2.1.0015
v $xiirc/POLY.E2.1.0016
v $xiirc/POLY.E2.2.0001
v $xiirc/POLY.E2.2.0002
v $xiirc/POLY.E2.2.0003
v $xiirc/POLY.E2.2.0004
v $xiirc/POLY.E2.2.0005
v $xiirc/POLY.E2.2.0006
v $xiirc/POLY.E2.2.0007
v $xiirc/POLY.E2.2.0008
v $xiirc/POLY.E2.2.0009
v $xiirc/POLY.E2.2.0010
v $xiirc/POLY.E2.2.0011
v $xiirc/POLY.E2.2.0012
v $xiirc/POLY.E2.2.0013
v $xiirc/POLY.E2.2.0014
v $xiirc/POLY.E2.2.0015
v $xiirc/POLY.E2.2.0016
v $xiirc/POLY.E2.1
v $xiirc/POLY.E2.2 p=$xiP/enfer.03
v $xiirc/POLY.E2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.E2.3
v $xiirc/POLY.E2.4 p=$xiP/enfer.03
v $xiirc/POLY.E2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.E2.1$R16' #
# #
v $xiirc/POLY.F2.1.0001
v $xiirc/POLY.F2.1.0002
v $xiirc/POLY.F2.1.0003
v $xiirc/POLY.F2.1.0004
v $xiirc/POLY.F2.1.0005
v $xiirc/POLY.F2.1.0006
v $xiirc/POLY.F2.1.0007
v $xiirc/POLY.F2.1.0008
v $xiirc/POLY.F2.1.0009
v $xiirc/POLY.F2.1.0010
v $xiirc/POLY.F2.1.0011
v $xiirc/POLY.F2.1.0012
v $xiirc/POLY.F2.1.0013
v $xiirc/POLY.F2.1.0014
v $xiirc/POLY.F2.1.0015
v $xiirc/POLY.F2.1.0016
v $xiirc/POLY.F2.2.0001
v $xiirc/POLY.F2.2.0002
v $xiirc/POLY.F2.2.0003
v $xiirc/POLY.F2.2.0004
v $xiirc/POLY.F2.2.0005
v $xiirc/POLY.F2.2.0006
v $xiirc/POLY.F2.2.0007
v $xiirc/POLY.F2.2.0008
v $xiirc/POLY.F2.2.0009
v $xiirc/POLY.F2.2.0010
v $xiirc/POLY.F2.2.0011
v $xiirc/POLY.F2.2.0012
v $xiirc/POLY.F2.2.0013
v $xiirc/POLY.F2.2.0014
v $xiirc/POLY.F2.2.0015
v $xiirc/POLY.F2.2.0016
v $xiirc/POLY.F2.1
v $xiirc/POLY.F2.2 p=$xiP/enfer.03
v $xiirc/POLY.F2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.F2.3
v $xiirc/POLY.F2.4 p=$xiP/enfer.03
v $xiirc/POLY.F2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.F2.1$R16' #
# #
v $xiirc/POLY.G2.1.0001
v $xiirc/POLY.G2.1.0002
v $xiirc/POLY.G2.1.0003
v $xiirc/POLY.G2.1.0004
v $xiirc/POLY.G2.1.0005
v $xiirc/POLY.G2.1.0006
v $xiirc/POLY.G2.1.0007
v $xiirc/POLY.G2.1.0008
v $xiirc/POLY.G2.1.0009
v $xiirc/POLY.G2.1.0010
v $xiirc/POLY.G2.1.0011
v $xiirc/POLY.G2.1.0012
v $xiirc/POLY.G2.1.0013
v $xiirc/POLY.G2.1.0014
v $xiirc/POLY.G2.1.0015
v $xiirc/POLY.G2.1.0016
v $xiirc/POLY.G2.2.0001
v $xiirc/POLY.G2.2.0002
v $xiirc/POLY.G2.2.0003
v $xiirc/POLY.G2.2.0004
v $xiirc/POLY.G2.2.0005
v $xiirc/POLY.G2.2.0006
v $xiirc/POLY.G2.2.0007
v $xiirc/POLY.G2.2.0008
v $xiirc/POLY.G2.2.0009
v $xiirc/POLY.G2.2.0010
v $xiirc/POLY.G2.2.0011
v $xiirc/POLY.G2.2.0012
v $xiirc/POLY.G2.2.0013
v $xiirc/POLY.G2.2.0014
v $xiirc/POLY.G2.2.0015
v $xiirc/POLY.G2.2.0016
v $xiirc/POLY.G2.1
v $xiirc/POLY.G2.2 p=$xiP/enfer.03
v $xiirc/POLY.G2.2 p=$xiP/trou_noir.13
v $xiirc/POLY.G2.3
v $xiirc/POLY.G2.4 p=$xiP/enfer.03
v $xiirc/POLY.G2.4 p=$xiP/trou_noir.13
# Correspond aux images de la sequence : #
# #
# 'v $xiac/POLY.G2.1$R16' #
# #
v $xiirc/POLY.H1
v $xiirc/POLY.H1.1
v $xiirc/POLY.H1.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_POLY_H1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/POLY.H1 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/POLY.H2.2 #
# $Z set _____ImageT23=$xTV/POLY.H2.3 #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=0.80131489 vA=0.79628076 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.H1 #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z $xrc/polynome.41$X \ #
# $Z images=$Nimages \ #
# $Z A=$_____ImageP. \ #
# $Z premiereA=0 \ #
# $Z Zmin=0 Zmax=1 \ #
# $Z ValiderAxes=FAUX \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.H1 \ #
# $Z K=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-0.03955695125 xhd=-0.03491436625 \ #
# $Z ybg=-0.362083185 yhd=-0.35744060 \ #
# $Z r=0 \ #
# $Z i=1 \ #
# $Z j=0 \ #
# $Z k=0 \ #
# $Z pondPA=0.004 \ #
# $Z pondPC=1 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z avertir_parametrage_produit_plus_d_une_image=FAUX \ #
# $Z AeRho=8 \ #
# $Z ApTheta=8 ApPhi=8 ApAlpha=8 \ #
# $Z tTheta=0 tPhi=0 tAlpha=0 \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.H1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=0 pY=0 pZ=1 ZBuffer=VRAI Z=$xTV/Z_BUFFER.H2" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=1 pY=0 pZ=0" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/POLY.H1%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/POLY.H1%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/POLY.H1.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.H2 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/POLY.H1.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/POLY.H1.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_POLY_H1: #
# #
# #
# Agrandissement d'un detail d'un melange de Julia/Mandelbrot dans les quaternions avec le #
# "produit non theorique" utilisant {(8.THETA)+(0),(8.PHI)+(0),(8.ALPHA)+(0)} et calcule avec #
# un polynome de degre 1 et en elevant 'Rho' a la puissance 8. #
v $xiirc/POLY.I2.2
v $xiac/POLY.I22$R16 p=$xiP/cercle.35
v $xiac/POLY.I22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_POLY_I2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c standard=FAUX #
# $c iterations=4 #
# $c mx=0.05 my=0.05 mz=0.05 #
# $c Z=%.16f #
# $c R=$_____ImageF.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/normalise.01$X #
# $c A=$_____ImageF.%04d #
# $c origine=2 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c #define OS 0.0 #
# $c #define ES 0.0 #
# $c #
# $c #define OT 0.0 #
# $c #define ET 0.0 #
# $c #
# $c #define OU 0.0 #
# $c #define EU 0.0 #
# $c #
# $c #define OV 0.0 #
# $c #define EV 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c double S=((ES*(n-N0))+(OS*(N-n)))/(N-N0); #
# $c double T=((ET*(n-N0))+(OT*(N-n)))/(N-N0); #
# $c double U=((EU*(n-N0))+(OU*(N-n)))/(N-N0); #
# $c double V=((EV*(n-N0))+(OV*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.81$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c s=0 t=0 u=0 v=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApA1=5 #
# $c ApA2=8 #
# $c ApA3=11 #
# $c ApA4=1 #
# $c ApA5=2 #
# $c ApA6=3 #
# $c ApA7=4 #
# $c J=%+f #
# $c K=%+f #
# $c S=%+f #
# $c T=%+f #
# $c U=%+f #
# $c V=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,S #
# $c ,T #
# $c ,U #
# $c ,V #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.I2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.I22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_I2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement dans [2,12]) dynamiques. #
v $xiirc/POLY.J2.1
v $xiirc/POLY.J2.2
v $xiirc/POLY.J2.21
v $xiac/POLY.J22$R16 p=$xiP/cercle.35
v $xiac/POLY.J22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_POLY_J2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageT2.%04d #
# $c convertir=VRAI #
# $c normaliser=VRAI #
# $c origine=4 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c #define OS 0.0 #
# $c #define ES 0.0 #
# $c #
# $c #define OT 0.0 #
# $c #define ET 0.0 #
# $c #
# $c #define OU 0.0 #
# $c #define EU 0.0 #
# $c #
# $c #define OV 0.0 #
# $c #define EV 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c double S=((ES*(n-N0))+(OS*(N-n)))/(N-N0); #
# $c double T=((ET*(n-N0))+(OT*(N-n)))/(N-N0); #
# $c double U=((EU*(n-N0))+(OU*(N-n)))/(N-N0); #
# $c double V=((EV*(n-N0))+(OV*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.81$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c s=0 t=0 u=0 v=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApA1=5 #
# $c ApA2=8 #
# $c ApA3=11 #
# $c ApA4=1 #
# $c ApA5=2 #
# $c ApA6=3 #
# $c ApA7=4 #
# $c J=%+f #
# $c K=%+f #
# $c S=%+f #
# $c T=%+f #
# $c U=%+f #
# $c V=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,S #
# $c ,T #
# $c ,U #
# $c ,V #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.J2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.J22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_J2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "AeRho" uniquement dans [4,12]) dynamiques. #
v $xiirc/POLY.K2.1
v $xiirc/POLY.K2.2
v $xiirc/POLY.K2.21
v $xiac/POLY.K22$R16 p=$xiP/cercle.35
v $xiac/POLY.K22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_K2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageT2.%04d #
