#!/bin/csh
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# N O T A : #
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# Author of '$xiirk/$Fnota' : #
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# Jean-Francois COLONNA (LACTAMME, AAAAMMJJhhmmss). #
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# I M A G E S I N T E R E S S A N T E S : #
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v $xiirk/BERT.11
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_BERT_11: #
# #
# $Z Pal #
# #
# $Z set _____ImageD=$xTV/DOMAINE #
# $Z $xci/gauss$X \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=200 \ #
# $Z R=$_____ImageD \ #
# $Z $formatI #
# #
# $Z set _____ImageE=$xTV/ESPACE #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$_____ImageE \ #
# $Z $formatI #
# #
# $Z set _____ImagesR=$xiirk/BERT.11 #
# $m4 _____include(_____xiirk/.BERT.11.1._____U) #
# $m4 _____include(_____xiirk/.BERT.11.2._____U) #
# $m4 _____include(_____xiirk/.BERT.11.3._____U) #
# #
# :Fin_listG_BERT_11: #
# #
# #
# Il s'agit du paradoxe de Bertrand classique avec 1000000 droites dont 318134 intersectent #
# le Domaine circulaire ; seules 57 droites sont visualisees. La probabilite pour que #
# le rapport des aires soit dans [0.1955011094778853,1-0.1955011094778853] est egale a #
# 161744/318134 (=0.5084146931796035). Le rapport de l'aire du Domaine a celle de l'Espace #
# est egal a 30787/448500 (=0.068644370122631). #
# #
# On notera le 20110407171950 que ce calcul est assez long : a cette date, il a demande #
# soixante-dix sept minutes (01:17:00) sur '$LACT18'. De plus les valeurs indiquees ci-dessus #
# furent alors legerement differentes : 30909/448500 (=0.06891638795986622) pour le rapport #
# 'AIRE(D)/AIRE(E)', 162080/318663 (=0.5086250992427737) pour la probabilite, 318663 pour le #
# nombre de droites intersectant le Domaine et enfin 57 pour le nombre de droites visualisees #
# (identique au calcul anterieur)... #
# #
# Voir les commentaires 'v $xrk/ParadoxeB.01$K 20171012160942'... #
# #
# Les images sur le paradoxe de Bertrand ont ete faites suite au cours donne au CMAP par #
# Christian Leonard ("Quelques Lecons sur l'Entropie") a partir du 20041021... #
v $xiirk/BERT.12
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_BERT_12: #
# #
# $Z Pal #
# #
# $Z set _____ImageD=$xTV/DOMAINE #
# $Z $xci/gauss$X \ #
# $Z cx2=1 \ #
# $Z cy2=8 \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=129 \ #
# $Z R=$_____ImageD \ #
# $Z $formatI #
# #
# $Z set _____ImageE=$xTV/ESPACE #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$_____ImageE \ #
# $Z $formatI #
# #
# $Z set _____ImagesR=$xiirk/BERT.12 #
# $m4 _____include(_____xiirk/.BERT.11.1._____U) #
# $m4 _____include(_____xiirk/.BERT.11.2._____U) #
# $m4 _____include(_____xiirk/.BERT.11.3._____U) #
# #
# :Fin_listG_BERT_12: #
# #
# #
# Il s'agit du paradoxe de Bertrand generalise avec 1000000 droites dont 359115 intersectent #
# le Domaine elliptique ; seules 60 droites sont visualisees. La probabilite pour que #
# le rapport des aires soit dans [0.1955011094778853,1-0.1955011094778853] est egale a #
# 184356/359115 (=0.5133620149534271). Le rapport de l'aire du Domaine a celle de l'Espace #
# est egal a 30817/448500 (=0.06871125975473802). #
# #
# Voir les commentaires 'v $xrk/ParadoxeB.01$K 20171012160942'... #
# #
# Les images sur le paradoxe de Bertrand ont ete faites suite au cours donne au CMAP par #
# Christian Leonard ("Quelques Lecons sur l'Entropie") a partir du 20041021... #
v $xiirk/BERT.21
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_BERT_21: #
# #
# $Z Pal #
# #
# $Z set _____ImageD=$xTV/DOMAINE #
# $Z $xci/gauss$X \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=40 \ #
# $Z R=$_____ImageD \ #
# $Z $formatI #
# #
# $Z set _____ImageE=$xTV/ESPACE #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$_____ImageE \ #
# $Z $formatI #
# #
# $Z set _____ImagesR=$xiirk/BERT.21 #
# $m4 _____include(_____xiirk/.BERT.11.1._____U) #
# $m4 _____include(_____xiirk/.BERT.11.2._____U) #
# $m4 _____include(_____xiirk/.BERT.11.3._____U) #
# #
# :Fin_listG_BERT_21: #
# #
# #
# Il s'agit du paradoxe de Bertrand classique avec 1000000 droites dont 815165 intersectent #
# le Domaine circulaire ; seules 161 droites sont visualisees. La probabilite pour que #
# le rapport des aires soit dans [0.1955011094778853,1-0.1955011094778853] est egale a #
# 446114/815165 (=0.547268344445603). Le rapport de l'aire du Domaine a celle de l'Espace #
# est egal a 236605/448500 (=0.5275473801560758). #
# #
# Voir les commentaires 'v $xrk/ParadoxeB.01$K 20171012160942'... #
# #
# Les images sur le paradoxe de Bertrand ont ete faites suite au cours donne au CMAP par #
# Christian Leonard ("Quelques Lecons sur l'Entropie") a partir du 20041021... #
v $xiirk/CRAQ.11 p=$xiP/gris.01
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_CRAQ_11: #
# #
# $Z set _____imagesR=$xiirk/CRAQ.11 #
# $m4 _____include(_____xiirk/.CRAQ.11.1._____U) #
# #
# :Fin_listG_CRAQ_11: #
# #
v $xiirk/CRAQ.21 p=$xiP/gris.01
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_CRAQ_21: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pal #
# #
# $Z set _____ImageR=$xiirk/CRAQ.21 #
# $m4 _____include(_____xiirk/.CRAQ.21.1._____U) #
# #
# :Fin_listG_CRAQ_21: #
# #
v $xiirk/CRAQ.22 p=$xiP/gris.01
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_CRAQ_22: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pal #
# #
# $Z set _____ImageR=$xTV/CRAQ.22 #
# $m4 _____include(_____xiirk/.CRAQ.21.1._____U) #
# #
# $Z $xci/complement$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/contours.22$X \ #
# $Z optimiser_increment=VRAI \ #
# $Z niveau_aleatoire=VRAI \ #
# $Z niveau_initial=$NOIR_PLANCHER \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/vert_orange_noir \ #
# $Z R=$_____ImageR \ #
# $Z $formatI #
# #
# $Z set SaVe_____ImageR=$_____ImageR #
# $Z set _____ImageR=$xiirk/CRAQ.22 #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$SaVe_____ImageR%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_CRAQ_22: #
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v $xiirk/CRAQ.23
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_CRAQ_23: #
