#!/bin/csh
#######################################################################################################################################
# #
# N O T A : #
# #
# #
# Author of '$xivP/disk.000000007/face.1/$Fnota' : #
# #
# Jean-Francois COLONNA (LACTAMME, AAAAMMJJhhmmss). #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# F A C E R E S E R V E E A U X F R A C T A L E S D E T E R M I N I S T E S E T A U C H A O S #
# F A C E ' xivPdf 07 1 ' #
# F A C E S U I T E D E L A F A C E ' xivPdf 02 1 ' #
# F A C E A S U I V R E S U R L A F A C E ' xivPdf 09 1 ' : #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# E N R E G I S T R E M E N T S U R L E ' LVS6000P-LVR6000 ' : #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# U T I L I S A T I O N D U G E N E R A T E U R V I D E O D E L ' O P T I O N ' GenLock ' D E ' LACT21 ' : #
# #
#######################################################################################################################################
sequence 000001_000128
# Generee par : #
# #
# Pal #
# #
# $xrk/recuit_2D.11$X np=128 \ #
# essais=30 \ #
# amplitudeD=0.1 amplitudeA=0.01 \ #
# connexions=VRAI points=16 \ #
# ponderation=1.0 facteur=12.0 \ #
# grossissement=2.0 \ #
# p00=VRAI x00=-0.50 y00=-0.70 \ #
# p01=VRAI x01=+0.19 y01=-0.85 \ #
# p02=VRAI x02=+0.56 y02=-0.73 \ #
# p03=VRAI x03=+0.87 y03=-0.61 \ #
# p04=VRAI x04=-0.32 y04=-0.41 \ #
# p05=VRAI x05=-0.03 y05=-0.68 \ #
# p06=VRAI x06=+0.46 y06=-0.22 \ #
# p07=VRAI x07=+0.75 y07=-0.18 \ #
# p08=VRAI x08=-0.45 y08=+0.09 \ #
# p09=VRAI x09=+0.10 y09=+0.41 \ #
# p10=VRAI x10=+0.48 y10=+0.10 \ #
# p11=VRAI x11=+0.79 y11=+0.19 \ #
# p12=VRAI x12=-0.84 y12=+0.35 \ #
# p13=VRAI x13=-0.42 y13=+0.58 \ #
# p14=VRAI x14=+0.10 y14=+0.86 \ #
# p15=VRAI x15=+0.85 y15=+0.37 \ #
# ZOOM=0.90 \ #
# ROTATION_OX=$pi \ #
# ROTATION_OZ=-1.38 \ #
# TRANSLATION_OX=+0.25 \ #
# TRANSLATION_OY=-0.34 \ #
# graine=314 \ #
# R=$xw1/RECS.A. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS.A. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera les differentes transformations geometriques ainsi que la nouvelle graine, le #
# tout etant destine a presenter la carte de France dans la position habituelle... #
# #
# ATTENTION, le 1994012500 j'ai introduit un nouveau disque ; cette sequence est donc la #
# bonne version de la sequence : #
# #
# xivPdf 2 1 / 021645_021772 #
# #
# qui est bien mieux ainsi... #
sequence 000129_000256
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=128 \ #
# essais=200 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=FAUX \ #
# ROTATION_OX=$xT/param11 \ #
# R=$xw1/RECS.B. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS.B. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, le 1994011100 a ete introduite l'option "grossissement=" qui implicitement #
# vaut 2. Ici, on refait donc la sequence : #
# #
# xivPdf 2 1 / 020962_021089 #
# #
# qui est bien mieux ainsi... #
sequence 000257_000272
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=16 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=16 \ #
# essais=1600 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=FAUX \ #
# ROTATION_OX=$xT/param11 \ #
# stereo=+0.10 \ #
# R=$xw1/RECS$DROITE.1 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS$DROITE.1 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000273_000288
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=16 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=16 \ #
# essais=1600 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=FAUX \ #
# ROTATION_OX=$xT/param11 \ #
# stereo=-0.10 \ #
# R=$xw1/RECS$GAUCHE.1 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS$GAUCHE.1 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000289_000304
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=16 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=16 \ #
# essais=1600 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=VRAI \ #
# ROTATION_OX=$xT/param11 \ #
# stereo=+0.10 \ #
# R=$xw1/RECS$DROITE.2 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS$DROITE.2 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000305_000320
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=16 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=16 \ #
# essais=1600 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=VRAI \ #
# ROTATION_OX=$xT/param11 \ #
# stereo=-0.10 \ #
# R=$xw1/RECS$GAUCHE.2 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS$GAUCHE.2 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000321_000448
# Generee par : #
# #
# Pal #
# #
# $xci/fract_2D.01$X mx=0.7 my=0.7 \ #
# R=$xT/FRAC.11 \ #
# $formatI #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/substitue$X \ #
# A=$xw1/RECS.B.%04d$ROUGE \ #
# substitution=L_SUBSTITUTION_02 \ #
# $formatI | #
# $xci/montagne.01$X \ #
# A=$xT/FRAC.11 \ #
# R=$xw1/RECS.C.%04d$ROUGE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/substitue$X \ #
# A=$xw1/RECS.B.%04d$VERTE \ #
# substitution=L_SUBSTITUTION_02 \ #
# $formatI | #
# $xci/montagne.01$X \ #
# A=$xT/FRAC.11 \ #
# R=$xw1/RECS.C.%04d$VERTE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/substitue$X \ #
# A=$xw1/RECS.B.%04d$BLEUE \ #
# substitution=L_SUBSTITUTION_02 \ #
# $formatI | #
# $xci/montagne.01$X \ #
# A=$xT/FRAC.11 \ #
# R=$xw1/RECS.C.%04d$BLEUE \ #
# $formatI' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS.C. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_paysages #
# #
sequence 000449_000576
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=2033 > $xT/param11 #
# #
# avec (sur '$LACT12') : #
# #
# Pal #
# #
# ordre=1 : $xrk/lorenz.11$X R=$xw1/LORE.2. np=128 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=1 \ #
# $formatI #
# #
# ordre=2 : $xrk/lorenz.11$X R=$xw1/LORE.2. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=2 \ #
# $formatI #
# #
# ordre=4 : $xrk/lorenz.11$X R=$xw1/LORE.2. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000577_000704
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=12701 > $xT/param11 #
# #
# avec (sur '$LACT12') : #
# #
# Pal #
# #
# ordre=1 : $xrk/lorenz.11$X R=$xw1/LORE.3. np=128 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=1 \ #
# $formatI #
# #
# ordre=2 : $xrk/lorenz.11$X R=$xw1/LORE.3. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=2 \ #
# $formatI #
# #
# ordre=4 : $xrk/lorenz.11$X R=$xw1/LORE.3. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.3. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000705_000832
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=4065 > $xT/param11 #
# #
# avec (sur '$LACT12') : #
# #
# Pal #
# #
# ordre=1 : $xrk/lorenz.11$X R=$xw1/LORE.4. np=128 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=1 \ #
# $formatI #
# #
# ordre=2 : $xrk/lorenz.11$X R=$xw1/LORE.4. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=2 \ #
# $formatI #
# #
# ordre=4 : $xrk/lorenz.11$X R=$xw1/LORE.4. np=128 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.5 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000833_000848
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=16 vD=1 vA=4066 > $xT/param11 #
# #
# avec (sur '$LACT12') : #
# #
# Pal #
# #
# ordre=1 : $xrk/lorenz.11$X R=$xw1/LORE$DROITE.5 np=16 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=1 \ #
# $formatI #
# #
# ordre=2 : $xrk/lorenz.11$X R=$xw1/LORE$DROITE.5 np=16 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=2 \ #
# $formatI #
# #
# ordre=4 : $xrk/lorenz.11$X R=$xw1/LORE$DROITE.5 np=16 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$DROITE.5 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000849_000864
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=16 vD=1 vA=4066 > $xT/param11 #
# #
# avec (sur '$LACT12') : #
# #
# Pal #
# #
# ordre=1 : $xrk/lorenz.11$X R=$xw1/LORE$GAUCHE.5 np=16 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=1 \ #
# $formatI #
# #
# ordre=2 : $xrk/lorenz.11$X R=$xw1/LORE$GAUCHE.5 np=16 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=2 \ #
# $formatI #
# #
# ordre=4 : $xrk/lorenz.11$X R=$xw1/LORE$GAUCHE.5 np=16 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$GAUCHE.5 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
#######################################################################################################################################
# #
# E N R E G I S T R E M E N T S U R U N ' LVR4000P ' E N P R E T : #
# #
#######################################################################################################################################
sequence 000865_000880
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=16 vD=0.01 vA=20.00 > $xT/param11 #
# #
# Pal #
# #
# $xrk/lorenz.11$X R=$xw1/LORE$DROITE.6 np=16 \ #
# stereo=+0.10 \ #
# iterations=400 ordre=4 \ #
# VARIABLE_cx0=$xT/param11 \ #
# VARIABLE_cy0=$xT/param11 \ #
# VARIABLE_cz0=$xT/param11 \ #
# r=2.0 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$DROITE.6 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 000881_000896
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=16 vD=0.01 vA=20.00 > $xT/param11 #
# #
# Pal #
# #
# $xrk/lorenz.11$X R=$xw1/LORE$GAUCHE.6 np=16 \ #
# stereo=-0.10 \ #
# iterations=400 ordre=4 \ #
# VARIABLE_cx0=$xT/param11 \ #
# VARIABLE_cy0=$xT/param11 \ #
# VARIABLE_cz0=$xT/param11 \ #
# r=2.0 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$GAUCHE.6 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
#######################################################################################################################################
# #
# R E M I S E E N S E R V I C E D U ' LVS6000P-LVR6000 ' : #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# C H A N G E M E N T D E G E N E R A T E U R V I D E O G R A C E A U R E M P L A C E M E N T D E #
# L ' O P T I O N ' GenLock ' D E ' LACT21 ' P A R L A C A R T E ' Galileo ' D E ' LACT12 ' : #
# #
#######################################################################################################################################
sequence 000897_000900
# Test d'enregistrement : #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.1 1 4 $xiP/arc_ciel.12 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence est mal cadree en horizontal ; cela vient d'un probleme qui #
# subsiste a cette date (1994050300) avec la carte 'Galileo' et sa programmation... #
sequence 000901_000904
# Test d'enregistrement : #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECU.G 1 4 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence est mal cadree en horizontal ; cela vient d'un probleme qui #
# subsiste a cette date (1994050300) avec la carte 'Galileo' et sa programmation... #
sequence 000905_001032
# Generee par : #
# #
# Std #
# #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=314 inf=0 sup=1 \ #
# entiers=FAUX \ #
# > $xT/COORDONNEES$COORD_X #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=271 inf=0 sup=1 \ #
# entiers=FAUX \ #
# > $xT/COORDONNEES$COORD_Y #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=1789 inf=0 sup=1 \ #
# entiers=FAUX \ #
# > $xT/COORDONNEES$COORD_Z #
# #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=1789 inf=0.01 sup=0.03 \ #
# entiers=FAUX \ #
# > $xT/RAYON #
# #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=314 inf=1 sup=255 \ #
# entiers=VRAI \ #
# > $xT/COULEUR$ROUGE #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=271 inf=1 sup=255 \ #
# entiers=VRAI \ #
# > $xT/COULEUR$VERTE #
# $xci/valeurs_alea$X premiere=1 derniere=64 \ #
# graine=1789 inf=1 sup=255 \ #
# entiers=VRAI \ #
# > $xT/COULEUR$BLEUE #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$dpi cubique=VRAI > $xT/ROTATE #
# #
# $xrv/particule.10$X np=128 iterations=64 \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# r=0.1 \ #
# LISTE_RAYON=$xT/RAYON \ #
# LISTE_ROUGE=$xT/COULEUR$ROUGE \ #
# LISTE_VERTE=$xT/COULEUR$VERTE \ #
# LISTE_BLEUE=$xT/COULEUR$BLEUE \ #
# Lz=1000 ZOOM=0.6 \ #
# ROTATION_OX=$xT/ROTATE \ #
# isoles=FAUX points=32 \ #
# RVB=VRAI \ #
# R=$xw1/PART.1. \ #
# $formatI #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/complement$X \ #
# A=$xw1/PART.1.%04d$ROUGE \ #
# $formatI | #
# $xci/interpole.02$X \ #
# A2=$xw1/PART.1.%04d$ROUGE \ #
# P=$xiio/GAUSS.8110 \ #
# R=$xw1/PART.2.%04d$ROUGE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/complement$X \ #
# A=$xw1/PART.1.%04d$VERTE \ #
# $formatI | #
# $xci/interpole.02$X \ #
# A2=$xw1/PART.1.%04d$VERTE \ #
# P=$xiio/GAUSS.8110 \ #
# R=$xw1/PART.2.%04d$VERTE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/complement$X \ #
# A=$xw1/PART.1.%04d$BLEUE \ #
# $formatI | #
# $xci/interpole.02$X \ #
# A2=$xw1/PART.1.%04d$BLEUE \ #
# P=$xiio/GAUSS.8110 \ #
# R=$xw1/PART.2.%04d$BLEUE \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001033_001160
# Generee par : #
# #
# Std #
# #
# set Nimages=128 #
# set Nvariables=3 #
# set Nvilles=16 #
# @ dNvilles = 2 * $Nvilles #
# set Ntours=12 #
# @ dNtours = 2 * $Ntours #
# @ NvillesA = 1 #
# @ NvillesB = $NvillesA + $dNvilles - 1 #
# @ NvillesC = $NvillesB + 1 #
# @ NvillesD = $NvillesC + $dNvilles - 1 #
# @ NvillesE = $NvillesD + 1 #
# @ NvillesF = $NvillesE + $dNvilles - 1 #
# @ NvillesG = $NvillesF + 1 #
# @ NvillesH = $NvillesG + $dNtours - 1 #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=+0.050 vA=+0.050 \ #
# entiers=FAUX \ #
# > $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=-0.050 vA=-0.050 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=-0.028 vA=-0.028 \ #
# entiers=FAUX \ #
# > $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=+0.058 vA=+0.058 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=-0.028 vA=-0.028 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# #
# on notera que les constantes d'initialisation sont choisies de facon a translater #
# les coordonnees aux trois sommets d'un triangle equilateral. On a donc : #
# #
# 1 #
# 0.050 ~ --- #
# 2 #
# ___ #
# 1 \/ 3 #
# 0.028 ~ ---.------- #
# 3 2 #
# ___ #
# 2 \/ 3 #
# 0.058 ~ ---.------- #
# 3 2 #
# #
# (ou "~" se lit "proportionnel a"). #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# > $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# > $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# > $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# #
# @ Nrayons = $Nvariables * $Nvilles * $Nimages #
# #
# $xci/valeurs_trig$X premiere=1 derniere=$Nrayons \ #
# cubique=FAUX \ #
# aD=0.0 aA=2573.59 \ #
# rD=0.01 rA=0.01 \ #
# alpha=1.0 beta=0.0 gamma=0.0 T=0.02 \ #
# entiers=FAUX \ #
# > $xT/RAYONS #
# #
# ou la constante '2573.59' est en fait : #
# #
# 16 #
# 2.pi.----.3.128 #
# 15 #
# #
# et choisie de facon que l'echantillonnage de la sinusoide ne se fasse pas avec un pas #
# commensurable avec la periode... #
# #
# @ Nr = 2 * $Ntours #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$Nr \ #
# vD=0.02 vA=0.02 \ #
# entiers=FAUX \ #
# > $xT/RAYONT #
# #
# #
# @ NTz = $Nvariables * $Nvilles #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NTz \ #
# vD=0 vA=0 \ #
# entiers=VRAI \ #
# > $xT/C.1$COORD_Z #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$Nr \ #
# vD=0 vA=0 \ #
# entiers=VRAI \ #
# > $xT/COORD_Z.N #
# #
# #define Nimages 128 #
# #define Nvariables 3 #
# #define Nvilles 16 #
# #define Ntours 12 #
# #
# main() #
# { #
# int n; #
# int ligne1=1; #
# for (n=1 ; n<=Nimages ; n++) #
# { #
# printf("$DELETE $xT/RAYON.1\n"); #
# printf("$DELETE $xT/RAYON.2\n"); #
# printf("$DELETE $xT/RAYON.3\n"); #
# printf("listMN $xT/RAYONS %d %d > $xT/RAYON.1\n" #
# ,ligne1 #
# ,ligne1 + (Nvariables*Nvilles) - 1 #
# ); #
# printf("$PAST $xT/RAYON.1 $xT/RAYON.1 | #
# $R \"$K_TAB\" \"$K_NL\" > $xT/RAYON.2\n" #
# ); #
# printf("$CA $xT/RAYON.2 $xT/RAYONT #
# > $xT/RAYON.3\n" #
# ); #
# printf("$DELETE $xT/C.1$COORD_X\n"); #
# printf("$DELETE $xT/C.2$COORD_X\n"); #
# printf("$PAST $xie/FranceV.11$COORD_X #
# $xie/FranceV.11$COORD_X | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.1$COORD_X\n" #
# ); #
# printf("$CA $xT/C.1$COORD_X #
# $xT/C.1$COORD_X #
# $xT/C.1$COORD_X #
# $xie/FranceT.11$COORD_X #
# > $xT/C.2$COORD_X\n" #
# ); #
# printf("$DELETE $xT/C.1$COORD_Y\n"); #
# printf("$DELETE $xT/C.2$COORD_Y\n"); #
# printf("$PAST $xie/FranceV.11$COORD_Y #
# $xie/FranceV.11$COORD_Y | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.1$COORD_Y\n" #
# ); #
# printf("$CA $xT/C.1$COORD_Y #
# $xT/C.1$COORD_Y #
# $xT/C.1$COORD_Y #
# $xie/FranceT.11$COORD_Y #
# > $xT/C.2$COORD_Y\n" #
# ); #
# printf("$DELETE $xT/C.2$COORD_Z\n"); #
# printf("$DELETE $xT/C.3$COORD_Z\n"); #
# printf("$PAST $xT/C.1$COORD_Z $xT/RAYON.1 | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.2$COORD_Z\n" #
# ); #
# printf("$CA $xT/C.2$COORD_Z $xT/COORD_Z.N #
# > $xT/C.3$COORD_Z\n" #
# ); #
# printf("$xrv/particule.10$X np=1 iterations=%d #
# LISTE_X=$xT/C.2$COORD_X #
# LISTE_Y=$xT/C.2$COORD_Y #
# LISTE_Z=$xT/C.3$COORD_Z \\\n #
# LISTE_tX=$xT/TRANS$COORD_X #
# LISTE_tY=$xT/TRANS$COORD_Y #
# LISTE_RAYON=$xT/RAYON.3 \\\n #
# LISTE_ROUGE=$xT/COULEUR$ROUGE #
# LISTE_VERTE=$xT/COULEUR$VERTE #
# LISTE_BLEUE=$xT/COULEUR$BLEUE \\\n #
# ROTATION_OX=-0.6 #
# TRANSLATION_OY=-0.0 \\\n #
# Ar=1 #
# AX=0.5 BX=0.5 #
# AY=0.5 BY=0.5 #
# AZ=8.0 BZ=-0.12 #
# Lz=1000 ZOOM=0.6 #
# isoles=FAUX points=8 #
# R=$xT/PART.3. #
# $formatI\n" #
# ,2 * ((Nvariables*Nvilles) + Ntours) #
# ); #
# printf("$CP $xT/PART.3.0001$ROUGE #
# $xw1/PART.3.%04d$ROUGE\n" #
# ,n #
# ); #
# printf("$CP $xT/PART.3.0001$VERTE #
# $xw1/PART.3.%04d$VERTE\n" #
# ,n #
# ); #
# printf("$CP $xT/PART.3.0001$BLEUE #
# $xw1/PART.3.%04d$BLEUE\n" #
# ,n #
# ); #
# ligne1 = ligne1 + (Nvariables * Nvilles); #
# } #
# } #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.3. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001161_001288
# Version identique a la sequence : #
# #
# xivPdf 7 1 / 001033_001160 #
# #
# mais avec, pour '$xrv/particule.10$X', les parametres differents suivants : #
# #
# Lz=1000 ZOOM=0.9 #
# isoles=FAUX points=1 #
# R=$xT/PART.4. #
# #
# ce qui permet de faire plus facilement des '$xci/accumule.02$X' sur la sequence d'images #
# resultante '$xT/PART.4.' puiqu'il n'y a plus, pour chaque image generee, de troisieme #
# dimension (a l'exception pres de celle des petites boules...). #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001289_001416
# Version identique a la sequence : #
# #
# xivPdf 7 1 / 001161_001288 #
# #
# mais qui a du etre recalculee car les fichiers '$xie/FranceT.11$COORD_X' et #
# '$xie/FranceT.11$COORD_Y' qui decrivent le tour de la carte de France, doivent etre #
# definis en respectant un sens de parcours uniforme afin que lorsque l'on a l'option #
# "points=1" le premier point de chaque segment soit trace une et une seule fois (ce qui #
# n'etait pas le cas avant...). L'ordre adopte est le suivant : #
# #
# {0,1,2,3,7,11,15,14,13,12,8,4,0} #
# #
# en reprenant les notations de '$xrk/recuit_2D.11$K'. #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001417_001544
# Version identique a la sequence : #
# #
# xivPdf 7 1 / 001033_001160 #
# #
# mais avec, pour '$xrv/particule.10$X', les parametres differents suivants : #
# #
# Lz=1000 ZOOM=0.9 #
# isoles=FAUX points=8 #
# R=$xT/PART.3. #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.3. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001545_001672
# Generee par : #
# #
# Std #
# #
# set Nimages=128 #
# set Nvariables=3 #
# set Nvilles=16 #
# @ dNvilles = 2 * $Nvilles #
# set Ntours=12 #
# @ dNtours = 2 * $Ntours #
# @ NvillesA = 1 #
# @ NvillesB = $NvillesA + $dNvilles - 1 #
# @ NvillesC = $NvillesB + 1 #
# @ NvillesD = $NvillesC + $dNvilles - 1 #
# @ NvillesE = $NvillesD + 1 #
# @ NvillesF = $NvillesE + $dNvilles - 1 #
# @ NvillesG = $NvillesF + 1 #
# @ NvillesH = $NvillesG + $dNtours - 1 #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=+0.050 vA=+0.050 \ #
# entiers=FAUX \ #
# > $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=-0.050 vA=-0.050 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_X #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=-0.028 vA=-0.028 \ #
# entiers=FAUX \ #
# > $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=+0.058 vA=+0.058 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=-0.028 vA=-0.028 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=0.0 vA=0.0 \ #
# entiers=FAUX \ #
# >>! $xT/TRANS$COORD_Y #
# #
# on notera que les constantes d'initialisation sont choisies de facon a translater #
# les coordonnees aux trois sommets d'un triangle equilateral. On a donc : #
# #
# 1 #
# 0.050 ~ --- #
# 2 #
# ___ #
# 1 \/ 3 #
# 0.028 ~ ---.------- #
# 3 2 #
# ___ #
# 2 \/ 3 #
# 0.058 ~ ---.------- #
# 3 2 #
# #
# (ou "~" se lit "proportionnel a"). #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# > $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$ROUGE #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# > $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$VERTE #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NvillesB \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# > $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesC derniere=$NvillesD \ #
# vD=$NOIR vA=$NOIR \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesE derniere=$NvillesF \ #
# vD=$BLANC vA=$BLANC \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# $xci/valeurs_inte$X premiere=$NvillesG derniere=$NvillesH \ #
# vD=$GRIS vA=$GRIS \ #
# entiers=VRAI \ #
# >>! $xT/COULEUR$BLEUE #
# #
# @ Nrayons = $Nvariables * $Nvilles * $Nimages #
# #
# $xci/valeurs_trig$X premiere=1 derniere=$Nrayons \ #
# cubique=FAUX \ #
# aD=0.0 aA=2573.59 \ #
# rD=0.01 rA=0.01 \ #
# alpha=1.0 beta=0.0 gamma=0.0 T=0.02 \ #
# entiers=FAUX \ #
# > $xT/RAYONS.T #
# #
# ou la constante '2573.59' est en fait : #
# #
# 16 #
# 2.pi.----.3.128 #
# 15 #
# #
# et choisie de facon que l'echantillonnage de la sinusoide ne se fasse pas avec un pas #
# commensurable avec la periode ; les valeurs generees sont dans : #
# #
# [T-r,T+r] = [0.02-0.01,0.02+0.01] #
# #
# $xci/valeurs_alea$X premiere=1 derniere=$Nrayons \ #
# graine=314 inf=0.01 sup=0.03 \ #
# entiers=FAUX \ #
# > $xT/RAYONS.R #
# #
# les valeurs aleatoires etant generees dans [0.01,0.03]. #
# #
# $CA $xcs/csh$Z > $xT/RAYONS$Z #
# #
# $PAST $xT/RAYONS.T $xT/RAYONS.R | #
# $R "$K_TAB" "$K_BLANC" | #
# $SE -e 's/ / vA=/' | #
# $SE -e 's/$/ unique=VRAI numero=2/' | #
# $SE -e 's/^/$xci\/valeurs_inte$X premiere=1 derniere=3 cubique=FAUX vD=/' \ #
# >>! $xT/RAYONS$Z #
# EXEC $xT/RAYONS$Z #
# $xT/RAYONS$Z > $xT/RAYONS #
# #
# les valeurs obtenues sont ainsi a mi-chemin entre le trigonometrique et l'aleatoire, et #
# sont elles-aussi dans [0.01,0.03]. #
# #
# @ Nr = 2 * $Ntours #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$Nr \ #
# vD=0.02 vA=0.02 \ #
# entiers=FAUX \ #
# > $xT/RAYONT #
# #
# #
# @ NTz = $Nvariables * $Nvilles #
# #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$NTz \ #
# vD=0 vA=0 \ #
# entiers=VRAI \ #
# > $xT/C.1$COORD_Z #
# $xci/valeurs_inte$X premiere=$NvillesA derniere=$Nr \ #
# vD=0 vA=0 \ #
# entiers=VRAI \ #
# > $xT/COORD_Z.N #
# #
# #define Nimages 128 #
# #define Nvariables 3 #
# #define Nvilles 16 #
# #define Ntours 12 #
# #
# main() #
# { #
# int n; #
# int ligne1=1; #
# for (n=1 ; n<=Nimages ; n++) #
# { #
# printf("$DELETE $xT/RAYON.1\n"); #
# printf("$DELETE $xT/RAYON.2\n"); #
# printf("$DELETE $xT/RAYON.3\n"); #
# printf("listMN $xT/RAYONS %d %d > $xT/RAYON.1\n" #
# ,ligne1 #
# ,ligne1 + (Nvariables*Nvilles) - 1 #
# ); #
# printf("$PAST $xT/RAYON.1 $xT/RAYON.1 | #
# $R \"$K_TAB\" \"$K_NL\" > $xT/RAYON.2\n" #
# ); #
# printf("$CA $xT/RAYON.2 $xT/RAYONT #
# > $xT/RAYON.3\n" #
# ); #
# printf("$DELETE $xT/C.1$COORD_X\n"); #
# printf("$DELETE $xT/C.2$COORD_X\n"); #
# printf("$PAST $xie/FranceV.11$COORD_X #
# $xie/FranceV.11$COORD_X | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.1$COORD_X\n" #
# ); #
# printf("$CA $xT/C.1$COORD_X #
# $xT/C.1$COORD_X #
# $xT/C.1$COORD_X #
# $xie/FranceT.11$COORD_X #
# > $xT/C.2$COORD_X\n" #
# ); #
# printf("$DELETE $xT/C.1$COORD_Y\n"); #
# printf("$DELETE $xT/C.2$COORD_Y\n"); #
# printf("$PAST $xie/FranceV.11$COORD_Y #
# $xie/FranceV.11$COORD_Y | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.1$COORD_Y\n" #
# ); #
# printf("$CA $xT/C.1$COORD_Y #
# $xT/C.1$COORD_Y #
# $xT/C.1$COORD_Y #
# $xie/FranceT.11$COORD_Y #
# > $xT/C.2$COORD_Y\n" #
# ); #
# printf("$DELETE $xT/C.2$COORD_Z\n"); #
# printf("$DELETE $xT/C.3$COORD_Z\n"); #
# printf("$PAST $xT/C.1$COORD_Z $xT/C.1$COORD_Z | #
# $R \"$K_TAB\" \"$K_NL\" #
# > $xT/C.2$COORD_Z\n" #
# ); #
# printf("$CA $xT/C.2$COORD_Z $xT/COORD_Z.N #
# > $xT/C.3$COORD_Z\n" #
# ); #
# printf("$xrv/particule.10$X np=1 iterations=%d #
# LISTE_X=$xT/C.2$COORD_X #
# LISTE_Y=$xT/C.2$COORD_Y #
# LISTE_Z=$xT/C.3$COORD_Z \\\n #
# LISTE_tX=$xT/TRANS$COORD_X #
# LISTE_tY=$xT/TRANS$COORD_Y #
# LISTE_RAYON=$xT/RAYON.3 \\\n #
# LISTE_ROUGE=$xT/COULEUR$ROUGE #
# LISTE_VERTE=$xT/COULEUR$VERTE #
# LISTE_BLEUE=$xT/COULEUR$BLEUE \\\n #
# ROTATION_OX=-0.6 #
# TRANSLATION_OY=-0.0 \\\n #
# Ar=1 #
# AX=0.5 BX=0.5 #
# AY=0.5 BY=0.5 #
# AZ=8.0 BZ=-0.12 #
# Lz=1000 ZOOM=0.9 #
# isoles=FAUX points=8 #
# R=$xT/PART.4. #
# $formatI\n" #
# ,2 * ((Nvariables*Nvilles) + Ntours) #
# ); #
# printf("$CP $xT/PART.4.0001$ROUGE #
# $xw1/PART.4.%04d$ROUGE\n" #
# ,n #
# ); #
# printf("$CP $xT/PART.4.0001$VERTE #
# $xw1/PART.4.%04d$VERTE\n" #
# ,n #
# ); #
# printf("$CP $xT/PART.4.0001$BLEUE #
# $xw1/PART.4.%04d$BLEUE\n" #
# ,n #
# ); #
# ligne1 = ligne1 + (Nvariables * Nvilles); #
# } #
# } #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PART.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 001673_001800
# Version identique aux sequences : #
# #
# xivPdf 2 1 / 011640_011765 #
# xivPdf 2 1 / 011766_011891 #
# xivPdf 2 1 / 011892_012017 #
# #
# mais enregistree avec : #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.1 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 001801_001928
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/vraies_C$X \ #
# A=$xw1/JULI.1%04d \ #
# p=$xiP/fractal.11 \ #
# RR=$xw1/JULI.1%04d$ROUGE \ #
# RV=$xw1/JULI.1%04d$VERTE \ #
# RB=$xw1/JULI.1%04d$BLEUE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/convol.05$X \ #
# A=$xw1/JULI.1%04d$ROUGE \ #
# seuil=64 \ #
# R=$xw1/JULI.1%04d$ROUGE \ #
# $formatI ; #
# $xci/convol.05$X \ #
# A=$xw1/JULI.1%04d$VERTE \ #
# seuil=64 \ #
# R=$xw1/JULI.1%04d$VERTE \ #
# $formatI ; #
# $xci/convol.05$X \ #
# A=$xw1/JULI.1%04d$BLEUE \ #
# seuil=64 \ #
# R=$xw1/JULI.1%04d$BLEUE \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.1 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 001929_001954
sequence 001955_002082