# $c convertir=VRAI #
# $c normaliser=VRAI #
# $c origine=4 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c #define OS 0.0 #
# $c #define ES 0.0 #
# $c #
# $c #define OT 0.0 #
# $c #define ET 0.0 #
# $c #
# $c #define OU 0.0 #
# $c #define EU 0.0 #
# $c #
# $c #define OV 0.0 #
# $c #define EV 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c double S=((ES*(n-N0))+(OS*(N-n)))/(N-N0); #
# $c double T=((ET*(n-N0))+(OT*(N-n)))/(N-N0); #
# $c double U=((EU*(n-N0))+(OU*(N-n)))/(N-N0); #
# $c double V=((EV*(n-N0))+(OV*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.81$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c s=0 t=0 u=0 v=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApA1=$_____ImageF.%04d #
# $c ApA2=$_____ImageF.%04d #
# $c ApA3=$_____ImageF.%04d #
# $c ApA4=$_____ImageF.%04d #
# $c ApA5=$_____ImageF.%04d #
# $c ApA6=$_____ImageF.%04d #
# $c ApA7=$_____ImageF.%04d #
# $c J=%+f #
# $c K=%+f #
# $c S=%+f #
# $c T=%+f #
# $c U=%+f #
# $c V=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,S #
# $c ,T #
# $c ,U #
# $c ,V #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.K2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.K22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_K2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,12]) dynamiques. #
v $xiirc/POLY.L2.1
v $xiirc/POLY.L2.2
v $xiirc/POLY.L2.21
v $xiac/POLY.L22$R16 p=$xiP/cercle.35
v $xiac/POLY.L22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_L2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageT2.%04d #
# $c convertir=VRAI #
# $c normaliser=VRAI #
# $c origine=8 extremite=12 #
# $c R=$_____ImageF.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $Z $xci/init$X \ #
# $Z v=0 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0000 \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z v=1 \ #
# $Z standard=FAUX \ #
# $Z R=$_____ImageP.0001 \ #
# $Z $formatI #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.58 #
# $c #define EJ 0.0 #
# $c #
# $c #define OK 0.58 #
# $c #define EK 0.0 #
# $c #
# $c #define OS 0.0 #
# $c #define ES 0.0 #
# $c #
# $c #define OT 0.0 #
# $c #define ET 0.0 #
# $c #
# $c #define OU 0.0 #
# $c #define EU 0.0 #
# $c #
# $c #define OV 0.0 #
# $c #define EV 0.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c double K=((EK*(n-N0))+(OK*(N-n)))/(N-N0); #
# $c double S=((ES*(n-N0))+(OS*(N-n)))/(N-N0); #
# $c double T=((ET*(n-N0))+(OT*(N-n)))/(N-N0); #
# $c double U=((EU*(n-N0))+(OU*(N-n)))/(N-N0); #
# $c double V=((EV*(n-N0))+(OV*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/polynome.81$X #
# $c images=1 #
# $c A=$_____ImageP. #
# $c premiereA=0 #
# $c Zmin=0 Zmax=1 #
# $c ValiderAxes=FAUX #
# $c xbg=-1 ybg=-1 #
# $c xhd=+1 yhd=+1 #
# $c r=0 i=1 j=0 k=0 #
# $c s=0 t=0 u=0 v=0 #
# $c pondPA=1 #
# $c pondPC=0 #
# $c fdai=VRAI #
# $c pnt=VRAI #
# $c AeRho=$_____ImageF.%04d #
# $c ApA1=$_____ImageF.%04d #
# $c ApA2=$_____ImageF.%04d #
# $c ApA3=$_____ImageF.%04d #
# $c ApA4=$_____ImageF.%04d #
# $c ApA5=$_____ImageF.%04d #
# $c ApA6=$_____ImageF.%04d #
# $c ApA7=$_____ImageF.%04d #
# $c J=%+f #
# $c K=%+f #
# $c S=%+f #
# $c T=%+f #
# $c U=%+f #
# $c V=%+f #
# $c appartenance=VRAI #
# $c iterations=6 #
# $c R=$_____ImageT1.%04d #
# $c chiffresR=0 #
# $c $formatI%c #
# $c >> $FPoLyNoMe\n" #
# $c ,'\'' #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ,J #
# $c ,K #
# $c ,S #
# $c ,T #
# $c ,U #
# $c ,V #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.L2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.L22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_L2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [8,12]) dynamiques. #
v $xiirc/POLY.M2.1
v $xiirc/POLY.M2.2
v $xiirc/POLY.M2.21
v $xiac/POLY.M22$R16 p=$xiP/cercle.35
v $xiac/POLY.M22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_M2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z SET _____EquilibrerPartieEntiere="FAUX" #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.M2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.M22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_M2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,8] entiers) dynamiques. D'autre part les #
# differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
# #
# On notera que dans 'v $xiac/POLY.M22$R16' on ne voit pratiquement pas de points blancs. #
# C'est en fait logique car ils correspondent exactement au maximum (=8) et que celui-ci #
# n'est atteint qu'en tres peu de points du champ fractal tridimensionnel. Pour bien #
# faire il aurait mieux valu utiliser 8.9999 a la place de 8. Cela a ete refait dans #
# ces conditions ('v $xiac/POLY.M42$R16')... #
v $xiirc/POLY.M3.1
v $xiirc/POLY.M3.2
v $xiirc/POLY.M3.21
v $xiac/POLY.M32$R16 p=$xiP/cercle.35
v $xiac/POLY.M32$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_M3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z SET _____PartieEntiere="FAUX" #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.M3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.M32 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_M3: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,8] reels) dynamiques. D'autre part les #
# differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
v $xiirc/POLY.M4.1
v $xiirc/POLY.M4.2
v $xiirc/POLY.M4.21
v $xiac/POLY.M42$R16 p=$xiP/cercle.35
v $xiac/POLY.M42$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_M4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.M4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.M42 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_M4: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,8+1-epsilon] entiers) dynamiques. D'autre part #
# les differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
v $xiirc/POLY.N2.1
v $xiirc/POLY.N2.2
v $xiirc/POLY.N2.21
v $xiac/POLY.N22$R16 p=$xiP/cercle.35
v $xiac/POLY.N22$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_POLY_N2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z SET _____NOrigine=4 #
# $Z SET _____NExtremite=6 #
# $Z SET _____EquilibrerPartieEntiere="FAUX" #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.N2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.N22 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_N2: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,6] entiers) dynamiques. D'autre part les #
# differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
# #
# On notera que dans 'v $xiac/POLY.N22$R16' on ne voit pratiquement pas de points blancs. #
# C'est en fait logique car ils correspondent exactement au maximum (=6) et que celui-ci #
# n'est atteint qu'en tres peu de points du champ fractal tridimensionnel. Pour bien #
# faire il aurait mieux valu utiliser 6.9999 a la place de 6. Cela a ete refait dans #
# ces conditions ('v $xiac/POLY.N42$R16')... #
v $xiirc/POLY.N2.0 p=$xiP/trou_noir.12
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_POLY_N2_0: #
# #
# $Z Pdu #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirc/POLY.N2.1 \ #
# $Z R=$xiirc/POLY.N2.0 \ #
# $Z $formatI #
# #
# :Fin_listG_POLY_N2_0: #
# #
v $xiirc/POLY.N3.1
v $xiirc/POLY.N3.2
v $xiirc/POLY.N3.21
v $xiac/POLY.N32$R16 p=$xiP/cercle.35
v $xiac/POLY.N32$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_POLY_N3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z SET _____NOrigine=4 #
# $Z SET _____NExtremite=6 #
# $Z SET _____PartieEntiere="FAUX" #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.N3 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.N32 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_N3: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,6] reels) dynamiques. D'autre part les #
# differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
v $xiirc/POLY.N4.1
v $xiirc/POLY.N4.2
v $xiirc/POLY.N4.21
v $xiac/POLY.N42$R16 p=$xiP/cercle.35
v $xiac/POLY.N42$R64 p=$xiP/cercle.35
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_POLY_N4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/POLY.21 #