# #
# $Z setenv xTV $xTG #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiit/JFC.12%s \ #
# $Z mode=1 \ #
# $Z $format_Std \ #
# $Z R=$xTV/JFC.12%s \ #
# $Z $formatR_Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/JFC.12%s \ #
# $Z mode=7 \ #
# $Z $format_Squ \ #
# $Z R=$xTV/JFC.12%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z execRVB $xci/acces$X \ #
# $Z A=$xTV/JFC.12%s \ #
# $Z renormaliser=VRAI \ #
# $Z rNOIR=$NOIR_PLANCHER rBLANC=$BLANC \ #
# $Z R=$xTV/JFC.12%s \ #
# $Z $formatI #
# #
# Cette renormalisation est destinee a ne pas "contrarier" le remplissage des contours #
# avec des points qui possederaient le niveau '$NOIR'... #
# #
# $Z set _____PasX=16 #
# $Z set _____PasY=16 #
# $Z set _____Alpha=0.85 #
# $Z set _____Beta=0.15 #
# $Z set _____ImageR=$xTV/CRAQ.23 #
# $m4 _____include(_____xiirk/.CRAQ.21.1._____U) #
# #
# $Z execRVB "$xci/complement$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/contours.22$X \ #
# $Z optimiser_increment=VRAI \ #
# $Z niveau_aleatoire=VRAI \ #
# $Z niveau_initial=$NOIR_PLANCHER \ #
# $Z T=$xTV/JFC.12%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI" #
# #
# $Z set SaVe_____ImageR=$_____ImageR #
# $Z set _____ImageR=$xiirk/CRAQ.23 #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$SaVe_____ImageR%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_CRAQ_23: #
# #
v $xiirk/CRAQ.31
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_CRAQ_31: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pal #
# #
# $Z execRVB $xci/acces$X \ #
# $Z A=$xiio/DRAPEAUX.RUSSIE_UKRAINE.01%s \ #
# $Z renormaliser=VRAI \ #
# $Z rNOIR=$NOIR_PLANCHER rBLANC=$BLANC \ #
# $Z R=$xTV/DRAPEAUX.RUSSIE_UKRAINE.01%s \ #
# $Z $formatI #
# #
# Cette renormalisation est destinee a ne pas "contrarier" le remplissage des contours #
# avec des points qui possederaient le niveau '$NOIR'... #
# #
# $Z set _____PasX=16 #
# $Z set _____PasY=16 #
# $Z set _____Alpha=0.85 #
# $Z set _____Beta=0.15 #
# $Z set _____ImageR=$xTV/CRAQ.31 #
# $m4 _____include(_____xiirk/.CRAQ.21.1._____U) #
# #
# $Z execRVB "$xci/complement$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $xci/contours.22$X \ #
# $Z optimiser_increment=VRAI \ #
# $Z niveau_aleatoire=VRAI \ #
# $Z niveau_initial=$NOIR_PLANCHER \ #
# $Z T=$xTV/DRAPEAUX.RUSSIE_UKRAINE.01%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI" #
# #
# $Z set SaVe_____ImageR=$_____ImageR #
# $Z set _____ImageR=$xiirk/CRAQ.31 #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$SaVe_____ImageR%s \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_CRAQ_31: #
# #
v $xiirk/DIFF.11 p=$xiP/cercle.41
v $xiirk/DIFF.11.Source p=$xiP/cercle.41
# Generee (sur '$LACT17' -sur '$CMAP28' en ce qui concerne 'v $xiak/DIFF.11.ma$R16'-) par : #
# #
# #
# :Debut_listG_DIFF_11: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Std #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xiio/MIRE \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatR_Pal #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set _____Iterations=10000 #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.11.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.11 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xiirk/DIFF.11.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xiirk/DIFF.11 \ #
# $Z R=$xiirk/DIFF.11 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.11 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$MaRqUaGe #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.11.ma #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_DIFF_11: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur... #
v $xiirk/DIFF.11.Terre p=$xiP/cercle.41
v $xiirk/DIFF.11.Iles p=$xiP/cercle.41
v $xiirk/DIFF.11.Mer p=$xiP/cercle.41
v $xiirk/DIFF.11.Lacs p=$xiP/cercle.41
v $xiirk/DIFF.11.Plage p=$xiP/cercle.41
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_11_TIMLP: #
# #
# $Z Pal #
# #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $Z set _____images=$xiirk/DIFF.11 #
# $m4 _____include(_____xiirk/.DIFF.11.3._____U) #
# #
# :Fin_listG_DIFF_11_TIMLP: #
# #
# #
# qui montre les differents sous-ensembles de la la diffusion bidimensionnelle a partir #
# d'une source lineaire situee en bas de l'image sur toute sa largeur... #
v $xiirk/DIFF.12 p=$xiP/cercle.41
v $xiirk/DIFF.11.2
v $xiirk/DIFF.12.1
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFF_12: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set X_ZoOm=400 #
# $Z set Y_ZoOm=40 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.11 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.11.2 \ #
# $Z 16 #
# #
# $Z SET _____Diffuser=$NEXIST #
# $Z set _____images=$xTV/DIFF.2 #
# $Z SET _____Premiere=16 #
# $Z SET _____Derniere=16 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.AVANT \ #
# $Z $formatI #
# #
# #
# $Z SET NeXt = `calcul $_____Derniere + 1` #
# $Z set ImAgEs=$DiFfUsIoN #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE1=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z SET _____Premiere=$NeXt #
# $Z SET _____Derniere=$NeXt #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE2=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z @ X_PoNtD = 478 #
# $Z @ Y_PoNtD = 101 #
# $Z @ X_PoNtA = $X_PoNtD - 1 #
# $Z @ Y_PoNtA = $Y_PoNtD #
# #
# $Z $xci/acces$X \ #
# $Z A=$ImAgE1 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$N_TeRrE \ #
# $Z R=$ImAgE2 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.APRES \ #
# $Z $formatI #
# #
# $Z $xci/eor$X \ #
# $Z A1=$xTV/PLAGE.1.AVANT \ #
# $Z A2=$xTV/PLAGE.1.APRES \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# $Z $xci/acces$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z renormaliser=VRAI rBLANC=$_____Presquile \ #
# $Z R=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/and$X \ #
# $Z A1=$ImAgE \ #
# $Z A2=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A2=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$_____Pont \ #
# $Z R=$xiirk/DIFF.12 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.12 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.12.1 \ #
# $Z 16 #
# #
# :Fin_listG_DIFF_12: #
# #
# #
# qui montre le phenomene "ile-presqu'ile" de la diffusion bidimensionnelle a partir d'une #
# source lineaire situee en bas de l'image sur toute sa largeur. On notera qu'evidemment (et #
# malheureusement) les coordonnees du point {478,101} ont ete determinees "a la main" #
# (au passage, ce point est un point de la "Plage" qui, si il est deplace "d'un cran" a #
# gauche, transforme en "Ile" un grand morceau de cette "Plage"...). #
# #
# Voici respectivement les alias utiles a trouver {$X_PoNtD,$Y_PoNtD} et {$X_ZoOm,$Y_ZoOm} : #
# #
# #
# :Debut_listG_____XY_PoNtD_____XY_ZoOm: #
# #
# $Z alias XY_PoNtD 'set ImAgE=\!:1 ; set X_PoNtD=\!:2 ; set Y_PoNtD=\!:3 ; \\ #
# $Z set NiVo=54 ; \\ #
# $Z set PaLeTtE=$xiP/cercle.41 ; \\ #
# $Z $xci/S_point$X A=$ImAgE \\ #
# $Z X=$X_PoNtD Y=$Y_PoNtD n=$NiVo | \\ #
# $Z $xci/display$X p=$PaLeTtE ; \\ #
# $Z unset ImAgE X_PoNtD Y_PoNtD NiVo PaLeTtE' #
# #
# $Z alias XY_ZoOm 'set ImAgE=\!:1 ; set X_ZoOm=\!:2 ; set Y_ZoOm=\!:3 ; \\ #
# $Z set PaLeTtE=$xiP/cercle.41 ; \\ #
# $Z FileTmpB ZoOm ; \\ #
# $Z $xci/format.01$X A=$ImAgE \\ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \\ #
# $Z R=$ZoOm \\ #
# $Z $formatR_Puq ; \\ #
# $Z v $ZoOm p=$PaLeTtE ; \\ #
# $Z FileTmpE ZoOm ; \\ #
# $Z unset ImAgE X_ZoOm Y_ZoOm PaLeTtE' #
# #
# :Fin_listG_____XY_PoNtD_____XY_ZoOm: #
# #
# #
# ou 'NiVo=54' reference 'v $xiirk/.DIFF.11.0.$U _____Presquile'... #
v $xiirk/DIFF.12.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_DIFF_12_1_1: #