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/vraies_C$X \ #
# A=$xw1/JULI.1%04d \ #
# p=$xiP/fractal.11 \ #
# RR=$xw1/JULI.2%04d$ROUGE \ #
# RV=$xw1/JULI.2%04d$VERTE \ #
# RB=$xw1/JULI.2%04d$BLEUE \ #
# $formatI ; #
# $xci/anti_alia.11$Z \ #
# $xw1/JULI.2%04d \ #
# $xw1/JULI.2%04d \ #
# $xw1/JULI.2%04d \ #
# 81 25 0.2' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.2 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# ATTENTION, le premier enregistrement a du etre interrompu car, en effet, lors de #
# l'application de '$xci/anti_alia.11$Z' les images Argument et Resultat portent le meme nom #
# (a savoir '$xw1/JULI.2????'). Or l'enregistrement avait ete lance parallelement au calcul ; #
# cette operation d'enregistrement etant plus rapide que le calcul lui-meme, l'image #
# enregistree etait donc '$xw1/JULI.2????' dans sa version d'avant la passe d'anti-aliasing. #
# D'ou un deuxieme enregistrement (lance lui a la fin du calcul...). #
sequence 002083_002210
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/stereogra.01$X \ #
# T=$xiio/BAND_RDN.11.51 \ #
# C=$xw1/JULI.1%04d \ #
# R=$xw1/JULI.3%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.3 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz FAUX #
# #
# Le premier film stereogramme ??? #
sequence 002211_002338
sequence 002339_002373
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.4 \ #
# R=$xT/JULI \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xT/JULI \ #
# C=$xT/JULI \ #
# pf=0.334 \ #
# R=$xw1/JULI.4%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.4 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz FAUX #
# #
# Certaines images presentant des defauts (des nuages de points...), la sequence a du etre #
# reenregistree (deux fois, car j'ai interrompu la premiere reedition pour pouvoir faire #
# des essais et de plus la methode ci-dessus est trop simpliste car le champ de cote est #
# decale a gauche alors qu'il devrait etre centre ; cela explique aussi les sortes de #
# dechirement qui apparaissent sur certaines images, et par exemple la '002245', ce #
# dechirement correspondant a la fin du chmap de cote au milieu de l'image...). #
sequence 002374_002501
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.333 \ #
# R=$xT/TRAME \ #
# $formatI ; #
# $xci/move$X \ #
# A=$xT/TRAME \ #
# xR=0.667 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.334 \ #
# R=$xT/COTE \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xT/TRAME \ #
# C=$xT/COTE \ #
# pf=0.335 \ #
# R=$xw1/JULI.4%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.4 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz FAUX #
# #
# On notera qu'ici donc la trame et le champ de cote sont deux bandes verticales identiques #
# mais qui ne sont localisees au meme endroit : la trame est calee a gauche, alors que le #
# champ de cote est centre... #
sequence 002502_002629
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.333 \ #
# $formatI | #
# $xci/move$X \ #
# xR=0.667 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.334 \ #
# R=$xT/COTE \ #
# $formatI ; #
# $xci/move$X \ #
# A=$xT/COTE \ #
# xR=-0.333 \ #
# R=$xT/TRAME \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xT/TRAME \ #
# C=$xT/COTE \ #
# pf=0.333 \ #
# R=$xw1/JULI.4%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.4 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz FAUX #
# #
# La ligne verticale qui apparait a droite de chaque image vient du fait que les #
# stereogrammes calcules ici sont des stereogrammes a 3 bandes, et que malheureusement #
# la dimension 'dimX' (egale a 512 ici) n'est pas divisible par 3 (3x170+2 = 512). Il #
# aurait ete bien sur possible de generer des stereogrammes a 4 bandes, mais dans la #
# mesure ou l'on veut visualiser la plus grande partie d'un objet, il faut que les bandes #
# soient le plus large possibles... #
sequence 002630_002757
sequence 002758_002758
sequence 002759_002759
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/vraies_C$X \ #
# A=$xw1/JULI.1%04d \ #
# p=$xiP/montagnes.01 \ #
# RR=$xw1/JULI.5%04d$ROUGE \ #
# RV=$xw1/JULI.5%04d$VERTE \ #
# RB=$xw1/JULI.5%04d$BLEUE \ #
# $formatI' #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/convol.05$X \ #
# A=$xw1/JULI.5%04d$ROUGE \ #
# seuil=64 \ #
# R=$xw1/JULI.5%04d$ROUGE \ #
# $formatI ; #
# $xci/convol.05$X \ #
# A=$xw1/JULI.5%04d$VERTE \ #
# seuil=64 \ #
# R=$xw1/JULI.5%04d$VERTE \ #
# $formatI ; #
# $xci/convol.05$X \ #
# A=$xw1/JULI.5%04d$BLEUE \ #
# seuil=64 \ #
# R=$xw1/JULI.5%04d$BLEUE \ #
# $formatI' #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.5%04d$ROUGE \ #
# xR=0.334 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.667 \ #
# R=$xw1/JULI.5%04d$ROUGE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.333 \ #
# $formatI | #
# $xci/move$X \ #
# xR=0.667 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.334 \ #
# R=$xT/COTE \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xw1/JULI.5%04d$ROUGE \ #
# C=$xT/COTE \ #
# pf=0.333 \ #
# R=$xw1/JULI.5%04d$ROUGE \ #
# $formatI' #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.5%04d$VERTE \ #
# xR=0.334 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.667 \ #
# R=$xw1/JULI.5%04d$VERTE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.333 \ #
# $formatI | #
# $xci/move$X \ #
# xR=0.667 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.334 \ #
# R=$xT/COTE \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xw1/JULI.5%04d$VERTE \ #
# C=$xT/COTE \ #
# pf=0.333 \ #
# R=$xw1/JULI.5%04d$VERTE \ #
# $formatI' #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.5%04d$BLEUE \ #
# xR=0.334 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.667 \ #
# R=$xw1/JULI.5%04d$BLEUE \ #
# $formatI' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/move$X \ #
# A=$xw1/JULI.1%04d \ #
# xR=-0.333 \ #
# $formatI | #
# $xci/move$X \ #
# xR=0.667 \ #
# $formatI | #
# $xci/move$X \ #
# xR=-0.334 \ #
# R=$xT/COTE \ #
# $formatI ; #
# $xci/stereogra.01$X \ #
# T=$xw1/JULI.5%04d$BLEUE \ #
# C=$xT/COTE \ #
# pf=0.333 \ #
# R=$xw1/JULI.5%04d$BLEUE \ #
# $formatI' #
# #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.5 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# On notera que la palette utilisee est '$xiP/montagnes.01' et non pas '$xiP/fractal.11' #
# comme cela est fait habituellement. En effet, le passage des images '$xw1/JULI.1' a leurs #
# stereogrammes exploite le fait que les niveaux de gris sont en fait proportionnels a la #
# profondeur ('Z'). Or l'anti-aliasing rajoute des niveaux interpoles qui n'ont alors plus #
# rien a voir avec cette trosieme dimension. D'ou l'utilisation d'une palette monochrome... #
# C'est aussi la raison pour laquelle le champ de cote utilise '$xT/COTE' n'est pas calcule #
# a partir de la trame '$xT/TRAME' qui est en vraies couleurs, ce qui ferait donc un champ #
# de cote par couleur (ce qui manquerait pour le moins de logique) mais a partir des images #
# de base '$xw1/JULI.1' qui elles seules donnent la vraies profondeur... #
# #
# La ligne verticale qui apparait a droite de chaque image vient du fait que les #
# stereogrammes calcules ici sont des stereogrammes a 3 bandes, et que malheureusement #
# la dimension 'dimX' (egale a 512 ici) n'est pas divisible par 3 (3x170+2 = 512). Il #
# aurait ete bien sur possible de generer des stereogrammes a 4 bandes, mais dans la #
# mesure ou l'on veut visualiser la plus grande partie d'un objet, il faut que les bandes #
# soient le plus large possibles... #
# #
# La sequence a du etre reenregistree car en effet, le fond du premier enregistrement n'est #
# pas noir ; la cause en est-elle que l'enregistrement a eu lieu alors que le moniteur 'RVB' #
# ainsi que le magnetoscope 'VHS' etaient hors-tension ??? Il y a eu entre autres choses, #
# deux essais avec une image (avec '$Redimensionner' egal a 'VRAI' puis 'FAUX') pour verifier #
# rapidement que le disque n'avait pas de problemes... Et bien, j'ai compris : c'est tout #
# simplement la palette '$xiP/montagnes.01' dont la couleur correspondant a '$NOIR' n'est #
# pas noire mais bleutee !!! #
sequence 002760_002823
sequence 002824_002887
# Generees par : #
# #
# cp $xiaf/PAYSAGE.4$R64 $xw1/PAYS.1.0001 #
# rw $xw1/PAYS.1.0001 #
# #
# #define N0 1 #
# #define N 64 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xci/stereogra.01$X #
# T=$xw1/PAYS.1.%04d #
# pf=1 pi=0.125 #
# C=$xw1/JULI.1%04d #
# R=$xw1/PAYS.3.%04d #
# $formatI\n #
# $xci/decale_circ$X #
# A=$xw1/PAYS.1.%04d #
# trx=-0.125 try=-0.125 #
# R=$xw1/PAYS.1.%04d #
# $formatI\n" #
# ,n,2*n-1,n,n,n+1 #
# ); #
# } #
# } #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/PAYS.3. 1 64 $xiP/paysages.67 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_paysages #
# $xci/disk_video_P$Z $xw1/PAYS.3. 1 64 $xiP/paysages.67 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_paysages VRAI #
# #
sequence 002888_002888
sequence 002889_003144
sequence 003145_003400
sequence 003401_003656
sequence 003657_003912
sequence 003913_004168
# Generee par : #
# #
# Pal #
# #
# $xrc/mandel.01$X N=256 \ #
# iterations=256 \ #
# xbgD=-2 ybgD=-1.25 \ #
# xhdD=0.5 yhdD=1.25 \ #
# xbgA=-1.79606999534 ybgA=-0.00000000001 \ #
# xhdA=-1.79606999532 yhdA=+0.00000000001 \ #
# arguments=VRAI \ #
# R=$xw1/MAND.1. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/MAND.1. 0 255 $xiP/arc_ciel.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MAND.1. 0 255 $xiP/cercle.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MAND.1. 0 255 $xiP/fractal.91 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MAND.1. 0 255 $xiP/orange.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MAND.1. 0 255 $xiP/random.86 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# La premiere sequence (composee d'une seul image) ayant ete enregistree par accident... #
sequence 004169_004294
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=15 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# #
# /\ #
# || #
# | - #
# Std - | #
# || #
# \/ #
# $xrc/julia.42$X \ #
# couches=15 \ #
# iterations=32 \ #
# seuil=$GRIS_6 \ #
# editer=VRAI \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# R=$xw1/JULI.A. \ #
# M=$xT/JULI.A. \ #
# $formatI #
# #
# Les ensembles de Julia calcules sont parametres a l'aide des Quaternions suivants (mais #
# ATTENTION, on est en mode 'Std') : #
# #
# Std #
# #
# image 0001 : quaternion=(-1.129160000,-0.281311000,0,0) #
# image 0002 : quaternion=(-1.060670000,-0.281311000,0,0) #
# image 0003 : quaternion=(-1.011740000,-0.300881000,0,0) #
# image 0004 : quaternion=(-0.957926000,-0.286204000,0,0) #
# image 0005 : quaternion=(-0.913894000,-0.261742000,0,0) #
# image 0006 : quaternion=(-0.864971000,-0.242172000,0,0) #
# image 0007 : quaternion=(-0.801370000,-0.237280000,0,0) #
# image 0008 : quaternion=(-0.742661000,-0.247065000,0,0) #
# image 0009 : quaternion=(-0.713307000,-0.286204000,0,0) #
# image 0010 : quaternion=(-0.698630000,-0.340020000,0,0) #
# image 0011 : quaternion=(-0.664384000,-0.374266000,0,0) #
# image 0012 : quaternion=(-0.664384000,-0.442759000,0,0) #
# image 0013 : quaternion=(-0.625245000,-0.472114000,0,0) #
# image 0014 : quaternion=(-0.571429000,-0.486791000,0,0) #
# image 0015 : quaternion=(-0.561644000,-0.545499000,0,0) #
# image 0016 : quaternion=(-0.566536000,-0.609100000,0,0) #
# image 0017 : quaternion=(-0.551859000,-0.643346000,0,0) #
# image 0018 : quaternion=(-0.512720000,-0.623777000,0,0) #
# image 0019 : quaternion=(-0.458904000,-0.609100000,0,0) #
# image 0020 : quaternion=(-0.395303000,-0.613992000,0,0) #
# image 0021 : quaternion=(-0.365949000,-0.653131000,0,0) #
# image 0022 : quaternion=(-0.302348000,-0.648239000,0,0) #
# image 0023 : quaternion=(-0.253425000,-0.667808000,0,0) #
# image 0024 : quaternion=(-0.243640000,-0.726517000,0,0) #
# image 0025 : quaternion=(-0.233855000,-0.785225000,0,0) #
# image 0026 : quaternion=(-0.219178000,-0.839041000,0,0) #
# image 0027 : quaternion=(-0.160470000,-0.848826000,0,0) #
# image 0028 : quaternion=(-0.131115000,-0.887965000,0,0) #
# image 0029 : quaternion=(-0.106654000,-0.931996000,0,0) #
# image 0030 : quaternion=(-0.091976500,-0.917319000,0,0) #
# image 0031 : quaternion=(-0.072407000,-0.868395000,0,0) #
# image 0032 : quaternion=(-0.043052800,-0.829256000,0,0) #
# image 0033 : quaternion=(-0.008806260,-0.795010000,0,0) #
# image 0034 : quaternion=(-0.008806260,-0.726517000,0,0) #
# image 0035 : quaternion=(+0.000978474,-0.667808000,0,0) #
# image 0036 : quaternion=(+0.045009800,-0.643346000,0,0) #
# image 0037 : quaternion=(+0.108611000,-0.638454000,0,0) #
# image 0038 : quaternion=(+0.147750000,-0.609100000,0,0) #
# image 0039 : quaternion=(+0.177104000,-0.569961000,0,0) #
# image 0040 : quaternion=(+0.245597000,-0.569961000,0,0) #
# image 0041 : quaternion=(+0.299413000,-0.584638000,0,0) #
# image 0042 : quaternion=(+0.343444000,-0.560176000,0,0) #
# image 0043 : quaternion=(+0.318982000,-0.516145000,0,0) #
# image 0044 : quaternion=(+0.318982000,-0.447652000,0,0) #
# image 0045 : quaternion=(+0.338552000,-0.398728000,0,0) #
# image 0046 : quaternion=(+0.367906000,-0.359589000,0,0) #
# image 0047 : quaternion=(+0.421722000,-0.344912000,0,0) #
# image 0048 : quaternion=(+0.382583000,-0.315558000,0,0) #
# image 0049 : quaternion=(+0.382583000,-0.247065000,0,0) #
# image 0050 : quaternion=(+0.382583000,-0.188356000,0,0) #
# image 0051 : quaternion=(+0.363014000,-0.139432000,0,0) #
# image 0052 : quaternion=(+0.338552000,-0.095401200,0,0) #
# image 0053 : quaternion=(+0.304305000,-0.061154600,0,0) #
# image 0054 : quaternion=(+0.289628000,-0.007338550,0,0) #
# image 0055 : quaternion=(+0.294521000,+0.056262200,0,0) #
# image 0056 : quaternion=(+0.328767000,+0.090508800,0,0) #
# image 0057 : quaternion=(+0.358121000,+0.129648000,0,0) #
# image 0058 : quaternion=(+0.382583000,+0.173679000,0,0) #
# image 0059 : quaternion=(+0.382583000,+0.232387000,0,0) #
# image 0060 : quaternion=(+0.382583000,+0.300881000,0,0) #
# image 0061 : quaternion=(+0.407045000,+0.344912000,0,0) #
# image 0062 : quaternion=(+0.382583000,+0.359589000,0,0) #
# image 0063 : quaternion=(+0.343444000,+0.388943000,0,0) #
# image 0064 : quaternion=(+0.318982000,+0.432975000,0,0) #
# image 0065 : quaternion=(+0.318982000,+0.501468000,0,0) #
# image 0066 : quaternion=(+0.343444000,+0.545499000,0,0) #
# image 0067 : quaternion=(+0.318982000,+0.589530000,0,0) #
# image 0068 : quaternion=(+0.260274000,+0.579746000,0,0) #
# image 0069 : quaternion=(+0.196673000,+0.574853000,0,0) #
# image 0070 : quaternion=(+0.152642000,+0.599315000,0,0) #
# image 0071 : quaternion=(+0.128180000,+0.643346000,0,0) #
# image 0072 : quaternion=(+0.059686900,+0.643346000,0,0) #
# image 0073 : quaternion=(+0.010763200,+0.662916000,0,0) #
# image 0074 : quaternion=(-0.008806260,+0.711840000,0,0) #
# image 0075 : quaternion=(-0.008806260,+0.780333000,0,0) #
# image 0076 : quaternion=(-0.023483400,+0.834149000,0,0) #
# image 0077 : quaternion=(-0.072407000,+0.853718000,0,0) #
# image 0078 : quaternion=(-0.091976500,+0.902642000,0,0) #
# image 0079 : quaternion=(-0.106654000,+0.956458000,0,0) #
# image 0080 : quaternion=(-0.116438000,+0.897750000,0,0) #
# image 0081 : quaternion=(-0.155577000,+0.868395000,0,0) #
# image 0082 : quaternion=(-0.204501000,+0.848826000,0,0) #
# image 0083 : quaternion=(-0.233855000,+0.809687000,0,0) #
# image 0084 : quaternion=(-0.238748000,+0.746086000,0,0) #
# image 0085 : quaternion=(-0.248532000,+0.687378000,0,0) #
# image 0086 : quaternion=(-0.282779000,+0.653131000,0,0) #
# image 0087 : quaternion=(-0.351272000,+0.653131000,0,0) #
# image 0088 : quaternion=(-0.380626000,+0.623777000,0,0) #
# image 0089 : quaternion=(-0.439335000,+0.613992000,0,0) #
# image 0090 : quaternion=(-0.502935000,+0.618885000,0,0) #
# image 0091 : quaternion=(-0.537182000,+0.653131000,0,0) #
# image 0092 : quaternion=(-0.571429000,+0.628669000,0,0) #
# image 0093 : quaternion=(-0.561644000,+0.569961000,0,0) #
# image 0094 : quaternion=(-0.566536000,+0.506360000,0,0) #
# image 0095 : quaternion=(-0.605675000,+0.477006000,0,0) #
# image 0096 : quaternion=(-0.654599000,+0.457436000,0,0) #
# image 0097 : quaternion=(-0.664384000,+0.398728000,0,0) #
# image 0098 : quaternion=(-0.683953000,+0.349804000,0,0) #
# image 0099 : quaternion=(-0.708415000,+0.305773000,0,0) #
# image 0100 : quaternion=(-0.727984000,+0.256849000,0,0) #
# image 0101 : quaternion=(-0.781800000,+0.242172000,0,0) #
# image 0102 : quaternion=(-0.850294000,+0.242172000,0,0) #
# image 0103 : quaternion=(-0.899217000,+0.261742000,0,0) #
# image 0104 : quaternion=(-0.938356000,+0.291096000,0,0) #
# image 0105 : quaternion=(-1.001960000,+0.295988000,0,0) #
# image 0106 : quaternion=(-1.045990000,+0.291096000,0,0) #
# image 0107 : quaternion=(-1.109590000,+0.286204000,0,0) #
# image 0108 : quaternion=(-1.163410000,+0.300881000,0,0) #
# image 0109 : quaternion=(-1.192760000,+0.271526000,0,0) #
# image 0110 : quaternion=(-1.197650000,+0.207926000,0,0) #
# image 0111 : quaternion=(-1.231900000,+0.173679000,0,0) #
# image 0112 : quaternion=(-1.256360000,+0.129648000,0,0) #
# image 0113 : quaternion=(-1.290610000,+0.095401200,0,0) #
# image 0114 : quaternion=(-1.359100000,+0.095401200,0,0) #
# image 0115 : quaternion=(-1.383560000,+0.051369900,0,0) #
# image 0116 : quaternion=(-1.417810000,+0.017123300,0,0) #
# image 0117 : quaternion=(-1.461840000,-0.007338550,0,0) #
# image 0118 : quaternion=(-1.403130000,-0.017123300,0,0) #
# image 0119 : quaternion=(-1.378670000,-0.061154600,0,0) #
# image 0120 : quaternion=(-1.339530000,-0.090508800,0,0) #
# image 0121 : quaternion=(-1.280820000,-0.100294000,0,0) #
# image 0122 : quaternion=(-1.251470000,-0.139432000,0,0) #
# image 0123 : quaternion=(-1.222110000,-0.178571000,0,0) #
# image 0124 : quaternion=(-1.192760000,-0.217710000,0,0) #
# image 0125 : quaternion=(-1.192760000,-0.286204000,0,0) #
# image 0126 : quaternion=(-1.178080000,-0.300881000,0,0) #
# #
# ATTENTION, en mode 'Pal', on obtient quelque chose de different (et en particulier plus #
# d'images) : #
# #
# Pal #
# #
# image 0001 : quaternion=(-1.1270860077021823,-0.1263066202090593,0,0) #
# image 0002 : quaternion=(-1.1110397946084725,-0.1698606271777003,0,0) #
# image 0003 : quaternion=(-1.0853658536585367,-0.2003484320557491,0,0) #
# image 0004 : quaternion=(-1.0789473684210527,-0.2569686411149825,0,0) #
# image 0005 : quaternion=(-1.0661103979460846,-0.3048780487804879,0,0) #
# image 0006 : quaternion=(-1.0308087291399231,-0.2874564459930313,0,0) #
# image 0007 : quaternion=(-0.9858793324775352,-0.2831010452961673,0,0) #
# image 0008 : quaternion=(-0.9569961489088574,-0.3092334494773519,0,0) #
# image 0009 : quaternion=(-0.9216944801026958,-0.2918118466898955,0,0) #
# image 0010 : quaternion=(-0.8831835686777920,-0.2787456445993032,0,0) #
# image 0011 : quaternion=(-0.8510911424903722,-0.2569686411149825,0,0) #
# image 0012 : quaternion=(-0.8125802310654686,-0.2439024390243902,0,0) #
# image 0013 : quaternion=(-0.7644415917843390,-0.2439024390243902,0,0) #
# image 0014 : quaternion=(-0.7323491655969190,-0.2656794425087108,0,0) #
# image 0015 : quaternion=(-0.7227214377406930,-0.3179442508710801,0,0) #
# image 0016 : quaternion=(-0.7002567394094994,-0.3527874564459931,0,0) #
# image 0017 : quaternion=(-0.6906290115532734,-0.4050522648083623,0,0) #
# image 0018 : quaternion=(-0.6777920410783054,-0.4529616724738676,0,0) #
# image 0019 : quaternion=(-0.6456996148908858,-0.4747386759581882,0,0) #
# image 0020 : quaternion=(-0.6168164313222078,-0.5008710801393729,0,0) #
# image 0021 : quaternion=(-0.6136071887034660,-0.5618466898954704,0,0) #
# image 0022 : quaternion=(-0.6200256739409500,-0.6184668989547039,0,0) #
# image 0023 : quaternion=(-0.6007702182284982,-0.6489547038327527,0,0) #
# image 0024 : quaternion=(-0.5750962772785622,-0.6271777003484320,0,0) #
# image 0025 : quaternion=(-0.5365853658536586,-0.6141114982578397,0,0) #
# image 0026 : quaternion=(-0.4916559691912707,-0.6184668989547039,0,0) #
# image 0027 : quaternion=(-0.4691912708600769,-0.6533101045296167,0,0) #
# image 0028 : quaternion=(-0.4274711168164314,-0.6533101045296167,0,0) #
# image 0029 : quaternion=(-0.3889602053915278,-0.6663763066202091,0,0) #
# image 0030 : quaternion=(-0.3825417201540438,-0.7229965156794426,0,0) #
# image 0031 : quaternion=(-0.3729139922978177,-0.7752613240418118,0,0) #
# image 0032 : quaternion=(-0.3697047496790757,-0.8362369337979094,0,0) #
# image 0033 : quaternion=(-0.3311938382541719,-0.8493031358885017,0,0) #
# image 0034 : quaternion=(-0.3055198973042363,-0.8797909407665505,0,0) #
# image 0035 : quaternion=(-0.2798459563543003,-0.9102787456445993,0,0) #
# image 0036 : quaternion=(-0.2670089858793325,-0.9581881533101045,0,0) #
# image 0037 : quaternion=(-0.2637997432605905,-0.8972125435540069,0,0) #
# image 0038 : quaternion=(-0.2477535301668805,-0.8536585365853658,0,0) #
# image 0039 : quaternion=(-0.2156611039794609,-0.8318815331010453,0,0) #
# image 0040 : quaternion=(-0.1996148908857511,-0.7970383275261324,0,0) #
# image 0041 : quaternion=(-0.1996148908857511,-0.7317073170731707,0,0) #
# image 0042 : quaternion=(-0.1964056482670089,-0.6707317073170731,0,0) #
# image 0043 : quaternion=(-0.1643132220795891,-0.6489547038327527,0,0) #
# image 0044 : quaternion=(-0.1193838254172015,-0.6445993031358885,0,0) #
# image 0045 : quaternion=(-0.0872913992297817,-0.6228222996515680,0,0) #
# image 0046 : quaternion=(-0.0712451861360717,-0.5792682926829268,0,0) #
# image 0047 : quaternion=(-0.0263157894736841,-0.5749128919860627,0,0) #
# image 0048 : quaternion=(+0.0121951219512195,-0.5879790940766551,0,0) #
# image 0049 : quaternion=(+0.0603337612323491,-0.5879790940766551,0,0) #
# image 0050 : quaternion=(+0.0571245186136071,-0.5531358885017422,0,0) #
# image 0051 : quaternion=(+0.0410783055198971,-0.5095818815331010,0,0) #
# image 0052 : quaternion=(+0.0410783055198971,-0.4442508710801394,0,0) #
# image 0053 : quaternion=(+0.0571245186136071,-0.4006968641114983,0,0) #
# image 0054 : quaternion=(+0.0763799743260591,-0.3614982578397212,0,0) #
# image 0055 : quaternion=(+0.1213093709884467,-0.3571428571428571,0,0) #
# image 0056 : quaternion=(+0.0956354300385112,-0.3266550522648083,0,0) #
# image 0057 : quaternion=(+0.0860077021822852,-0.2743902439024390,0,0) #
# image 0058 : quaternion=(+0.0924261874197687,-0.2177700348432057,0,0) #
# image 0059 : quaternion=(+0.0860077021822852,-0.1611498257839723,0,0) #
# image 0060 : quaternion=(+0.0699614890885751,-0.1175958188153310,0,0) #
# image 0061 : quaternion=(+0.0474967907573811,-0.0827526132404182,0,0) #
# image 0062 : quaternion=(+0.0250320924261875,-0.0479094076655053,0,0) #
# image 0063 : quaternion=(+0.0186136071887035,+0.0087108013937280,0,0) #
# image 0064 : quaternion=(+0.0282413350449295,+0.0609756097560976,0,0) #
# image 0065 : quaternion=(+0.0507060333761231,+0.0958188153310104,0,0) #
# image 0066 : quaternion=(+0.0731707317073171,+0.1306620209059233,0,0) #
# image 0067 : quaternion=(+0.0860077021822852,+0.1785714285714284,0,0) #
# image 0068 : quaternion=(+0.0892169448010272,+0.2308362369337980,0,0) #
# image 0069 : quaternion=(+0.0860077021822852,+0.2918118466898956,0,0) #
# image 0070 : quaternion=(+0.0988446726572532,+0.3397212543554007,0,0) #
# image 0071 : quaternion=(+0.1116816431322207,+0.3614982578397212,0,0) #
# image 0072 : quaternion=(+0.0699614890885751,+0.3702090592334495,0,0) #
# image 0073 : quaternion=(+0.0539152759948651,+0.4137630662020906,0,0) #
# image 0074 : quaternion=(+0.0410783055198971,+0.4616724738675959,0,0) #
# image 0075 : quaternion=(+0.0442875481386396,+0.5226480836236933,0,0) #
# image 0076 : quaternion=(+0.0571245186136071,+0.5705574912891986,0,0) #
# image 0077 : quaternion=(+0.0507060333761231,+0.5923344947735192,0,0) #
# image 0078 : quaternion=(+0.0025673940949935,+0.5923344947735192,0,0) #
# image 0079 : quaternion=(-0.0359435173299101,+0.5792682926829267,0,0) #
# image 0080 : quaternion=(-0.0744544287548139,+0.5923344947735192,0,0) #
# image 0081 : quaternion=(-0.0905006418485237,+0.6358885017421603,0,0) #
# image 0082 : quaternion=(-0.1290115532734275,+0.6489547038327526,0,0) #
# image 0083 : quaternion=(-0.1707317073170733,+0.6576655052264808,0,0) #
# image 0084 : quaternion=(-0.1996148908857511,+0.6837979094076654,0,0) #
# image 0085 : quaternion=(-0.1996148908857511,+0.7491289198606270,0,0) #
# image 0086 : quaternion=(-0.1996148908857511,+0.8144599303135887,0,0) #
# image 0087 : quaternion=(-0.2252888318356867,+0.8362369337979096,0,0) #
# image 0088 : quaternion=(-0.2477535301668805,+0.8710801393728222,0,0) #
# image 0089 : quaternion=(-0.2637997432605905,+0.9146341463414633,0,0) #
# image 0090 : quaternion=(-0.2766367137355585,+0.9625435540069684,0,0) #
# image 0091 : quaternion=(-0.2830551989730425,+0.9059233449477353,0,0) #
# image 0092 : quaternion=(-0.3087291399229781,+0.8754355400696863,0,0) #
# image 0093 : quaternion=(-0.3376123234916562,+0.8493031358885017,0,0) #
# image 0094 : quaternion=(-0.3729139922978177,+0.8318815331010452,0,0) #
# image 0095 : quaternion=(-0.3729139922978177,+0.7665505226480835,0,0) #
# image 0096 : quaternion=(-0.3825417201540438,+0.7142857142857142,0,0) #
# image 0097 : quaternion=(-0.3953786906290115,+0.6663763066202091,0,0) #
# image 0098 : quaternion=(-0.4370988446726571,+0.6576655052264808,0,0) #
# image 0099 : quaternion=(-0.4724005134788192,+0.6489547038327526,0,0) #
# image 0100 : quaternion=(-0.4980744544287548,+0.6184668989547037,0,0) #
# image 0101 : quaternion=(-0.5462130937098846,+0.6184668989547037,0,0) #
# image 0102 : quaternion=(-0.5815147625160462,+0.6358885017421603,0,0) #
# image 0103 : quaternion=(-0.6071887034659820,+0.6489547038327526,0,0) #
# image 0104 : quaternion=(-0.6168164313222078,+0.6141114982578397,0,0) #
# image 0105 : quaternion=(-0.6136071887034660,+0.5531358885017421,0,0) #
# image 0106 : quaternion=(-0.6200256739409500,+0.4965156794425087,0,0) #
# image 0107 : quaternion=(-0.6553273427471118,+0.4790940766550522,0,0) #
# image 0108 : quaternion=(-0.6874197689345314,+0.4573170731707319,0,0) #
# image 0109 : quaternion=(-0.6906290115532734,+0.3963414634146343,0,0) #
# image 0110 : quaternion=(-0.7066752246469834,+0.3527874564459930,0,0) #
# image 0111 : quaternion=(-0.7227214377406930,+0.3092334494773519,0,0) #
# image 0112 : quaternion=(-0.7355584082156612,+0.2613240418118468,0,0) #
# image 0113 : quaternion=(-0.7740693196405648,+0.2482578397212543,0,0) #
# image 0114 : quaternion=(-0.8222079589216946,+0.2482578397212543,0,0) #
# image 0115 : quaternion=(-0.8575096277278562,+0.2656794425087108,0,0) #
# image 0116 : quaternion=(-0.8863928112965340,+0.2918118466898956,0,0) #
# image 0117 : quaternion=(-0.9313222079589218,+0.2961672473867596,0,0) #
# image 0118 : quaternion=(-0.9602053915275994,+0.3048780487804879,0,0) #
# image 0119 : quaternion=(-0.9955070603337612,+0.2874564459930316,0,0) #
# image 0120 : quaternion=(-1.0404364569961488,+0.2918118466898956,0,0) #
# image 0121 : quaternion=(-1.0757381258023107,+0.3092334494773519,0,0) #
# image 0122 : quaternion=(-1.0789473684210527,+0.2482578397212543,0,0) #
# image 0123 : quaternion=(-1.0885750962772784,+0.1959930313588851,0,0) #
# image 0124 : quaternion=(-1.1206675224646983,+0.1742160278745644,0,0) #
# image 0125 : quaternion=(-1.1302952503209243,+0.1219512195121952,0,0) #
# image 0126 : quaternion=(-1.1591784338896021,+0.0958188153310104,0,0) #
# image 0127 : quaternion=(-1.2073170731707317,+0.0958188153310104,0,0) #
# image 0128 : quaternion=(-1.2201540436456997,+0.0479094076655051,0,0) #
# image 0129 : quaternion=(-1.2458279845956355,+0.0174216027874565,0,0) #
# image 0130 : quaternion=(-1.2779204107830553,-0.0043554006968640,0,0) #
# image 0131 : quaternion=(-1.2394094993581515,-0.0174216027874565,0,0) #
# image 0132 : quaternion=(-1.2169448010269577,-0.0522648083623694,0,0) #
# image 0133 : quaternion=(-1.1976893453145059,-0.0914634146341462,0,0) #
# image 0134 : quaternion=(-1.1527599486521183,-0.0958188153310104,0,0) #
# #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.A. 1 126 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 004295_004422
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# Std --------------- #