# $Z setenv _____ImageTd $_____ImageT1.d #
# #
# $Z setenv _____ImageF $_____ImageT1.f #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $Z SET _____NOrigine=4 #
# $Z SET _____NExtremite=6 #
# $m4 _____include(_____xiirc/.POLY.M2.1._____U) #
# #
# $Z setenv _____ImageP $_____ImageT1.p #
# #
# $m4 _____include(_____xiirc/.POLY.M2.2._____U) #
# #
# $Z FilSTmpB FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.POLY.M2.3._____U) #
# #
# $Z ro $FPoLyNoMe #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FPoLyNoMe" p14=FAUX #
# #
# $Z FilSTmpE FPoLyNoMe #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z set _____imagesR=$xiirc/POLY.N4 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z setenv _____ImageFs $_____ImageT1.fs #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____ImageF.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____ImageFs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set _____images=$_____ImageFs #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# $Z set _____animation=$xiac/POLY.N42 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_POLY_N4: #
# #
# #
# Ensemble de Julia dans les octonions avec le "produit non theorique" utilisant #
# un polynome et un produit (via "A* dans [4,6+1-epsilon] entiers) dynamiques. D'autre part #
# les differents autres parametres sont compatibles avec 'v $xiirc/JULJ.R4.21'... #
v $xiirc/RACN.13 p=$xiP/rac3.11 centrer=VRAI
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_RACN_13: #
# #
# $Z Pal #
# #
# $Z set _____Exposant=3 #
# $Z set _____imagesR=$xiirc/RACN.13 #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# #
# :Fin_listG_RACN_13: #
# #
v $xiirc/RACN.15 p=$xiP/rac3.11 centrer=VRAI
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_RACN_15: #
# #
# $Z Pal #
# #
# $Z set _____Exposant=5 #
# $Z set _____imagesR=$xiirc/RACN.15 #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# #
# :Fin_listG_RACN_15: #
# #
v $xiirc/RACN.53 p=$xiP/rac3.21 centrer=VRAI
v $xiirc/RACN.53 p=$xiP/rac3.22 centrer=VRAI
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_RACN_53: #
# #
# $Z Pal #
# #
# $Z set _____Exposant=3 #
# $Z set _____MarquerRacines=VRAI #
# $Z set _____imagesR=$xiirc/RACN.53 #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# #
# $Z set MaRqUeUr=`GetParam $xrc/racN.01$X niveau_racines` #
# #
# $Z $xci/seuil$X \ #
# $Z A=$_____imagesR \ #
# $Z seuil=`calculINS $MaRqUeUr-1` \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z points=9 \ #
# $Z iterations=4 \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$_____imagesR \ #
# $Z anti_aliasing=VRAI \ #
# $Z R=$_____imagesR \ #
# $Z $formatI #
# #
# :Fin_listG_RACN_53: #
# #
v $xiirc/RACN.55 p=$xiP/rac3.21 centrer=VRAI
v $xiirc/RACN.55 p=$xiP/rac3.22 centrer=VRAI
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_RACN_55: #
# #
# $Z Pal #
# #
# $Z set _____Exposant=5 #
# $Z set _____MarquerRacines=VRAI #
# $Z set _____imagesR=$xiirc/RACN.55 #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# #
# $Z set MaRqUeUr=`GetParam $xrc/racN.01$X niveau_racines` #
# #
# $Z $xci/seuil$X \ #
# $Z A=$_____imagesR \ #
# $Z seuil=`calculINS $MaRqUeUr-1` \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z points=9 \ #
# $Z iterations=4 \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$_____imagesR \ #
# $Z anti_aliasing=VRAI \ #
# $Z R=$_____imagesR \ #
# $Z $formatI #
# #
# :Fin_listG_RACN_55: #
# #
v $xiirc/RACN.62
v $xiirc/RACN.63
v $xiirc/RACN.64
v $xiirc/RACN.65
v $xiirc/RACN.66
v $xiirc/RACN.67
v $xiirc/RACN.68
# Generee (sur '$LACT1A' et sur '$LACT1B' en ce qui concerne 'v $xiirc/RACN.62') : #
# #
# #
# :Debut_listG_RACN_6_2345678: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# set LExposant=(3 4 5 6 7 8) #
# #
# Pour generer 'v $xiirc/RACN.62', le remplacement suivant a ete effectue tout simplement : #
# #
# set LExposant=(2) #
# #
# Enfin, pour regenerer de 'v $xiirc/RACN.62' a 'v $xiirc/RACN.68' il faut utiliser : #
# #
# $Z set LExposant=(2 3 4 5 6 7 8) #
# #
# On notera que 9 donne le message 'v $ximcf/iterations$FON a.ete.rencontre.lors.du'. #
# #
# $Z set _____xbgD=-1.1 #
# $Z set _____ybgD=-1.1 #
# $Z set _____xhdD=+1.1 #
# $Z set _____yhdD=+1.1 #
# #
# L'augmentation de la taille de la fenetre de calcul est rendue necessaire par le besoin #
# de voir toutes les racines calculees exactement et representees sous forme de carres noirs. #
# #
# $Z set _____MarquerRacines=VRAI #
# $Z set _____ImagesR=$xiirc/RACN.6 #
# #
# $Z set MaRqUeUr=`GetParam $xrc/racN.01$X niveau_racines` #
# #
# $Z foreach _____Exposant ($LExposant) #
# $Z set _____imagesR=$xTV/RACN.6.0 #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# $m4 _____include(_____xiirc/.RACN.11.2._____U) #
# $Z end #
# #
# :Fin_listG_RACN_6_2345678: #
# #
v $xiirc/RACN.72
v $xiirc/RACN.73
v $xiirc/RACN.74
v $xiirc/RACN.75
v $xiirc/RACN.76
v $xiirc/RACN.77
v $xiirc/RACN.78
# Generee (sur '$LACT1B') : #
# #
# #
# :Debut_listG_RACN_7_2345678: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set LExposant=(2 3 4 5 6 7 8) #
# #
# On notera que 9 donne le message 'v $ximcf/iterations$FON a.ete.rencontre.lors.du'. #
# #
# $Z set _____xbgD=-2.0 #
# $Z set _____ybgD=-2.0 #
# $Z set _____xhdD=+2.0 #
# $Z set _____yhdD=+2.0 #
# #
# $Z set _____MarquerRacines=VRAI #
# $Z set _____ImagesR=$xiirc/RACN.7 #
# #
# $Z set MaIlLe_X=0.20 #
# $Z set MaIlLe_Y=0.20 #
# #
# Et ce afin d'avoir un reseau de 4x4 points... #
# #
# $Z set T_Xmin=`calculINS $Xmin` #
# $Z set T_Xmax=`calculINS $Xmax-(($MaIlLe_X*$dimX)+2)` #
# #
# $Z set T_Ymin=`calculINS $Ymin` #
# $Z set T_Ymax=`calculINS $Ymax-(($MaIlLe_Y*$dimY)+2)` #
# #
# $Z set _____ParamRacN="$K_VIDE" #
# $Z set _____ParamRacN="$_____ParamRacN"" iterations=40" #
# $Z set _____ParamRacN="$_____ParamRacN"" editer_trajectoires=VRAI" #
# $Z set _____ParamRacN="$_____ParamRacN"" normaliser_trajectoires=VRAI" #
# $Z set _____ParamRacN="$_____ParamRacN"" Xmint=$T_Xmin" #
# $Z set _____ParamRacN="$_____ParamRacN"" Xmaxt=$T_Xmax" #
# $Z set _____ParamRacN="$_____ParamRacN"" mXt=$MaIlLe_X" #
# $Z set _____ParamRacN="$_____ParamRacN"" Ymint=$T_Ymin" #
# $Z set _____ParamRacN="$_____ParamRacN"" Ymaxt=$T_Ymax" #
# $Z set _____ParamRacN="$_____ParamRacN"" mYt=$MaIlLe_Y" #
# $Z set _____ParamRacN="$_____ParamRacN"" Prme=VRAI" #
# #
# $Z SET _____CouleursArbitraires=$NEXIST #
# #
# $Z if ($_____CouleursArbitraires == $EXIST) then #
# $Z set PaLeTtE_T=$xiP/arc_ciel.L1 #
# $Z else #
# $Z set PaLeTtE_T=$xiP/rac3.32 #
# $Z endif #
# #
# $Z set CoOrDoNnEeZ=0.5 #
# $Z set RaYoN=0.0015 #
# $Z set GrOsSiSsEmEnT=2 #
# #
# $Z set MaRqUeUr=`GetParam $xrc/racN.01$X niveau_racines` #
# #
# $Z foreach _____Exposant ($LExposant) #
# $Z set _____imagesR=$xTV/RACN.7.0 #
# $Z set SaVe_____imagesR=$_____imagesR #
# $Z FilSTmpB FTrAjEcToIrEs #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FTrAjEcToIrEs" #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# $Z set _____DIterations=20 #
# $m4 _____include(_____xiirc/.RACN.11.2._____U) #
# $m4 _____include(_____xiirc/.RACN.11.3._____U) #
# $Z FilSTmpE FTrAjEcToIrEs #
# $Z end #
# #
# :Fin_listG_RACN_7_2345678: #
# #
v $xiirc/RACN.75$IdM