# #
# $Z Pal #
# #
# $Z set PoInT_BlAnC_X=311 #
# $Z set PoInT_BlAnC_Y=249 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.12.1%s \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=`calculI $PoInT_BlAnC_X-($dimXPuq/2)` \ #
# $Z Atry=`calculI $PoInT_BlAnC_Y-($dimYPuq/2)` \ #
# $Z R=$xiirk/DIFF.12.1.1%s \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.12.1.1%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/DIFF.12.1.1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_12_1_1: #
# #
# #
# Montre un zoom sur le point blanc qui provoque la catastrophe dans 'v $xiirk/DIFF.12.1'... #
v $xiak/DIFF.21$R16
v $xiak/DIFF.21.ma$R16
v $xiirk/DIFF.21 p=$xiP/cercle.41
v $xiirk/DIFF.21.Source p=$xiP/cercle.41
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_DIFF_21: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Std #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xiio/MIRE \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatR_Pal #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set _____Iterations=1000 #
# $Z SET _____EpaisSource=251 #
# $Z set _____NpasX=8 #
# $Z set _____NpasY=8 #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.21.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.21 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xiirk/DIFF.21.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xiirk/DIFF.21 \ #
# $Z R=$xiirk/DIFF.21 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$MaRqUaGe #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.21.ma #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_DIFF_21: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent). #
v $xiirk/DIFF.21.Terre p=$xiP/cercle.41
v $xiirk/DIFF.21.Iles p=$xiP/cercle.41
v $xiirk/DIFF.21.Mer p=$xiP/cercle.41
v $xiirk/DIFF.21.Lacs p=$xiP/cercle.41
v $xiirk/DIFF.21.Plage p=$xiP/cercle.41
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_21_TIMLP: #
# #
# $Z Pal #
# #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $Z set _____images=$xiirk/DIFF.21 #
# $m4 _____include(_____xiirk/.DIFF.11.3._____U) #
# #
# :Fin_listG_DIFF_21_TIMLP: #
# #
# #
# qui montre les differents sous-ensembles de la la diffusion bidimensionnelle a partir #
# d'une source lineaire situee en bas de l'image sur toute sa largeur et tres epaisse (pour #
# avoir plus de particules qui diffusent). #
v $xiirk/DIFF.21.Densite
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_21_Densite: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z $xci/or_02$X \ #
# $Z A1=$xiirk/DIFF.21.Terre \ #
# $Z A2=$xiirk/DIFF.21.Iles \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=`calcul pow((2*17)+1,2)` \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xTV/DIFFUSION.01 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.01 \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xTV/DIFFUSION.02 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xTV/DIFFUSION.02 \ #
# $Z R=$xTV/DIFFUSION.03 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z p=$xiP/cercle.35 \ #
# $Z R=$xTV/DIFFUSION.04 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z T=$xTV/DIFFUSION.04%s \ #
# $Z perspective=1.4 Ty=1 echelle=0.5 \ #
# $Z depth=VRAI minimum=0.2 \ #
# $Z avion=FAUX \ #
# $Z R=$xTV/DIFFUSION.54%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.54%s \ #
# $Z $formatI \ #
# $Z mode=8 Atrx=`calcul ($dimXSdu-$dimXPal)/2` Atry=0 \ #
# $Z R=$xiirk/DIFF.21.Densite%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_21_Densite: #
# #
# #
# Montre la densite de particules de 'v $xiirk/DIFF.21' de la source (a gauche de l'image) #
# au "bout de la mer" (a droite de l'image). On observera donc la linearite du gradient... #
v $xiirk/DIFF.21.Pedagogique p=$xiP/cercle.41
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_DIFF_21_Pedagogique: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.21 \ #
# $Z mode=3 \ #
# $Z R=$xTV/DIFF.21.1 \ #
# $Z $formatI \ #
# $Z $formatR_Std #
# #
# $Z Std #
# #
# $Z set RaPpOrT=16 #
# #
# $Z set XMaX=`calculINS ($dimX/$RaPpOrT)-1` #
# $Z set YMaX=`calculINS ($dimY/$RaPpOrT)-1` #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFF.21.1 \ #
# $Z mode=8 \ #
# $Z AtrX=150 AtrY=192 \ #
# $Z R=$xTV/DIFF.21.2 \ #
# $Z $formatI \ #
# $Z XmaxR=$XMaX YmaxR=$YMaX #
# #
# $Z XYmaxNe $XMaX $YMaX #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFF.21.2 \ #
# $Z mode=0 \ #
# $Z R=$xTV/DIFF.21.3 \ #
# $Z $formatI \ #
# $Z $formatR_Std #
# #
# $Z Std #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$xTV/DIFF.21.3 \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z mx=$RaPpOrT my=$RaPpOrT \ #
# $Z R=$xiirk/DIFF.21.Pedagogique \ #
# $Z $formatI #
# #
# :Fin_listG_DIFF_21_Pedagogique: #
# #
# #
# Montre une version "pedagogique" d'un zoom dans 'v $xiirk/DIFF.21 p=$xiP/cercle.41'. #
# On notera qu'il est imperatif d'utiliser le format 'Std' afin que le "grillage" coincide #
# bien avec le contour des carres du quadrillage (et des particules), ce que ne permet pas #
# le format 'Pal' pour des raisons de non divisibilite par 16 (c'est-a-dire '$RaPpOrT), #
# sachant que le 'PGCD' de '$dimXPal' et de '$dimYPal' vaut 5, ce qui est trop faible pour #
# faire une image "pedagogique"...). #
v $xiirk/DIFF.21.Attention p=$xiP/cercle.41
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_DIFF_21_Attention: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z $xci/TANX.01$X \ #
# $Z standard=FAUX \ #
# $Z pX=1 pY=0 pZ=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z Frenormaliser=VRAI \ #
# $Z Ex=2.89 Ey=2.89 \ #
# $Z Tx=0.47550 \ #
# $Z Ty=0.50000 \ #
# $Z R=$xTV/DEFORMATION$COORD_X \ #
# $Z $formatI #
# $Z $xci/TANX.01$X \ #
# $Z standard=FAUX \ #
# $Z pX=0 pY=1 pZ=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z Frenormaliser=VRAI \ #
# $Z Ex=2.89 Ey=2.89 \ #
# $Z Tx=0.50000 \ #
# $Z Ty=0.48700 \ #
# $Z R=$xTV/DEFORMATION$COORD_Y \ #
# $Z $formatI #
# #
# $Z $xci/acces$X \ #
# $Z A=$xiirk/DIFF.21 \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/deformi.01$X \ #
# $Z DX=$xTV/DEFORMATION$COORD_X \ #
# $Z DY=$xTV/DEFORMATION$COORD_Y \ #
# $Z interpoler=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX brutal=VRAI \ #
# $Z R=$xiirk/DIFF.21.Attention \ #
# $Z $formatI #
# #
# :Fin_listG_DIFF_21_Attention: #
# #
# #
# Montre un zoom local et progressif de 'v $xiirk/DIFF.21 p=$xiP/cercle.41' en se concentrant #
# sur la partie qui est representee par 'v $xiirk/DIFF.21.Pedagogique p=$xiP/cercle.41'... #
v $xiirk/DIFF.22 p=$xiP/cercle.41