# | #
# \|/ #
# . #
# #
# $xrc/julia.41$X R=$xw1/JULI.B. images=128 \ #
# iterations=255 \ #
# r=-0.708415000 \ #
# i=+0.305773000 \ #
# COMPOSANTE_J=$xT/param11 \ #
# K=0.0 \ #
# $formatI #
# #
# ATTENTION, voir les commentaires de la sequence : #
# #
# xivPdf 7 1 / 004169_004294 #
# #
# relatifs aux differences entre les modes 'Std' et 'Pal' quant au quaternion argument, a #
# savoir (-0.708415000,+0.305773000,...,...), qui n'est pas celui qu'il aurait fallu #
# utiliser (dont le numero d'image est inconnu parce que le numero '0099' a ete repere en #
# mode 'Std', alors qu'ici nous sommes en mode 'Pal', les quatre composantes qu'il aurait #
# fallu utiliser sont donc elles-aussi inconnues). #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.B. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 004423_004678
sequence 004679_004686
sequence 004687_004942
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=0 derniere=255 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xw1/JULI.B. \ #
# seuil=%04d binariser=VRAI \ #
# premiere=1 derniere=128 \ #
# R=$xw1/JULI.C.%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.C. 0 255 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.C. 0 255 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera la presence de 8 images '$xw1/JULI.B.' "parasites" enregistrees par erreur #
# entre les deux sequences ci-dessus... #
sequence 004943_005198
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$pis2 cubique=VRAI \ #
# > $xT/param11 #
# $xci/valeurs_inte$X p=129 d=256 vD=$pis2 vA=$pis2 cubique=VRAI \ #
# >>! $xT/param11 #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=0 cubique=VRAI \ #
# > $xT/param12 #
# $xci/valeurs_inte$X p=129 d=256 vD=0 vA=$pis2 cubique=VRAI \ #
# >>! $xT/param12 #
# #
# Std #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/vraies_C$X \ #
# A=$xw1/JULI.B.%04d \ #
# p=$xiP/cercle.32 \ #
# RR=$xT/JULI.B$ROUGE.%04d \ #
# RV=$xT/JULI.B$VERTE.%04d \ #
# RB=$xT/JULI.B$BLEUE.%04d \ #
# $formatI' #
# #
# $xrv/champs_5.20$X \ #
# np=256 \ #
# A=$xw1/JULI.B. \ #
# premiere=1 derniere=128 pas=2 \ #
# evolution=VRAI \ #
# cRAYON=$xw1/JULI.B. \ #
# cROUGE=$xT/JULI.B$ROUGE. \ #
# cVERTE=$xT/JULI.B$VERTE. \ #
# cBLEUE=$xT/JULI.B$BLEUE. \ #
# px=8 py=8 \ #
# seuil=32 \ #
# ROTATION_OX=$xT/param12 \ #
# ROTATION_OY=$xT/param11 \ #
# ZOOM=0.8 \ #
# Lx=100 Ly=100 Lz=1000 \ #
# R=$xw1/JULI.D. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.D. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 005199_005324
sequence 005325_005450
sequence 005451_005576
sequence 005577_005702
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# Std | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=VRAI attenuation=0 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# R=$xiim/JULI.E. \ #
# M=$xT/JULI.E. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xiim/JULI.E. 1 126 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.E. 1 126 $xiP/marron.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.E. 1 126 $xiP/random.06 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.E. 1 126 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 005703_005828
sequence 005829_005954
sequence 005955_006080
sequence 006081_006206
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# Std | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=VRAI attenuation=1 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# R=$xiim/JULI.F. \ #
# M=$xT/JULI.F. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xiim/JULI.F. 1 126 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.F. 1 126 $xiP/marron.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.F. 1 126 $xiP/random.06 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.F. 1 126 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 006207_006332
sequence 006333_006458
sequence 006459_006584
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# Std | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=FAUX binariser=FAUX \ #
# seuil=$GRIS_6 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# R=$xiim/JULI.G. \ #
# M=$xT/JULI.G. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xiim/JULI.G. 1 126 $xiP/marron.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.G. 1 126 $xiP/fractal.91 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI.G. 1 126 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 006585_006710
sequence 006711_006836
sequence 006837_006962
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# Std | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=VRAI attenuation=0 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# R=$xiim/JULI$DROITE.H. \ #
# M=$xT/JULI$DROITE.H. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xiim/JULI$DROITE.H. 1 126 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI$DROITE.H. 1 126 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI$DROITE.H. 1 126 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 006963_007218
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$pis2 cubique=VRAI \ #
# > $xT/param11 #
# $xci/valeurs_inte$X p=129 d=256 vD=$pis2 vA=$pis2 cubique=VRAI \ #
# >>! $xT/param11 #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=0 cubique=VRAI \ #
# > $xT/param12 #
# $xci/valeurs_inte$X p=129 d=256 vD=0 vA=$pis2 cubique=VRAI \ #
# >>! $xT/param12 #
# #
# Std #
# #
# $xrv/champs_5.20$X \ #
# np=256 \ #
# A=$xw1/JULI.B. \ #
# premiere=1 derniere=128 pas=2 \ #
# evolution=VRAI \ #
# facteurR=12 \ #
# cRAYON=$xw1/JULI.B. \ #
# px=8 py=8 \ #
# seuilI=32 seuilS=48 \ #
# ROTATION_OX=$xT/param12 \ #
# ROTATION_OY=$xT/param11 \ #
# ZOOM=0.8 \ #
# ZminimumT=0.25 ZmaximumT=1.00 \ #
# Lx=100 Ly=100 Lz=1000 \ #
# R=$xw1/JULI.I. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JULI.I. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 007219_007474
sequence 007475_007730
sequence 007731_007986
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=0 derniere=255 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xiim/JULI$DROITE.H. \ #
# seuil=%04d binariser=FAUX \ #
# premiere=1 derniere=126 \ #
# R=$xw1/JU$DROITE.J.%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JU$DROITE.J. 0 255 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$DROITE.J. 0 255 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$DROITE.J. 0 255 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 007987_008112
sequence 008113_008238
sequence 008239_008364
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# Std | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=VRAI attenuation=0 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=-0.00195695 try=+0.00195695 \ #
# R=$xiim/JULI$GAUCHE.H. \ #
# M=$xT/JULI$GAUCHE.H. \ #
# $formatI #
# #
# Std #
# #
# $xci/disk_video_P$Z $xiim/JULI$GAUCHE.H. 1 126 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI$GAUCHE.H. 1 126 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JULI$GAUCHE.H. 1 126 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 008365_008620
sequence 008621_008876
sequence 008877_009132
# Generee par : #
# #
# Std #
# #
# $xci/genere$X premiere=0 derniere=255 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xiim/JULI$GAUCHE.H. \ #
# seuil=%04d binariser=FAUX \ #
# premiere=1 derniere=126 \ #
# R=$xw1/JU$GAUCHE.J.%04d \ #
# $formatI' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.J. 0 255 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.J. 0 255 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.J. 0 255 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 009133_009260
sequence 009261_009388
sequence 009389_009516
sequence 009517_009644
sequence 009645_009772
sequence 009773_009900
sequence 009901_009999
sequence 010000_010127
sequence 010128_010255
sequence 010256_010383
sequence 010384_010511
sequence 010512_010639
sequence 010640_010767
sequence 010768_010895
sequence 010896_011023
sequence 011024_011122
sequence 011123_011250
sequence 011251_011378
# Generees par : #
# #
# Pal #
# #
# #
# ATTENTION, par erreur, on notera que, pour calculer les series '$GAUCHE', furent #
# systematiquement utilises les parametres : #
# #
# trx=-0.00195695 try=-0.00195695 #
# #
# a la place de : #
# #
# trx=-0.00195695 try=+0.00195695 #
# #
# dans les codes ci-apres... #
# #
# ATTENTION, voir les commentaires de la sequence : #
# #
# xivPdf 7 1 / 004169_004294 #
# #
# relatifs aux differences entre les modes 'Std' et 'Pal' quant au quaternion argument, a #
# savoir (-0.708415000,+0.305773000,...,...), qui n'est pas celui qu'il aurait fallu #
# utiliser (dont le numero d'image est inconnu parce que le numero '0099' a ete repere en #
# mode 'Std', alors qu'ici nous sommes en mode 'Pal', les quatre composantes qu'il aurait #
# fallu utiliser sont donc elles-aussi inconnues). #
# #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define X1D -1.0 #
# #define X1A +0.5 #
# #define X2D +1.0 #
# #define X2A +0.5 #
# #
# #define Y1D -1.0 #
# #define Y1A +0.0 #
# #define Y2D +1.0 #
# #define Y2A +0.0 #
# #
# #define Z1D -1.0 #
# #define Z1A +0.0 #
# #define Z2D +1.0 #
# #define Z2A +0.0 #
# #
# #define PRECISION 0.02 #
# #
# main() #
# { #
# int n; #
# double x1D=X1D,x1C,x1A=X1A; #
# double x2D=X2D,x2C,x2A=X2A; #
# double y1D=Y1D,y1C,y1A=Y1A; #
# double y2D=Y2D,y2C,y2A=Y2A; #
# double z1D=Z1D,z1C,z1A=Z1A; #
# double z2D=Z2D,z2C,z2A=Z2A; #
# double precision=PRECISION; #
# #
# x1C = x1D; #
# x2C = x2D; #
# y1C = y1D; #
# y2C = y2D; #
# z1C = z1D; #
# z2C = z2D; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$DELETE $xT/param11\n #
# $xci/valeurs_inte$X #
# p=1 d=%d #
# vD=%f vA=%f #
# cubique=FAUX #
# > $xT/param11\n" #
# ,COUCHES #
# ,z1C,z2C #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=64 #
# r=-0.708415000 #
# i=+0.305773000 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# xbgD=%f ybgD=%f #
# xhdD=%f yhdD=%f #
# xbgA=%f ybgA=%f #
# xhdA=%f yhdA=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,x1C,y1C,x2C,y2C #
# ,x1C,y1C,x2C,y2C #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# attenuation=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=+0.00195695 #
# R=$xiim/JU$DROITE.K0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# attenuation=1 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=+0.00195695 #
# R=$xiim/JU$DROITE.K1.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=+0.00195695 #
# R=$xiim/JU$DROITE.L0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=FAUX #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=+0.00195695 #
# R=$xiim/JU$DROITE.L1.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# attenuation=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=-0.00195695 #
# R=$xiim/JU$GAUCHE.K0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# attenuation=1 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=-0.00195695 #
# R=$xiim/JU$GAUCHE.K1.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=-0.00195695 #
# R=$xiim/JU$GAUCHE.L0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=FAUX #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=-0.00195695 #
# R=$xiim/JU$GAUCHE.L1.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# #
# x1C = ((1-precision)*x1C) + (precision*x1A); #
# x2C = ((1-precision)*x2C) + (precision*x2A); #
# y1C = ((1-precision)*y1C) + (precision*y1A); #
# y2C = ((1-precision)*y2C) + (precision*y2A); #
# z1C = ((1-precision)*z1C) + (precision*z1A); #
# z2C = ((1-precision)*z2C) + (precision*z2A); #
# } #
# } #
# #
# Pal #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=64 \ #
# transparence=FAUX binariser=VRAI seuil=$GRIS_6 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=+0.00195695 try=+0.00195695 \ #
# premiere=1 derniere=99 \ #
# R=$xw1/JULI$DROITE.M. \ #
# M=$xT/JULI$DROITE.M. \ #
# $formatI #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=64 \ #
# transparence=FAUX binariser=VRAI seuil=$GRIS_6 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=-0.00195695 try=-0.00195695 \ #
# premiere=1 derniere=99 \ #
# R=$xw1/JULI$GAUCHE.M. \ #
# M=$xT/JULI$GAUCHE.M. \ #
# $formatI #
# #
# #
# ATTENTION, par erreur, on notera que, pour calculer les series '$GAUCHE', furent #
# systematiquement utilises les parametres : #
# #
# trx=-0.00195695 try=-0.00195695 #
# #
# a la place de : #
# #
# trx=-0.00195695 try=+0.00195695 #
# #
# Etant donnee la lourdeur des calculs, je ne les refais pas, considerant que les series #
# '$DROITE' et '$GAUCHE' sont tout simplement deux points de vue differents, mais ne font #
# pas partie d'un couple stereoscopique... #
# #
# ATTENTION, voir les commentaires de la sequence : #
# #
# xivPdf 7 1 / 004169_004294 #
# #
# relatifs aux differences entre les modes 'Std' et 'Pal' quant au quaternion argument, a #
# savoir (-0.708415000,+0.305773000,...,...), qui n'est pas celui qu'il aurait fallu #
# utiliser (dont le numero d'image est inconnu parce que le numero '0099' a ete repere en #
# mode 'Std', alors qu'ici nous sommes en mode 'Pal', les quatre composantes qu'il aurait #
# fallu utiliser sont donc elles-aussi inconnues). #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K0. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K0. 1 128 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K1. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K1. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$DROITE.K1. 1 128 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JULI$DROITE.M. 1 99 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$DROITE.L0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xiim/JU$DROITE.L1. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
# ATTENTION, voir ce qui precede relativement aux series '$DROITE' et '$GAUCHE'... #
# #
# #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K0. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K0. 1 128 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K1. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K1. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.K1. 1 128 $xiP/trou_noir.14 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JULI$GAUCHE.M. 1 99 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.L0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xiim/JU$GAUCHE.L1. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 011379_011383
sequence 011384_011517
sequence 011518_011651
sequence 011652_011785
sequence 011786_011919
# Generees par : #
# #
# Pal #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=1.0 cubique=FAUX > $xT/param11 #
# . #
# /|\ #
# | #
# - #
# | #
# \|/ #
# . #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=FAUX binariser=VRAI seuil=$GRIS_6 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=+0.00195695 try=0 \ #
# editer=VRAI \ #
# R=$xw1/JULI$DROITE.N. \ #
# M=$xT/JULI$DROITE.N. \ #
# $formatI #
# $xrc/julia.42$X \ #
# couches=128 \ #
# iterations=32 \ #
# transparence=FAUX binariser=VRAI seuil=$GRIS_6 \ #
# J_COMPOSANTE_J=$xT/param11 \ #
# JK=0.0 \ #
# translation_quelconque=FAUX stereo=0.0 \ #
# trx=-0.00195695 try=0 \ #
# editer=FAUX \ #
# R=$xw1/JULI$GAUCHE.N. \ #
# M=$xT/JULI$GAUCHE.N. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI$DROITE.N. 1 134 $xiP/arc_ciel.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI$DROITE.N. 1 134 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JULI$GAUCHE.N. 1 134 $xiP/arc_ciel.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI$GAUCHE.N. 1 134 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, la premiere sequence de cinq images correspond a la premiere sequence abortee #
# en cours de route... #
sequence 011920_012021
sequence 012022_012149
sequence 012150_012251
sequence 012252_012379
# Generees par : #
# #
# Pal #
# #
# On notera que le quaternion vise par ce zoom a ete determine par approximations #
# successives a l'aide de '$xrc/julia.01$X' dans le plan Complexe. #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define X1D -1.00 #
# #define X1A -0.05 #
# #define X2D +1.00 #
# #define X2A +0.45 #
# #
# #define Y1D -1.00 #
# #define Y1A -0.85 #
# #define Y2D +1.00 #
# #define Y2A -0.35 #
# #
# #define Z1D -1.00 #
# #define Z1A -0.25 #
# #define Z2D +1.00 #
# #define Z2A +0.25 #
# #
# #define PRECISION 0.01 #
# #
# extern double pow(); #
# #
# main() #
# { #
# int n; #
# double x1D=X1D,x1C,x1A=X1A; #
# double x2D=X2D,x2C,x2A=X2A; #
# double y1D=Y1D,y1C,y1A=Y1A; #
# double y2D=Y2D,y2C,y2A=Y2A; #
# double z1D=Z1D,z1C,z1A=Z1A; #
# double z2D=Z2D,z2C,z2A=Z2A; #
# double precision=PRECISION; #
# double rapport; #
# #
# rapport=pow(precision,1.0/((double)(N-N0))); #
# #
# x1C = x1D; #
# x2C = x2D; #
# y1C = y1D; #
# y2C = y2D; #
# z1C = z1D; #
# z2C = z2D; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$DELETE $xT/param11\n #
# $xci/valeurs_inte$X #
# p=1 d=%d #
# vD=%+.16f vA=%+.16f #
# cubique=FAUX #
# > $xT/param11\n" #
# ,COUCHES #
# ,z1C,z2C #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# xbgD=%+.16f ybgD=%+.16f #
# xhdD=%+.16f yhdD=%+.16f #
# xbgA=%+.16f ybgA=%+.16f #
# xhdA=%+.16f yhdA=%+.16f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,x1C,y1C,x2C,y2C #
# ,x1C,y1C,x2C,y2C #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=0 #
# R=$xw1/JU$DROITE.O0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=0 #
# R=$xw1/JU$GAUCHE.O0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# #
# x1C = ((rapport)*x1C) + ((1-rapport)*x1A); #
# x2C = ((rapport)*x2C) + ((1-rapport)*x2A); #
# y1C = ((rapport)*y1C) + ((1-rapport)*y1A); #
# y2C = ((rapport)*y2C) + ((1-rapport)*y2A); #
# z1C = ((rapport)*z1C) + ((1-rapport)*z1A); #
# z2C = ((rapport)*z2C) + ((1-rapport)*z2A); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI$DROITE.N. 1 102 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$DROITE.O0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JULI$GAUCHE.N. 1 102 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.O0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 012380_012443
sequence 012444_012507
sequence 012508_012571
sequence 012572_012635
# Generees par : #
# #
# Pal #
# #
# On notera que le quaternion vise par ce zoom a ete determine par approximations #
# successives a l'aide de '$xrc/julia.01$X' dans le plan Complexe. #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ITER0 32 #
# #define ITERN 96 #
# #
# #define X1D -1.00000 #
# #define X1A +0.20000 #
# #define X2D +1.00000 #
# #define X2A +0.20000 #
# #
# #define Y1D -1.00000 #
# #define Y1A -0.59960 #
# #define Y2D +1.00000 #
# #define Y2A -0.59960 #
# #
# #define Z1D -1.00000 #
# #define Z1A -0.00000 #
# #define Z2D +1.00000 #
# #define Z2A +0.00000 #
# #
# #define PRECISION 0.00001 #
# #
# extern double pow(); #
# #
# main() #
# { #
# int n; #
# double x1D=X1D,x1C,x1A=X1A; #
# double x2D=X2D,x2C,x2A=X2A; #
# double y1D=Y1D,y1C,y1A=Y1A; #
# double y2D=Y2D,y2C,y2A=Y2A; #
# double z1D=Z1D,z1C,z1A=Z1A; #
# double z2D=Z2D,z2C,z2A=Z2A; #
# double precision=PRECISION; #
# double rapport; #
# #
# rapport=pow(precision,1.0/((double)(N-N0))); #
# #
# x1C = x1D; #
# x2C = x2D; #
# y1C = y1D; #
# y2C = y2D; #
# z1C = z1D; #
# z2C = z2D; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$DELETE $xT/param11\n #
# $xci/valeurs_inte$X #
# p=1 d=%d #
# vD=%+.16f vA=%+.16f #
# cubique=FAUX #
# > $xT/param11\n" #
# ,COUCHES #
# ,z1C,z2C #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=%d #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# xbgD=%+.16f ybgD=%+.16f #
# xhdD=%+.16f yhdD=%+.16f #
# xbgA=%+.16f ybgA=%+.16f #
# xhdA=%+.16f yhdA=%+.16f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,(((ITERN-ITER0)*n)+((ITER0*N)-(ITERN*N0))) #
# / (N-N0) #
# ,x1C,y1C,x2C,y2C #
# ,x1C,y1C,x2C,y2C #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=0 #
# R=$xw1/JU$DROITE.Q0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=$GRIS_6 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=0 #
# R=$xw1/JU$GAUCHE.Q0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# #
# x1C = ((rapport)*x1C) + ((1-rapport)*x1A); #
# x2C = ((rapport)*x2C) + ((1-rapport)*x2A); #
# y1C = ((rapport)*y1C) + ((1-rapport)*y1A); #
# y2C = ((rapport)*y2C) + ((1-rapport)*y2A); #
# z1C = ((rapport)*z1C) + ((1-rapport)*z1A); #
# z2C = ((rapport)*z2C) + ((1-rapport)*z2A); #
# } #
# } #
# #
# Pal #
# #
# ATTENTION, bien que la programmation ci-dessus demande la generation de 128 images, le #
# processus, etant donne sa duree enorme, a ete interrompu au bout de 64 images. Malgre #
# cela, la programmation ci-dessus doit rester telle qu'elle est (avec 128 images) afin de #
# ne pas modifier la valeur des differents parametres qui sont interpoles... #
# #
# $xci/disk_video_P$Z $xw1/JU$DROITE.Q0. 1 64 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$DROITE.Q0. 1 64 $xiP/gris_oran.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.Q0. 1 64 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JU$GAUCHE.Q0. 1 64 $xiP/gris_oran.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 012636_012763
sequence 012764_012891
sequence 012892_013019
sequence 013020_013147
# Generees par : #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ITER0 255 #
# #define ITERN 255 #
# #
# #define X1D -2.000000 #
# #define X1A -0.234254 #
# #define X2D +0.500000 #
# #define X2A -0.234254 #
# #
# #define Y1D -1.250000 #
# #define Y1A -0.828110 #
# #define Y2D +1.250000 #
# #define Y2A -0.828110 #
# #
# #define Z1D -1.00000 #
# #define Z1A -0.00000 #
# #define Z2D +1.00000 #
# #define Z2A +0.00000 #
# #
# #define PRECISION 0.00001 #
# #
# extern double pow(); #
# #
# main() #
# { #
# int n; #
# double x1D=X1D,x1C,x1A=X1A; #
# double x2D=X2D,x2C,x2A=X2A; #
# double y1D=Y1D,y1C,y1A=Y1A; #
# double y2D=Y2D,y2C,y2A=Y2A; #
# double z1D=Z1D,z1C,z1A=Z1A; #
# double z2D=Z2D,z2C,z2A=Z2A; #
# double precision=PRECISION; #
# double rapport; #
# #
# rapport=pow(precision,1.0/((double)(N-N0))); #
# #
# x1C = x1D; #
# x2C = x2D; #
# y1C = y1D; #
# y2C = y2D; #
# z1C = z1D; #
# z2C = z2D; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$DELETE $xT/param21\n #
# $xci/valeurs_inte$X #
# p=1 d=%d #
# vD=%+.16f vA=%+.16f #
# cubique=FAUX #
# > $xT/param21\n" #
# ,COUCHES #
# ,z1C,z2C #
# ); #
# printf("$xrc/mandel.41$X #
# images=%d #
# iterations=%d #
# COMPOSANTE_J=$xT/param21 #
# K=0.0 #
# xbgD=%+.16f ybgD=%+.16f #
# xhdD=%+.16f yhdD=%+.16f #
# xbgA=%+.16f ybgA=%+.16f #
# xhdA=%+.16f yhdA=%+.16f #
# R=$xT/MANDEL. #
# $formatI\n" #
# ,COUCHES #
# ,(((ITERN-ITER0)*n)+((ITER0*N)-(ITERN*N0))) #
# / (N-N0) #
# ,x1C,y1C,x2C,y2C #
# ,x1C,y1C,x2C,y2C #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/MANDEL. #
# premiere=%d derniere=%d #
# inverser=VRAI #
# binariser=VRAI seuil=$GRIS_3 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=0 #
# R=$xw1/MA$DROITE.Q0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/MANDEL. #
# premiere=%d derniere=%d #
# inverser=VRAI #
# binariser=VRAI seuil=$GRIS_3 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=-0.00195695 try=0 #
# R=$xw1/MA$GAUCHE.Q0.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# #
# x1C = ((rapport)*x1C) + ((1-rapport)*x1A); #
# x2C = ((rapport)*x2C) + ((1-rapport)*x2A); #
# y1C = ((rapport)*y1C) + ((1-rapport)*y1A); #
# y2C = ((rapport)*y2C) + ((1-rapport)*y2A); #
# z1C = ((rapport)*z1C) + ((1-rapport)*z1A); #
# z2C = ((rapport)*z2C) + ((1-rapport)*z2A); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/MA$DROITE.Q0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MA$DROITE.Q0. 1 128 $xiP/gris_oran.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/MA$GAUCHE.Q0. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/MA$GAUCHE.Q0. 1 128 $xiP/gris_oran.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 013148_013275
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=2033 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE$DROITE.6 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE$DROITE.6 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE$DROITE.6 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$DROITE.6 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 013276_013403
sequence 013404_013531
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=2033 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE$GAUCHE.6 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE$GAUCHE.6 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE$GAUCHE.6 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$GAUCHE.6 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a du etre recalculee, puis reenregistree car, en effet, elle #