# Generee (sur '$LACT1A') : #
# #
# #
# :Debut_listG_RACN_75_IdM: #
# #
# $Z TvB #
# #
# $Z setenv xTV $xTG #
# #
# $Z set LExposant=(5) #
# #
# $Z set DiMeNsIoN_X=5 #
# $Z set DiMeNsIoN_Y=`calculNS $DiMeNsIoN_X*($dimY/$dimX)` #
# #
# $Z set _____xbgD=-$DiMeNsIoN_X #
# $Z set _____ybgD=-$DiMeNsIoN_Y #
# $Z set _____xhdD=+$DiMeNsIoN_X #
# $Z set _____yhdD=+$DiMeNsIoN_Y #
# #
# $Z set _____MarquerRacines=VRAI #
# $Z set _____ImagesR=$xiirc/RACN$IdM.7 #
# #
# $Z set MaIlLe_X=0.20 #
# $Z set MaIlLe_Y=0.20 #
# #
# Et ce afin d'avoir un reseau de 4x4 points... #
# #
# $Z set T_Xmin=`calculINS $Xmin` #
# $Z set T_Xmax=`calculINS $Xmax-(($MaIlLe_X*$dimX)+2)` #
# #
# $Z set T_Ymin=`calculINS $Ymin` #
# $Z set T_Ymax=`calculINS $Ymax-(($MaIlLe_Y*$dimY)+2)` #
# #
# $Z set _____ParamRacN="$K_VIDE" #
# $Z set _____ParamRacN="$_____ParamRacN"" iterations=40" #
# $Z set _____ParamRacN="$_____ParamRacN"" editer_trajectoires=VRAI" #
# $Z set _____ParamRacN="$_____ParamRacN"" normaliser_trajectoires=VRAI" #
# $Z set _____ParamRacN="$_____ParamRacN"" Xmint=$T_Xmin" #
# $Z set _____ParamRacN="$_____ParamRacN"" Xmaxt=$T_Xmax" #
# $Z set _____ParamRacN="$_____ParamRacN"" mXt=$MaIlLe_X" #
# $Z set _____ParamRacN="$_____ParamRacN"" Ymint=$T_Ymin" #
# $Z set _____ParamRacN="$_____ParamRacN"" Ymaxt=$T_Ymax" #
# $Z set _____ParamRacN="$_____ParamRacN"" mYt=$MaIlLe_Y" #
# $Z set _____ParamRacN="$_____ParamRacN"" Prme=VRAI" #
# #
# $Z SET _____CouleursArbitraires=$NEXIST #
# #
# $Z if ($_____CouleursArbitraires == $EXIST) then #
# $Z set PaLeTtE_T=$xiP/arc_ciel.L1 #
# $Z else #
# $Z set PaLeTtE_T=$xiP/rac3.32 #
# $Z endif #
# #
# $Z set CoOrDoNnEeZ=0.5 #
# $Z set RaYoN=0.0015 #
# $Z set GrOsSiSsEmEnT=2 #
# #
# $Z set _____ParamParticule1="$K_VIDE" #
# $Z set _____ParamParticule1="$_____ParamParticule1"" p==" #
# $Z set _____ParamParticule1="$_____ParamParticule1"" LISTE_NIVEAU=$K_VIDE" #
# $Z set _____ParamParticule1="$_____ParamParticule1"" LISTE_ROUGE=$BLANC" #
# $Z set _____ParamParticule1="$_____ParamParticule1"" LISTE_VERTE=$BLANC" #
# $Z set _____ParamParticule1="$_____ParamParticule1"" LISTE_BLEUE=$BLANC" #
# #
# $Z set _____ParamParticule2="$K_VIDE" #
# $Z set _____ParamParticule2="$_____ParamParticule2"" distance_minimale=0.001" #
# #
# $Z set MaRqUeUr=`GetParam $xrc/racN.01$X niveau_racines` #
# #
# $Z foreach _____Exposant ($LExposant) #
# $Z set _____imagesR=$xTV/RACN.7.0 #
# $Z set SaVe_____imagesR=$_____imagesR #
# $Z FilSTmpB FTrAjEcToIrEs #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FTrAjEcToIrEs" #
# $m4 _____include(_____xiirc/.RACN.11.1._____U) #
# $Z set _____DIterations=10 #
# $Z set _____NConvolution=1 #
# $m4 _____include(_____xiirc/.RACN.11.2._____U) #
# $m4 _____include(_____xiirc/.RACN.11.3._____U) #
# $Z FilSTmpE FTrAjEcToIrEs #
# $Z end #
# #
# $Z set RaCiNe=`echo "$_____ImagesR" | $SE -e "s/\""$IdM//"` #
# $Z execRVB $MV $_____ImagesR"5"%s $RaCiNe"5"$IdM%s #
# #
# :Fin_listG_RACN_75_IdM: #
# #
v $xiirc/RAQN.23 p=$xiP/gris.01
# Generee (sur '$LACT16') par accumulation de l'animation 'v $xiac/RAQN.23$R16'. #
v $xiirc/RAQN.33.1 p=$xiP/fractal.A2
v $xiirc/RAQN.33.2 p=$xiP/fractal.A2
v $xiirc/RAQN.33.3 p=$xiP/sepia.00
v $xiirc/RAQN.33.4 p=$xiP/cotes.31
v $xiirc/RAQN.33.4 p=$xiP/random.11$Fi
v $xiirc/RAQN.33.4 p=$xiP/random.A5
v $xiirc/RAQN.33.4$m
# Generee (sur '$LACT16') par accumulations de l'animation 'v $xiac/RAQN.33$R16'. #
# #
# Tout cela a ete recalcule sous la forme 'v $xiirc/RAQN.73.1' (et les autres...), suite #
# aux modifications 'v $ximcd/operator$FON 20230204091013'... #
v $xiirc/RAQN.34.1
v $xiirc/RAQN.34.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_RAQN_34: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/RAQN.34 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.0 #
# $c #define EJ 2.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/racN.41$X #
# $c images=1 #
# $c iterations=32 #
# $c COMPOSANTE_J=%f #
# $c COMPOSANTE_K=0 #
# $c ponderationT=1 #
# $c ponderationP=0 #
# $c $formatI | #
# $c $xci/jeu_vie.01$X #
# $c iterations=3 #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=$GRIS_4 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_21=$EXIST #
# $Z set _____imagesR=$xiirc/RAQN.34 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_RAQN_34: #
# #
# #
# Cette image est inspiree de 'v $xiirc/RAQN.33.3'... #
v $xiirc/RAQN.41
v $xiirc/RAQN.41.1
v $xiirc/RAQN.41.2
v $xiirc/RAQN.42
v $xiirc/RAQN.42.1
v $xiirc/RAQN.42.2
v $xiirc/RAQN.41.2$HauteDef
# Generee (sur '$CMAP28' -ex "belleville"-) par : #
# #
# #
# :Debut_listG_RAQN_41_42: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/RAQN.41 #
# $Z set _____ImageTd=$_____ImageT1.d #
# $Z set _____ImageT22=$xTV/RAQN.42.2 #
# $Z set _____ImageT23=$xTV/RAQN.42.3 #
# #
# $Z $DELETE $xTV/param.k1 #
# #
# $Z $xci/valeurs_inte$X p=$cPremiere d=$cDerniere \ #
# $Z vD=+1.0 vA=+3.0 \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/param.k1 #
# #
# $Z $xrc/racN.41$X \ #
# $Z images=$Nimages \ #
# $Z iterations=20 \ #
# $Z COMPOSANTE_J=$xTV/param.k1 \ #
# $Z K=+3.0 \ #
# $Z seuil=80 \ #
# $Z ponderationT=1 ponderationP=0 \ #
# $Z fenetres_depart_arrivee_identiques=VRAI \ #
# $Z xbg=-1.0 ybg=-1.0 xhd=+1.0 yhd=+1.0 \ #
# $Z produit_non_theorique=VRAI \ #
# $Z arguments=FAUX \ #
# $Z visualiser_appartenance=VRAI \ #
# $Z R=$_____ImageT1. \ #
# $Z $formatI #
# #
# $Z $DELETE $xTV/param.k1 #
# #
# $Z $xci/densite_3D.11$X \ #
# $Z A=$_____ImageT1. \ #
# $Z standard=VRAI \ #
# $Z premiere=$cPremiere \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` \ #
# $Z dx=2 dy=2 dz=2 \ #
# $Z R=$_____ImageTd. \ #
# $Z $formatI #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" A=$_____ImageTd." #
# $Z set PaRaMA="$PaRaMA"" standard=FAUX" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=FAUX" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=2" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.42" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xiirc/RAQN.41%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/RAQN.41%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/RAQN.41.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.42 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/RAQN.41.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/RAQN.41.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0 ZBuffer=VRAI Z=$xTV/Z_BUFFER.42" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=+0.3 \ #
# $Z R=$xiirc/RAQN.42%s \ #
# $Z $formatI #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xiirc/RAQN.42%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirc/RAQN.42.1%s \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/Z_BUFFER.42 \ #
# $Z extrema=FAUX \ #
# $Z minimum=0 maximum=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.05 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$BLANC \ #
# $Z M=$xiirc/RAQN.42.1%s \ #
# $Z anti_aliasing=FAUX \ #
# $Z R=$_____ImageT22%s \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $_____ImageT22 \ #
# $Z $xTV/BRUME \ #
# $Z $_____ImageT23 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$_____ImageT23%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI \ #
# $Z circulaire_optimale=VRAI \ #
# $Z R=$xiirc/RAQN.42.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_RAQN_41_42: #
# #
# #
# Montre le calcul des racines troisiemes de l'unite... #
# #
# L'image 'v $xiirc/RAQN.41.2$HauteDef' a ete obtenu avec 'Pqu' et '$execRVB_Para=FAUX'. #
v $xiirc/RAQN.51.1
v $xiirc/RAQN.51.2
v $xiirc/RAQN.51.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_RAQN_51: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/RAQN.51 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.0 #
# $c #define EJ 7.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/racN.41$X #
# $c images=1 #
# $c exposant=8 #
# $c iterations=20 #
# $c COMPOSANTE_J=%f #
# $c COMPOSANTE_K=2 #
# $c ponderationT=1 #
# $c ponderationP=0 #
# $c $formatI | #
# $c $xci/convol.01$X #
# $c points=25 #
# $c circulaire=VRAI #
# $c circulaire_optimale=VRAI #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=$GRIS_6 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/RAQN.51 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_RAQN_51: #
# #
# #
# Cette image est inspiree de 'v $xiirc/RAQN.34.1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:40:23 #
# #
# $xci/accumule.42$X : 00:20:36 #
# #
v $xiirc/RAQN.52.1
v $xiirc/RAQN.52.2
v $xiirc/RAQN.52.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_RAQN_52: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/RAQN.52 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 0.0 #
# $c #define EJ 7.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/racN.41$X #
# $c images=1 #
# $c exposant=8 #
# $c iterations=20 #
# $c COMPOSANTE_J=%f #
# $c COMPOSANTE_K=2 #
# $c ponderationT=1 #
# $c ponderationP=0 #
# $c $formatI | #
# $c $xci/convol.01$X #
# $c points=25 #
# $c circulaire=VRAI #
# $c circulaire_optimale=VRAI #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=$GRIS_7 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/RAQN.52 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_RAQN_52: #
# #
# #
# Cette image est inspiree de 'v $xiirc/RAQN.34.1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:28:01 #
# #
# $xci/accumule.42$X : 00:14:07 #
# #
v $xiirc/RAQN.62.1