v $xiirk/DIFF.21.2
v $xiirk/DIFF.22.1
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFF_22: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set X_ZoOm=280 #
# $Z set Y_ZoOm=160 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.21 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.21.2 \ #
# $Z 16 #
# #
# $Z SET _____Diffuser=$NEXIST #
# $Z SET _____EpaisSource=251 #
# $Z set _____images=$xTV/DIFF.2 #
# $Z SET _____Premiere=16 #
# $Z SET _____Derniere=16 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.AVANT \ #
# $Z $formatI #
# #
# #
# $Z SET NeXt = `calcul $_____Derniere + 1` #
# $Z set ImAgEs=$DiFfUsIoN #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE1=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z SET _____Premiere=$NeXt #
# $Z SET _____Derniere=$NeXt #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE2=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z @ X_PoNtD = 345 #
# $Z @ Y_PoNtD = 205 #
# $Z @ X_PoNtA = $X_PoNtD - 1 #
# $Z @ Y_PoNtA = $Y_PoNtD #
# #
# $Z $xci/acces$X \ #
# $Z A=$ImAgE1 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$N_TeRrE \ #
# $Z R=$ImAgE2 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.APRES \ #
# $Z $formatI #
# #
# $Z $xci/eor$X \ #
# $Z A1=$xTV/PLAGE.1.AVANT \ #
# $Z A2=$xTV/PLAGE.1.APRES \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# $Z $xci/acces$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z renormaliser=VRAI rBLANC=$_____Presquile \ #
# $Z R=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/and$X \ #
# $Z A1=$ImAgE \ #
# $Z A2=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A2=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$_____Pont \ #
# $Z R=$xiirk/DIFF.22 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.22 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.22.1 \ #
# $Z 16 #
# #
# :Fin_listG_DIFF_22: #
# #
# #
# qui montre le phenomene "ile-presqu'ile" de la diffusion bidimensionnelle a partir d'une #
# source lineaire situee en bas de l'image sur toute sa largeur. On notera qu'evidemment (et #
# malheureusement) les coordonnees du point {345,205} ont ete determinees "a la main" #
# (au passage, ce point est un point de la "Plage" qui, si il est deplace "d'un cran" a #
# gauche, transforme en "Ile" un grand morceau de cette "Plage"...). #
v $xiirk/DIFF.22.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_DIFF_22_1_1: #
# #
# $Z Pal #
# #
# $Z set PoInT_BlAnC_X=257 #
# $Z set PoInT_BlAnC_Y=185 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.22.1%s \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=`calculI $PoInT_BlAnC_X-($dimXPuq/2)` \ #
# $Z Atry=`calculI $PoInT_BlAnC_Y-($dimYPuq/2)` \ #
# $Z R=$xiirk/DIFF.22.1.1%s \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.22.1.1%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/DIFF.22.1.1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_22_1_1: #
# #
# #
# Montre un zoom sur le point blanc qui provoque la catastrophe dans 'v $xiirk/DIFF.22.1'... #
v $xiirk/DIFF.23 p=$xiP/cercle.41
v $xiirk/DIFF.21.3
v $xiirk/DIFF.23.1
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFF_23: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set X_ZoOm=420 #
# $Z set Y_ZoOm=180 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.21 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.21.3 \ #
# $Z 16 #
# #
# $Z SET _____Diffuser=$NEXIST #
# $Z SET _____EpaisSource=251 #
# $Z set _____images=$xTV/DIFF.2 #
# $Z SET _____Premiere=16 #
# $Z SET _____Derniere=16 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.AVANT \ #
# $Z $formatI #
# #
# #
# $Z SET NeXt = `calcul $_____Derniere + 1` #
# $Z set ImAgEs=$DiFfUsIoN #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE1=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z SET _____Premiere=$NeXt #
# $Z SET _____Derniere=$NeXt #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE2=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z @ X_PoNtD = 572 #
# $Z @ Y_PoNtD = 242 #
# $Z @ X_PoNtA = $X_PoNtD #
# $Z @ Y_PoNtA = $Y_PoNtD - 1 #
# #
# $Z $xci/acces$X \ #
# $Z A=$ImAgE1 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$N_TeRrE \ #
# $Z R=$ImAgE2 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.APRES \ #
# $Z $formatI #
# #
# $Z $xci/eor$X \ #
# $Z A1=$xTV/PLAGE.1.AVANT \ #
# $Z A2=$xTV/PLAGE.1.APRES \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# $Z $xci/acces$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z renormaliser=VRAI rBLANC=$_____Presquile \ #
# $Z R=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/and$X \ #
# $Z A1=$ImAgE \ #
# $Z A2=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A2=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$_____Pont \ #
# $Z R=$xiirk/DIFF.23 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.23 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm Atry=$Y_ZoOm \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.23.1 \ #
# $Z 16 #
# #
# :Fin_listG_DIFF_23: #
# #
# #
# qui montre le phenomene "ile-presqu'ile" de la diffusion bidimensionnelle a partir d'une #
# source lineaire situee en bas de l'image sur toute sa largeur. On notera qu'evidemment (et #
# malheureusement) les coordonnees du point {572,242} ont ete determinees "a la main" #
# (au passage, ce point est un point de la "Plage" qui, si il est deplace "d'un cran" vers le #
# bas, transforme en "Ile" un grand morceau de cette "Plage"...). #
v $xiirk/DIFF.23.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_DIFF_23_1_1: #
# #
# $Z Pal #
# #
# $Z set PoInT_BlAnC_X=611 #
# $Z set PoInT_BlAnC_Y=249 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.23.1%s \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=`calculI $PoInT_BlAnC_X-($dimXPuq/2)` \ #
# $Z Atry=`calculI $PoInT_BlAnC_Y-($dimYPuq/2)` \ #
# $Z R=$xiirk/DIFF.23.1.1%s \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.23.1.1%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/DIFF.23.1.1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_23_1_1: #
# #
# #
# Montre un zoom sur le point blanc qui provoque la catastrophe dans 'v $xiirk/DIFF.23.1'... #
v $xiak/DIFF.51$R16
v $xiak/DIFF.51.ma$R16
v $xiirk/DIFF.51 p=$xiP/cercle.41
v $xiirk/DIFF.51 p=$xiP/FeuDeForet.42