# avait ete generee avec : #
# #
# stereo=+0.10 #
# #
# ce qui la rendait equivalente a '$xw1/LORE$DROITE.6'... #
sequence 013532_013659
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=5335 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE$DROITE.7 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE$DROITE.7 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=+0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE$DROITE.7 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$DROITE.7 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 013660_013787
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=5335 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE$GAUCHE.7 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE$GAUCHE.7 \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=3.0 \ #
# stereo=-0.10 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE$GAUCHE.7 \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE$GAUCHE.7 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
#######################################################################################################################################
# #
# C H A N G E M E N T D U " T I M I N G " D E L A V I D E O P R O D U I T E #
# P A R L A C A R T E ' Galileo ' D E ' LACT12 ' L O R S D U #
# P A S S A G E D E L A R E L E A S E 5.2 A L A R E L E A S E 5.3 D U S Y S T E M E : #
# #
#######################################################################################################################################
sequence 013788_013915
sequence 013916_014043
# Generee par : #
# #
# Std #
# #
# $xis/echecs.01$Z $xw1/ECHE.1. \ #
# 4 \ #
# 128 #
# #
# avec : #
# #
# Caleatoires=$EXIST #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.1. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/ECHE.1. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 014044_014171
sequence 014172_014299
# Generee par : #
# #
# Std #
# #
# $xis/echecs.01$Z $xw1/ECHE.2. \ #
# 4 \ #
# 128 #
# #
# avec : #
# #
# Caleatoires=$NEXIST #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/ECHE.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 014300_014363
sequence 014364_014427
sequence 014428_014491
sequence 014492_014554
# Generee par : #
# #
# Std #
# #
# $xis/echecs.01$Z $xw1/ECHE.3. \ #
# 8 \ #
# 64 #
# #
# avec : #
# #
# Caleatoires=$NEXIST #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.3. 1 64 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# $xci/disk_video_P$Z $xw1/ECHE.3. 1 64 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# $xci/disk_video_P$Z $xw1/ECHE.3. 1 64 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# $xci/disk_video_P$Z $xw1/ECHE.3. 2 64 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 014555_014810
# Generees par : #
# #
# Std #
# #
# extern double drand48(); #
# #
# #define N0 1 #
# #define N 16 #
# #define COUPS 16 #
# #define BRANCHE0 1 #
# #define CENTRAL 4 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# double coups=drand48(); #
# coups = (coups*2*(CENTRAL - BRANCHE0)) + BRANCHE0; #
# printf("$xis/echecs.11$Z #
# $xw1/ECHE.%02d. #
# %d #
# %d\n" #
# ,n,(int)coups,COUPS #
# ); #
# } #
# } #
# #
# Std #
# #
# N0 N #
# #
# || || #
# || || #
# \/ \/ #
# #
# $xci/genere$X premiere=01 derniere=16 pas=1 \ #
# C='$xci/disk_video_P$Z \ #
# $xw1/ECHE.%02d. \ #
# 1 16 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI' #
# #
sequence 014811_015323
# Generees par : #
# #
# Std #
# #
# $xis/echecs.11$Z $xw1/ECHE.00. #
# #
# extern double drand48(); #
# #
# #define N0 1 #
# #define N 32 #
# #define COUPS 16 #
# #define BRANCHE0 1 #
# #define ETAGES 2 #
# #define CENTRAL 5 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# double coups=drand48(); #
# coups = (coups*2*(CENTRAL - BRANCHE0)) + BRANCHE0; #
# printf("$xis/echecs.11$Z #
# $xw1/ECHE.%02d. #
# %d #
# %d #
# %d #
# %d\n" #
# ,n,(int)coups,COUPS,ETAGES,CENTRAL #
# ); #
# } #
# } #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.00. 1 1 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# N0 N #
# #
# || || #
# || || #
# \/ \/ #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/disk_video_P$Z \ #
# $xw1/ECHE.%02d. \ #
# 1 16 RVB \ #
# 7 1 rien Sequence \ #
# "$formatI" $Gamma_lorenz VRAI' #
# #
#######################################################################################################################################
# #
# C H A N G E M E N T D U " T I M I N G " D E L A V I D E O P R O D U I T E #
# P A R L A C A R T E ' Galileo ' D E ' LACT12 ' A F I N D E C E N T R E R #
# L A V I D E O P A R P A S S A G E D E L A P H A S E H O R I Z O N T A L E D E ' -76 ' A ' -42 ' : #
# #
#######################################################################################################################################
sequence 015324_015836
# Generees par : #
# #
# Std #
# #
# $xis/echecs.11$Z $xw1/ECHE.00. #
# #
# extern double drand48(); #
# #
# #define N0 1 #
# #define N 32 #
# #define COUPS 16 #
# #define BRANCHE0 1 #
# #define ETAGES 2 #
# #define CENTRAL 5 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# double coups=drand48(); #
# coups = (coups*2*(CENTRAL - BRANCHE0)) + BRANCHE0; #
# printf("$xis/echecs.11$Z #
# $xw1/ECHE.%02d. #
# %d #
# %d #
# %d #
# %d\n" #
# ,n,(int)coups,COUPS,ETAGES,CENTRAL #
# ); #
# } #
# } #
# #
# avec : #
# #
# set Interpolation="cubique=FAUX" #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.00. 1 1 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# N0 N #
# #
# || || #
# || || #
# \/ \/ #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/disk_video_P$Z \ #
# $xw1/ECHE.%02d. \ #
# 1 16 RVB \ #
# 7 1 rien Sequence \ #
# "$formatI" $Gamma_lorenz VRAI' #
# #
sequence 015837_016349
# Generees par : #
# #
# Std #
# #
# $xis/echecs.11$Z $xw1/ECHE.00. #
# #
# extern double drand48(); #
# #
# #define N0 1 #
# #define N 32 #
# #define COUPS 16 #
# #define BRANCHE0 1 #
# #define ETAGES 2 #
# #define CENTRAL 5 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# double coups=drand48(); #
# coups = (coups*2*(CENTRAL - BRANCHE0)) + BRANCHE0; #
# printf("$xis/echecs.11$Z #
# $xw1/ECHE.%02d. #
# %d #
# %d #
# %d #
# %d\n" #
# ,n,(int)coups,COUPS,ETAGES,CENTRAL #
# ); #
# } #
# } #
# #
# avec : #
# #
# set Interpolation="cubique=VRAI" #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.00. 1 1 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# N0 N #
# #
# || || #
# || || #
# \/ \/ #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/disk_video_P$Z \ #
# $xw1/ECHE.%02d. \ #
# 1 16 RVB \ #
# 7 1 rien Sequence \ #
# "$formatI" $Gamma_lorenz VRAI' #
# #
sequence 016350_016381
sequence 016382_016413
# Generees par : #
# #
# Std #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.01$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$ROUGE \ #
# R=$xw1/ECHE.4.%04d$ROUGE \ #
# $formatI' #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.01$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$VERTE \ #
# R=$xw1/ECHE.4.%04d$VERTE \ #
# $formatI' #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.01$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$BLEUE \ #
# R=$xw1/ECHE.4.%04d$BLEUE \ #
# $formatI' #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$CP \ #
# $xw1/ECHE.4.%04d$ROUGE \ #
# $xw1/ECHE.4.%04d' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.4. 1 32 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# $xci/disk_video_P$Z $xw1/ECHE.4. 1 32 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 016414_016445
sequence 016446_016477
# Generees par : #
# #
# Std #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$ROUGE \ #
# R=$xw1/ECHE.5.%04d$ROUGE \ #
# $formatI' #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$VERTE \ #
# R=$xw1/ECHE.5.%04d$VERTE \ #
# $formatI' #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$xci/accumule.02$X \ #
# A=$xw1/ECHE.%02d. \ #
# premiere=1 derniere=16 \ #
# postfixe=$BLEUE \ #
# R=$xw1/ECHE.5.%04d$BLEUE \ #
# $formatI' #
# #
# $xci/genere$X premiere=01 derniere=32 pas=1 \ #
# C='$CP \ #
# $xw1/ECHE.5.%04d$ROUGE \ #
# $xw1/ECHE.5.%04d' #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.5. 1 32 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# $xci/disk_video_P$Z $xw1/ECHE.5. 1 32 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
sequence 016478_016605
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=3176 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE.8. \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE.8. \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=200 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE.8. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.8. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 016606_016670
# Generees par : #
# #
# Std #
# #
# $xis/echecs.11$Z $xw1/ECHE.00. #
# #
# extern double drand48(); #
# #
# #define N0 1 #
# #define N 4 #
# #define COUPS 16 #
# #define BRANCHE0 1 #
# #define ETAGE0 1 #
# #define ETAGES 3 #
# #define CENTRAL 5 #
# #
# main() #
# { #
# int etage,n; #
# double Lcoups[ETAGES]; #
# for (etage=ETAGE0 ; etage<=ETAGES ; etage++) #
# { #
# Lcoups[etage-ETAGE0] = drand48(); #
# } #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xis/echecs.11$Z $xw1/ECHE.%02d. \'" #
# ,n #
# ); #
# /* ATTENTION a l'usage des apostrophes et non pas */ #
# /* quotes afin de permettre un usage correct de */ #
# /* l'alias 'listMNx'. */ #
# for (etage=ETAGE0 ; etage<=ETAGES ; etage++) #
# { #
# double coups=Lcoups[etage-ETAGE0]; #
# coups = (coups*2*(CENTRAL-BRANCHE0)) + BRANCHE0; #
# if (etage==ETAGE0) #
# { #
# printf("%d",(int)coups); #
# } #
# else #
# { #
# printf(" %d",(int)coups); #
# } #
# } #
# if (((n-N0) % 2) == 0) #
# { #
# printf("\' %d %d %d $EXIST\n" #
# ,COUPS,ETAGES,CENTRAL #
# ); #
# /* ATTENTION a l'usage des apostrophes et non pas */ #
# /* quotes afin de permettre un usage correct de */ #
# /* l'alias 'listMNx'. */ #
# } #
# else #
# { #
# printf("\' %d %d %d $NEXIST\n" #
# ,COUPS,ETAGES,CENTRAL #
# ); #
# /* ATTENTION a l'usage des apostrophes et non pas */ #
# /* quotes afin de permettre un usage correct de */ #
# /* l'alias 'listMNx'. */ #
# } #
# for (etage=ETAGE0 ; etage<ETAGES ; etage++) #
# { #
# Lcoups[etage-ETAGE0] = Lcoups[etage-ETAGE0+1]; #
# } #
# Lcoups[ETAGES-ETAGE0] = drand48(); #
# } #
# } #
# #
# avec : #
# #
# set Interpolation="cubique=VRAI" #
# #
# Std #
# #
# $xci/disk_video_P$Z $xw1/ECHE.00. 1 1 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz VRAI #
# #
# N0 N #
# #
# || || #
# || || #
# \/ \/ #
# #
# $xci/genere$X premiere=01 derniere=04 pas=1 \ #
# C='$xci/disk_video_P$Z \ #
# $xw1/ECHE.%02d. \ #
# 1 16 RVB \ #
# 7 1 rien Sequence \ #
# "$formatI" $Gamma_lorenz VRAI' #
# #
sequence 016671_016710
sequence 016711_016838
# Generee par : #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$dpi > $xT/param11 #
# #
# (sur '$INFO23' et '$LACT27') #
# #
# Pal #
# #
# $DELETE $xw1/LORE.A1.*$v #
# #
# $xrk/lorenz.11$X R=$xw1/LORE.A1. np=128 \ #
# iterations=1000 ordre=4 \ #
# ROTATION_OX=$xT/param11 \ #
# parallele=VRAI localement=VRAI \ #
# $formatI #
# #
# #
# Liste des images calculees sur '$INFO23' : #
# #
# 0007 #
# 0013 #
# 0019 #
# 0024 #
# 0031 #
# 0038 #
# 0046 #
# 0051 #
# 0057 #
# 0063 #
# 0070 #
# 0076 #
# 0083 #
# 0091 #
# 0098 #
# 0105 #
# 0112 #
# 0122 #
# #
# #
# Liste des images calculees sur '$LACT27' : #
# #
# 0001 #
# 0002 #
# 0003 #
# 0004 #
# 0005 #
# 0006 #
# 0008 #
# 0009 #
# 0010 #
# 0011 #
# 0012 #
# 0014 #
# 0015 #
# 0016 #
# 0017 #
# 0018 #
# 0020 #
# 0021 #
# 0022 #
# 0023 #
# 0025 #
# 0026 #
# 0027 #
# 0028 #
# 0029 #
# 0030 #
# 0032 #
# 0033 #
# 0034 #
# 0035 #
# 0036 #
# 0037 #
# 0039 #
# 0040 #
# 0041 #
# 0042 #
# 0043 #
# 0044 #
# 0045 #
# 0047 #
# 0048 #
# 0049 #
# 0050 #
# 0052 #
# 0053 #
# 0054 #
# 0055 #
# 0056 #
# 0058 #
# 0059 #
# 0060 #
# 0061 #
# 0062 #
# 0064 #
# 0065 #
# 0066 #
# 0067 #
# 0068 #
# 0069 #
# 0071 #
# 0072 #
# 0073 #
# 0074 #
# 0075 #
# 0077 #
# 0078 #
# 0079 #
# 0080 #
# 0081 #
# 0082 #
# 0084 #
# 0085 #
# 0086 #
# 0087 #
# 0088 #
# 0089 #
# 0090 #
# 0092 #
# 0093 #
# 0094 #
# 0095 #
# 0096 #
# 0097 #
# 0099 #
# 0100 #
# 0101 #
# 0102 #
# 0103 #
# 0104 #
# 0106 #
# 0107 #
# 0108 #
# 0109 #
# 0110 #
# 0111 #
# 0113 #
# 0114 #
# 0115 #
# 0116 #
# 0117 #
# 0118 #
# 0119 #
# 0120 #
# 0121 #
# 0123 #
# 0124 #
# 0125 #
# 0126 #
# 0127 #
# 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.A1. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# Nota : la sequence a du etre abortee une premiere fois a cause des problemes de swap #
# (voir l'appel 30628 dans '$Dbugs/SGIND4GA$D/$Fnota')... #
sequence 016839_016966
# Generee par : #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$dpi > $xT/param11 #
# #
# (sur '$INFO23' et '$LACT27') #
# #
# Pal #
# #
# $DELETE $xw1/LORE.A5.*$v #
# #
# $xrk/lorenz.11$X R=$xw1/LORE.A5. np=128 \ #
# iterations=5000 ordre=4 \ #
# ROTATION_OX=$xT/param11 \ #
# parallele=VRAI localement=VRAI \ #
# $formatI #
# #
# #
# Liste des images calculees sur '$INFO23' : #
# #
# 0002 #
# 0011 #
# 0018 #
# 0025 #
# 0033 #
# 0041 #
# 0050 #
# 0058 #
# 0068 #
# 0077 #
# 0087 #
# 0096 #
# 0106 #
# 0115 #
# 0124 #
# #
# #
# Liste des images calculees sur '$LACT27' : #
# #
# 0001 #
# 0003 #
# 0004 #
# 0005 #
# 0006 #
# 0007 #
# 0008 #
# 0009 #
# 0010 #
# 0012 #
# 0013 #
# 0014 #
# 0015 #
# 0016 #
# 0017 #
# 0019 #
# 0020 #
# 0021 #
# 0022 #
# 0023 #
# 0024 #
# 0026 #
# 0027 #
# 0028 #
# 0029 #
# 0030 #
# 0031 #
# 0032 #
# 0034 #
# 0035 #
# 0036 #
# 0037 #
# 0038 #
# 0039 #
# 0040 #
# 0042 #
# 0043 #
# 0044 #
# 0045 #
# 0046 #
# 0047 #
# 0048 #
# 0049 #
# 0051 #
# 0052 #
# 0053 #
# 0054 #
# 0055 #
# 0056 #
# 0057 #
# 0059 #
# 0060 #
# 0061 #
# 0062 #
# 0063 #
# 0064 #
# 0065 #
# 0066 #
# 0067 #
# 0069 #
# 0070 #
# 0071 #
# 0072 #
# 0073 #
# 0074 #
# 0075 #
# 0076 #
# 0078 #
# 0079 #
# 0080 #
# 0081 #
# 0082 #
# 0083 #
# 0084 #
# 0085 #
# 0086 #
# 0088 #
# 0089 #
# 0090 #
# 0091 #
# 0092 #
# 0093 #
# 0094 #
# 0095 #
# 0097 #
# 0098 #
# 0099 #
# 0100 #
# 0101 #
# 0102 #
# 0103 #
# 0104 #
# 0105 #
# 0107 #
# 0108 #
# 0109 #
# 0110 #
# 0111 #
# 0112 #
# 0113 #
# 0114 #
# 0116 #
# 0117 #
# 0118 #
# 0119 #
# 0120 #
# 0121 #
# 0122 #
# 0123 #
# 0125 #
# 0126 #
# 0127 #
# 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.A5. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 016967_017094
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=5462 > $xT/param11 #
# #
# avec (sur '$LACT27') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=100 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.1 \ #
# VARIABLE_cy0=0.1 \ #
# VARIABLE_cz0=0.1 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# R=$xw1/LORE.B. \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=100 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.2 \ #
# VARIABLE_cy0=0.2 \ #
# VARIABLE_cz0=0.2 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# R=$xw1/LORE.B. \ #
# $formatI #
# #
# $xrk/lorenz.11$X np=128 \ #
# premiere=0.1 visualisees=100 fantome=FAUX \ #
# r=1.0 \ #
# stereo=0.0 \ #
# ordre=4 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 \ #
# VARIABLE_cx0=0.3 \ #
# VARIABLE_cy0=0.3 \ #
# VARIABLE_cz0=0.3 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# R=$xw1/LORE.B. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.B. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 017095_017222
# Generee par : $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=5462 > $xT/param11 #
# #
# avec : #
# #
# Pal #
# #
# sur 'CMAP22' : $xrk/lorenz.11$X np=128 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX \ #
# premiere=0.1 visualisees=100 fantome=FAUX r=1.0 \ #
# R=$xw1/LORE.C. \ #
# $formatI #
# #
# sur 'INFO23' : $xrk/lorenz.11$X np=128 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX \ #
# premiere=0.1 visualisees=100 fantome=FAUX r=1.0 \ #
# R=$xw1/LORE.C. \ #
# $formatI #
# #
# sur 'LACT27' : $xrk/lorenz.11$X np=128 \ #
# NOMBRE_D_ITERATIONS=$xT/param11 ordre=4 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI \ #
# premiere=0.2 visualisees=100 fantome=FAUX r=1.0 \ #
# R=$xw1/LORE.C. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.C. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 017223_017338
sequence 017339_017466
sequence 017467_017594
sequence 017595_017722
sequence 017723_017850
sequence 017851_017978
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #define MILIEU (((N-N0)/2)+N0) #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# #define SEUIL_M 192 #
# #define SEUIL_m 100 #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# double seuil=(double)SEUIL_M; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# double M_m=(double)(SEUIL_M-SEUIL_m); #
# double No_MI=(double)(N0-MILIEU); #
# double MI_N=(double)(MILIEU-N); #
# #
# if (n < MILIEU) #
# { #
# seuil = (M_m/No_MI)*n #
# + (((SEUIL_m*N0)-(SEUIL_M*MILIEU)) #
# / No_MI); #
# } #
# else #
# { #
# seuil = (-M_m/MI_N)*n #
# + (((SEUIL_M*MILIEU)-(SEUIL_m*N)) #
# / MI_N); #
# } #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=%d #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=+0.00195695 try=0 #
# R=$xw1/JULI.P.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,(int)seuil #
# ,n #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# ATTENTION, cette sequence a ete generee prealablement avec 'ROTATION_OX' (a la place de #
# de 'ROTATION_OY') ; il semble qu'alors, le Julia possede une symetrie de revolution par #
# rapport a 'OX', ce qui fait que les images generees etaient alors toutes identiques... #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.P. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.P. 1 128 $xiP/arc_ciel.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.P. 1 128 $xiP/cercle.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.P. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.P. 1 128 $xiP/rouge_jaune \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a du etre reenregistree une deuxieme fois, car, en effet, la #
# premiere tentative a echouee, le systeme rencontrant de gros problemes de swap (voir #
# l'appel 30628 dans '$Dbugs/SGIND4GA$D/$Fnota'). #
# #
sequence 017979_018106
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# R=$xw1/JULI.Q.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.Q. 1 128 $xiP/enfer.05 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 018107_018234
# Generees par : #
# #
# Pal #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/init$X \ #
# niveau=$BLANC \ #
# $formatI | #
# $xci/montagne.01$X \ #
# A=$xw1/JULI.Q.%04d \ #
# avion=VRAI \ #
# R=$xw1/JULI.Q$m.%04d \ #
# $formatI' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.Q$m. 1 128 $xiP/montagnes.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 018235_018362
# Generees par : #
# #
# #define N0 1 #
# #define N 128 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xci/vraies_C$X #
# A=$xw1/JULI.P.%04d #
# p=$xiP/fractal.11 #
# RVB=VRAI #
# R=$xT/JULIA #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/substitue$X #
# A=$xT/JULIA$ROUGE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.Q$m.%04d$ROUGE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/substitue$X #
# A=$xT/JULIA$VERTE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.Q$m.%04d$VERTE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/substitue$X #
# A=$xT/JULIA$BLEUE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.Q$m.%04d$BLEUE #
# $formatI\n" #
# ,n,n #
# ); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JU.Q$m. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 018363_018490
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #define MILIEU (((N-N0)/2)+N0) #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# #define SEUIL_M 192 #
# #define SEUIL_m 100 #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# double seuil=(double)SEUIL_M; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# double M_m=(double)(SEUIL_M-SEUIL_m); #
# double No_MI=(double)(N0-MILIEU); #
# double MI_N=(double)(MILIEU-N); #
# #
# if (n < MILIEU) #
# { #
# seuil = (M_m/No_MI)*n #
# + (((SEUIL_m*N0)-(SEUIL_M*MILIEU)) #
# / No_MI); #
# } #
# else #
# { #
# seuil = (-M_m/MI_N)*n #
# + (((SEUIL_M*MILIEU)-(SEUIL_m*N)) #
# / MI_N); #
# } #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.R.%04d` #
# == $EXIST) then\nsaut;echo %04d\n" #
# ,n,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=%d #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# R=$xw1/JULI.R.%04d #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,(int)seuil #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images calculees sur '$LACT12' : #
# #
# 0003 #
# 0006 #
# 0011 #
# 0015 #
# 0020 #
# 0024 #
# 0029 #
# 0032 #
# 0037 #
# 0042 #
# 0046 #
# 0051 #
# 0056 #
# 0060 #
# 0065 #
# 0070 #
# 0074 #
# 0079 #
# 0083 #
# 0087 #
# 0092 #
# 0096 #
# 0101 #
# 0105 #
# 0110 #
# 0115 #
# 0118 #
# 0123 #
# 0127 #
# #
# #
# Liste des images calculees sur '$LACT27' : #
# #
# 0002 #
# 0005 #
# 0008 #
# 0010 #
# 0013 #
# 0016 #
# 0019 #
# 0022 #
# 0025 #
# 0027 #
# 0030 #
# 0033 #
# 0036 #
# 0039 #
# 0041 #
# 0044 #
# 0047 #
# 0050 #
# 0053 #
# 0055 #
# 0058 #
# 0061 #
# 0063 #
# 0067 #
# 0069 #
# 0072 #
# 0075 #
# 0077 #
# 0081 #
# 0084 #
# 0086 #
# 0089 #
# 0091 #
# 0094 #
# 0098 #
# 0100 #
# 0103 #
# 0106 #
# 0108 #
# 0111 #
# 0114 #
# 0117 #
# 0120 #
# 0122 #
# 0125 #
# 0128 #
# #
# #
# Liste des images calculees sur '$LACT28' : #
# #
# 0001 #
# 0004 #
# 0007 #
# 0009 #
# 0012 #
# 0014 #
# 0017 #
# 0018 #
# 0021 #
# 0023 #
# 0026 #
# 0028 #
# 0031 #
# 0034 #
# 0035 #
# 0038 #
# 0040 #
# 0043 #
# 0045 #
# 0048 #
# 0049 #
# 0052 #
# 0054 #
# 0057 #
# 0059 #
# 0062 #
# 0064 #
# 0066 #
# 0068 #
# 0071 #
# 0073 #
# 0076 #
# 0078 #
# 0080 #
# 0082 #
# 0085 #
# 0088 #
# 0090 #
# 0093 #
# 0095 #
# 0097 #
# 0099 #
# 0102 #
# 0104 #
# 0107 #
# 0109 #
# 0112 #
# 0113 #
# 0116 #
# 0119 #
# 0121 #
# 0124 #
# 0126 #
# #
# #
# Pal #
# #
# $xci/vraies_C.01$X A=$xw1/JULI.R. \ #
# premiere=1 derniere=128 \ #
# p=$xiP/fractal.11 \ #
# RVB=VRAI \ #
# R=$xw1/JULI.R. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.R. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 018491_018523
sequence 018524_018651
# Generees par : #
# #
# #define N0 1 #
# #define N 128 #
# #
# main() #
# { #
# int n; #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JU.S$m.%04d` #
# == $EXIST) then\nsaut;echo %04d\n" #
# ,n,n #
# ); #
# printf("$xci/substitue$X #
# A=$xw1/JULI.R.%04d$ROUGE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.S$m.%04d$ROUGE #
# $formatI\n" #
# ,n,n,n #
# ); #
# printf("$xci/substitue$X #
# A=$xw1/JULI.R.%04d$VERTE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.S$m.%04d$VERTE #
# $formatI\n" #
# ,n,n,n #
# ); #
# printf("$xci/substitue$X #
# A=$xw1/JULI.R.%04d$BLEUE #
# substitution=L_SUBSTITUTION_02 #
# $formatI | #
# $xci/montagne.01$X #
# A=$xw1/JULI.Q.%04d #
# avion=VRAI #
# R=$xw1/JU.S$m.%04d$BLEUE #
# $formatI\n" #
# ,n,n,n #
# ); #
# printf("else\nendif\n" #
# ); #
# } #
# } #
# #
# #
# Liste des images calculees sur '$LACT12' : #
# #
# 0002 #
# 0008 #
# 0014 #
# 0017 #
# 0020 #
# 0023 #
# 0026 #
# 0029 #
# 0035 #
# 0042 #
# 0047 #
# 0051 #
# 0057 #
# 0062 #
# 0069 #
# 0074 #
# 0080 #
# 0085 #
# 0090 #
# 0096 #
# 0101 #
# 0105 #
# 0110 #
# 0115 #
# 0118 #
# 0124 #
# #
# #
# Liste des images calculees sur '$LACT27' : #
# #
# 0001 #
# 0003 #
# 0004 #
# 0005 #
# 0006 #
# 0007 #
# 0009 #
# 0010 #
# 0011 #
# 0012 #
# 0013 #
# 0015 #
# 0016 #
# 0018 #
# 0019 #
# 0021 #
# 0022 #
# 0024 #
# 0025 #
# 0027 #
# 0028 #
# 0031 #
# 0033 #
# 0036 #
# 0038 #
# 0041 #
# 0044 #
# 0046 #
# 0049 #
# 0052 #
# 0055 #
# 0058 #
# 0060 #
# 0063 #
# 0065 #
# 0067 #
# 0071 #
# 0073 #
# 0076 #
# 0078 #
# 0081 #
# 0084 #
# 0087 #
# 0089 #
# 0092 #
# 0094 #
# 0097 #
# 0100 #
# 0103 #
# 0106 #
# 0108 #
# 0111 #
# 0114 #
# 0117 #
# 0120 #
# 0122 #
# 0125 #
# 0128 #
# #
# #
# Liste des images calculees sur '$LACT28' : #
# #
# 0030 #
# 0032 #
# 0034 #
# 0037 #
# 0039 #
# 0040 #
# 0043 #
# 0045 #
# 0048 #
# 0050 #
# 0053 #
# 0054 #
# 0056 #
# 0059 #
# 0061 #
# 0064 #
# 0066 #
# 0068 #
# 0070 #
# 0072 #
# 0075 #
# 0077 #
# 0079 #
# 0082 #
# 0083 #
# 0086 #
# 0088 #
# 0091 #
# 0093 #
# 0095 #
# 0098 #
# 0099 #
# 0102 #
# 0104 #
# 0107 #
# 0109 #
# 0112 #
# 0113 #
# 0116 #
# 0119 #
# 0121 #
# 0123 #
# 0126 #
# 0127 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JU.S$m. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a du etre reenregistree une deuxieme fois, car, en effet, la #
# premiere tentative a echouee, le systeme rencontrant de gros problemes de swap (voir #
# l'appel 30628 dans '$Dbugs/SGIND4GA$D/$Fnota'). #
# #
sequence 018652_018779
sequence 018780_018907
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.T.%04d` #
# == $EXIST) then\nsaut;echo %04d\n" #
# ,n,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xiim/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/fractal.34 #
# RVB=VRAI #
# R=$xiim/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.T.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.T.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.T.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# Pal #
# #
# $DELETE $xT/MINIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# #
# $DELETE $xT/MAXIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.T.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# #
# set Minimum=`$CA $xT/MINIMUM | $R "$K_BLANC" "$K_NL" | $SOR | $HEA -1` #
# set Maximum=`$CA $xT/MAXIMUM | $R "$K_BLANC" "$K_NL" | $SOR -r | $HEA -1` #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.11$Z \ #
# $xw1/JULI.T.%04d \ #
# $xw1/JULI.U.%04d \ #
# $Minimum \ #
# $Maximum' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.T. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.U. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 018908_019035
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.V.%04d` #