v $xiirc/RAQN.62.2
v $xiirc/RAQN.62.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_RAQN_62: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET cPremiere=0 #
# $Z SET cDerniere=1023 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/RAQN.62 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OJ 6.0 #
# $c #define EJ 7.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double J=((EJ*(n-N0))+(OJ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xrc/racN.41$X #
# $c images=1 #
# $c exposant=8 #
# $c iterations=20 #
# $c COMPOSANTE_J=%f #
# $c COMPOSANTE_K=2 #
# $c ponderationT=1 #
# $c ponderationP=0 #
# $c $formatI | #
# $c $xci/convol.01$X #
# $c points=25 #
# $c circulaire=VRAI #
# $c circulaire_optimale=VRAI #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=$GRIS_7 #
# $c R=$_____ImageT1.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,J #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/RAQN.62 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_RAQN_62: #
# #
# #
# Cette image est inspiree de 'v $xiirc/RAQN.34.1'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:35:41 #
# #
# $xci/accumule.42$X : 00:20:29 #
# #
v $xiirc/RAQN.73.1 p=$xiP/fractal.A2
v $xiirc/RAQN.73.2 p=$xiP/fractal.A2
v $xiirc/RAQN.73.3 p=$xiP/sepia.00
v $xiirc/RAQN.73.4 p=$xiP/cotes.31
v $xiirc/RAQN.73.4 p=$xiP/random.11$Fi
v $xiirc/RAQN.73.4 p=$xiP/random.A5
v $xiirc/RAQN.73.4$m
# Generee (sur '$LACT1B') par accumulations de l'animation 'v $xiac/RAQN.73$R16'. #
# #
# Tout cela est formellement identique aux images 'v $xiirc/RAQN.33.1' (et les autres...), #
# mais apres les modifications 'v $ximcd/operator$FON 20230204091013'... #
v $xiirc/TOUR.C.11.0005 p=$xiP/fractal.A2 centrer=VRAI
v $xiirc/TOUR.C.11.0032 p=$xiP/fractal.A2 centrer=VRAI
v $xiirc/TOUR.C.11.0042 p=$xiP/fractal.A2 centrer=VRAI
# Correspond aux images '0005', '0032' et '0042' de la sequence : #
# #
# xivPdf 11 1 / 017724_017843 #
# #
# Pour l'image 'v $xiirc/TOUR.C.11.0005', on notera les parametres suivants : #
# #
# MandelbrotBasGauche = {-1.24833677512976515,-0.391811846689895438} #
# MandelbrotHautDroite = {-1.04833677512976498,-0.191811846689895427} #
# ArgumentJulia = {-1.14833677512976506,-0.29181184668989546} #
# #
# Pour l'image 'v $xiirc/TOUR.C.11.0032', on notera les parametres suivants : #
# #
# MandelbrotBasGauche = {-0.194812189540659708,-1.04076655052264799} #
# MandelbrotHautDroite = {+0.00518781045934030467,-0.840766550522648037} #
# ArgumentJulia = {-0.0948121895406597026,-0.940766550522648126} #
# #
# Pour l'image 'v $xiirc/TOUR.C.11.0042', on notera les parametres suivants : #
# #
# MandelbrotBasGauche = {+0.162167215493665223,-0.683623693379791009} #
# MandelbrotHautDroite = {+0.362167215493665207,-0.483623693379790998} #
# ArgumentJulia = {+0.262167215493665229,-0.583623693379791031} #
# #
# ('v $xrc/tour.01$K EDITION_D_INFORMATIONS')... #
# #
# Ces images ont ete recalculees aux environs du 20060523140000, mais en conservant leurs #
# dates anterieures (sur '$LACT16', cela ayant fait que les 'reference's sur '$LACT15' ne #
# sont pas faits, ces images etant donc considerees comme "A JOUR" comme cela fut constate #
# le 20060901121650 ; cela a donc conduit a une mise a jour de '$LACT15' et donc aussi de #
# de '$LACT17' et de '$CMAP28'...). #
v $xiirc/TOUR.C.11$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_TOUR_C_11_IdM: #
# #
# $Z ext TvB #
# #
# $Z $xrc/tour.01$X \ #
# $Z pointilles=0x0101010101010101 \ #
# $Z R=$xTV/MAND.1. \ #
# $Z RC=$xTV/MAND.1.C \ #
# $Z RE=$xTV/MAND.1.E \ #
# $Z RM=$xTV/MAND.1.M \ #
# $Z RT=$xTV/MAND.1.T \ #
# $Z $formatI #
# #
# On notera qu'au lieu de '0x0101010101010101' j'ai teste '0x1111111111111111' or cela #
# introduit un artefact : les traits en pointilles ne sont pas parfaitement droits et #
# cela se voit malheureusement beaucoup plus lorsqu'il y a beaucoup de points, d'ou un #
# retour en arriere... #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/MAND.1.0036 \ #
# $Z p=$xiP/fractal.A2 \ #
# $Z R=$xiirc/TOUR.C.11$IdM \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xiirc/TOUR.C.11$IdM%s \ #
# $Z M=$xiio/RADRE.04 \ #
# $Z R=$xiirc/TOUR.C.11$IdM%s \ #
# $Z $formatI #
# #
# :Fin_listG_TOUR_C_11_IdM: #
# #
# #
# Ceci redonne a quelque chose pres 'v $xiirc/TOUR.C.11.0032 p=$xiP/fractal.A2'... #
v $xiirc/TOUR.C.31.0
v $xiirc/TOUR.C.31.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_TOUR_C_31: #
# #
# $Z Pal #
# #
# $Z $xrc/mandel.01$X \ #
# $Z images=1 \ #
# $Z arguments=FAUX \ #
# $Z xbg=-0.194812189540659708 ybg=-1.04076655052264799 \ #
# $Z xhd=+0.00518781045934030467 yhd=-0.840766550522648037 \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/TOUR.C.31 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/TOUR.C.31 \ #
# $Z p=$xiP/plan.80 \ #
# $Z R=$xiirc/TOUR.C.31.0 \ #
# $Z $formatI #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/TOUR.C.31 \ #
# $Z p=$xiP/fractal.B2 \ #
# $Z R=$xiirc/TOUR.C.31.1 \ #
# $Z $formatI #
# #
# :Fin_listG_TOUR_C_31: #
# #
# #
# Ces images utilsent les parametres de 'v $xiirc/TOUR.C.11.0032 p=$xiP/fractal.B2' et #
# sont destinees a montrer que la visualisation peut cacher ou exhiber la connexite... #
v $xiirc/TOUR.C.41.0069
# Voir l'animation 'v $xiac/TOUR.C.41$R16' ('v $xiac/$Fnota Debut_listG_TOUR_C_4')... #
v $xiirc/VONK.31.1.0 p=$xiP/fractal.11 centrer=VRAI
v $xiirc/VONK.31.1.1 p=$xiP/fractal.11 centrer=VRAI
v $xiirc/VONK.31.2 p=$xiP/fractal.11 centrer=VRAI
# Correspond aux accumulations de la sequence : #
# #
# xivPdf 11 1 / 033246_033373 #
# #
# avec '$xci/accumule.01$X' (avec 'attenuation=0' et 'attenuation=1' respectivement) et #
# '$xci/accumule.02$X' (avec 'trx=0 try=0') respectivement... #
v $xiirc/VONK.32
# Generee par accumulation de la sequence (sur '$LACT27') : #
# #
# xivPdf 11 1 / 033246_033373 #
# #
# et en plus les quelques traitements suivants : #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/VONK.1. \ #
# $Z premiere=8 derniere=128 pas=8 \ #
# $Z inverser=VRAI \ #
# $Z maximum=VRAI \ #
# $Z attenuation=0.99 \ #
# $Z try=0.004 \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z substitution=L_SUBSTITUTION_02 \ #
# $Z NOIR=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/scale$X \ #
# $Z a=0.6 \ #
# $Z R=$xTV/ACCU.a2 \ #
# $Z $formatI #
# #
# $Z $xci/move$X \ #
# $Z A=$xiim/VONK.1.0001 \ #
# $Z yR=-0.256 \ #
# $Z R=$xTV/ACCU.93 \ #
# $Z $formatI #
# $Z $xci/seuil$X \ #
# $Z A=$xTV/ACCU.93 \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xTV/ACCU.95 \ #
# $Z $formatI #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ACCU.93 \ #
# $Z p=$xiP/orange.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/ACCU.93 \ #
# $Z $formatI #
# #
# $Z $xci/move$X \ #
# $Z A=$xiim/VONK.1.0001 \ #
# $Z yR=+0.260 \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/magenta.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/ACCU.94 \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cache$X \\\ #
# $Z A=$xTV/ACCU.94%s \\\ #
# $Z M=$xTV/ACCU.a2 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/and$X \\\ #
# $Z A2=$xTV/ACCU.95 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/or_02$X \\\ #
# $Z A2=$xTV/ACCU.93%s \\\ #
# $Z R=$xiirc/VONK.32%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiirc/VONK.41
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_VONK_41: #
# #
# $Z Pal #
# #
# $Z set _____imagesR=$xiirc/VONK.41 #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.41.2._____U) #
# #
# :Fin_listG_VONK_41: #
# #
v $xiirc/VONK.42
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_VONK_42: #
# #
# $Z Pal #
# #
# $Z set _____imagesR=$xiirc/VONK.42 #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.42.2._____U) #
# #
# :Fin_listG_VONK_42: #
# #
v $xiirc/VONK.42.1