v $xiirk/DIFF.51.Source p=$xiP/cercle.41
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFF_51: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pal #
# #
# $Z set _____NpasXY=16 #
# $Z set OrDoNnEe = `calcul $Ymax - $_____NpasXY + 1` #
# $Z set PaRaMeTr = "$K_VIDE" #
# $Z set PaRaMeTr = "$PaRaMeTr"" normaliser=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" abscisse=FAUX" #
# $Z set PaRaMeTr = "$PaRaMeTr"" ordonnee=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" signe=""$K_VIDE" #
# $Z set OrDoNnEe = `$xci/coordonnees$X $PaRaMeTr Y=$OrDoNnEe` #
# #
# $Z $xci/move$X \ #
# $Z A=$BLANC \ #
# $Z YR=-$OrDoNnEe \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatI #
# #
# $Z Std #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set _____Iterations=2000 #
# $Z SET _____EpaisSource=$NOIR_PLANCHER #
# $Z set _____NpasX=$_____NpasXY #
# $Z set _____NpasY=$_____NpasXY #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.51.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xiirk/DIFF.51 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xiirk/DIFF.51.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xiirk/DIFF.51 \ #
# $Z R=$xiirk/DIFF.51 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.51 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$MaRqUaGe #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.51.ma #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_DIFF_51: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent). #
# On notera au passage que cela ne donne pas une frontiere plus "complexe" que celle que l'on #
# obtient avec moins de particules et d'iterations (ce qui est le cas, par exemple, de #
# 'v $xiirk/DIFF.21 p=$xiP/cercle.41', simulation pour laquelle il y a deux fois moins de #
# particules -pas=8 et pas=16- et deux fois moins d'iterations -1000 et 2000-). #
# #
# On notera les noms du type '$xiirk/DIFF.51' (et non pas '$xiirk/DIFF.31' comme la logique #
# le vcoudrait...) a cause des images '$xiaq/DIFF.*' et ce afin d'eviter des "collisions" #
# dans '$xiMi'... #
# #
# On notera de plus '_____EpaisSource=$NOIR_PLANCHER' qui ne sert en fait plus a grand chose #
# (etant donne la nouvelle generation de '$xTV/SOURCE' ou il n'y a que du NOIR et du BLANC #
# par construction...) si ce n'est a forcer le test 'v $xiirk/.DIFF.11.2.$U 20070314093100' #
# qui reinjecte la source dans chaque image de diffusion... #
v $xiirk/DIFF.51.Terre p=$xiP/cercle.41
v $xiirk/DIFF.51.Iles p=$xiP/cercle.41
v $xiirk/DIFF.51.Mer p=$xiP/cercle.41
v $xiirk/DIFF.51.Lacs p=$xiP/cercle.41
v $xiirk/DIFF.51.Plage p=$xiP/cercle.41
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFF_51_TIMLP: #
# #
# $Z Pal #
# #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $Z set _____images=$xiirk/DIFF.51 #
# $m4 _____include(_____xiirk/.DIFF.11.3._____U) #
# #
# :Fin_listG_DIFF_51_TIMLP: #
# #
# #
# qui montre les differents sous-ensembles de la la diffusion bidimensionnelle a partir #
# d'une source lineaire situee en bas de l'image sur toute sa largeur et tres epaisse (pour #
# avoir plus de particules qui diffusent). #
v $xiirk/DIFF.61 p=$xiP/cercle.41
v $xiirk/DIFF.62 p=$xiP/cercle.41
v $xiirk/DIFF.61.2
v $xiirk/DIFF.62.1
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_DIFF_61: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pqu #
# #
# $Z set _____NpasXY=16 #
# $Z set OrDoNnEe = `calcul $Ymax - $_____NpasXY + 1` #
# $Z set PaRaMeTr = "$K_VIDE" #
# $Z set PaRaMeTr = "$PaRaMeTr"" normaliser=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" abscisse=FAUX" #
# $Z set PaRaMeTr = "$PaRaMeTr"" ordonnee=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" signe=""$K_VIDE" #
# $Z set OrDoNnEe = `$xci/coordonnees$X $PaRaMeTr Y=$OrDoNnEe` #
# #
# $Z $xci/move$X \ #
# $Z A=$BLANC \ #
# $Z YR=-$OrDoNnEe \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatI #
# #
# $Z Std #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pqu #
# #
# $Z Pqu #
# #
# $Z set _____FoRmAt="Pqu" #
# #
# $Z set _____Iterations=1000 #
# $Z SET _____EpaisSource=$NOIR_PLANCHER #
# $Z set _____NpasX=$_____NpasXY #
# $Z set _____NpasY=$_____NpasXY #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xTV/DIFFUSION.SOURCE \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xTV/DIFFUSION.1 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xTV/DIFFUSION.SOURCE \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xTV/DIFFUSION.1 \ #
# $Z R=$xTV/DIFFUSION.1 \ #
# $Z $formatI #
# #
# $Z set X_ZoOm_1=2340 #
# $Z set Y_ZoOm_1=250 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.1 \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=$X_ZoOm_1 Atry=$Y_ZoOm_1 \ #
# $Z R=$xiirk/DIFF.61 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set X_ZoOm_2=560 #
# $Z set Y_ZoOm_2=235 #
# #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.61 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm_2 Atry=$Y_ZoOm_2 \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.61.2 \ #
# $Z 16 #
# #
# $Z Pqu #
# #
# $Z set _____FoRmAt="Pqu" #
# #
# $Z SET _____Diffuser=$NEXIST #
# $Z set _____images=$xTV/DIFF.2 #
# $Z SET _____Premiere=16 #
# $Z SET _____Derniere=16 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.AVANT \ #
# $Z $formatI #
# #
# #
# $Z SET NeXt = `calcul $_____Derniere + 1` #
# $Z set ImAgEs=$DiFfUsIoN #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE1=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z SET _____Premiere=$NeXt #
# $Z SET _____Derniere=$NeXt #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE2=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z @ X_PoNtD = 597 + $X_ZoOm_1 #
# $Z @ Y_PoNtD = 273 + $Y_ZoOm_1 #
# $Z @ X_PoNtA = $X_PoNtD #
# $Z @ Y_PoNtA = $Y_PoNtD + 1 #
# #
# $Z @ X_PoNtD = 676 + $X_ZoOm_1 #
# $Z @ Y_PoNtD = 276 + $Y_ZoOm_1 #
# $Z @ X_PoNtA = $X_PoNtD - 1 #
# $Z @ Y_PoNtA = $Y_PoNtD #
# #
# $Z $xci/acces$X \ #
# $Z A=$ImAgE1 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$N_TeRrE \ #
# $Z R=$ImAgE2 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.APRES \ #
# $Z $formatI #
# #
# $Z $xci/eor$X \ #
# $Z A1=$xTV/PLAGE.1.AVANT \ #
# $Z A2=$xTV/PLAGE.1.APRES \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# $Z $xci/acces$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z renormaliser=VRAI rBLANC=$_____Presquile \ #
# $Z R=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/and$X \ #
# $Z A1=$ImAgE \ #
# $Z A2=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A2=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$_____Pont \ #
# $Z R=$xTV/DIFFUSION.2 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xTV/DIFFUSION.SOURCE \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xTV/DIFFUSION.2 \ #
# $Z R=$xTV/DIFFUSION.2 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.2 \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=$X_ZoOm_1 Atry=$Y_ZoOm_1 \ #
# $Z R=$xiirk/DIFF.62 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.62 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm_2 Atry=$Y_ZoOm_2 \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.62.1 \ #
# $Z 16 #
# #
# #
# :Fin_listG_DIFF_61: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent) #
# et sur un champ 4x4 fois plus grand... #
# #
# On notera que ce qui est marque en rouge dans 'v $xiirk/DIFF.62.1' est forme d'une part #
# de la presqu'ile qui va se raccrocher au front de diffusion dans 'v $xiirk/DIFF.61.2', #
# mais aussi d'un petit morceau de la frontiere (constitue de 6 points jaunes) qui va se #
# detacher pour devenir une ile verte dans 'v $xiirk/DIFF.61.2'. #
# #
# Ainsi le rouge marque les differences entre 'v $xiirk/DIFF.61.2' et 'v $xiirk/DIFF.62.1'. #
v $xiirk/DIFF.62.1$IdM
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_DIFF_62_1_IdM: #
# #
# $Z Pal #
# #
# $Z set _____ImageA=$xiirk/DIFF.62.1 #
# $Z set _____ImageR=$_____ImageA$IdM #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$_____ImageA%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatR_TvB #
# #
# :Fin_listG_DIFF_62_1_IdM: #
# #
v $xiirk/DIFF.62.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_DIFF_62_1_1: #
# #
# $Z Pal #
# #
# $Z set PoInT_BlAnC_X=463 #
# $Z set PoInT_BlAnC_Y=169 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.62.1%s \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=`calculI $PoInT_BlAnC_X-($dimXPuq/2)` \ #
# $Z Atry=`calculI $PoInT_BlAnC_Y-($dimYPuq/2)` \ #
# $Z R=$xiirk/DIFF.62.1.1%s \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.62.1.1%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/DIFF.62.1.1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_62_1_1: #
# #
# #
# Montre un zoom sur le point blanc qui provoque la catastrophe dans 'v $xiirk/DIFF.62.1'... #
v $xiirk/DIFF.61.EtatInitial p=$xiP/cercle.41
v $xiirk/DIFF.61.Terre p=$xiP/cercle.41
v $xiirk/DIFF.61.Iles p=$xiP/cercle.41
v $xiirk/DIFF.61.Mer p=$xiP/cercle.41
v $xiirk/DIFF.61.Lacs p=$xiP/cercle.41
v $xiirk/DIFF.61.Plage p=$xiP/cercle.41
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_DIFF_61_TIMLP: #
# #
# $Z Pal #
# #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $Z set _____images=$xiirk/DIFF.61 #
# $m4 _____include(_____xiirk/.DIFF.11.3._____U) #
# #
# $Z $xci/init$X \ #
# $Z niveau=$_____PleineMer \ #
# $Z R=$_____images.EtatInitial \ #
# $Z $formatI #
# #
# :Fin_listG_DIFF_61_TIMLP: #
# #
# #
# qui montre les differents sous-ensembles de la la diffusion bidimensionnelle a partir #
# d'une source lineaire situee en bas de l'image sur toute sa largeur et tres epaisse (pour #
# avoir plus de particules qui diffusent) et sur un champ 4x4 fois plus grand... #
# #
# On notera que l'image '$xiirk/DIFF.61.Source' n'existe pas car, en effet, elle devrait etre #
# au format 'Pqu' c-est-a-dire a un format different des autres images '$xiirk/DIFF.61.*' #
# ('Pal'). #
v $xiirk/DIFF.61.Densite
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_61_Densite: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z $xci/or_02$X \ #
# $Z A1=$xiirk/DIFF.61.Terre \ #
# $Z A2=$xiirk/DIFF.61.Iles \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=`calcul pow((2*17)+1,2)` \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/DIFFUSION.01 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.01 \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xTV/DIFFUSION.02 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xTV/DIFFUSION.02 \ #
# $Z R=$xTV/DIFFUSION.03 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z p=$xiP/cercle.35 \ #
# $Z R=$xTV/DIFFUSION.04 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z T=$xTV/DIFFUSION.04%s \ #
# $Z perspective=1.4 Ty=1 echelle=0.5 \ #
# $Z depth=VRAI minimum=0.2 \ #
# $Z avion=FAUX \ #
# $Z R=$xTV/DIFFUSION.54%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.54%s \ #
# $Z $formatI \ #
# $Z mode=8 Atrx=`calcul ($dimXSdu-$dimXPal)/2` Atry=0 \ #
# $Z R=$xiirk/DIFF.61.Densite%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_61_Densite: #
# #
# #
# Montre la densite de particules de 'v $xiirk/DIFF.61' de la source (a gauche de l'image) #
# au "bout de la mer" (a droite de l'image). On observera donc la linearite du gradient... #
#20070327134718____:Pal ; $xci/display$X A=$xiirk/DIFF.71 p=$xiP/cercle.41 $formatI #
# generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_DIFF_71: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Phu #
# #
# $Z set _____NpasXY=32 #
# $Z set OrDoNnEe = `calcul $Ymax - $_____NpasXY + 1` #
# $Z set PaRaMeTr = "$K_VIDE" #
# $Z set PaRaMeTr = "$PaRaMeTr"" normaliser=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" abscisse=FAUX" #
# $Z set PaRaMeTr = "$PaRaMeTr"" ordonnee=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" signe=""$K_VIDE" #
# $Z set OrDoNnEe = `$xci/coordonnees$X $PaRaMeTr Y=$OrDoNnEe` #
# #
# $Z $xci/move$X \ #
# $Z A=$BLANC \ #
# $Z YR=-$OrDoNnEe \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatI #
# #
# $Z Std #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Phu #
# #
# $Z Phu #
# #
# $Z set _____FoRmAt="Phu" #
# #
# $Z set _____Iterations=1000 #
# $Z SET _____EpaisSource=$NOIR_PLANCHER #
# $Z set _____NpasX=$_____NpasXY #
# $Z set _____NpasY=$_____NpasXY #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# #
# :Fin_listG_DIFF_71: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent) #
# et sur un champ 8x8 fois plus grand... #
# #
# A la date du 20070328115439 il y a un gros probleme avec la generation de '$xiirk/DIFF.71'. #
# Seul le calcul '$xci/diffus_2D.21$X' a pu etre effectue sur '$LACT16', mais par contre, la #
# suite et surtout '$xci/contours.12$K' demande plus de 2 Go ce qui est incompatible avec #
# le mode 'SYSTEME_32_BITS' de '$LACT16', d'ou des expereiences en mode 'SYSTEME_64_BITS'... #
# En effet, avec le format 'Phu' le programme 'v $xci/contours.12$K' demande beaucoup plus #
# de memoire que les 2 Go autorises en mode 'SYSTEME_32_BITS'. Les tests effectues sur la #
# MACHINE 'georgev.polytechnique.fr' (qui possede 4 Go de memoire centrale et autant de #
# "swap") ont montre que '$xci/contours.12$X' avait besoin de 2173100 Ko rien que pour la #
# "stack" et qu'au total la memoire utilisee etait de l'ordre de 4054852-1312140 = 2742712 Ko #
# soit donc beaucoup trop. Pour bien faire, il faudrait compiler en mode 'SYSTEME_64_BITS', #
# mais, malheureusement, cela rendrait les {$O,$SO,$X} incompatibles avec les MACHINEs #
# '$CMAP??' en mode 'SYSTEME_32_BITS' (c'est-a-dire quasiment toutes...). La generation de #
# '$xiirk/DIFF_71' est (provisoirement ?) suspendue, d'ou en attendant '$xiirk/DIFF.81' au #
# format 'Pqu' et 4 fois plus d'iterations (4=2x2) ce qui devrait compenser la reduction #
# de moitie des deux dimensions de l'espace... #
v $xiirk/DIFF.81 p=$xiP/cercle.41