# == $EXIST) then\nsaut;echo %04d\n" #
# ,n,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xiim/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/gris_oran.12 #
# RVB=VRAI #
# R=$xiim/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.V.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.V.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xiim/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.V.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# Pal #
# #
# $DELETE $xT/MINIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# #
# $DELETE $xT/MAXIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.V.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# #
# set Minimum=`$CA $xT/MINIMUM | $R "$K_BLANC" "$K_NL" | $SOR | $HEA -1` #
# set Maximum=`$CA $xT/MAXIMUM | $R "$K_BLANC" "$K_NL" | $SOR -r | $HEA -1` #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.11$Z \ #
# $xw1/JULI.V.%04d \ #
# $xw1/JULI.V.%04d \ #
# $Minimum \ #
# $Maximum' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.V. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 019036_019163
sequence 019164_019291
sequence 019292_019419
sequence 019420_019547
sequence 019548_019675
sequence 019676_019803
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.W.%04d` #
# == $EXIST) then\nsaut;echo %04d\n" #
# ,n,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/gris_oran.26 #
# RVB=VRAI #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.W.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.W.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.W.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT28 0002 LACT12 0003 LACT28 0004 LACT27 0005 #
# LACT28 0006 LACT12 0007 LACT27 0008 LACT28 0009 LACT28 0010 #
# LACT27 0011 LACT28 0012 LACT27 0013 LACT28 0014 LACT12 0015 #
# LACT28 0016 LACT27 0017 LACT28 0018 LACT28 0019 LACT28 0020 #
# LACT27 0021 LACT12 0022 LACT28 0023 LACT27 0024 LACT28 0025 #
# LACT28 0026 LACT27 0027 LACT12 0028 LACT28 0029 LACT27 0030 #
# LACT28 0031 LACT27 0032 LACT28 0033 LACT12 0034 LACT28 0035 #
# LACT27 0036 LACT28 0037 LACT27 0038 LACT28 0039 LACT12 0040 #
# LACT27 0041 LACT28 0042 LACT28 0043 LACT27 0044 LACT12 0045 #
# LACT28 0046 LACT27 0047 LACT28 0048 LACT27 0049 LACT28 0050 #
# LACT12 0051 LACT28 0052 LACT27 0053 LACT28 0054 LACT27 0055 #
# LACT28 0056 LACT12 0057 LACT28 0058 LACT27 0059 LACT28 0060 #
# LACT27 0061 LACT28 0062 LACT12 0063 LACT27 0064 LACT28 0065 #
# LACT28 0066 LACT27 0067 LACT28 0068 LACT12 0069 LACT27 0070 #
# LACT28 0071 LACT27 0072 LACT28 0073 LACT12 0074 LACT28 0075 #
# LACT27 0076 LACT28 0077 LACT27 0078 LACT28 0079 LACT12 0080 #
# LACT27 0081 LACT28 0082 LACT28 0083 LACT27 0084 LACT28 0085 #
# LACT27 0086 LACT12 0087 LACT28 0088 LACT28 0089 LACT27 0090 #
# LACT28 0091 LACT27 0092 LACT28 0093 LACT12 0094 LACT27 0095 #
# LACT28 0096 LACT28 0097 LACT27 0098 LACT12 0099 LACT28 0100 #
# LACT27 0101 LACT28 0102 LACT12 0103 LACT27 0104 LACT28 0105 #
# LACT28 0106 LACT27 0107 LACT28 0108 LACT12 0109 LACT27 0110 #
# LACT28 0111 LACT28 0112 LACT27 0113 LACT12 0114 LACT28 0115 #
# LACT27 0116 LACT28 0117 LACT12 0118 LACT27 0119 LACT28 0120 #
# LACT28 0121 LACT27 0122 LACT12 0123 LACT28 0124 LACT27 0125 #
# LACT28 0126 LACT28 0127 LACT27 0128 #
# #
# #
# Pal #
# #
# $DELETE $xT/MINIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# #
# $DELETE $xT/MAXIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.W.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# #
# set Minimum=`$CA $xT/MINIMUM | $R "$K_BLANC" "$K_NL" | $SOR | $HEA -1` #
# set Maximum=`$CA $xT/MAXIMUM | $R "$K_BLANC" "$K_NL" | $SOR -r | $HEA -1` #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.11$Z \ #
# $xw1/JULI.W.%04d \ #
# $xw1/JULI.W.%04d \ #
# $Minimum \ #
# $Maximum' #
# #
# $xci/genere$X premiere=01 derniere=128 pas=1 \ #
# C='$CP \ #
# $xw1/JULI.W.%04d$ROUGE \ #
# $xw1/JULI.W.%04d' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 $xiP/cercle.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 $xiP/dentscie.04 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 $xiP/fractal.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 $xiP/orange.11 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/JULI.W. 1 128 $xiP/random.06 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 019804_019931
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.X.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/gris_oran.36 #
# RVB=VRAI #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.X.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.X.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.X.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT12 0002 LACT28 0003 LACT28 0004 LACT27 0005 #
# LACT12 0006 LACT28 0007 LACT27 0008 LACT28 0009 LACT27 0010 #
# LACT12 0011 LACT28 0012 LACT27 0013 LACT28 0014 LACT27 0015 #
# LACT12 0016 LACT28 0017 LACT27 0018 LACT28 0019 LACT27 0020 #
# LACT12 0021 LACT28 0022 LACT27 0023 LACT28 0024 LACT27 0025 #
# LACT12 0026 LACT28 0027 LACT27 0028 LACT28 0029 LACT27 0030 #
# LACT12 0031 LACT28 0032 LACT27 0033 LACT28 0034 LACT27 0035 #
# LACT28 0036 LACT12 0037 LACT27 0038 LACT28 0039 LACT27 0040 #
# LACT28 0041 LACT12 0042 LACT27 0043 LACT28 0044 LACT27 0045 #
# LACT28 0046 LACT12 0047 LACT27 0048 LACT28 0049 LACT27 0050 #
# LACT28 0051 LACT12 0052 LACT27 0053 LACT28 0054 LACT27 0055 #
# LACT28 0056 LACT12 0057 LACT27 0058 LACT28 0059 LACT27 0060 #
# LACT28 0061 LACT12 0062 LACT27 0063 LACT28 0064 LACT27 0065 #
# LACT28 0066 LACT12 0067 LACT27 0068 LACT28 0069 LACT27 0070 #
# LACT28 0071 LACT12 0072 LACT27 0073 LACT28 0074 LACT27 0075 #
# LACT28 0076 LACT12 0077 LACT27 0078 LACT28 0079 LACT27 0080 #
# LACT28 0081 LACT12 0082 LACT27 0083 LACT28 0084 LACT27 0085 #
# LACT28 0086 LACT27 0087 LACT28 0088 LACT12 0089 LACT27 0090 #
# LACT28 0091 LACT27 0092 LACT28 0093 LACT12 0094 LACT27 0095 #
# LACT28 0096 LACT27 0097 LACT28 0098 LACT12 0099 LACT28 0100 #
# LACT27 0101 LACT28 0102 LACT12 0103 LACT27 0104 LACT28 0105 #
# LACT27 0106 LACT28 0107 LACT27 0108 LACT12 0109 LACT28 0110 #
# LACT27 0111 LACT28 0112 LACT27 0113 LACT28 0114 LACT27 0115 #
# LACT28 0116 LACT27 0117 LACT12 0118 LACT28 0119 LACT27 0120 #
# LACT28 0121 LACT27 0122 LACT12 0123 LACT28 0124 LACT27 0125 #
# LACT28 0126 LACT27 0127 LACT28 0128 #
# #
# #
# Pal #
# #
# $DELETE $xT/MINIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=VRAI maximum=FAUX \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MINIMUM' #
# #
# $DELETE $xT/MAXIMUM #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$ROUGE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$VERTE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/extrema$X \ #
# A=$xw1/JULI.X.%04d$BLEUE \ #
# coordonnees=FAUX \ #
# minimum=FAUX maximum=VRAI \ #
# constant=VRAI \ #
# $formatI >>\! $xT/MAXIMUM' #
# #
# set Minimum=`$CA $xT/MINIMUM | $R "$K_BLANC" "$K_NL" | $SOR | $HEA -1` #
# set Maximum=`$CA $xT/MAXIMUM | $R "$K_BLANC" "$K_NL" | $SOR -r | $HEA -1` #
# #
# $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.11$Z \ #
# $xw1/JULI.X.%04d \ #
# $xw1/JULI.X.%04d \ #
# $Minimum \ #
# $Maximum' #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.X. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 019932_020059
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.Y.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# ROTATION_OZ=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/cercle.51 #
# RVB=VRAI #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Y.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Y.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Y.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/acces_RVB.11$Z #
# $xw1/JULI.Y.%04d #
# $xw1/JULI.Y.%04d\n" #
# ,n,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT28 0002 LACT28 0003 LACT27 0004 LACT27 0005 #
# LACT28 0006 LACT28 0007 LACT27 0008 LACT28 0009 LACT27 0010 #
# LACT28 0011 LACT27 0012 LACT28 0013 LACT27 0014 LACT28 0015 #
# LACT27 0016 LACT28 0017 LACT27 0018 LACT28 0019 LACT27 0020 #
# LACT28 0021 LACT27 0022 LACT28 0023 LACT27 0024 LACT28 0025 #
# LACT27 0026 LACT28 0027 LACT27 0028 LACT28 0029 LACT27 0030 #
# LACT28 0031 LACT27 0032 LACT28 0033 LACT27 0034 LACT28 0035 #
# LACT27 0036 LACT28 0037 LACT27 0038 LACT28 0039 LACT27 0040 #
# LACT28 0041 LACT27 0042 LACT28 0043 LACT27 0044 LACT28 0045 #
# LACT27 0046 LACT28 0047 LACT27 0048 LACT28 0049 LACT27 0050 #
# LACT28 0051 LACT27 0052 LACT28 0053 LACT27 0054 LACT28 0055 #
# LACT28 0056 LACT27 0057 LACT28 0058 LACT27 0059 LACT28 0060 #
# LACT27 0061 LACT27 0062 LACT28 0063 LACT27 0064 LACT28 0065 #
# LACT27 0066 LACT28 0067 LACT27 0068 LACT28 0069 LACT27 0070 #
# LACT28 0071 LACT27 0072 LACT28 0073 LACT27 0074 LACT28 0075 #
# LACT27 0076 LACT28 0077 LACT27 0078 LACT28 0079 LACT27 0080 #
# LACT28 0081 LACT27 0082 LACT28 0083 LACT27 0084 LACT28 0085 #
# LACT27 0086 LACT28 0087 LACT27 0088 LACT28 0089 LACT27 0090 #
# LACT28 0091 LACT27 0092 LACT28 0093 LACT27 0094 LACT28 0095 #
# LACT27 0096 LACT28 0097 LACT27 0098 LACT28 0099 LACT28 0100 #
# LACT27 0101 LACT28 0102 LACT27 0103 LACT28 0104 LACT27 0105 #
# LACT28 0106 LACT27 0107 LACT28 0108 LACT27 0109 LACT28 0110 #
# LACT27 0111 LACT28 0112 LACT27 0113 LACT28 0114 LACT27 0115 #
# LACT28 0116 LACT27 0117 LACT28 0118 LACT27 0119 LACT28 0120 #
# LACT27 0121 LACT28 0122 LACT27 0123 LACT28 0124 LACT27 0125 #
# LACT28 0126 LACT27 0127 LACT28 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.Y. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 020060_020187
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.Z.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# ROTATION_OZ=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/random.15 #
# RVB=VRAI #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Z.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Z.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=FAUX #
# R=$xw1/JULI.Z.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/acces_RVB.11$Z #
# $xw1/JULI.Z.%04d #
# $xw1/JULI.Z.%04d\n" #
# ,n,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT12 0001 LACT27 0002 LACT28 0003 LACT27 0004 LACT28 0005 #
# LACT27 0006 LACT12 0007 LACT28 0008 LACT27 0009 LACT28 0010 #
# LACT27 0011 LACT28 0012 LACT12 0013 LACT27 0014 LACT28 0015 #
# LACT27 0016 LACT28 0017 LACT12 0018 LACT27 0019 LACT28 0020 #
# LACT27 0021 LACT28 0022 LACT12 0023 LACT27 0024 LACT28 0025 #
# LACT27 0026 LACT28 0027 LACT12 0028 LACT28 0029 LACT27 0030 #
# LACT28 0031 LACT27 0032 LACT28 0033 LACT27 0034 LACT12 0035 #
# LACT28 0036 LACT27 0037 LACT28 0038 LACT27 0039 LACT12 0040 #
# LACT28 0041 LACT27 0042 LACT28 0043 LACT27 0044 LACT12 0045 #
# LACT28 0046 LACT27 0047 LACT28 0048 LACT27 0049 LACT12 0050 #
# LACT28 0051 LACT27 0052 LACT28 0053 LACT27 0054 LACT12 0055 #
# LACT28 0056 LACT27 0057 LACT28 0058 LACT27 0059 LACT12 0060 #
# LACT28 0061 LACT27 0062 LACT28 0063 LACT27 0064 LACT12 0065 #
# LACT28 0066 LACT27 0067 LACT28 0068 LACT27 0069 LACT12 0070 #
# LACT28 0071 LACT27 0072 LACT28 0073 LACT27 0074 LACT28 0075 #
# LACT12 0076 LACT27 0077 LACT28 0078 LACT28 0079 LACT12 0080 #
# LACT27 0081 LACT28 0082 LACT27 0083 LACT28 0084 LACT27 0085 #
# LACT12 0086 LACT28 0087 LACT27 0088 LACT28 0089 LACT27 0090 #
# LACT12 0091 LACT28 0092 LACT27 0093 LACT28 0094 LACT27 0095 #
# LACT12 0096 LACT28 0097 LACT27 0098 LACT28 0099 LACT27 0100 #
# LACT12 0101 LACT28 0102 LACT27 0103 LACT28 0104 LACT27 0105 #
# LACT12 0106 LACT28 0107 LACT27 0108 LACT28 0109 LACT27 0110 #
# LACT12 0111 LACT28 0112 LACT27 0113 LACT28 0114 LACT27 0115 #
# LACT28 0116 LACT12 0117 LACT27 0118 LACT28 0119 LACT27 0120 #
# LACT28 0121 LACT12 0122 LACT27 0123 LACT28 0124 LACT27 0125 #
# LACT28 0126 LACT12 0127 LACT27 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/JULI.Z. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 020188_020189
sequence 020190_020191
sequence 020192_020319
sequence 020320_020447
sequence 020448_020575
sequence 020576_020703
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.a.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# ROTATION_OZ=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ,angle #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/plan.08 #
# RVB=VRAI #
# gROUGE=VRAI #
# gVERTE=FAUX #
# gBLEUE=FAUX #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$ROUGE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=VRAI #
# R=$xw1/JULI.a.%04d$ROUGE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/plan.10 #
# RVB=VRAI #
# gROUGE=FAUX #
# gVERTE=VRAI #
# gBLEUE=FAUX #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$VERTE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=VRAI #
# R=$xw1/JULI.a.%04d$VERTE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("$xci/vraies_C.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# p=$xiP/plan.20 #
# RVB=VRAI #
# gROUGE=FAUX #
# gVERTE=FAUX #
# gBLEUE=VRAI #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# postfixe=$BLEUE #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=VRAI #
# R=$xw1/JULI.a.%04d$BLEUE #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# ATTENTION, on notera qu'il est impossible de commencer par '$xiP/plan.04' car, en effet, #
# dans '$xrc/julia.41$X' on choisit le parmetre 'iterations=32'. Il n'y a donc que 32 #
# niveaux de couleurs dans chaque image '$xT/JULIA.????' qui sont ensuite renormalises. #
# Ils sont donc espaces de $COULEURS/32, soit 4 (=256/32), ce qui fait qu'ils ont tous le #
# meme reste lors d'une division par 4, ce qui donne donc une image completement uniforme #
# en utilisant la palette '$xiP/plan.04'... #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT28 0002 LACT12 0003 LACT27 0004 LACT28 0005 #
# LACT28 0006 LACT12 0007 LACT27 0008 LACT28 0009 LACT27 0010 #
# LACT28 0011 LACT12 0012 LACT27 0013 LACT28 0014 LACT27 0015 #
# LACT28 0016 LACT12 0017 LACT27 0018 LACT28 0019 LACT27 0020 #
# LACT28 0021 LACT27 0022 LACT28 0023 LACT12 0024 LACT27 0025 #
# LACT28 0026 LACT27 0027 LACT28 0028 LACT12 0029 LACT27 0030 #
# LACT28 0031 LACT27 0032 LACT28 0033 LACT12 0034 LACT27 0035 #
# LACT28 0036 LACT28 0037 LACT27 0038 LACT12 0039 LACT28 0040 #
# LACT27 0041 LACT28 0042 LACT27 0043 LACT12 0044 LACT28 0045 #
# LACT27 0046 LACT28 0047 LACT27 0048 LACT12 0049 LACT28 0050 #
# LACT27 0051 LACT28 0052 LACT27 0053 LACT12 0054 LACT28 0055 #
# LACT27 0056 LACT28 0057 LACT27 0058 LACT28 0059 LACT12 0060 #
# LACT27 0061 LACT28 0062 LACT27 0063 LACT28 0064 LACT27 0065 #
# LACT12 0066 LACT28 0067 LACT27 0068 LACT27 0069 LACT28 0070 #
# LACT12 0071 LACT27 0072 LACT28 0073 LACT27 0074 LACT28 0075 #
# LACT12 0076 LACT27 0077 LACT28 0078 LACT27 0079 LACT28 0080 #
# LACT12 0081 LACT27 0082 LACT28 0083 LACT27 0084 LACT28 0085 #
# LACT12 0086 LACT27 0087 LACT28 0088 LACT27 0089 LACT28 0090 #
# LACT12 0091 LACT27 0092 LACT28 0093 LACT27 0094 LACT28 0095 #
# LACT12 0096 LACT27 0097 LACT28 0098 LACT27 0099 LACT28 0100 #
# LACT12 0101 LACT27 0102 LACT28 0103 LACT27 0104 LACT28 0105 #
# LACT27 0106 LACT28 0107 LACT12 0108 LACT27 0109 LACT28 0110 #
# LACT27 0111 LACT28 0112 LACT12 0113 LACT27 0114 LACT28 0115 #
# LACT27 0116 LACT28 0117 LACT12 0118 LACT27 0119 LACT28 0120 #
# LACT27 0121 LACT28 0122 LACT12 0123 LACT28 0124 LACT27 0125 #
# LACT28 0126 LACT27 0127 LACT28 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z "$xw1/JULI.a." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z "$xw1/JULI.a. $ROUGE" 1 128 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z "$xw1/JULI.a. $VERTE" 1 128 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z "$xw1/JULI.a. $BLEUE" 1 128 $xiP/gris.01 \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera les deux petites sequences d'essai qui sont dues au test de la possibilite #
# de preciser un postfixe a l'appel de '$xci/disk_video_P$Z'... #
sequence 020704_020831
# Generees par : #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# main() #
# { #
# int n; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xci/luminance.01$X #
# AR=$xw1/JULI.a.%04d$ROUGE #
# AV=$xw1/JULI.a.%04d$VERTE #
# AB=$xw1/JULI.a.%04d$BLEUE #
# R=$xT/JULIA #
# $formatI\n" #
# ,n,n,n #
# ); #
# printf("$xci/montagne.01$X #
# A=$xT/JULIA #
# T=$xw1/JULI.a.%04d$ROUGE #
# avion=VRAI #
# R=$xw1/JU.a$m.%04d$ROUGE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/montagne.01$X #
# A=$xT/JULIA #
# T=$xw1/JULI.a.%04d$VERTE #
# avion=VRAI #
# R=$xw1/JU.a$m.%04d$VERTE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/montagne.01$X #
# A=$xT/JULIA #
# T=$xw1/JULI.a.%04d$BLEUE #
# avion=VRAI #
# R=$xw1/JU.a$m.%04d$BLEUE #
# $formatI\n" #
# ,n,n #
# ); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z "$xw1/JU.a$m." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 020832_020959
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #define MILIEU (((N-N0)/2)+N0) #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# #define SEUIL_M 192 #
# #define SEUIL_m 100 #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# double seuil=(double)SEUIL_M; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# double M_m=(double)(SEUIL_M-SEUIL_m); #
# double No_MI=(double)(N0-MILIEU); #
# double MI_N=(double)(MILIEU-N); #
# #
# if (n < MILIEU) #
# { #
# seuil = (M_m/No_MI)*n #
# + (((SEUIL_m*N0)-(SEUIL_M*MILIEU)) #
# / No_MI); #
# } #
# else #
# { #
# seuil = (-M_m/MI_N)*n #
# + (((SEUIL_M*MILIEU)-(SEUIL_m*N)) #
# / MI_N); #
# } #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.b.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# ROTATION_OZ=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ,angle #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=VRAI #
# R=$xT/JULIA.01 #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=%d #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# R=$xT/JULIA.02 #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,(int)seuil #
# ); #
# printf("$xci/vraies_C$X #
# A=$xT/JULIA.02 #
# p=$xiP/fractal.11 #
# RVB=VRAI #
# R=$xT/JULIA.02 #
# $formatI\n" #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$ROUGE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.b.%04d$ROUGE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$VERTE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.b.%04d$VERTE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$BLEUE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.b.%04d$BLEUE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/acces_RVB.11$Z #
# $xw1/JULI.b.%04d #
# $xw1/JULI.b.%04d\n" #
# ,n,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT28 0002 LACT12 0003 LACT28 0004 LACT27 0005 #
# LACT28 0006 LACT12 0007 LACT28 0008 LACT27 0009 LACT28 0010 #
# LACT27 0011 LACT12 0012 LACT28 0013 LACT27 0014 LACT28 0015 #
# LACT12 0016 LACT12 0017 LACT27 0018 LACT27 0019 LACT27 0020 #
# LACT12 0021 LACT27 0022 LACT27 0023 LACT12 0024 LACT27 0025 #
# LACT28 0026 LACT12 0027 LACT27 0028 LACT28 0029 LACT28 0030 #
# LACT27 0031 LACT12 0032 LACT28 0033 LACT27 0034 LACT28 0035 #
# LACT27 0036 LACT28 0037 LACT12 0038 LACT28 0039 LACT27 0040 #
# LACT28 0041 LACT12 0042 LACT27 0043 LACT28 0044 LACT27 0045 #
# LACT28 0046 LACT12 0047 LACT28 0048 LACT27 0049 LACT28 0050 #
# LACT27 0051 LACT12 0052 LACT28 0053 LACT27 0054 LACT28 0055 #
# LACT12 0056 LACT28 0057 LACT27 0058 LACT28 0059 LACT27 0060 #
# LACT28 0061 LACT12 0062 LACT27 0063 LACT28 0064 LACT28 0065 #
# LACT27 0066 LACT12 0067 LACT28 0068 LACT27 0069 LACT28 0070 #
# LACT27 0071 LACT12 0072 LACT28 0073 LACT27 0074 LACT28 0075 #
# LACT12 0076 LACT28 0077 LACT27 0078 LACT28 0079 LACT27 0080 #
# LACT12 0081 LACT28 0082 LACT27 0083 LACT28 0084 LACT28 0085 #
# LACT27 0086 LACT12 0087 LACT28 0088 LACT27 0089 LACT28 0090 #
# LACT27 0091 LACT28 0092 LACT12 0093 LACT27 0094 LACT28 0095 #
# LACT28 0096 LACT27 0097 LACT12 0098 LACT28 0099 LACT27 0100 #
# LACT28 0101 LACT12 0102 LACT28 0103 LACT27 0104 LACT28 0105 #
# LACT27 0106 LACT12 0107 LACT28 0108 LACT27 0109 LACT28 0110 #
# LACT28 0111 LACT27 0112 LACT12 0113 LACT28 0114 LACT27 0115 #
# LACT28 0116 LACT12 0117 LACT27 0118 LACT28 0119 LACT28 0120 #
# LACT27 0121 LACT12 0122 LACT28 0123 LACT27 0124 LACT28 0125 #
# LACT27 0126 LACT28 0127 LACT12 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z "$xw1/JULI.b." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 020960_020960
sequence 020961_021088
sequence 021089_021216
# Generees par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=-1.0 vA=+1.0 cubique=FAUX > $xT/param11 #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #define MILIEU (((N-N0)/2)+N0) #
# #
# #define COUCHE0 N0 #
# #define COUCHES 128 #
# #
# #define ANGLE0 0.0 #
# #define ANGLEN (2*3.1415926535897932) #
# #
# #define SEUIL_M 192 #
# #define SEUIL_m 100 #
# #
# main() #
# { #
# int n; #
# double angle=ANGLE0; #
# double seuil=(double)SEUIL_M; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# double M_m=(double)(SEUIL_M-SEUIL_m); #
# double No_MI=(double)(N0-MILIEU); #
# double MI_N=(double)(MILIEU-N); #
# #
# if (n < MILIEU) #
# { #
# seuil = (M_m/No_MI)*n #
# + (((SEUIL_m*N0)-(SEUIL_M*MILIEU)) #
# / No_MI); #
# } #
# else #
# { #
# seuil = (-M_m/MI_N)*n #
# + (((SEUIL_M*MILIEU)-(SEUIL_m*N)) #
# / MI_N); #
# } #
# printf("if (`$xcg/parallele.01$X #
# verrou=$xw1/JULI.c.%04d` #
# == $EXIST) then\n" #
# ,n #
# ); #
# printf("$xrc/julia.41$X #
# images=%d #
# iterations=32 #
# r=-0.5815147625160462 #
# i=+0.6358885017421603 #
# COMPOSANTE_J=$xT/param11 #
# K=0.0 #
# ROTATION_OY=%f #
# ROTATION_OZ=%f #
# R=$xT/JULIA. #
# $formatI\n" #
# ,COUCHES #
# ,angle #
# ,angle #
# ); #
# printf("$xci/accumule.01$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# facteur=0 #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# renormaliser=VRAI #
# $formatI | #
# $xci/substitue$X #
# substitution=L_SUBSTITUTION_ROUGE #
# p=$xiP/gris.03 #
# R=$xT/JULIA.01 #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ); #
# printf("$xci/accumule.02$X #
# A=$xT/JULIA. #
# premiere=%d derniere=%d #
# binariser=VRAI seuil=%d #
# translation_quelconque=FAUX #
# stereo=0.0 #
# trx=0 try=0 #
# R=$xT/JULIA.02 #
# $formatI\n" #
# ,COUCHE0,COUCHES #
# ,(int)seuil #
# ); #
# printf("$xci/vraies_C$X #
# A=$xT/JULIA.02 #
# p=$xiP/fractal.11 #
# RVB=VRAI #
# R=$xT/JULIA.02 #
# $formatI\n" #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$ROUGE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.c.%04d$ROUGE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$VERTE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.c.%04d$VERTE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$BLEUE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.c.%04d$BLEUE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/acces_RVB.11$Z #
# $xw1/JULI.c.%04d #
# $xw1/JULI.c.%04d\n" #
# ,n,n #
# ); #
# printf("$xci/anti_alia.11$Z #
# $xT/JULIA.02 #
# $xT/JULIA.02 #
# $xT/JULIA.02 #
# 81 25 0.2\n" #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$ROUGE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.d.%04d$ROUGE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$VERTE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.d.%04d$VERTE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xT/JULIA.02$BLEUE #
# A2=$xT/JULIA.01 #
# P=$xT/JULIA.02 #
# R=$xw1/JULI.d.%04d$BLEUE #
# $formatI\n" #
# ,n #
# ); #
# printf("$xci/acces_RVB.11$Z #
# $xw1/JULI.d.%04d #
# $xw1/JULI.d.%04d\n" #
# ,n,n #
# ); #
# printf("else\nendif\n" #
# ); #
# #
# angle = angle + ((ANGLEN-ANGLE0)/(N-N0)); #
# } #
# } #
# #
# #
# Liste des images et des MACHINEs sur lesquelles elles ont ete calculees : #
# #
# LACT27 0001 LACT28 0002 LACT12 0003 LACT27 0004 LACT27 0005 #
# LACT27 0006 LACT12 0007 LACT27 0008 LACT27 0009 LACT12 0010 #
# LACT27 0011 LACT12 0012 LACT27 0013 LACT27 0014 LACT12 0015 #
# LACT28 0016 LACT27 0017 LACT28 0018 LACT27 0019 LACT28 0020 #
# LACT12 0021 LACT28 0022 LACT27 0023 LACT28 0024 LACT27 0025 #
# LACT12 0026 LACT28 0027 LACT28 0028 LACT27 0029 LACT28 0030 #
# LACT12 0031 LACT27 0032 LACT28 0033 LACT27 0034 LACT28 0035 #
# LACT12 0036 LACT28 0037 LACT27 0038 LACT28 0039 LACT27 0040 #
# LACT28 0041 LACT12 0042 LACT28 0043 LACT27 0044 LACT28 0045 #
# LACT27 0046 LACT12 0047 LACT28 0048 LACT28 0049 LACT27 0050 #
# LACT28 0051 LACT12 0052 LACT27 0053 LACT28 0054 LACT28 0055 #
# LACT27 0056 LACT12 0057 LACT28 0058 LACT27 0059 LACT28 0060 #
# LACT27 0061 LACT28 0062 LACT12 0063 LACT28 0064 LACT27 0065 #
# LACT28 0066 LACT12 0067 LACT27 0068 LACT28 0069 LACT28 0070 #
# LACT27 0071 LACT28 0072 LACT12 0073 LACT27 0074 LACT28 0075 #
# LACT27 0076 LACT28 0077 LACT12 0078 LACT28 0079 LACT27 0080 #
# LACT28 0081 LACT27 0082 LACT12 0083 LACT28 0084 LACT28 0085 #
# LACT27 0086 LACT28 0087 LACT12 0088 LACT27 0089 LACT28 0090 #
# LACT28 0091 LACT27 0092 LACT12 0093 LACT28 0094 LACT27 0095 #
# LACT28 0096 LACT27 0097 LACT28 0098 LACT12 0099 LACT28 0100 #
# LACT27 0101 LACT28 0102 LACT27 0103 LACT12 0104 LACT28 0105 #
# LACT28 0106 LACT27 0107 LACT28 0108 LACT12 0109 LACT27 0110 #
# LACT28 0111 LACT28 0112 LACT27 0113 LACT12 0114 LACT28 0115 #
# LACT27 0116 LACT28 0117 LACT28 0118 LACT27 0119 LACT12 0120 #
# LACT28 0121 LACT27 0122 LACT28 0123 LACT12 0124 LACT28 0125 #
# LACT27 0126 LACT28 0127 LACT27 0128 #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z "$xw1/JULI.c." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z "$xw1/JULI.d." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera une image enregistree seule ; ceci est du au fait que l'image '0002' qui avait #
# ete accaparee par '$LACT12' n'avait en fait pas ete calculee. Il a donc fallu relancer #
# son calcul, ce qui fut fait (arbitrairement...) sur '$LACT28'. #
sequence 021217_021344
sequence 021345_021472
# Generees par : #
# #
# Pal #
# #
# #define N0 1 #
# #define N 128 #
# #
# main() #
# { #
# int n; #
# #
# for (n=N0 ; n<=N ; n++) #
# { #
# printf("$xci/luminance.01$X #
# AR=$xw1/JULI.c.%04d$ROUGE #
# AV=$xw1/JULI.c.%04d$VERTE #
# AB=$xw1/JULI.c.%04d$BLEUE #
# R=$xT/LUMINANCE #
# $formatI\n" #
# ,n,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$ROUGE #
# A2=$xiirf/PAYS.1C.7$Fi$ROUGE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.e.%04d$ROUGE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$VERTE #
# A2=$xiirf/PAYS.1C.7$Fi$VERTE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.e.%04d$VERTE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$BLEUE #
# A2=$xiirf/PAYS.1C.7$Fi$BLEUE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.e.%04d$BLEUE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$ROUGE #
# A2=$xiirf/PAYS.1D.7$Fi$ROUGE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.f.%04d$ROUGE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$VERTE #
# A2=$xiirf/PAYS.1D.7$Fi$VERTE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.f.%04d$VERTE #
# $formatI\n" #
# ,n,n #
# ); #
# printf("$xci/interpole.02$X #
# A1=$xw1/JULI.c.%04d$BLEUE #
# A2=$xiirf/PAYS.1D.7$Fi$BLEUE #
# P=$xT/LUMINANCE #
# R=$xw1/JULI.f.%04d$BLEUE #
# $formatI\n" #
# ,n,n #
# ); #
# } #
# } #
# #
# Pal #
# #
# $xci/disk_video_P$Z "$xw1/JULI.e." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z "$xw1/JULI.f." 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
sequence 021473_021600