v $xiirc/VONK.42.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_42_1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Grossissement=2.5 #
# $Z set _____Connexion=FAUX #
# $Z set _____imagesB=$xTV/VONK.42.boules #
# $Z set _____imagesR=$_____imagesB #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.42.2._____U) #
# #
# $Z set _____imagesR=$xiirc/VONK.42 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" centrer=FAUX" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" anti_aliasing=VRAI" #
# #
# $Z set PaRaMeTrEs1="$PaRaMeTrEs"" taille=3" #
# $Z set PaRaMeTrEs2="$PaRaMeTrEs"" taille=2" #
# #
# $Z set Xmaxs3=`calculINS ($dimX/3)-1` #
# $Z set Ymaxs3=`calculINS ($dimY/3)-1` #
# #
# $Z $xci/format.01$X \ #
# $Z A=$_____imagesR$ROUGE \ #
# $Z mode=2 \ #
# $Z $formatI \ #
# $Z R=$xTV/VONK.42.1 \ #
# $Z XmaxR=$Xmaxs3 YmaxR=$Ymaxs3 #
# #
# $Z XYmaxNe $Xmaxs3 $Ymaxs3 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/VONK.42.1 \ #
# $Z mode=3 \ #
# $Z $formatI \ #
# $Z R=$xTV/VONK.42.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/scroll$X \ #
# $Z A=$xTV/VONK.42.2 \ #
# $Z toreX=FAUX trX=0 \ #
# $Z toreY=FAUX trY=0 \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z R=$xTV/VONK.42.3.1 \ #
# $Z $formatI #
# #
# $Z $xci/scroll$X \ #
# $Z A=$xTV/VONK.42.3.1 \ #
# $Z toreX=FAUX trX=`calcul 1/3` \ #
# $Z toreY=FAUX trY=0 \ #
# $Z R=$xTV/VONK.42.3.2 \ #
# $Z $formatI #
# #
# $Z $xci/Sy$X \ #
# $Z A=$xTV/VONK.42.3.1 \ #
# $Z R=$xTV/VONK.42.3.3 \ #
# $Z $formatI #
# #
# $Z $xci/or_03$X \ #
# $Z A1=$xTV/VONK.42.3.1 \ #
# $Z A2=$xTV/VONK.42.3.2 \ #
# $Z A3=$xTV/VONK.42.3.3 \ #
# $Z R=$xTV/VONK.42.3 \ #
# $Z $formatI #
# #
# Les images '$xTV/VONK.42.3*' contiennent les petites figures du bas une a une, puis #
# les trois ensembles. #
# #
# $Z set TrAnSlAtIoN_Y1=-0.13 #
# $Z set TrAnSlAtIoN_Y2=+0.08 #
# #
# $Z execRVB "$xci/scroll$X \ #
# $Z A=$_____imagesR%s \ #
# $Z toreY=FAUX \ #
# $Z trY=$TrAnSlAtIoN_Y1 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z trY=$TrAnSlAtIoN_Y2 \ #
# $Z R=$xTV/VONK.42.0%s \ #
# $Z $formatI" #
# #
# L'image 'v $xTV/VONK.42.0' contient uniquement les iterations 1 (rouge) et 2 (verte) #
# respectivement. #
# #
# $Z execRVB "$xci/message$X \ #
# $Z A=$NOIR \ #
# $Z message="1" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z X=0.160 Y=0.550 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="2" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z X=0.410 Y=0.730 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="3" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z X=0.570 Y=0.730 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="4" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z X=0.807 Y=0.550 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="N=4" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z centrer=VRAI Y=0.50 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="1/3" \ #
# $Z $PaRaMeTrEs2 \ #
# $Z X=0.130 Y=0.140 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="1/3" \ #
# $Z $PaRaMeTrEs2 \ #
# $Z X=0.464 Y=0.140 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="1/3" \ #
# $Z $PaRaMeTrEs2 \ #
# $Z X=0.796 Y=0.140 \ #
# $Z $formatI | \ #
# $Z $xci/message$X \ #
# $Z message="H=3" \ #
# $Z $PaRaMeTrEs1 \ #
# $Z centrer=VRAI Y=0.35 \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z toreY=FAUX \ #
# $Z trY=$TrAnSlAtIoN_Y1 \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z trY=$TrAnSlAtIoN_Y2 \ #
# $Z R=$xTV/VONK.42.NH%s \ #
# $Z $formatI" #
# #
# L'image 'v $xTV/VONK.42.NH' contient toutes les valeurs relatives a "H=" et "N="... #
# #
# $Z execRVB "$xci/cache$X \ #
# $Z A=$xTV/VONK.42.0%s \ #
# $Z M=$xTV/VONK.42.NH%s \ #
# $Z R=$_____imagesR.1%s \ #
# $Z $formatI" #
# #
# $Z $xci/move$X \ #
# $Z A=$_____imagesB$ROUGE \ #
# $Z yR=+0.20 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$_____imagesB$ROUGE \ #
# $Z $formatI #
# #
# $Z $xci/cache$X \ #
# $Z A=$_____imagesR.1$ROUGE \ #
# $Z M=$xTV/VONK.42.3 \ #
# $Z R=$_____imagesR.1$ROUGE \ #
# $Z $formatI #
# #
# $Z $xci/cache$X \ #
# $Z A=$_____imagesR.1$VERTE \ #
# $Z M=$xTV/VONK.42.3 \ #
# $Z R=$_____imagesR.1$VERTE \ #
# $Z $formatI #
# #
# $Z $xci/neutre$X \ #
# $Z A=$_____imagesR.1$ROUGE \ #
# $Z R=$_____imagesR.2$ROUGE \ #
# $Z $formatI #
# #
# $Z $xci/multi_02.01$X \ #
# $Z A1=$_____imagesB$ROUGE \ #
# $Z A2=$_____imagesR.1$VERTE \ #
# $Z R=$_____imagesR.2$VERTE \ #
# $Z $formatI #
# #
# $Z $xci/neutre$X \ #
# $Z A=$_____imagesR.1$BLEUE \ #
# $Z R=$_____imagesR.2$BLEUE \ #
# $Z $formatI #
# #
# :Fin_listG_VONK_42_1: #
# #
v $xiirc/VONK.43
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_VONK_43: #
# #
# $Z Pal #
# #
# $Z set _____imagesR=$xiirc/VONK.43 #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.43.2._____U) #
# #
# :Fin_listG_VONK_43: #
# #
# ATTENTION : on notera une difference visuelle importante entre 'v $xiirc/VONK.42' et #
# 'v $xiirc/VONK.43'. En effet, sur cette derniere, les points ou ont lieu les ruptures #
# de pente sont materialises, contrairement a la premiere. Or je n'arrive pas a comprendre #
# (a la date du 20010510133723) ce qui est a l'origine de cette difference... #
v $xiirc/VONK.52.0001
v $xiirc/VONK.52.0002
v $xiirc/VONK.52.0001.0002
# Generee (sur '$LACT19') par : 'v $xiac/VONK.52$R04'. #
v $xiirc/VONK.71
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_71: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiirc/VONK.71 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# :Fin_listG_VONK_71: #
# #
# #
# qui montre un flocon de von Koch... #
v $xiirc/VONK.72
v $xiirc/VONK.72$M
v $xiirc/VONK.72$m
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_72: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR1=$xTV/VONK.72.1 #
# $Z set _____ImageR2=$xiirc/VONK.72 #
# $Z set _____ImageR3=$xTV/VONK.72.3 #
# $Z set _____ImageR4=$xTV/VONK.72.4 #
# $Z set _____ImageR5=$xTV/VONK.72.5 #
# #
# $Z set _____Palette=$xiP/complement #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR1 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=1000 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$_____ImageR1 \ #
# $Z $formatI #
# #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR2 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$_____ImageR1 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____ImageR2%s \ #
# $Z avion=VRAI \ #
# $Z Sy=40 \ #
# $Z R=$_____ImageR$m%s \ #
# $Z $formatI #
# #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____PasCNiveau=50 #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR3 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$GRIS_2 \ #
# $Z M=$_____ImageR3%s \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$_____ImageR4%s \ #
# $Z $formatI #
# #
# $Z set _____Palette=$xiP/complement #
# $Z set _____PasCNiveau=50 #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR1 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=1000 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$_____ImageR5 \ #
# $Z $formatI #
# #
# $Z set PaRaMeTrEsM1="Ty=0.98 perspective=0.4" #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$_____ImageR5 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$BLANC \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEsM1 \ #
# $Z R=$xTV/MONTAGNE \ #
# $Z Z-Buffer=VRAI Z-Buffer_standard=VRAI \ #
# $Z Z=$xTV/MASQUE \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/MASQUE \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z p=$xiP/gris.08 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z set _____ImageR=$_____ImageR2 #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$_____ImageR5 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$_____ImageR4%s \ #
# $Z fond=VRAI F=$BLANC \ #
# $Z avion=FAUX \ #
# $Z $PaRaMeTrEsM1 \ #
# $Z R=$_____ImageR$M%s \ #
# $Z $formatI #
# #
# $Z $xci/seuil$X \ #
# $Z A=$xTV/MASQUE \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z points=25 \ #
# $Z R=$xTV/MASQUE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/brume.11$X \ #
# $Z A=$_____ImageR$M%s \ #
# $Z B=$xTV/BRUME \ #
# $Z R=$_____ImageR$M%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.02$X \ #
# $Z A=$_____ImageR$M%s \ #
# $Z V=$BLANC F=$BLANC \ #
# $Z N=$xTV/MASQUE \ #
# $Z R=$_____ImageR$M%s \ #
# $Z $formatI #
# #
# :Fin_listG_VONK_72: #
# #
# #
# qui montre un flocon de von Koch mis en montagne... #
v $xiirc/VONK.72$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_VONK_72_IdM: #