v $xiirk/DIFF.82 p=$xiP/cercle.41
v $xiirk/DIFF.81.2
v $xiirk/DIFF.82.1
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_DIFF_81: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pqu #
# #
# $Z set _____NpasXY=32 #
# $Z set OrDoNnEe = `calcul $Ymax - $_____NpasXY + 1` #
# $Z set PaRaMeTr = "$K_VIDE" #
# $Z set PaRaMeTr = "$PaRaMeTr"" normaliser=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" abscisse=FAUX" #
# $Z set PaRaMeTr = "$PaRaMeTr"" ordonnee=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" signe=""$K_VIDE" #
# $Z set OrDoNnEe = `$xci/coordonnees$X $PaRaMeTr Y=$OrDoNnEe` #
# #
# $Z $xci/move$X \ #
# $Z A=$BLANC \ #
# $Z YR=-$OrDoNnEe \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatI #
# #
# $Z Std #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pqu #
# #
# $Z Pqu #
# #
# $Z set _____FoRmAt="Pqu" #
# #
# $Z set _____Iterations=4000 #
# $Z SET _____EpaisSource=$NOIR_PLANCHER #
# $Z set _____NpasX=$_____NpasXY #
# $Z set _____NpasY=$_____NpasXY #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xTV/DIFFUSION.SOURCE \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$xTV/DIFFUSION.1 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xTV/DIFFUSION.SOURCE \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xTV/DIFFUSION.1 \ #
# $Z R=$xTV/DIFFUSION.1 \ #
# $Z $formatI #
# #
# $Z set X_ZoOm_1=2200 #
# $Z set Y_ZoOm_1=650 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.1 \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=$X_ZoOm_1 Atry=$Y_ZoOm_1 \ #
# $Z R=$xiirk/DIFF.81 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set X_ZoOm_2=320 #
# $Z set Y_ZoOm_2=240 #
# #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.81 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm_2 Atry=$Y_ZoOm_2 \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.81.2 \ #
# $Z 16 #
# #
# $Z Pqu #
# #
# $Z set _____FoRmAt="Pqu" #
# #
# $Z SET _____Diffuser=$NEXIST #
# $Z set _____images=$xTV/DIFF.2 #
# $Z SET _____Premiere=16 #
# $Z SET _____Derniere=16 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.AVANT \ #
# $Z $formatI #
# #
# #
# $Z SET NeXt = `calcul $_____Derniere + 1` #
# $Z set ImAgEs=$DiFfUsIoN #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE1=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z SET _____Premiere=$NeXt #
# $Z SET _____Derniere=$NeXt #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE2=`$xci/nombres$X A="$ImAgEs." $NuMeRos` #
# #
# $Z @ X_PoNtD = 452 + $X_ZoOm_1 #
# $Z @ Y_PoNtD = 248 + $Y_ZoOm_1 #
# $Z @ X_PoNtA = $X_PoNtD #
# $Z @ Y_PoNtA = $Y_PoNtD - 1 #
# #
# $Z $xci/acces$X \ #
# $Z A=$ImAgE1 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$N_TeRrE \ #
# $Z R=$ImAgE2 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/PLAGE.1 \ #
# $Z R=$xTV/PLAGE.1.APRES \ #
# $Z $formatI #
# #
# $Z $xci/eor$X \ #
# $Z A1=$xTV/PLAGE.1.AVANT \ #
# $Z A2=$xTV/PLAGE.1.APRES \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtD Y=$Y_PoNtD niveau=$N___MeR \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# $Z $xci/acces$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z renormaliser=VRAI rBLANC=$_____Presquile \ #
# $Z R=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI #
# $Z $xci/complement$X \ #
# $Z A=$xTV/PRESQU_ILE.1 \ #
# $Z R=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI #
# #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/and$X \ #
# $Z A1=$ImAgE \ #
# $Z A2=$xTV/PRESQU_ILE.1 \ #
# $Z $formatI | \ #
# $Z $xci/or_02$X \ #
# $Z A2=$xTV/PRESQU_ILE.2 \ #
# $Z $formatI | \ #
# $Z $xci/S_point$X \ #
# $Z X=$X_PoNtA Y=$Y_PoNtA niveau=$_____Pont \ #
# $Z R=$xTV/DIFFUSION.2 \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$xTV/DIFFUSION.SOURCE \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$xTV/DIFFUSION.2 \ #
# $Z R=$xTV/DIFFUSION.2 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.2 \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=$X_ZoOm_1 Atry=$Y_ZoOm_1 \ #
# $Z R=$xiirk/DIFF.82 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.82 \ #
# $Z $formatI \ #
# $Z mode=8 AtrX=$X_ZoOm_2 Atry=$Y_ZoOm_2 \ #
# $Z R=$xTV/ZOOM.1 \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ZOOM.1 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ZOOM.2 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$xTV/ZOOM.2 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.21$Z \ #
# $Z $xTV/ZOOM.2 \ #
# $Z $xiirk/DIFF.82.1 \ #
# $Z 16 #
# #
# #
# :Fin_listG_DIFF_81: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent) #
# et sur un champ 4x4 fois plus grand... #
# #
# On notera que ce qui est marque en rouge dans 'v $xiirk/DIFF.82.1' est forme d'une part #
# de la presqu'ile qui va se raccrocher au front de diffusion dans 'v $xiirk/DIFF.81.2', #
# mais aussi d'un petit morceau de la frontiere (constitue de 2 points jaunes) qui va se #
# detacher pour devenir une ile verte dans 'v $xiirk/DIFF.81.2'. #
# #
# Ainsi le rouge marque les differences entre 'v $xiirk/DIFF.81.2' et 'v $xiirk/DIFF.82.1'. #
v $xiirk/DIFF.82.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_DIFF_82_1_1: #
# #
# $Z Pal #
# #
# $Z set PoInT_BlAnC_X=532 #
# $Z set PoInT_BlAnC_Y=72 #
# #
# Afin de faire disparaitre la bande noire inferieure, '$PoInT_BlAnC_Y' est passe de #
# 31 a 72 aux environs du 20220214114737... #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.82.1%s \ #
# $Z $formatI \ #
# $Z mode=8 \ #
# $Z Atrx=`calculI $PoInT_BlAnC_X-($dimXPuq/2)` \ #
# $Z Atry=`calculI $PoInT_BlAnC_Y-($dimYPuq/2)` \ #
# $Z R=$xiirk/DIFF.82.1.1%s \ #
# $Z $formatR_Puq #
# #
# $Z Puq #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/DIFF.82.1.1%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/DIFF.82.1.1%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_82_1_1: #
# #
# #
# Montre un zoom sur le point blanc qui provoque la catastrophe dans 'v $xiirk/DIFF.82.1'... #
# #
# La grosse bande noire qui apparait en bas de 'v $xiirk/DIFF.82.1.1' vient du fait que #
# le point blanc est presqu'en bas de 'v $xiirk/DIFF.82.1'. C'est pourquoi le 20220214114737 #
# l'image a ete recalculee en trichant sur la translation '$PoInT_BlAnC_Y'... #
v $xiirk/DIFF.81.EtatInitial p=$xiP/cercle.41