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 500.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo 550.0e9 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e22 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 8.0e10 > $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=3 \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=100000 \ #
# R=$xw1/NCOR.1. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.1. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 021601_021728
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 500.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo 550.0e9 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e22 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 8.0e10 > $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=3 \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=20000 \ #
# trainees=VRAI \ #
# R=$xw1/NCOR.2. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 021729_021856
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 500.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo 550.0e9 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e22 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 8.0e10 > $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=3 \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=20000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.98 \ #
# R=$xw1/NCOR.3. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.3. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 021857_021868
sequence 021869_021996
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 500.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo 550.0e9 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# echo 1.0e4 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e22 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=3 \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/NCOR.4. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=3 \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.4. \ #
# R=$xw1/NCOR.4. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera que l'enregistrement a du etre interrompu et repris a zero. En effet, il y a #
# eu un probleme donnant le message : #
# #
# WARNING: Frame transfer aborted: analog video input not locked #
# #
# non du, apparemment, a une penurie de swap virtuel... #
sequence 021997_022124
# Generee par : #
# #
# ATTENTION : la generation de '$xT/MASSES' et '$xT/RAYONS' utilise les memes graines #
# aleatoires afin que, bien que tout soit aleatoire, le classement des corps selon leur #
# masse soit identique au classement des corps selon leur rayon... #
# #
# set Nimages=128 #
# #
# set Ncorps=4 #
# @ NcorpsS = $Ncorps * 2 + 1 #
# #
# alias genere 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# if ("$Fi" != "$K_VIDE") set Fi=">>! $Fi" ; \\ #
# eval "$xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo $Fi" ; \\ #
# unset In Su Gr Mo Fi' #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 111 FAUX $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 112 FAUX $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# genere -0.8e12 -0.2e12 121 FAUX $xT/COORDONNEES$COORD_Y #
# genere +0.2e12 +0.8e12 122 FAUX $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# genere 1.0e3 1.0e3 131 FAUX $xT/COORDONNEES$COORD_Z #
# genere 1.0e3 1.0e3 132 FAUX $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# genere -10.0e3 -5.0e3 211 FAUX $xT/VITESSES$COORD_X #
# genere +5.0e3 +10.0e3 212 FAUX $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 221 FAUX $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 222 FAUX $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# genere 0 0 231 FAUX $xT/VITESSES$COORD_Z #
# genere 0 0 232 FAUX $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# genere 1.0e26 1.0e24 311 FAUX $xT/MASSES #
# genere 1.0e26 1.0e24 312 FAUX $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# genere 2.0e10 1.0e10 311 FAUX $xT/RAYONS #
# genere 2.0e10 1.0e10 312 FAUX $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 411 VRAI $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 412 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 421 VRAI $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 422 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 431 VRAI $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 432 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/NCOR.5. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# genere 4.0e10 2.0e10 311 FAUX $xT/RAYONS #
# genere 4.0e10 2.0e10 312 FAUX $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.5. \ #
# R=$xw1/NCOR.5. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.5. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022125_022252
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=2 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/NCOR.6. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.6. \ #
# R=$xw1/NCOR.6. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.6. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022253_022380
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=128 #
# #
# set NcorpsS=3 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 5.0e10 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo -0.96e3 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# echo 7.350e22 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/NCOR.7. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.7. \ #
# R=$xw1/NCOR.7. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.7. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022381_022508
# Generee par : #
# #
# ATTENTION : la generation de '$xT/MASSES' et '$xT/RAYONS' utilise les memes graines #
# aleatoires afin que, bien que tout soit aleatoire, le classement des corps selon leur #
# masse soit identique au classement des corps selon leur rayon... #
# #
# set Nimages=128 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# set Ncorps=4 #
# @ NcorpsS = $Ncorps * 2 + 1 #
# #
# alias genere 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# if ("$Fi" != "$K_VIDE") set Fi=">>! $Fi" ; \\ #
# eval "$xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo $Fi" ; \\ #
# unset In Su Gr Mo Fi' #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 111 FAUX $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 112 FAUX $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# genere -0.8e12 -0.2e12 121 FAUX $xT/COORDONNEES$COORD_Y #
# genere +0.2e12 +0.8e12 122 FAUX $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# genere -0.1e12 +0.1e12 131 FAUX $xT/COORDONNEES$COORD_Z #
# genere -0.1e12 +0.1e12 132 FAUX $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# genere -10.0e3 -5.0e3 211 FAUX $xT/VITESSES$COORD_X #
# genere +5.0e3 +10.0e3 212 FAUX $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 221 FAUX $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 222 FAUX $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# genere 0 0 231 FAUX $xT/VITESSES$COORD_Z #
# genere 0 0 232 FAUX $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# genere 1.0e26 1.0e24 311 FAUX $xT/MASSES #
# genere 1.0e26 1.0e24 312 FAUX $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# genere 2.0e10 1.0e10 311 FAUX $xT/RAYONS #
# genere 2.0e10 1.0e10 312 FAUX $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 411 VRAI $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 412 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 421 VRAI $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 422 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 431 VRAI $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 432 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.8. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# genere 4.0e10 2.0e10 311 FAUX $xT/RAYONS #
# genere 4.0e10 2.0e10 312 FAUX $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.8. \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.8. \ #
# $formatI #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.8. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022509_022636
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# set NcorpsS=2 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# reinitialiser=VRAI \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.9. \ #
# $formatI #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.9. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022637_022764
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# set NcorpsS=2 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# reinitialiser=FAUX \ #
# trainees=FAUX \ #
# fond=FAUX \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.A. \ #
# $formatI #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.A. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a un defaut : lors du cumul du a "reinitialiser=FAUX", a partir #
# du milieu de la sequence, des particules disparaissent. Ce phenomene vient de l'option #
# "reinitialiser=FAUX" qui a du etre supprimee en consequence. En effet, cette possibilite #
# ne pouvait etre implementee telle quelle a cause de la liste 'liste_des_index' definie #
# dans '$xrv/champs_5.11$I' dont les premiers elements n'etaient jamais reinitialises... #
sequence 022765_022892
# Generee par : #
# #
# set Nimages=128 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# set NcorpsS=2 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# ensemble=VRAI \ #
# trainees=FAUX \ #
# fond=FAUX \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.B. \ #
# $formatI #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.B. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 022893_023020
# Generee par : #
# #
# ATTENTION : la generation de '$xT/MASSES' et '$xT/RAYONS' utilise les memes graines #
# aleatoires afin que, bien que tout soit aleatoire, le classement des corps selon leur #
# masse soit identique au classement des corps selon leur rayon... #
# #
# set Nimages=128 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# set Ncorps=4 #
# @ NcorpsS = $Ncorps * 2 + 1 #
# #
# alias genere 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# if ("$Fi" != "$K_VIDE") set Fi=">>! $Fi" ; \\ #
# eval "$xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo $Fi" ; \\ #
# unset In Su Gr Mo Fi' #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 111 FAUX $xT/COORDONNEES$COORD_X #
# genere -0.3e12 +0.3e12 112 FAUX $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# genere -0.8e12 -0.2e12 121 FAUX $xT/COORDONNEES$COORD_Y #
# genere +0.2e12 +0.8e12 122 FAUX $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# genere -0.1e12 +0.1e12 131 FAUX $xT/COORDONNEES$COORD_Z #
# genere -0.1e12 +0.1e12 132 FAUX $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# genere -10.0e3 -5.0e3 211 FAUX $xT/VITESSES$COORD_X #
# genere +5.0e3 +10.0e3 212 FAUX $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 221 FAUX $xT/VITESSES$COORD_Y #
# genere -1.0e3 +1.0e3 222 FAUX $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# genere 0 0 231 FAUX $xT/VITESSES$COORD_Z #
# genere 0 0 232 FAUX $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# genere 1.0e26 1.0e24 311 FAUX $xT/MASSES #
# genere 1.0e26 1.0e24 312 FAUX $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# genere 2.0e10 1.0e10 311 FAUX $xT/RAYONS #
# genere 2.0e10 1.0e10 312 FAUX $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 411 VRAI $xT/COULEURS$ROUGE #
# genere $GRIS_6 $BLANC 412 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 421 VRAI $xT/COULEURS$VERTE #
# genere $GRIS_6 $BLANC 422 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 431 VRAI $xT/COULEURS$BLEUE #
# genere $GRIS_6 $BLANC 432 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# ensemble=VRAI \ #
# trainees=FAUX \ #
# fond=FAUX \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.C. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# genere 4.0e10 2.0e10 311 FAUX $xT/RAYONS #
# genere 4.0e10 2.0e10 312 FAUX $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# ensemble=FAUX \ #
# trainees=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.C. \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.C. \ #
# $formatI #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.C. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 023021_023148
sequence 023149_023276
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=3 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e27 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/NCOR.D. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.D. \ #
# R=$xw1/NCOR.D. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.D. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a du etre reenregistree car, en effet, l'image '023021' n'a #
# pas apparemment ete enregistree par le '$xci/disk_video_P$Z' (son etat etait celui d'une #
# zone vierge) ; j'ai essaye de l'enregistrer "a la main", ce qui a bien fonctionne, sauf #
# que ce qui a ete enregistre est plus que mauvais... #
sequence 023277_023282
sequence 023283_023410
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=3 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e25 >>! $xT/MASSES #
# echo 1.0e28 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.E. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.E. \ #
# R=$xw1/NCOR.E. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.E. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, l'enregistrement a du etre recommence a cause de probleme avec le disque... #
# D'ailleurs, il s'est mal termine car l'image 023410' a du etre reenregistree "a la main" #
# et malgre cela, elle est decalee... #
sequence 023411_023418
sequence 023419_023674
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=256 #
# #
# set NcorpsS=4 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 5.0e10 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo -0.96e3 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# echo 7.350e22 >>! $xT/MASSES #
# echo 1.0e28 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $GRIS_4 >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $NOIR >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.F. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.F. \ #
# R=$xw1/NCOR.F. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.F. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
# ATTENTION, l'enregistrement a du etre recommence a cause de probleme avec le disque, mais #
# malheureusement, il manque dans le nouvel enregistrement l'image '0001' qui n'a pas ete #
# enregistree ; elle devrait etre a l'adresse '023419', or cette emplacement n'a jamais #
# ete enregistre (voir son "etat"), et malgre cela il est impossible de la "re-enregistrer", #
# l'operation de 'blank check' ne la voyant pas comme vierge. Cette sequence a ete #
# reenregistree ci -apres... #
#######################################################################################################################################
# #
# E N R E G I S T R E M E N T S U R U N ' LVR4000P ' E N L O C A T I O N : #
# #
#######################################################################################################################################
sequence 023675_023676
sequence 023677_023677
sequence 023678_023933
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=256 vD=0.0 vA=$dpi cubique=VRAI > $xT/param11 #
# $xci/valeurs_inte$X p=1 d=256 vD=0.5 vA=1.5 cubique=VRAI > $xT/param12 #
# $xci/valeurs_inte$X p=1 d=256 vD=1 vA=256 cubique=FAUX entiers=VRAI > $xT/param13 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=256 \ #
# VARIABLE_essais=$xT/param13 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=FAUX \ #
# observateurZ=4 \ #
# ROTATION_OX=$xT/param11 \ #
# ZOOM=$xT/param12 \ #
# R=$xiim/RECS.D. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xiim/RECS.D. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# On notera deux enregistrements preliminaires tres mauvais, et dus au fait que sur un #
# 'LVR4000P' le signal de synchronisation doit entrer sur la prise 'SYNC' contrairement #
# au 'LVS6000P' ou elle entre sur 'REF VIDEO', or j'avais un branchement de ce dernier #
# type pour le 'LVR4000P' croyant bien faire... #
sequence 023934_024189
# Generee par : #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.F. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
# ATTENTION, le 1995072700 j'ai introduit un nouvel enregistreur en pret ; cette sequence #
# est donc la bonne version de la sequence : #
# #
# xivPdf 7 1 / 023419_023674 #
# #
# qui est bien mieux ainsi... #
sequence 024190_024445
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=256 #
# #
# set NcorpsS=4 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 5.0e10 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo -0.96e3 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# echo 7.350e22 >>! $xT/MASSES #
# echo 1.0e28 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.G. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.G. \ #
# R=$xw1/NCOR.G. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.G. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
#######################################################################################################################################
# #
# M I S E E N S E R V I C E D U ' LVR4000P ' : #
# #
#######################################################################################################################################
sequence 024446_024573
# Generee par : #
# #
# $xci/valeurs_inte$X p=1 d=128 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# Pal #
# #
# $xrk/recuit_3D.11$X np=128 \ #
# essais=200 \ #
# connexions=VRAI points=8 \ #
# premier=FAUX intermediaire=FAUX dernier=FAUX \ #
# brume=VRAI \ #
# ROTATION_OX=$xT/param11 \ #
# TRANSLATION_OX=+0.50 \ #
# R=$xw1/RECS.E. \ #
# $formatI #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RECS.E. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 024574_024829
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=256 #
# #
# set NcorpsS=4 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 5.0e10 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo -0.96e3 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# echo 7.350e22 >>! $xT/MASSES #
# echo 1.0e28 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.H. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.H. \ #
# R=$xw1/NCOR.H. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.H. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
sequence 024830_025085
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=256 #
# #
# set NcorpsS=4 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# echo +260.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# echo 5.0e10 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# echo -0.96e3 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo 5.0e3 >>! $xT/VITESSES$COORD_Y #
# echo -13.3e3 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# echo 7.350e22 >>! $xT/MASSES #
# echo 1.0e28 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# echo 1.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# echo $GRIS_4 >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# echo $NOIR >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.I. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 2.0e10 >>! $xT/RAYONS #
# echo 4.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.I. \ #
# R=$xw1/NCOR.I. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.I. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 025086_025341
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=4 #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# echo 1.0e3 > $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_X #
# echo -800.0e9 >>! $xT/COORDONNEES$COORD_X #
# #
# $DELETE $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Y #
# echo 200.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo -200.0e9 >>! $xT/COORDONNEES$COORD_Y #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Y #
# #
# $DELETE $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 > $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# echo 1.0e3 >>! $xT/COORDONNEES$COORD_Z #
# #
# $DELETE $xT/VITESSES$COORD_X #
# echo 0 > $xT/VITESSES$COORD_X #
# echo 2.0e4 >>! $xT/VITESSES$COORD_X #
# echo -2.0e4 >>! $xT/VITESSES$COORD_X #
# echo 0 >>! $xT/VITESSES$COORD_X #
# #
# $DELETE $xT/VITESSES$COORD_Y #
# echo 0 > $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 0 >>! $xT/VITESSES$COORD_Y #
# echo 1.0e4 >>! $xT/VITESSES$COORD_Y #
# #
# $DELETE $xT/VITESSES$COORD_Z #
# echo 0 > $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# echo 0 >>! $xT/VITESSES$COORD_Z #
# #
# $DELETE $xT/MASSES #
# echo 1.0e30 > $xT/MASSES #
# echo 1.0e30 >>! $xT/MASSES #
# echo 1.0e30 >>! $xT/MASSES #
# echo 2.0e27 >>! $xT/MASSES #
# #
# $DELETE $xT/RAYONS #
# echo 3.0e10 > $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# echo 1.5e10 >>! $xT/RAYONS #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $BLANC > $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# echo $BLANC >>! $xT/COULEURS$ROUGE #
# echo $NOIR >>! $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_7 > $xT/COULEURS$VERTE #
# echo $GRIS_5 >>! $xT/COULEURS$VERTE #
# echo $GRIS_3 >>! $xT/COULEURS$VERTE #
# echo $BLANC >>! $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $NOIR > $xT/COULEURS$BLEUE #
# echo $NOIR >>! $xT/COULEURS$BLEUE #
# echo $NOIR >>! $xT/COULEURS$BLEUE #
# echo $BLANC >>! $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=50 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.J. \ #
# $formatI #
# #
# $DELETE $xT/RAYONS #
# echo 6.0e10 > $xT/RAYONS #
# echo 6.0e10 >>! $xT/RAYONS #
# echo 6.0e10 >>! $xT/RAYONS #
# echo 3.0e10 >>! $xT/RAYONS #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=50 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.J. \ #
# R=$xw1/NCOR.J. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.J. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 025342_025597
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.55 -0.32 -0.32 -0.9 -0.9 -0.9 #
# genere $xT/COORDONNEES$COORD_Y +0.1 +0.6 -0.4 +0.3 +0.1 -0.1 #
# genere $xT/COORDONNEES$COORD_Z +0.1 +0.1 +0.1 +0.2 +0.2 +0.2 #
# genere $xT/VITESSES$COORD_X 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MASSES 0.0 0.0 0.0 0.04 0.04 0.04 #
# genere $xT/FRICTION 0.0 0.0 0.0 0.02 0.02 0.02 #
# genere $xT/COUPLAGE 2000.0 2000.0 2000.0 0.0 0.0 0.0 #
# genere $xT/MOBILITE $NEXIST $NEXIST $NEXIST $EXIST $EXIST $EXIST #
# genere $xT/RAYONS 0.04 0.04 0.04 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $BLANC $BLANC $BLANC $BLANC $NOIR $GRIS_5 #
# genere $xT/COULEURS$VERTE $BLANC $BLANC $BLANC $GRIS_3 $BLANC $NOIR #
# genere $xT/COULEURS$BLEUE $BLANC $BLANC $BLANC $NOIR $GRIS_6 $BLANC #
# #
# Pal #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.0001 \ #
# nombre=20 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=0 \ #
# Lz=10 \ #
# fond=FAUX \ #
# R=$xw1/NAIM.1. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.08 0.08 0.08 0.04 0.04 0.04 #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.0001 \ #
# nombre=20 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=0 \ #
# Lz=10 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NAIM.1. \ #
# R=$xw1/NAIM.1. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/FRICTION #
# $DELETE $xT/COUPLAGE #
# $DELETE $xT/MOBILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NAIM.1. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 025598_025853
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.55 -0.32 -0.32 -0.9 -0.9 -0.9 #
# genere $xT/COORDONNEES$COORD_Y +0.1 +0.6 -0.4 +0.3 +0.1 -0.1 #
# genere $xT/COORDONNEES$COORD_Z +0.1 +0.1 +0.1 +0.2 +0.2 +0.2 #
# genere $xT/VITESSES$COORD_X 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MASSES 0.0 0.0 0.0 0.04 0.04 0.04 #
# genere $xT/FRICTION 0.0 0.0 0.0 0.02 0.02 0.02 #
# genere $xT/COUPLAGE 2000.0 2000.0 2000.0 0.0 0.0 0.0 #
# genere $xT/MOBILITE $NEXIST $NEXIST $NEXIST $EXIST $EXIST $EXIST #
# genere $xT/RAYONS 0.04 0.04 0.04 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $BLANC $BLANC $BLANC $BLANC $NOIR $GRIS_5 #
# genere $xT/COULEURS$VERTE $BLANC $BLANC $BLANC $GRIS_3 $BLANC $NOIR #
# genere $xT/COULEURS$BLEUE $BLANC $BLANC $BLANC $NOIR $GRIS_6 $BLANC #
# #
# Pal #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.00001 \ #
# nombre=20 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=FAUX \ #
# R=$xw1/NAIM.2. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.08 0.08 0.08 0.04 0.04 0.04 #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.00001 \ #
# nombre=20 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NAIM.2. \ #
# R=$xw1/NAIM.2. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/FRICTION #
# $DELETE $xT/COUPLAGE #
# $DELETE $xT/MOBILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NAIM.2. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 025854_026109
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.55 -0.32 -0.32 -0.9 -0.9 -0.9 #
# genere $xT/COORDONNEES$COORD_Y +0.1 +0.6 -0.4 +0.3 +0.1 -0.1 #
# genere $xT/COORDONNEES$COORD_Z +0.1 +0.1 +0.1 +0.2 +0.2 +0.2 #
# genere $xT/VITESSES$COORD_X 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MASSES 0.0 0.0 0.0 0.04 0.04 0.04 #
# genere $xT/FRICTION 0.0 0.0 0.0 0.02 0.02 0.02 #
# genere $xT/COUPLAGE 2000.0 2000.0 2000.0 0.0 0.0 0.0 #
# genere $xT/MOBILITE $NEXIST $NEXIST $NEXIST $EXIST $EXIST $EXIST #
# genere $xT/RAYONS 0.04 0.04 0.04 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $BLANC $BLANC $BLANC $BLANC $NOIR $GRIS_5 #
# genere $xT/COULEURS$VERTE $BLANC $BLANC $BLANC $GRIS_3 $BLANC $NOIR #
# genere $xT/COULEURS$BLEUE $BLANC $BLANC $BLANC $NOIR $GRIS_6 $BLANC #
# #
# Pal #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.0001 \ #
# nombre=5 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=FAUX \ #
# R=$xw1/NAIM.3. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.08 0.08 0.08 0.04 0.04 0.04 #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# dct=0.0001 \ #
# nombre=5 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NAIM.3. \ #
# R=$xw1/NAIM.3. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/FRICTION #
# $DELETE $xT/COUPLAGE #
# $DELETE $xT/MOBILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NAIM.3. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 026110_026365
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.55 -0.32 -0.32 -0.9 -0.9 -0.9 #