# #
# $Z TvB #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR1=$xTV/VONK.72.1 #
# $Z set _____ImageR2=$xiirc/VONK.72$IdM #
# #
# $Z set _____Palette=$xiP/complement #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR1 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=1000 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$_____ImageR1 \ #
# $Z $formatI #
# #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____PasRNiveau=`calculINS $GRIS_8/4` #
# $Z set _____ImageR=$_____ImageR2 #
# $m4 _____include(_____xiirc/.VONK.71.1._____U) #
# #
# :Fin_listG_VONK_72_IdM: #
# #
# #
# qui montre quatre iterations d'un flocon de von Koch... #
v $xiirc/VONK.81.10
v $xiirc/VONK.81.12
v $xiirc/VONK.81.20
v $xiirc/VONK.81.23
v $xiirc/VONK.81.30
v $xiirc/VONK.81.34
v $xiirc/VONK.81.40
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_81: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImagesA=$xTV/VONK #
# #
# $Z set _____Rayon=0.008 #
# $Z set _____Apoints=16 #
# $Z set _____Rpoints=3 #
# $Z set _____ImagesR=$_____ImagesA #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# #
# $Z set _____ImagesR=$xiirc/VONK.81 #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=1 #
# $Z set Numero=`$xci/nombres$X premiere=$Premiere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImagesA.1.$Numero%s \ #
# $Z R=$_____ImagesR.10%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$_____ImagesA.1.$Numero%s \ #
# $Z M=$_____ImagesA.2.$Numero%s \ #
# $Z anti_aliasing=VRAI \ #
# $Z R=$_____ImagesR.12%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImagesA.2.$Numero%s \ #
# $Z R=$_____ImagesR.20%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$_____ImagesA.2.$Numero%s \ #
# $Z M=$_____ImagesA.3.$Numero%s \ #
# $Z anti_aliasing=VRAI \ #
# $Z R=$_____ImagesR.23%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImagesA.3.$Numero%s \ #
# $Z R=$_____ImagesR.30%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$_____ImagesA.3.$Numero%s \ #
# $Z M=$_____ImagesA.4.$Numero%s \ #
# $Z anti_aliasing=VRAI \ #
# $Z R=$_____ImagesR.34%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImagesA.4.$Numero%s \ #
# $Z R=$_____ImagesR.40%s \ #
# $Z $formatI #
# #
# :Fin_listG_VONK_81: #
# #
# #
# qui montre les premieres etapes de la construction de la courbe de von Koch... #
v $xiirc/VONK.92.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_92_1: #
# #
# $Z Pal #
# #
# $Z set _____APlatir=FAUX #
# $Z set _____Zoom=1 #
# $Z set _____Rayon=0.015 #
# $Z set _____Grossissement=1.8 #
# $Z set _____DistanceMin=0.005 #
# #
# $Z set _____CFractalPara="$K_VIDE" #
# $Z set _____CFractalPara="$_____CFractalPara"" equidistance=VRAI" #
# $Z set _____CFractalPara="$_____CFractalPara"" dm=$_____DistanceMin" #
# #
# $Z set _____imagesR=$xiirc/VONK.92.1 #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.42.2._____U) #
# #
# :Fin_listG_VONK_92_1: #
# #
v $xiirc/VONK.92.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_92_2: #
# #
# $Z Pal #
# #
# $Z set _____APlatir=VRAI #
# $Z set _____Zoom=1 #
# $Z set _____Rayon=0.015 #
# $Z set _____Grossissement=1.8 #
# $Z set _____DistanceMin=0.005 #
# #
# $Z set _____CFractalPara="$K_VIDE" #
# $Z set _____CFractalPara="$_____CFractalPara"" equidistance=VRAI" #
# $Z set _____CFractalPara="$_____CFractalPara"" dm=$_____DistanceMin" #
# #
# $Z set _____imagesR=$xiirc/VONK.92.2 #
# $m4 _____include(_____xiirc/.VONK.41.1._____U) #
# $m4 _____include(_____xiirc/.VONK.42.2._____U) #
# #
# :Fin_listG_VONK_92_2: #
# #
v $xiirc/VONK.92.3
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_VONK_92_3: #
# #
# $Z Pal #
# #
# $Z set _____imagesA=$xiirc/VONK.92 #
# $Z set _____imagesR=$_____imagesA #
# #
# $Z execRVB "$xci/scroll$X \ #
# $Z A=$_____imagesA.2%s \ #
# $Z trY=-0.05 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A1=$_____imagesA.1%s \ #
# $Z R=$_____imagesR.3%s \ #
# $Z $formatI" #
# #
# :Fin_listG_VONK_92_3: #
# #
v $xiirc/VONK.B2
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_VONK_B2: #
# #
# $Z Std #
# #
# $Z set _____imagesR=$xiirc/VONK.B2 #
# $m4 _____include(_____xiirc/.VONK.B1.1._____U) #
# $m4 _____include(_____xiirc/.VONK.B2.2._____U) #
# #
# :Fin_listG_VONK_B2: #
# #
# #
# Visualisation de la courbe de Minkowski. #
v $xiirc/VONK.C2
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_VONK_C2: #
# #
# $Z Std #
# #
# $Z set _____Lmul=( 0 0 +1 0 -1 0 -1 -1 +1 0 -1 +1 +1 0 +1 0 -1 0) #
# $Z set _____Ldiv=(+2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2 +2) #
# $Z set _____Rapport=6 #
# $Z set _____Zoom=1.1 #
# $Z set _____imagesR=$xiirc/VONK.C2 #
# $m4 _____include(_____xiirc/.VONK.C1.1._____U) #
# $Z set _____yR_ROUGE=-0.15 #
# $Z set _____yR_VERTE=+0.29 #
# $Z set _____yR_BLEUE=-0.38 #
# $m4 _____include(_____xiirc/.VONK.B2.2._____U) #
# #
# :Fin_listG_VONK_C2: #
# #
# #
# Visualisation d'une courbe de von Koch generalisee... #
v $xiirc/ZETA.11$PR p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.11$PI p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.11$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.11$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/ZETA.11$Ph p=$xiP/dentscie.R8 centrer=VRAI
v $xiirc/ZETA.11$M
v $xiirc/ZETA.11$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ZETA_11: #
# #
# $Z Std #
# $Z set _____xg=-10.0 #
# $Z set _____xd=+20.0 #
# $Z set _____yb=-15.0 #
# $Z set _____yh=+15.0 #
# $Z set _____images=$xiirc/ZETA.11 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# :Fin_listG_ZETA_11: #
# #
v $xiirc/ZETA.11$Ph.1 p=$xiP/cercle.11 centrer=VRAI
v $xiirc/ZETA.11$Ph.1 p=$xiP/dentscie.01 centrer=VRAI
v $xiirc/ZETA.11$Ph.1 p=$xiP/dentscie.02 centrer=VRAI
v $xiirc/ZETA.11$Ph.1 p=$xiP/dentscie.04 centrer=VRAI
v $xiirc/ZETA.11$Ph.1 p=$xiP/dentscie.08 centrer=VRAI
v $xiirc/ZETA.11$Ph.1 p=$xiP/orange.11 centrer=VRAI
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ZETA_11_Ph_1: #
# #
# $Z Std #
# $Z set _____imagesA=$xiirc/ZETA.11$Ph #
# $Z set _____imagesR=$xiirc/ZETA.11$Ph.1 #
# $m4 _____include(_____xiirc/.ZETA.11._____Ph.1._____U) #
# #
# :Fin_listG_ZETA_11_Ph_1: #
# #
v $xiirc/ZETA.12$PR p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.12$PI p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.12$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.12$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/ZETA.12$Ph p=$xiP/dentscie.R8 centrer=VRAI
v $xiirc/ZETA.12$M
v $xiirc/ZETA.12$m
# Generee (sur '$LACT29') par : #
# #
# ATTENTION, pour etre capable de refaire cette image, il semble qu'il faille definir #
# le parametre suivant (avec approximative, sans d'ailleurs pouvoir reproduire la profonde #
# vallee ou se trouvent les zeros triviaux...) : #
# #
# set _____Fermat1=0.06 #
# #
# Cela s'est vu le 20000128151457 en voulant regenerer la meme image avec la resolution #
# {2048,2048} pour le livre de Jean-Paul Delahaye... #
# #
# #
# :Debut_listG_ZETA_12: #
# #
# $Z Std #
# #
# $Z set _____xg=-10.0 #
# $Z set _____xd=+60.0 #
# $Z set _____yb=-35.0 #
# $Z set _____yh=+35.0 #
# $Z set _____images=$xiirc/ZETA.12 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# :Fin_listG_ZETA_12: #
# #
v $xiirc/ZETA.21$PR p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.21$PI p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.21$Mo p=$xiP/cercle.35 centrer=VRAI
v $xiirc/ZETA.21$Ph p=$xiP/cercle.14 centrer=VRAI
v $xiirc/ZETA.21$Ph p=$xiP/dentscie.R8 centrer=VRAI
v $xiirc/ZETA.21$M
v $xiirc/ZETA.21$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ZETA_21: #