# genere $xT/COORDONNEES$COORD_Y +0.1 +0.6 -0.4 +0.3 +0.1 -0.1 #
# genere $xT/COORDONNEES$COORD_Z +0.1 +0.1 +0.1 +0.2 +0.2 +0.2 #
# genere $xT/VITESSES$COORD_X 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MASSES 0.0 0.0 0.0 0.04 0.04 0.04 #
# genere $xT/FRICTION 0.0 0.0 0.0 0.02 0.02 0.02 #
# genere $xT/COUPLAGE 2000.0 2000.0 2000.0 0.0 0.0 0.0 #
# genere $xT/MOBILITE $NEXIST $NEXIST $NEXIST $EXIST $EXIST $EXIST #
# genere $xT/RAYONS 0.04 0.04 0.04 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $BLANC $BLANC $BLANC $BLANC $NOIR $GRIS_5 #
# genere $xT/COULEURS$VERTE $BLANC $BLANC $BLANC $GRIS_3 $BLANC $NOIR #
# genere $xT/COULEURS$BLEUE $BLANC $BLANC $BLANC $NOIR $GRIS_6 $BLANC #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# $Couleur \ #
# dct=0.0001 \ #
# nombre=5 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=FAUX \ #
# R=$xw1/NAIM.4. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.08 0.08 0.08 0.04 0.04 0.04 #
# #
# $xrk/N_aimants.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_FRICTION=$xT/FRICTION \ #
# LISTE_COUPLAGE_MAGNETIQUE=$xT/COUPLAGE \ #
# cG=10.0 \ #
# LISTE_MOBILITE=$xT/MOBILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI reference=1 \ #
# $Couleur \ #
# dct=0.0001 \ #
# nombre=5 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OY=-0.1 \ #
# ZOOM=0.9 \ #
# Lz=10 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NAIM.4. \ #
# R=$xw1/NAIM.4. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/FRICTION #
# $DELETE $xT/COUPLAGE #
# $DELETE $xT/MOBILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NAIM.4. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 026366_026621
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=3 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 0 #
# genere $xT/VITESSES$COORD_Y 0 +5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 1.0e28 #
# genere $xT/RAYONS 4.0e10 2.0e10 3.0e10 #
# genere $xT/COULEURS$ROUGE $BLANC $NOIR $BLANC #
# genere $xT/COULEURS$VERTE $GRIS_7 $BLANC $GRIS_4 #
# genere $xT/COULEURS$BLEUE $NOIR $BLANC $NOIR #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.K. \ #
# $formatI #
# #
# genere $xT/RAYONS 8.0e10 4.0e10 6.0e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.K. \ #
# R=$xw1/NCOR.K. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.K. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 026622_026636
sequence 026637_026877
sequence 026878_027129
sequence 027130_027385
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=3 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 0 #
# genere $xT/VITESSES$COORD_Y 0 +5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 1.0e28 #
# genere $xT/RAYONS 4.0e10 2.0e10 3.0e10 #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.L. \ #
# $formatI #
# #
# genere $xT/RAYONS 8.0e10 4.0e10 6.0e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.L. \ #
# R=$xw1/NCOR.L. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# #
# #
# $xci/genere$X premiere=1 derniere=256 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.L.%04d \ #
# $xw1/NCOR.M.%04d' #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.L. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.M. 1 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, l'enregistrement de '$xw1/NCOR.L.' a du etre fait en deux fois, et ce a cause #
# des problemes de 'vswap' qui m'ont contraint a l'arreter en cours. Pas de chance, car #
# l'enregistrement de '$xw1/NCOR.L.' a lui aussi ete interrompu sur '$xw1/NCOR.M.0252', #
# image enregistree au NOIR, ce qui fait que tou a du etre refait... #
# #
sequence 027386_027513
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/VITESSES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/mdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/mnPHI -2 -2 -2 -2 -2 -2 #
# genere $xT/MnPHI +2 +2 +2 +2 +2 +2 #
# genere $xT/dPHI $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/mnTHETA -2 -2 -2 -2 -2 -2 #
# genere $xT/MnTHETA +2 +2 +2 +2 +2 +2 #
# genere $xT/dTHETA $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 0.8 0.8 0.8 0.8 #
# genere $xT/STABILITE 4 4 4 4 4 4 #
# genere $xT/RAYONS 0.02 0.02 0.02 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 $GRIS_0 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_6 $GRIS_4 $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$BLEUE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 #
# #
# Pal #
# #
# $xrk/rdn_walk.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# fond=FAUX \ #
# R=$xw1/RDNW.1. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 0.04 0.04 0.04 0.02 #
# #
# $xrk/rdn_walk.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.1. \ #
# R=$xw1/RDNW.1. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.1. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 027514_028025
sequence 028026_028281
sequence 028282_028537
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=512 #
# #
# set NcorpsS=4 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +5.0e10 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 -0.96e3 0 #
# genere $xT/VITESSES$COORD_Y 0 5.0e3 5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 7.350e22 1.0e28 #
# genere $xT/RAYONS 4.0e10 2.0e10 1.5e10 2.5e10 #
# genere $xT/COULEURS$ROUGE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_7 $GRIS_8 $GRIS_8 $GRIS_4 #
# genere $xT/COULEURS$BLEUE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.N. \ #
# $formatI #
# #
# genere $xT/RAYONS 8.0e10 4.0e10 3.0e10 5.0e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.N. \ #
# R=$xw1/NCOR.N. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.N. 1 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/NCOR.N. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.N. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, malheureusement, l'enregistrement a du etre etre recommence integralement car #
# il y a eu le message fatidique : #
# #
# WARNING: Frame transfer aborted: analog video input not locked #
# #
# ce qui a donne une image 27989 toute NOIRe... #
# #
# D'ou un enregistrement en deux temps... #
# #
sequence 028538_028665
sequence 028666_028793
sequence 028794_029049
sequence 029050_029113
sequence 029114_029305
sequence 029306_029561
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=512 #
# #
# set NcorpsS=4 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +5.0e10 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 -0.96e3 0 #
# genere $xT/VITESSES$COORD_Y 0 5.0e3 5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 7.350e22 1.0e28 #
# genere $xT/RAYONS 4.0e10 2.0e10 1.5e10 2.5e10 #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# set Directory=$xT #
# repeat 10000 eval "cd /share/blanche ; sleep 60" & #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# set Directory=$xT #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# set Directory=$xw1 #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=FAUX \ #
# R=$Directory/NCOR.O. \ #
# $formatI #
# #
# genere $xT/RAYONS 8.0e10 4.0e10 3.0e10 5.0e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$Directory/NCOR.O. \ #
# R=$Directory/NCOR.O. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# #
# #
# $xci/genere$X premiere=001 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.O.%04d \ #
# $xw1/NCOR.P.%04d' #
# $xci/genere$X premiere=001 derniere=128 pas=1 \ #
# C='$DELETE $xw1/NCOR.O.%04d.?' #
# #
# $xci/genere$X premiere=129 derniere=256 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.O.%04d \ #
# $xw1/NCOR.P.%04d' #
# $xci/genere$X premiere=129 derniere=256 pas=1 \ #
# C='$DELETE $xw1/NCOR.O.%04d.?' #
# #
# $xci/genere$X premiere=257 derniere=384 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.O.%04d \ #
# $xw1/NCOR.P.%04d' #
# $xci/genere$X premiere=257 derniere=384 pas=1 \ #
# C='$DELETE $xw1/NCOR.O.%04d.?' #
# #
# $xci/genere$X premiere=385 derniere=512 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.O.%04d \ #
# $xw1/NCOR.P.%04d' #
# $xci/genere$X premiere=385 derniere=512 pas=1 \ #
# C='$DELETE $xw1/NCOR.O.%04d.?' #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.O. 001 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.O. 129 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.O. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/NCOR.P. 001 064 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.P. 065 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.P. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
sequence 029562_029817
sequence 029818_030073
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=512 #
# #
# set NcorpsS=4 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +5.0e10 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 -0.96e3 0 #
# genere $xT/VITESSES$COORD_Y 0 5.0e3 5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 7.350e22 1.0e28 #
# genere $xT/RAYONS 8.0e10 4.0e10 3.0e10 5.0e10 #
# genere $xT/COULEURS$ROUGE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_7 $GRIS_8 $GRIS_8 $GRIS_4 #
# genere $xT/COULEURS$BLEUE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# TRANSLATION_OY=300e9 \ #
# R=$xw1/NCOR.Q. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.Q. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.Q. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 030074_030329
sequence 030330_030585
sequence 030586_030713
sequence 030714_030841
sequence 030842_031097
# Generee par : #
# #
# ATTENTION : la mise en orbite du corps '3' autour du corps '2', pour etre visible #
# demande que la distance entre eux deux soit largement exageree (par exemple par rapport #
# au couple {Terre,Lune}). Pour compenser cette perte dans l'amplitude de leur interaction #
# gravitationnelle, il faut augmenter en consequence la masse grave du corps '2'... #
# #
# set Nimages=512 #
# #
# set NcorpsS=4 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 -800.0e9 +260.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 +5.0e10 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 -0.96e3 0 #
# genere $xT/VITESSES$COORD_Y 0 5.0e3 5.0e3 -13.3e3 #
# genere $xT/VITESSES$COORD_Z 0 0 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 7.350e22 1.0e28 #
# genere $xT/RAYONS 8.0e10 4.0e10 3.0e10 5.0e10 #
# #
# if ("$mHOTE" == "$CMAP24") then #
# set Couleur="RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX" #
# set Directory=$xT #
# repeat 10000 eval "cd /share/blanche ; sleep 60" & #
# else #
# endif #
# #
# if ("$mHOTE" == "$INFO23") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX" #
# set Directory=$xT #
# else #
# endif #
# #
# if ("$mHOTE" == "$LACT28") then #
# set Couleur="RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI" #
# set Directory=$xw1 #
# else #
# endif #
# #
# if ($?Couleur == $NEXIST) then #
# EROR "la machine '$sHOTE' ne supporte pas ce calcul" #
# else #
# endif #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# centrer=FAUX reference=1 \ #
# $Couleur \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=600e9 \ #
# TRANSLATION_OY=300e9 \ #
# R=$Directory/NCOR.R. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# #
# #
# $xci/genere$X premiere=001 derniere=128 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.R.%04d \ #
# $xw1/NCOR.S.%04d' #
# $xci/genere$X premiere=001 derniere=128 pas=1 \ #
# C='$DELETE $xw1/NCOR.R.%04d.?' #
# #
# $xci/genere$X premiere=129 derniere=256 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.R.%04d \ #
# $xw1/NCOR.S.%04d' #
# $xci/genere$X premiere=129 derniere=256 pas=1 \ #
# C='$DELETE $xw1/NCOR.R.%04d.?' #
# #
# $xci/genere$X premiere=257 derniere=384 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.R.%04d \ #
# $xw1/NCOR.S.%04d' #
# $xci/genere$X premiere=257 derniere=384 pas=1 \ #
# C='$DELETE $xw1/NCOR.R.%04d.?' #
# #
# $xci/genere$X premiere=385 derniere=512 pas=1 \ #
# C='$xci/acces_RVB.13$Z \ #
# $xw1/NCOR.R.%04d \ #
# $xw1/NCOR.S.%04d' #
# $xci/genere$X premiere=385 derniere=512 pas=1 \ #
# C='$DELETE $xw1/NCOR.R.%04d.?' #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.R. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.R. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# $xci/disk_video_P$Z $xw1/NCOR.S. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.S. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
# ATTENTION, les images : #
# #
# 030202 #
# 030206 #
# 030209 #
# 030239 #
# 030241 #
# 030242 #
# #
# sont neigeuses, l'enregistrement a donc ete refait en : #
# #
# xivPdf 2 1 / 031098_031609 #
# #
# en esperant... #
sequence 031098_031225
sequence 031226_031353
sequence 031354_031481
sequence 031482_031609
# Generee par : #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.R. 001 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.R. 129 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.R. 257 384 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.R. 385 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 031610_031737
# Generee par : #
# #
# $Z Pal #
# #
# $Z $DELETE $xT/GENERE$ROUGE #
# $Z $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# $Z C='$CP $xw1/NCOR.S.0001$ROUGE $xw1/NCOR.T.%04d$ROUGE' \ #
# $Z > $xT/GENERE$ROUGE #
# #
# $Z $DELETE $xT/VALEURS$VERTE #
# $Z $DELETE $xT/MOVE$VERTE #
# $Z $DELETE $xT/GENERE$VERTE #
# $Z $xci/valeurs_inte$X premiere=1 derniere=128 pas=1 \ #
# $Z vD=-0.4 vA=0 | \ #
# $Z $SE -e "s/^/yR=/" \ #
# $Z > $xT/VALEURS$VERTE #
# $Z $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# $Z en_tete=FAUX \ #
# $Z C='$xci/move$X A=$xw1/NCOR.S.0001$VERTE R=$xw1/NCOR.T.%04d$VERTE $formatI' \ #
# $Z > $xT/MOVE$VERTE #
# $Z $PAST $xT/MOVE$VERTE $xT/VALEURS$VERTE \ #
# $Z > $xT/GENERE$VERTE #
# #
# $Z $DELETE $xT/VALEURS$BLEUE #
# $Z $DELETE $xT/MOVE$BLEUE #
# $Z $DELETE $xT/GENERE$BLEUE #
# $Z $xci/valeurs_inte$X premiere=1 derniere=128 pas=1 \ #
# $Z vD=-0.2 vA=0 | \ #
# $Z $SE -e "s/^/yR=/" \ #
# $Z > $xT/VALEURS$BLEUE #
# $Z $xci/genere$X premiere=1 derniere=128 pas=1 \ #
# $Z en_tete=FAUX \ #
# $Z C='$xci/move$X A=$xw1/NCOR.S.0001$BLEUE R=$xw1/NCOR.T.%04d$BLEUE $formatI' \ #
# $Z > $xT/MOVE$BLEUE #
# $Z $PAST $xT/MOVE$BLEUE $xT/VALEURS$BLEUE \ #
# $Z > $xT/GENERE$BLEUE #
# #
# $Z $DELETE $xT/GENERE$Z #
# $Z $CA $xT/GENERE$ROUGE \ #
# $Z $xT/GENERE$VERTE \ #
# $Z $xT/GENERE$BLEUE \ #
# $Z > $xT/GENERE$Z #
# #
# $Z EXEC $xT/GENERE$Z #
# $Z $xT/GENERE$Z #
# #
# #
# $Z Pal #
# #
# $Z $xci/reduction_16$Z $xw1/NCOR.T. $xiak/NCOR.74 1 8 #
# $Z $xci/reduction_64$Z $xw1/NCOR.T. $xiak/NCOR.74 1 2 #
# #
# $Z ro $xiak/NCOR.74$R16$ROUGE #
# $Z ro $xiak/NCOR.74$R16$VERTE #
# $Z ro $xiak/NCOR.74$R16$BLEUE #
# #
# $Z ro $xiak/NCOR.74$R64$ROUGE #
# $Z ro $xiak/NCOR.74$R64$VERTE #
# $Z ro $xiak/NCOR.74$R64$BLEUE #
# #
# $Z $xcg/unite$Z $xiak/NCOR.74$R16$ROUGE #
# $Z $xcg/unite$Z $xiak/NCOR.74$R16$VERTE #
# $Z $xcg/unite$Z $xiak/NCOR.74$R16$BLEUE #
# #
# $Z $xcg/unite$Z $xiak/NCOR.74$R64$ROUGE #
# $Z $xcg/unite$Z $xiak/NCOR.74$R64$VERTE #
# $Z $xcg/unite$Z $xiak/NCOR.74$R64$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.T. 001 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# #
# xivPdf 3 2 #
# #
# record.01$Z $xiak/NCOR.74$R16 RVB Initialisation #
# record.01$Z $xiak/NCOR.74$R64 RVB rien #
# #
sequence 031738_031993
sequence 031994_032249
# Generee par : #
# #
# ATTENTION, la masse de Saturne a longtemps valu ci-dessous +56.8e2 au lieu de +56.8e25, #
# ce qui constituait une erreur enorme... #
# #
# ATTENTION, la coordonnee '$COORD_Z' de Mercure (le deuxieme corps des listes) possede #
# un signe errone : il faut utiliser '-163e+7' et non pas '+163e+7'. La valeur erronee #
# est utilisee pour les sequences '$xw1/NCOR.U.', '$xw1/NCOR.W.' et '$xw1/NCOR.X.', alors #
# que la valeur correcte est utilisee pour les sequences '$xw1/NCOR.X.' et les suivantes... #
# #
# set Nimages=512 #
# #
# set NcorpsS=10 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# #
# set G0=$GRIS_0 #
# set G1=$GRIS_1 #
# set G2=$GRIS_2 #
# set G3=$GRIS_3 #
# set G4=$GRIS_4 #
# set G5=$GRIS_5 #
# set G6=$GRIS_6 #
# set G7=$GRIS_7 #
# set G8=$GRIS_8 #
# #
# genere $xT/COORDONNEES$COORD_X \ #
# +1e3 +514e+8 +213e+8 -203e+8 -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 -392e+10 #
# genere $xT/COORDONNEES$COORD_Y \ #
# +1e3 +682e+7 +967e+8 +133e+9 +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 +307e+10 #
# genere $xT/COORDONNEES$COORD_Z \ #
# +1e3 +163e+7 +422e+8 +579e+8 +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 +216e+10 #
# genere $xT/VITESSES$COORD_X \ #
# 0 -1.46e+4 -3.44e+4 -2.99e+4 -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 -2.27e+3 #
# genere $xT/VITESSES$COORD_Y \ #
# 0 +4.43e+4 +5.39e+3 -3.88e+3 -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 -4.53e+3 #
# genere $xT/VITESSES$COORD_Z \ #
# 0 +2.52e+4 +4.60e+3 -1.68e+3 -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 -7.39e+2 #
# genere $xT/MASSES \ #
# +2.0e30 +3.3e23 +48.7e23 +59.7e23 +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 #
# genere $xT/RAYONS \ #
# +32e10 +16e10 +16e10 +16e10 +16e10 +24e10 +24e10 +16e10 +16e10 +12e10 #
# genere $xT/COULEURS$ROUGE \ #
# $G8 $G0 $G8 $G8 $G0 $G0 $G8 $G0 $G8 $G8 #
# genere $xT/COULEURS$VERTE \ #
# $G8 $G6 $G3 $G0 $G8 $G6 $G3 $G8 $G8 $G4 #
# genere $xT/COULEURS$BLEUE \ #
# $G8 $G8 $G0 $G8 $G0 $G8 $G0 $G8 $G0 $G8 #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=50000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.5 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.8 \ #
# R=$xw1/NCOR.U. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.U. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.U. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# Nota : apparemment la periode de la Terre est de 61 images, ce qui avec le pas de temps #
# utilise donne une annee de duree : #
# #
# 10*50000*61 #
# ------------- #
# 24*3600 #
# #
# soit 353 jours, ce qui n'est pas mauvais... #
sequence 032250_032422
sequence 032423_032588
sequence 032589_032716
sequence 032717_032844
# Generee par : #
# #
# set Nimages=256 #
# #
# set NcorpsS=2 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# #
# genere $xT/COORDONNEES$COORD_X +1.0e3 -800.0e9 #
# genere $xT/COORDONNEES$COORD_Y +1.0e3 +1.0e3 #
# genere $xT/COORDONNEES$COORD_Z +1.0e3 +1.0e3 #
# genere $xT/VITESSES$COORD_X 0 0 #
# genere $xT/VITESSES$COORD_Y 0 +7.0e3 #
# genere $xT/VITESSES$COORD_Z 0 0 #
# genere $xT/MASSES 1.0e30 2.0e27 #
# genere $xT/RAYONS 8.0e10 4.0e10 #
# genere $xT/COULEURS$ROUGE $GRIS_8 $GRIS_0 #
# genere $xT/COULEURS$VERTE $GRIS_7 $GRIS_8 #
# genere $xT/COULEURS$BLEUE $GRIS_0 $GRIS_8 #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# dct=100 \ #
# nombre=40000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# TRANSLATION_OX=250e9 \ #
# ZOOM=1.7 \ #
# fond=FAUX \ #
# R=$xw1/NCOR.V. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.V. 001 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.V. 129 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cet enregistrement a du etre recommence a cause du probleme "traditionnel" #
# du "Frame transfer aborted". Pas de chance, il a fallu recommencer une troisieme fois... #
sequence 032845_032864
sequence 032865_033100
sequence 033101_033356
# Generee par : #
# #
# ATTENTION, la masse de Saturne a longtemps valu ci-dessous +56.8e2 au lieu de +56.8e25, #
# ce qui constituait une erreur enorme... #
# #
# ATTENTION, la coordonnee '$COORD_Z' de Mercure (le deuxieme corps des listes) possede #
# un signe errone : il faut utiliser '-163e+7' et non pas '+163e+7'. La valeur erronee #
# est utilisee pour les sequences '$xw1/NCOR.U.', '$xw1/NCOR.W.' et '$xw1/NCOR.X.', alors #
# que la valeur correcte est utilisee pour les sequences '$xw1/NCOR.X.' et les suivantes... #
# #
# set Nimages=512 #
# #
# set NcorpsS=10 #
# @ Ncorps = $NcorpsS - 1 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=0 cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# alias couleurs 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# $xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo >>! $Fi ; \\ #
# unset In Su Gr Mo Fi' #
# #
# #
# set G0=$GRIS_0 #
# set G1=$GRIS_1 #
# set G2=$GRIS_2 #
# set G3=$GRIS_3 #
# set G4=$GRIS_4 #
# set G5=$GRIS_5 #
# set G6=$GRIS_6 #
# set G7=$GRIS_7 #
# set G8=$GRIS_8 #
# #
# genere $xT/COORDONNEES$COORD_X \ #
# +1e3 +514e+8 +213e+8 -203e+8 -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 -392e+10 #
# genere $xT/COORDONNEES$COORD_Y \ #
# +1e3 +682e+7 +967e+8 +133e+9 +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 +307e+10 #
# genere $xT/COORDONNEES$COORD_Z \ #
# +1e3 +163e+7 +422e+8 +579e+8 +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 +216e+10 #
# genere $xT/VITESSES$COORD_X \ #
# 0 -1.46e+4 -3.44e+4 -2.99e+4 -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 -2.27e+3 #
# genere $xT/VITESSES$COORD_Y \ #
# 0 +4.43e+4 +5.39e+3 -3.88e+3 -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 -4.53e+3 #
# genere $xT/VITESSES$COORD_Z \ #
# 0 +2.52e+4 +4.60e+3 -1.68e+3 -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 -7.39e+2 #
# genere $xT/MASSES \ #
# +2.0e30 +3.3e23 +48.7e23 +60.5e23 +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 #
# genere $xT/RAYONS \ #
# +64e10 +32e10 +32e10 +32e10 +32e10 +48e10 +48e10 +32e10 +32e10 +32e10 #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $GRIS_8 > $xT/COULEURS$ROUGE #
# couleurs $GRIS_3 $GRIS_8 111 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_8 > $xT/COULEURS$VERTE #
# couleurs $GRIS_3 $GRIS_8 222 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $GRIS_8 > $xT/COULEURS$BLEUE #
# couleurs $GRIS_3 $GRIS_8 333 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# R=$xw1/NCOR.W. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/ROTATION$COORD_X #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.W. 001 020 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.W. 021 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.W. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 033357_033612
sequence 033613_033868
# Generee par : #
# #
# ATTENTION, la masse de Saturne a longtemps valu ci-dessous +56.8e2 au lieu de +56.8e25, #
# ce qui constituait une erreur enorme... #
# #
# ATTENTION, la coordonnee '$COORD_Z' de Mercure (le deuxieme corps des listes) possede #
# un signe errone : il faut utiliser '-163e+7' et non pas '+163e+7'. La valeur erronee #
# est utilisee pour les sequences '$xw1/NCOR.U.', '$xw1/NCOR.W.' et '$xw1/NCOR.X.', alors #
# que la valeur correcte est utilisee pour les sequences '$xw1/NCOR.X.' et les suivantes... #
# #
# set Nimages=512 #
# #
# set NcorpsS=10 #
# @ Ncorps = $NcorpsS - 1 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# alias couleurs 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# $xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo >>! $Fi ; \\ #
# unset In Su Gr Mo Fi' #
# #
# #
# set G0=$GRIS_0 #
# set G1=$GRIS_1 #
# set G2=$GRIS_2 #
# set G3=$GRIS_3 #
# set G4=$GRIS_4 #
# set G5=$GRIS_5 #
# set G6=$GRIS_6 #
# set G7=$GRIS_7 #
# set G8=$GRIS_8 #
# #
# genere $xT/COORDONNEES$COORD_X \ #
# +1e3 +514e+8 +213e+8 -203e+8 -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 -392e+10 #
# genere $xT/COORDONNEES$COORD_Y \ #
# +1e3 +682e+7 +967e+8 +133e+9 +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 +307e+10 #
# genere $xT/COORDONNEES$COORD_Z \ #
# +1e3 +163e+7 +422e+8 +579e+8 +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 +216e+10 #
# genere $xT/VITESSES$COORD_X \ #
# 0 -1.46e+4 -3.44e+4 -2.99e+4 -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 -2.27e+3 #
# genere $xT/VITESSES$COORD_Y \ #
# 0 +4.43e+4 +5.39e+3 -3.88e+3 -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 -4.53e+3 #
# genere $xT/VITESSES$COORD_Z \ #
# 0 +2.52e+4 +4.60e+3 -1.68e+3 -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 -7.39e+2 #
# genere $xT/MASSES \ #
# +2.0e30 +3.3e23 +48.7e23 +60.5e23 +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 #
# genere $xT/RAYONS \ #
# +32e10 +16e10 +16e10 +16e10 +16e10 +24e10 +24e10 +16e10 +16e10 +16e10 #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $GRIS_8 > $xT/COULEURS$ROUGE #
# couleurs $GRIS_3 $GRIS_8 111 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_8 > $xT/COULEURS$VERTE #
# couleurs $GRIS_3 $GRIS_8 222 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $GRIS_8 > $xT/COULEURS$BLEUE #
# couleurs $GRIS_3 $GRIS_8 333 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# fond=FAUX \ #
# R=$xw1/NCOR.X. \ #
# $formatI #
# #
# genere $xT/RAYONS \ #
# +64e10 +32e10 +32e10 +32e10 +32e10 +48e10 +48e10 +32e10 +32e10 +32e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.99 \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.X. \ #
# R=$xw1/NCOR.X. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/ROTATION$COORD_X #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.X. 001 256 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/NCOR.X. 257 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 033869_033904
sequence 033905_033996
# Generee par : #
# $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# avec (sur '$LACT28') : #
# #
# Pal #
# #
# $xrk/lorenz.11$X np=128 \ #
# iterations=10000 \ #
# ordre=1 \ #
# RVB=VRAI \ #
# r=0.5 \ #
# ROTATION_OX=$xT/param11 \ #
# R=$xw1/LORE.D. \ #
# $formatI #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.D. 001 036 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# $xci/disk_video_P$Z $xw1/LORE.D. 037 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a ete reenregistree en : #
# #
# xivPdf 2 1 / 034509_034636 #
# #
# car elle presente de nombreux points blancs parasites... #
sequence 033997_034018
sequence 034019_034508