# #
# $Z Sdu #
# #
# $Z set _____xg=-50.0 #
# $Z set _____xd=+50.0 #
# $Z set _____yb=-50.0 #
# $Z set _____yh=+50.0 #
# $Z set _____Fermat2=0.02 #
# $Z set _____images=$xiirc/ZETA.21 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# :Fin_listG_ZETA_21: #
# #
v $xiirc/ZETA.21$m$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_ZETA_21_IdM: #
# #
# $Z TvB #
# #
# $Z set _____xg=-50.0 #
# $Z set _____xd=+50.0 #
# $Z set _____yb=-50.0 #
# $Z set _____yh=+50.0 #
# $Z set _____Fermat2=0.02 #
# $Z set _____images=$xiirc/ZETA.21$IdM #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# $Z $DELETE $_____images$PR #
# $Z $DELETE $_____images$PI #
# $Z $DELETE $_____images$Mo #
# $Z $DELETE $_____images$Ph #
# $Z $DELETE $_____images$M #
# $Z $DELETE $_____images$m #
# #
# :Fin_listG_ZETA_21_IdM: #
# #
#20090130120833____:XYmaxNe 5999 5999 ; v $xiirc/ZETA.31$m #
v $xiirc/ZETA.31$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ZETA_31: #
# #
# $Z XYmaxNe 5999 6003 #
# #
# $Z set _____xg=-50.0 #
# $Z set _____xd=+50.0 #
# $Z set _____yb=-50.0 #
# $Z set _____yh=+50.0 #
# $Z set _____Fermat2=0.02 #
# $Z set _____Palette=$xiP/cercle.15 #
# $Z set _____Sy=80 #
# $Z set _____images=$xiirc/ZETA.31 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/ZETA.31$m%s \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xiirc/ZETA.31$m%s \ #
# $Z XmaxR=5999 YmaxR=5999 #
# #
# :Fin_listG_ZETA_31: #
# #
# #
# Image pour "Pour La Science" ('v $xamci/20090129093918 maurice.mashaal@pourlascience.fr'). #
# La position de la source lumineuse (Sy=80) est destinee a obtenir une plaine blanche (et #
# donc un fond blanc...). #
# #
# On notera que l'axe 'OY' est plus long de 4 unites (6004) que l'axe 'OX' (6000) : ceci #
# est du a 'v $xiii/montagnes$FON vue.d.avion..on.triche.un.peu'... #
#20090130121328____:XYmaxNe 5999 5999 ; v $xiirc/ZETA.32$m #
v $xiirc/ZETA.32$m
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_ZETA_32: #
# #
# $Z XYmaxNe 5999 6003 #
# #
# $Z set _____xg=-30.0 #
# $Z set _____xd=+30.0 #
# $Z set _____yb=-30.0 #
# $Z set _____yh=+30.0 #
# $Z set _____Fermat2=0.02 #
# $Z set _____Palette=$xiP/cercle.15 #
# $Z set _____Sy=80 #
# $Z set _____images=$xiirc/ZETA.32 #
# $m4 _____include(_____xiirc/.ZETA.11.1._____U) #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/ZETA.32$m%s \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xiirc/ZETA.32$m%s \ #
# $Z XmaxR=5999 YmaxR=5999 #
# #
# :Fin_listG_ZETA_32: #
# #
# #
# Image pour "Pour La Science" ('v $xamci/20090129093918 maurice.mashaal@pourlascience.fr'). #
# La position de la source lumineuse (Sy=80) est destinee a obtenir une plaine blanche (et #
# donc un fond blanc...). #
# #
# On notera que l'axe 'OY' est plus long de 4 unites (6004) que l'axe 'OX' (6000) : ceci #
# est du a 'v $xiii/montagnes$FON vue.d.avion..on.triche.un.peu'... #
v $xiirc/ZETA.41.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_ZETA_41: #
# #
# $Z XYmaxNe 0 1024 0 32768 #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z FilSTmpB FCoOrDoOnNeEs #
# #
# $Z $xrc/zeta.21$X \ #
# $Z genererR=FAUX \ #
# $Z genererI=FAUX \ #
# $Z genererMo=FAUX \ #
# $Z genererPh=FAUX \ #
# $Z editer_z_egal_f_de_z=VRAI \ #
# $Z simplifier_z_egal_f_de_z=VRAI \ #
# $Z xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=50 \ #
# $Z fenetre_homothetique_image=FAUX \ #
# $Z homothetie_utiliser_Xmax_Ymax=VRAI \ #
# $Z $formatI \ #
# $Z >>& $FCoOrDoOnNeEs #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirc/.ZETA.41.1._____U) #
# #
# $Z FilSTmpE FCoOrDoOnNeEs #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/ZETA.41 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ZETA_41: #
# #
# #
# Cette image est une representation quadrimensionnelle de la fonction 'Zeta' ou les axes #
# 'OX' et 'OY' sont respectivement 'Reelle(Zeta(z))' et 'Imaginaire(Zeta(z))' ; l'axe 'OZ' #
# est 'Reelle(z)' et enfin les "trajectoires" des points sont 'Imaginaire(z)'... #
# On notera que la fenetre "xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=50" evite le pole (1,0)... #
# On notera enfin l'importance d'un format carre ('Sdu') afin de garantir l'orthonormalite #
# des axes 'OX' et 'OY'... #
v $xiirc/ZETA.42.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_ZETA_42: #
# #
# $Z XYmaxNe 0 1024 0 65536 #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z FilSTmpB FCoOrDoOnNeEs #
# #
# $Z $xrc/zeta.21$X \ #
# $Z genererR=FAUX \ #
# $Z genererI=FAUX \ #
# $Z genererMo=FAUX \ #
# $Z genererPh=FAUX \ #
# $Z editer_z_egal_f_de_z=VRAI \ #
# $Z simplifier_z_egal_f_de_z=VRAI \ #
# $Z ChiffresFlot=8 \ #
# $Z xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=100 \ #
# $Z fenetre_homothetique_image=FAUX \ #
# $Z homothetie_utiliser_Xmax_Ymax=VRAI \ #
# $Z $formatI \ #
# $Z >>& $FCoOrDoOnNeEs #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirc/.ZETA.41.1._____U) #
# #
# $Z FilSTmpE FCoOrDoOnNeEs #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/ZETA.42 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ZETA_42: #
# #
# #
# Cette image est une representation quadrimensionnelle de la fonction 'Zeta' ou les axes #
# 'OX' et 'OY' sont respectivement 'Reelle(Zeta(z))' et 'Imaginaire(Zeta(z))' ; l'axe 'OZ' #
# est 'Reelle(z)' et enfin les "trajectoires" des points sont 'Imaginaire(z)'... #
# On notera que la fenetre "xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=100" evite le pole (1,0)... #
# On notera enfin l'importance d'un format carre ('Sdu') afin de garantir l'orthonormalite #
# des axes 'OX' et 'OY'... #
v $xiirc/ZETA.43.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_ZETA_43: #
# #
# $Z XYmaxNe 0 1024 0 262144 #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z FilSTmpB FCoOrDoOnNeEs #
# #
# $Z $xrc/zeta.21$X \ #
# $Z genererR=FAUX \ #
# $Z genererI=FAUX \ #
# $Z genererMo=FAUX \ #
# $Z genererPh=FAUX \ #
# $Z editer_z_egal_f_de_z=VRAI \ #
# $Z simplifier_z_egal_f_de_z=VRAI \ #
# $Z ChiffresFlot=8 \ #
# $Z xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=400 \ #
# $Z fenetre_homothetique_image=FAUX \ #
# $Z homothetie_utiliser_Xmax_Ymax=VRAI \ #
# $Z $formatI \ #
# $Z >>& $FCoOrDoOnNeEs #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirc/.ZETA.41.1._____U) #
# #
# $Z FilSTmpE FCoOrDoOnNeEs #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirc/ZETA.43 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ZETA_43: #
# #
# #
# Cette image est une representation quadrimensionnelle de la fonction 'Zeta' ou les axes #
# 'OX' et 'OY' sont respectivement 'Reelle(Zeta(z))' et 'Imaginaire(Zeta(z))' ; l'axe 'OZ' #
# est 'Reelle(z)' et enfin les "trajectoires" des points sont 'Imaginaire(z)'... #
# On notera que la fenetre "xbgD=0.1 ybgD=0 xhdD=0.9 yhdD=400" evite le pole (1,0)... #
# On notera enfin l'importance d'un format carre ('Sdu') afin de garantir l'orthonormalite #
# des axes 'OX' et 'OY'... #
#######################################################################################################################################
# #
# I M A G E S L E S P L U S P E R T I N E N T E S : #
# #
#######################################################################################################################################
v $xiirc/JU.42.2.0.032 p=$xiP/sepia.01
# La "danseuse"... #
Gamma ; $xci/sequence$X A=$xiirc/JU.52. premiere=0 derniere=7 p=$xiP/arc_ciel.92 D=2 $formatI
# Huit ensembles de Julia dans les Quaternions lors du tour de l'ensemble de Mandelbrot. #
v $xiirc/JU.52$m.1005
v $xiirc/JU.52$m.2005
v $xiia/JU.52.8.1005
# Variations tridimensionnelles sur un ensemble de Julia dans les quaternions. #
v $xiirc/JULI.N1.0102$DROITE p=$xiP/fractal.91 d=2 animation=VRAI NOIR=FAUX centrer=VRAI
# Un bel ensemble de Julia dans les quaternions. #
v $xiirc/JULI.b1.0051
v $xiirc/JULI.b1.0057
v $xiirc/JULI.b1.0073
v $xiirc/JULI.b1.0114
v $xiirc/JULI.b1.0116
# Rotation autour des axes 'OX' et 'OY' d'un bel ensemble de Julia dans les quaternions. #
v $xiirc/MA.43.2.1.110 p=$xiP/arc_ciel.01
# Vue de l'ensemble de Mandelbrot dans les quaternions. #