# Generee par : #
# #
# ATTENTION, la masse de Saturne a longtemps valu ci-dessous +56.8e2 au lieu de +56.8e25, #
# ce qui constituait une erreur enorme... #
# #
# set Nimages=512 #
# #
# set NcorpsS=10 #
# @ Ncorps = $NcorpsS - 1 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# alias couleurs 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# $xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo >>! $Fi ; \\ #
# unset In Su Gr Mo Fi' #
# #
# #
# set G0=$GRIS_0 #
# set G1=$GRIS_1 #
# set G2=$GRIS_2 #
# set G3=$GRIS_3 #
# set G4=$GRIS_4 #
# set G5=$GRIS_5 #
# set G6=$GRIS_6 #
# set G7=$GRIS_7 #
# set G8=$GRIS_8 #
# #
# genere $xT/COORDONNEES$COORD_X \ #
# +1e3 +514e+8 +213e+8 -203e+8 -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 -392e+10 #
# genere $xT/COORDONNEES$COORD_Y \ #
# +1e3 +682e+7 +967e+8 +133e+9 +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 +307e+10 #
# genere $xT/COORDONNEES$COORD_Z \ #
# +1e3 -163e+7 +422e+8 +579e+8 +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 +216e+10 #
# genere $xT/VITESSES$COORD_X \ #
# 0 -1.46e+4 -3.44e+4 -2.99e+4 -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 -2.27e+3 #
# genere $xT/VITESSES$COORD_Y \ #
# 0 +4.43e+4 +5.39e+3 -3.88e+3 -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 -4.53e+3 #
# genere $xT/VITESSES$COORD_Z \ #
# 0 +2.52e+4 +4.60e+3 -1.68e+3 -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 -7.39e+2 #
# genere $xT/MASSES \ #
# +2.0e30 +3.3e23 +48.7e23 +60.5e23 +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 #
# genere $xT/RAYONS \ #
# +32e10 +16e10 +16e10 +16e10 +16e10 +24e10 +24e10 +16e10 +16e10 +16e10 #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $GRIS_8 > $xT/COULEURS$ROUGE #
# couleurs $GRIS_3 $GRIS_8 111 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_8 > $xT/COULEURS$VERTE #
# couleurs $GRIS_3 $GRIS_8 222 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $GRIS_8 > $xT/COULEURS$BLEUE #
# couleurs $GRIS_3 $GRIS_8 333 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# ensemble=VRAI \ #
# trainees=FAUX \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# fond=FAUX \ #
# R=$xw1/NCOR.Y. \ #
# $formatI #
# #
# genere $xT/RAYONS \ #
# +64e10 +32e10 +32e10 +32e10 +32e10 +48e10 +48e10 +32e10 +32e10 +32e10 #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# ensemble=FAUX \ #
# trainees=FAUX \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/NCOR.Y. \ #
# R=$xw1/NCOR.Y. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/ROTATION$COORD_X #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.Y. 001 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence presente un defaut ; en effet, elle est faite en deux temps, #
# ce qui fait qu'il y a des incoherences de parties cachees entre les trainees (calculees #
# en premier) et les positions instanees des planetes (calculees en second). Cette sequence #
# a donc ete recalculee en : #
# #
# xivPdf 2 1 / 034637_035148 #
# #
sequence 034509_034636
sequence 034637_034764
# Generee par : #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/LORE.D. 001 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, cette sequence a du etre reenregistree car, en effet, pour le premier #
# enregistrement, elle avait ete regeneree (parce que partiellement detruite) avec : #
# #
# $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=1 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# au lieu de : #
# #
# $xci/valeurs_inte$X cubique=FAUX \ #
# p=1 d=128 vD=0 vA=$dpi cubique=VRAI > $xT/param11 #
# #
# d'ou cette nouvelle version... #
sequence 034765_035276
# Generee par : #
# #
# ATTENTION, la masse de Saturne a longtemps valu ci-dessous +56.8e2 au lieu de +56.8e25, #
# ce qui constituait une erreur enorme... #
# #
# set Nimages=512 #
# #
# set NcorpsS=10 #
# @ Ncorps = $NcorpsS - 1 #
# #
# $DELETE $xT/ROTATION$COORD_X #
# $xci/valeurs_inte$X p=1 d=$Nimages vD=0 vA=$dpi cubique=VRAI > $xT/ROTATION$COORD_X #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# alias couleurs 'set In=\!:1 ; set Su=\!:2 ; set Gr=\!:3 ; \\ #
# set Mo=\!:4 ; set Fi=\!:5* ; \\ #
# $xci/valeurs_alea$X p=1 d=$Ncorps g=$Gr inf=$In sup=$Su entiers=$Mo >>! $Fi ; \\ #
# unset In Su Gr Mo Fi' #
# #
# #
# set G0=$GRIS_0 #
# set G1=$GRIS_1 #
# set G2=$GRIS_2 #
# set G3=$GRIS_3 #
# set G4=$GRIS_4 #
# set G5=$GRIS_5 #
# set G6=$GRIS_6 #
# set G7=$GRIS_7 #
# set G8=$GRIS_8 #
# #
# genere $xT/COORDONNEES$COORD_X \ #
# +1e3 +514e+8 +213e+8 -203e+8 -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 -392e+10 #
# genere $xT/COORDONNEES$COORD_Y \ #
# +1e3 +682e+7 +967e+8 +133e+9 +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 +307e+10 #
# genere $xT/COORDONNEES$COORD_Z \ #
# +1e3 -163e+7 +422e+8 +579e+8 +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 +216e+10 #
# genere $xT/VITESSES$COORD_X \ #
# 0 -1.46e+4 -3.44e+4 -2.99e+4 -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 -2.27e+3 #
# genere $xT/VITESSES$COORD_Y \ #
# 0 +4.43e+4 +5.39e+3 -3.88e+3 -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 -4.53e+3 #
# genere $xT/VITESSES$COORD_Z \ #
# 0 +2.52e+4 +4.60e+3 -1.68e+3 -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 -7.39e+2 #
# genere $xT/MASSES \ #
# +2.0e30 +3.3e23 +48.7e23 +60.5e23 +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 #
# genere $xT/RAYONS \ #
# +64e10 +32e10 +32e10 +32e10 +32e10 +48e10 +48e10 +32e10 +32e10 +32e10 #
# #
# $DELETE $xT/COULEURS$ROUGE #
# echo $GRIS_8 > $xT/COULEURS$ROUGE #
# couleurs $GRIS_3 $GRIS_8 111 VRAI $xT/COULEURS$ROUGE #
# #
# $DELETE $xT/COULEURS$VERTE #
# echo $GRIS_8 > $xT/COULEURS$VERTE #
# couleurs $GRIS_3 $GRIS_8 222 VRAI $xT/COULEURS$VERTE #
# #
# $DELETE $xT/COULEURS$BLEUE #
# echo $GRIS_8 > $xT/COULEURS$BLEUE #
# couleurs $GRIS_3 $GRIS_8 333 VRAI $xT/COULEURS$BLEUE #
# #
# Pal #
# #
# $xrr/N_corps.11$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MASSE=$xT/MASSES \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=FAUX reference=1 \ #
# extension=5 \ #
# dct=10 \ #
# nombre=100000 \ #
# ensemble=VRAI \ #
# Ranterieurs=0.5 \ #
# trainees=FAUX \ #
# renormaliser=FAUX \ #
# lineaire=FAUX exposant=0.4 \ #
# Lz=1.0e13 \ #
# TRANSLATION_OX=0 \ #
# TRANSLATION_OY=0 \ #
# ZOOM=0.70 \ #
# ROTATION_OX=$xT/ROTATION$COORD_X \ #
# fond=FAUX \ #
# R=$xw1/NCOR.Z. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/MASSES #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/ROTATION$COORD_X #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/NCOR.Z. 001 512 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
sequence 035277_035404
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/VITESSES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/mdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/mnPHI -2 -2 -2 -2 -2 -2 #
# genere $xT/MnPHI +2 +2 +2 +2 +2 +2 #
# genere $xT/dPHI $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/mnTHETA -2 -2 -2 -2 -2 -2 #
# genere $xT/MnTHETA +2 +2 +2 +2 +2 +2 #
# genere $xT/dTHETA $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 0.8 0.8 0.8 0.8 #
# genere $xT/STABILITE 4 4 4 4 4 4 #
# genere $xT/RAYONS 0.02 0.02 0.02 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 $GRIS_0 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_6 $GRIS_4 $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$BLEUE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 #
# #
# Std #
# #
# $xci/format.01$X A=$xiio/MIRE \ #
# mode=0 \ #
# $formatI \ #
# R=$xT/MIRE \ #
# $formatR_Pal #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# Chiffres=0 \ #
# inf=0 sup=1 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.2. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 0.04 0.04 0.04 0.02 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# Chiffres=0 \ #
# inf=0 sup=1 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.2. \ #
# R=$xw1/RDNW.2. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/MIRE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.2. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 035405_035532
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/VITESSES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/mdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/mnPHI -2 -2 -2 -2 -2 -2 #
# genere $xT/MnPHI +2 +2 +2 +2 +2 +2 #
# genere $xT/dPHI $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/mnTHETA -2 -2 -2 -2 -2 -2 #
# genere $xT/MnTHETA +2 +2 +2 +2 +2 +2 #
# genere $xT/dTHETA $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 0.8 0.8 0.8 0.8 #
# genere $xT/STABILITE 4 4 4 4 4 4 #
# genere $xT/RAYONS 0.02 0.02 0.02 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 $GRIS_0 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_6 $GRIS_4 $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$BLEUE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=FAUX \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.3. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 0.04 0.04 0.04 0.02 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=FAUX \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.3. \ #
# R=$xw1/RDNW.3. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.3. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 035533_035660
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=6 #
# #
# alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $DELETE $FiLe ; \\ #
# echo "$LiStE" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $FiLe ; \\ #
# unset FiLe LiStE' #
# #
# genere $xT/COORDONNEES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/COORDONNEES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/VITESSES$COORD_X +0.1 -0.1 0.0 0.0 0.0 0.0 #
# genere $xT/VITESSES$COORD_Y 0.0 0.0 +0.1 -0.1 0.0 0.0 #
# genere $xT/VITESSES$COORD_Z 0.0 0.0 0.0 0.0 +0.1 -0.1 #
# genere $xT/mdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/mnPHI -2 -2 -2 -2 -2 -2 #
# genere $xT/MnPHI +2 +2 +2 +2 +2 +2 #
# genere $xT/dPHI $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/mnTHETA -2 -2 -2 -2 -2 -2 #
# genere $xT/MnTHETA +2 +2 +2 +2 +2 +2 #
# genere $xT/dTHETA $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/infOUVE 0.0 0.0 0.0 0.0 0.0 0.0 #
# genere $xT/supOUVE $pis2 $pis2 $pis2 $pis2 $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 0.8 0.8 0.8 0.8 #
# genere $xT/STABILITE 4 4 4 4 4 4 #
# genere $xT/RAYONS 0.02 0.02 0.02 0.02 0.02 0.02 #
# genere $xT/COULEURS$ROUGE $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_0 $GRIS_0 $GRIS_8 #
# genere $xT/COULEURS$VERTE $GRIS_6 $GRIS_4 $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_8 #
# genere $xT/COULEURS$BLEUE $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 $GRIS_8 $GRIS_0 #
# #
# Std #
# #
# $xci/format.01$X A=$xiio/MIRE \ #
# mode=0 \ #
# $formatI \ #
# R=$xT/MIRE \ #
# $formatR_Pal #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.4. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 0.04 0.04 0.04 0.02 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.4. \ #
# R=$xw1/RDNW.4. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/infOUVE #
# $DELETE $xT/supOUVE #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/MIRE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.4. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 035661_035788
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=32 #
# #
# alias genere 'set Fi=\!:1 ; set vD=\!:2 ; set vA=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_inte$X premiere=1 derniere=$NcorpsS vD=$vD vA=$vA $ArG > $Fi ; \\ #
# unset Fi vD vA ArG' #
# alias genereR 'set Fi=\!:1 ; set In=\!:2 ; set Su=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_alea$X p=1 d=$NcorpsS signe="$K_VIDE" inf=$In sup=$Su $ArG > $Fi ; \\ #
# unset Fi In Su ArG' #
# #
# genereR $xT/COORDONNEES$COORD_X -0.2 +0.2 multiple=VRAI unite=0.05 g=11 #
# genereR $xT/COORDONNEES$COORD_Y -0.2 +0.2 multiple=VRAI unite=0.05 g=12 #
# genereR $xT/COORDONNEES$COORD_Z 0.0 0.0 multiple=VRAI unite=0.05 g=13 #
# genereR $xT/VITESSES 1 5 entiers=VRAI g=21 #
# $DELETE $xT/VITESSES$COORD_X #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/+0.05/' -e 's/^2$/0/' -e 's/^3$/-0.05/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/+0.05/' -e 's/^3$/0/' -e 's/^4$/-0.05/' \ #
# > $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/0/' -e 's/^3$/0/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_Z #
# genere $xT/mdRHO 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 #
# genere $xT/mnPHI -2 -2 #
# genere $xT/MnPHI +2 +2 #
# genere $xT/dPHI $pis2 $pis2 #
# genere $xT/mnTHETA 0 0 #
# genere $xT/MnTHETA 0 0 #
# genere $xT/dTHETA $pis2 $pis2 #
# genere $xT/infOUVE 0.0 0.0 #
# genere $xT/supOUVE $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 #
# genere $xT/STABILITE 4 4 #
# genere $xT/RAYONS 0.02 0.02 #
# genereR $xT/COULEURS$ROUGE $GRIS_4 $GRIS_8 entiers=VRAI g=31 #
# genereR $xT/COULEURS$VERTE $GRIS_4 $GRIS_8 entiers=VRAI g=32 #
# genereR $xT/COULEURS$BLEUE $GRIS_4 $GRIS_8 entiers=VRAI g=33 #
# #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.5. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.5. \ #
# R=$xw1/RDNW.5. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/infOUVE #
# $DELETE $xT/supOUVE #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.5. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 035789_035916
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=32 #
# #
# alias genere 'set Fi=\!:1 ; set vD=\!:2 ; set vA=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_inte$X premiere=1 derniere=$NcorpsS vD=$vD vA=$vA $ArG > $Fi ; \\ #
# unset Fi vD vA ArG' #
# alias genereR 'set Fi=\!:1 ; set In=\!:2 ; set Su=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_alea$X p=1 d=$NcorpsS signe="$K_VIDE" inf=$In sup=$Su $ArG > $Fi ; \\ #
# unset Fi In Su ArG' #
# #
# genereR $xT/COORDONNEES$COORD_X -0.2 +0.2 multiple=VRAI unite=0.05 g=11 #
# genereR $xT/COORDONNEES$COORD_Y -0.2 +0.2 multiple=VRAI unite=0.05 g=12 #
# genereR $xT/COORDONNEES$COORD_Z 0.0 0.0 multiple=VRAI unite=0.05 g=13 #
# genereR $xT/VITESSES 1 5 entiers=VRAI g=21 #
# $DELETE $xT/VITESSES$COORD_X #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/+0.05/' -e 's/^2$/0/' -e 's/^3$/-0.05/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/+0.05/' -e 's/^3$/0/' -e 's/^4$/-0.05/' \ #
# > $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/0/' -e 's/^3$/0/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_Z #
# genere $xT/mdRHO 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 #
# genere $xT/mnPHI -2 -2 #
# genere $xT/MnPHI +2 +2 #
# genere $xT/dPHI $pis2 $pis2 #
# genere $xT/mnTHETA 0 0 #
# genere $xT/MnTHETA 0 0 #
# genere $xT/dTHETA $pis2 $pis2 #
# genere $xT/infOUVE 0.0 0.0 #
# genere $xT/supOUVE $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 #
# genere $xT/STABILITE 4 4 #
# genere $xT/RAYONS 0.02 0.02 #
# genereR $xT/COULEURS$ROUGE $GRIS_4 $GRIS_8 entiers=VRAI g=31 #
# genereR $xT/COULEURS$VERTE $GRIS_4 $GRIS_8 entiers=VRAI g=32 #
# genereR $xT/COULEURS$BLEUE $GRIS_4 $GRIS_8 entiers=VRAI g=33 #
# #
# Std #
# #
# $xci/format.01$X A=$xiio/MIRE \ #
# mode=0 \ #
# $formatI \ #
# R=$xT/MIRE \ #
# $formatR_Pal #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.6. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/MIRE \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.6. \ #
# R=$xw1/RDNW.6. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/infOUVE #
# $DELETE $xT/supOUVE #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/MIRE #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.6. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
sequence 035917_036044
# Generee par : #
# #
# set Nimages=128 #
# #
# set NcorpsS=32 #
# #
# alias genere 'set Fi=\!:1 ; set vD=\!:2 ; set vA=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_inte$X premiere=1 derniere=$NcorpsS vD=$vD vA=$vA $ArG > $Fi ; \\ #
# unset Fi vD vA ArG' #
# alias genereR 'set Fi=\!:1 ; set In=\!:2 ; set Su=\!:3 ; set ArG=(\!:4*) ; \\ #
# $DELETE $Fi ; \\ #
# $xci/valeurs_alea$X p=1 d=$NcorpsS signe="$K_VIDE" inf=$In sup=$Su $ArG > $Fi ; \\ #
# unset Fi In Su ArG' #
# #
# genereR $xT/COORDONNEES$COORD_X -0.2 +0.2 multiple=VRAI unite=0.05 g=11 #
# genereR $xT/COORDONNEES$COORD_Y -0.2 +0.2 multiple=VRAI unite=0.05 g=12 #
# genereR $xT/COORDONNEES$COORD_Z 0.0 0.0 multiple=VRAI unite=0.05 g=13 #
# genereR $xT/VITESSES 1 5 entiers=VRAI g=21 #
# $DELETE $xT/VITESSES$COORD_X #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/+0.05/' -e 's/^2$/0/' -e 's/^3$/-0.05/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/+0.05/' -e 's/^3$/0/' -e 's/^4$/-0.05/' \ #
# > $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $CA $xT/VITESSES \ #
# | $SE -e 's/^1$/0/' -e 's/^2$/0/' -e 's/^3$/0/' -e 's/^4$/0/' \ #
# > $xT/VITESSES$COORD_Z #
# genere $xT/mdRHO 0.0 0.0 #
# genere $xT/MdRHO 0.0 0.0 #
# genere $xT/mnPHI -2 -2 #
# genere $xT/MnPHI +2 +2 #
# genere $xT/dPHI $pis2 $pis2 #
# genere $xT/mnTHETA 0 0 #
# genere $xT/MnTHETA 0 0 #
# genere $xT/dTHETA $pis2 $pis2 #
# genere $xT/infOUVE 0.0 0.0 #
# genere $xT/supOUVE $pis2 $pis2 #
# genere $xT/DISTANCE 0.8 0.8 #
# genere $xT/STABILITE 4 4 #
# genere $xT/RAYONS 0.02 0.02 #
# genereR $xT/COULEURS$ROUGE $GRIS_4 $GRIS_8 entiers=VRAI g=31 #
# genereR $xT/COULEURS$VERTE $GRIS_4 $GRIS_8 entiers=VRAI g=32 #
# genereR $xT/COULEURS$BLEUE $GRIS_4 $GRIS_8 entiers=VRAI g=33 #
# #
# Std #
# #
# $xci/substitue$X A=$xiio/GAUSS.8110 \ #
# p=$xiP/abso.11 \ #
# substitution=L_SUBSTITUTION_ROUGE \ #
# $formatI | \ #
# $xci/complement$X \ #
# $formatI | \ #
# $xci/format.01$X \ #
# mode=0 \ #
# $formatI \ #
# R=$xT/ANNEAU \ #
# $formatR_Pal #
# #
# Pal #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/ANNEAU \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=0.7 \ #
# attenuation_des_trainees=1.00 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=FAUX \ #
# R=$xw1/RDNW.7. \ #
# $formatI #
# #
# genere $xT/RAYONS 0.04 0.04 #
# #
# $xrk/rdn_walk.21$X corps=$NcorpsS \ #
# np=$Nimages \ #
# LISTE_X=$xT/COORDONNEES$COORD_X \ #
# LISTE_Y=$xT/COORDONNEES$COORD_Y \ #
# LISTE_Z=$xT/COORDONNEES$COORD_Z \ #
# LISTE_VX=$xT/VITESSES$COORD_X \ #
# LISTE_VY=$xT/VITESSES$COORD_Y \ #
# LISTE_VZ=$xT/VITESSES$COORD_Z \ #
# LISTE_MINIMUM_DELTA_RHO=$xT/mdRHO \ #
# LISTE_MAXIMUM_DELTA_RHO=$xT/MdRHO \ #
# LISTE_MINIMUM_N_PHI=$xT/mnPHI \ #
# LISTE_MAXIMUM_N_PHI=$xT/MnPHI \ #
# LISTE_DELTA_PHI=$xT/dPHI \ #
# LISTE_MINIMUM_N_THETA=$xT/mnTHETA \ #
# LISTE_MAXIMUM_N_THETA=$xT/MnTHETA \ #
# LISTE_DELTA_THETA=$xT/dTHETA \ #
# LISTE_BORNE_INFERIEURE_DE_L_OUVERTURE=$xT/infOUVE \ #
# LISTE_BORNE_SUPERIEURE_DE_L_OUVERTURE=$xT/supOUVE \ #
# LISTE_DISTANCE_MAXIMALE=$xT/DISTANCE \ #
# LISTE_STABILITE=$xT/STABILITE \ #
# LISTE_RAYON=$xT/RAYONS \ #
# LISTE_ROUGE=$xT/COULEURS$ROUGE \ #
# LISTE_VERTE=$xT/COULEURS$VERTE \ #
# LISTE_BLEUE=$xT/COULEURS$BLEUE \ #
# force=VRAI \ #
# C=$xT/ANNEAU \ #
# NpasX=8 NpasY=8 NpasZ=1 \ #
# Chiffres=0 \ #
# Zmin=1 Zmax=16 \ #
# centrer=VRAI \ #
# dct=0.5 \ #
# nombre=1 \ #
# trainees=VRAI mode=1 \ #
# attenuation_des_images=1.0 \ #
# attenuation_des_trainees=0.90 \ #
# renormaliser=FAUX \ #
# Lz=100 \ #
# fond=VRAI \ #
# dynamique=VRAI \ #
# F=$xw1/RDNW.7. \ #
# R=$xw1/RDNW.7. \ #
# $formatI #
# #
# $DELETE $xT/COORDONNEES$COORD_X #
# $DELETE $xT/COORDONNEES$COORD_Y #
# $DELETE $xT/COORDONNEES$COORD_Z #
# $DELETE $xT/VITESSES #
# $DELETE $xT/VITESSES$COORD_X #
# $DELETE $xT/VITESSES$COORD_Y #
# $DELETE $xT/VITESSES$COORD_Z #
# $DELETE $xT/mdRHO #
# $DELETE $xT/MdRHO #
# $DELETE $xT/mnPHI #
# $DELETE $xT/MnPHI #
# $DELETE $xT/dPHI #
# $DELETE $xT/mnTHETA #
# $DELETE $xT/MnTHETA #
# $DELETE $xT/dTHETA #
# $DELETE $xT/infOUVE #
# $DELETE $xT/supOUVE #
# $DELETE $xT/DISTANCE #
# $DELETE $xT/STABILITE #
# $DELETE $xT/RAYONS #
# $DELETE $xT/COULEURS$ROUGE #
# $DELETE $xT/COULEURS$VERTE #
# $DELETE $xT/COULEURS$BLEUE #
# #
# $DELETE $xT/ANNEAU #
# #
# #
# Pal #
# #
# $xci/disk_video_P$Z $xw1/RDNW.7. 1 128 RVB \ #
# 7 1 Initialisation Sequence \ #
# "$formatI" $Gamma_lorenz #
# #
# ATTENTION, les positions initiales des particules 'LISTE_[XYZ]=' ne prennent pas en #
# compte le parametre 'LISTE_STABILITE=', ce qui fait que les particules, au cours du #
# temps, ne se deplacent pas sur le reseau orthogonal definit par la stabilite, mais sur #
# le sous-reseau defini par le produit du module des vitesses par le pas de temps... #
# #
# ATTENTION, il y a un "dephasage" du au probleme de la visualisation des conditions #
# initiales (voir le parametre 'UN_TOUR_DE_PLUS'). #
#######################################################################################################################################
# #
# C H A N G E M E N T L E 20010626104408 D U " T I M I N G " D E L A V I D E O P R O D U I T E #
# P A R L A C A R T E ' Galileo ' D E ' LACT12 ' A F I N D E C E N T R E R #
# L A V I D E O P A R P A S S A G E D E L A P H A S E H O R I Z O N T A L E D E ' -42 ' A ' -58 ' : #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# S E Q U E N C E S L E S P L U S P E R T I N E N T E S ( D E B U T ) : #
# #
#######################################################################################################################################
marqueur bestS : Geometrie Fractale Deterministe, Chaos Deterministe, Mecanique Celeste.
marqueur -------------------------------------------------------------------------------
sequence 002889_003144
sequence 003145_003400
sequence 003401_003656
sequence 003913_004168
Sequence 003657_003912
# Zoom 10 puissance 10 sur l'ensemble de Mandelbrot. #
sequence 012892_013019
Sequence 013020_013147
# Zoom sur l'ensemble de Mandelbrot dans les Quaternions. #
sequence 005703_005828
sequence 006585_006710
# Quelques ensembles de Julia dans les Quaternions lors d'une promenade autour de l'ensemble #
# de Mandelbrot... #
sequence 012444_012507
Sequence 009133_009260
Sequence 010128_010255
Sequence 012380_012443
# Zoom sur un ensemble de Julia dans les Quaternions lors d'une promenade autour de #
# l'ensemble de Mandelbrot... #
Sequence 011920_012149
# Quelques ensembles de Julia dans les Quaternions lors d'une promenade autour de l'ensemble #
# de Mandelbrot, et zoom sur l'un d'entre eux... #
sequence 017339_017466
sequence 017979_018106
sequence 018908_019035
sequence 019036_019163
sequence 018524_018651
# Rotation d'un ensemble de Julia dans les Quaternions autour de l'axe 'OY' avec une #
# renormalisation globale des images. #
sequence 020961_021088
Sequence 020060_020187
Sequence 020192_020319
Sequence 020832_020959
# Rotation d'un ensemble de Julia dans les Quaternions autour des axes 'OY' et 'OZ' avec une #
# renormalisation locale des images. #
sequence 021217_021344
# Rotation d'un ensemble de Julia dans les Quaternions autour des axes 'OY' et 'OZ' avec une #
# renormalisation locale des images et une superposition a un beau lever de soleil. #
Sequence 002083_002210
# Le premier film stereogramme (les Julias dans les quaternions avec une trame aleatoire). #
Sequence 002502_002629
# Les Julias dans les quaternions (eux-memes servant de trame...). #
Sequence 002760_002823
# Les Julias dans les quaternions (caches dans l'animation des nuages...). #
Sequence 033869_033996
# Rotation autour de l'attracteur de Lorenz. #
Sequence 016967_017094 ralenti=4
# Sensibilite aux conditions initiales (trois differentes) avec 5462 iterations. #
Sequence 000449_000576 ralenti=4
# Influence de la methode d'integration numerique lors du calcul de l'attracteur de Lorenz. #
Sequence 017095_017222 ralenti=4
# Sensibilite aux erreurs d'arrondi (sur trois machines differentes) avec 5462 iterations. #
Sequence 016711_016838
Sequence 016839_016966
# Impossibilite du parallelisme heterogene lors du calcul de l'attracteur de Lorenz (avec #
# 1000 iterations, tout va bien, alors qu'avec 5000, la suite d'images est incoherente...). #
sequence 022125_022252
sequence 022765_022892
# Systeme stellaire avec une planete. #
sequence 022253_022380
# Systeme stellaire avec une planete et son satellite. #
sequence 021997_022124
sequence 022381_022508
sequence 022893_023020
# Systeme stellaire avec huit planetes. #
sequence 024830_025085
sequence 024574_024829
# Systeme stellaire avec une planete massive, une petite planete et son satellite. Puis #
# influence des erreurs d'arrondi (l'origine etant au centre du Soleil) avec 256 images. #
sequence 031610_031737 ; sequence 030586_031097
Sequence 029562_030073
# Systeme stellaire binaire avec une planete massive, une petite planete et son satellite #
# (N=4). D'abord, influence des erreurs d'arrondi (l'origine etant au centre du Soleil) #
# avec 512 images. #
sequence 025598_025853
sequence 025854_026109
sequence 026110_026365
# Trois aimants et trois pendules, avec au passage les effets des erreurs d'arrondi... #
sequence 015324_015836
Sequence 015837_016349
# Complexite fractale du jeu d'echec (avec '$Interpolation' a 'FAUX' puis a 'VRAI' dans #
# 'v $xis/echecs.11$Z Interpolation'). #
sequence 001289_001416 ralenti=4
sequence 001417_001544 ralenti=4
# Simulation d'un tableau de bord... #
Sequence 000001_000128
# Reconstitution de la carte de France par recuit simule. #
sequence 000129_000256
Sequence 024446_024573
# Reconstitution d'un reseau 4x4x4 par recuit simule (avec visualisation de la 4-connexite) #
# avec brume eventuelle et rotation. #
sequence 000321_000448
# "Mapping" du recuit simule du reseau cubique sur une montagne... #
#######################################################################################################################################
# #
# S E Q U E N C E S L E S P L U S P E R T I N E N T E S ( F I N ) : #
# #
#######################################################################################################################################
#######################################################################################################################################
# #
# P R O J E T D E F I L M S U R L E S E R R E U R S D ' A R R O N D I S ( F I N ) : #
# #
#######################################################################################################################################
sequence 032589_032844
# Systeme stellaire avec une planete (orbites Kepleriennes). #
sequence 029562_030073
# Systeme stellaire avec une planete massive, une petite planete et son satellite. #
sequence 031610_031737 ; sequence 030586_031097
# Systeme stellaire avec une planete massive, une petite planete et son satellite calcule #
# sur trois machines. #