v $xiirk/DIFF.81.Terre p=$xiP/cercle.41
v $xiirk/DIFF.81.Iles p=$xiP/cercle.41
v $xiirk/DIFF.81.Mer p=$xiP/cercle.41
v $xiirk/DIFF.81.Lacs p=$xiP/cercle.41
v $xiirk/DIFF.81.Plage p=$xiP/cercle.41
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_81_TIMLP: #
# #
# $Z Pal #
# #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $Z set _____images=$xiirk/DIFF.81 #
# $m4 _____include(_____xiirk/.DIFF.11.3._____U) #
# #
# $Z $xci/init$X \ #
# $Z niveau=$_____PleineMer \ #
# $Z R=$_____images.EtatInitial \ #
# $Z $formatI #
# #
# :Fin_listG_DIFF_81_TIMLP: #
# #
# #
# qui montre les differents sous-ensembles de la la diffusion bidimensionnelle a partir #
# d'une source lineaire situee en bas de l'image sur toute sa largeur et tres epaisse (pour #
# avoir plus de particules qui diffusent) et sur un champ 4x4 fois plus grand... #
# #
# On notera que l'image '$xiirk/DIFF.81.Source' n'existe pas car, en effet, elle devrait etre #
# au format 'Pqu' c-est-a-dire a un format different des autres images '$xiirk/DIFF.81.*' #
# ('Pal'). #
v $xiirk/DIFF.81.Densite
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFF_81_Densite: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z $xci/or_02$X \ #
# $Z A1=$xiirk/DIFF.81.Terre \ #
# $Z A2=$xiirk/DIFF.81.Iles \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=`calcul pow((2*17)+1,2)` \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/DIFFUSION.01 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.01 \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xTV/DIFFUSION.02 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xTV/DIFFUSION.02 \ #
# $Z R=$xTV/DIFFUSION.03 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z p=$xiP/cercle.35 \ #
# $Z R=$xTV/DIFFUSION.04 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/DIFFUSION.03 \ #
# $Z T=$xTV/DIFFUSION.04%s \ #
# $Z perspective=1.4 Ty=1 echelle=0.5 \ #
# $Z depth=VRAI minimum=0.2 \ #
# $Z avion=FAUX \ #
# $Z R=$xTV/DIFFUSION.54%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/DIFFUSION.54%s \ #
# $Z $formatI \ #
# $Z mode=8 Atrx=`calcul ($dimXSdu-$dimXPal)/2` Atry=0 \ #
# $Z R=$xiirk/DIFF.81.Densite%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_DIFF_81_Densite: #
# #
# #
# Montre la densite de particules de 'v $xiirk/DIFF.61' de la source (a gauche de l'image) #
# au "bout de la mer" (a droite de l'image). On observera donc la linearite du gradient... #
v $xiak/DIFF.91$R16
v $xiak/DIFF.91$MPEG
v $xiak/DIFF.91.ma$R16
v $xiirk/DIFF.91 p=$xiP/FeuDeForet.41
v $xiirk/DIFF.91.Source p=$xiP/FeuDeForet.41
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_DIFF_91: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Std #
# #
# $Z set _____ImagesR=$xiirk/DIFF.91 #
# $Z set _____Palette=$xiP/FeuDeForet.41 #
# #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=128 #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xiio/MIRE \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatR_Pal #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set _____Iterations=1000 #
# $Z SET _____EpaisSource=251 #
# $Z set _____NpasX=8 #
# $Z set _____NpasY=8 #
# $Z set _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$_____ImagesR.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$_____ImagesR \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$_____Palette \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.91 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=$_____Palette #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z set _____images=$MaRqUaGe #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$_____animation.ma #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_DIFF_91: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur et tres epaisse (pour avoir plus de particules qui diffusent). #
# Tout ceci est "inspire" de 'v $xiirk/DIFF.21'... #
v $xiak/DIFF.A1$MPEG
v $xiak/DIFF.A1$R16
v $xiak/DIFF.A1.ma$R16
v $xiirk/DIFF.A1 p=$xiP/FeuDeForet.42
v $xiirk/DIFF.A1.Source p=$xiP/FeuDeForet.42
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_DIFF_A1: #
# #
# $Z SETENV DoubleDef__________images $EXIST #
# #
# $Z setenv xTV $xTG #
# #
# $Z Std #
# #
# $Z SET _____ImagesR=$xiirk/DIFF.A1 #
# $Z SET _____Palette=$xiP/FeuDeForet.42 #
# #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=128 #
# #
# $Z $xci/transpose$X \ #
# $Z A=$xiio/MIRE \ #
# $Z $formatI | \ #
# $Z $xci/Sx$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatR_Pal #
# #
# $Z $xci/dilate.01$X \ #
# $Z A=$xiio/MIRE \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z $formatI | \ #
# $Z $xci/passe_bande$X \ #
# $Z inf=$NOIR_PLANCHER sup=$BLANC \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/MARQUEURS \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z set _____Iterations=1000 #
# $Z SET _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$_____ImagesR.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$_____ImagesR \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$_____Palette \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# $Z SET Premiere=$_____Premiere #
# $Z SET Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFF.A1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z SET _____PaletteMPEG=$_____Palette #
# $Z SET _____ImageT=$_____images. #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# $Z SET _____images=$MaRqUaGe #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# $Z SET Premiere=$_____Premiere #
# $Z SET Derniere=$_____Derniere #
# $Z set _____animation=$_____animation.ma #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_DIFF_A1: #
# #
# #
# qui montre la diffusion bidimensionnelle a partir d'une source lineaire situee en bas de #
# l'image sur toute sa largeur... #
# #
# Tout ceci est "inspire" de 'v $xiirk/DIFF.11'... #
# #
# #
# Test du message "Symbole doublement defini : _____images=" grace a : #
# #
# :Debut_listG_DIFF_A1_DoubleDefinition: #
# #
# $Z SETENV DoubleDef__________images $EXIST #
# #
# Ainsi le messag de double definition de '$_____images' est inhibe... #
# #
# $Z SET _____images=$xTV/DIFF.1 #
# $Z echo "$_____images" #
# #
# $Z SET MaRqUaGe=$xTV/DIFF.m #
# #
# $X echo "neutre" #
# #
# C'est ce "neutre" sous '$X', puis les '$c's suivants, qui provoque le message d'erreur... #
# #
# $c int main() #
# $c { #
# $c } #
# #
# $Z SET _____images=$MaRqUaGe #
# $Z echo "$_____images" #
# #
# :Fin_listG_DIFF_A1_DoubleDefinition: #
# #
v $xiak/DIFF.B1$R16 p=$xiP/cercle.41
v $xiak/DIFF.B1$R16 p=$xiP/FeuDeForet.42
v $xiak/DIFF.B1$R64 p=$xiP/cercle.41
v $xiak/DIFF.B1$R64 p=$xiP/FeuDeForet.42
v $xiak/DIFF.B1.1$R16
v $xiak/DIFF.B1.2$R16
v $xiak/DIFF.B1.1$MPEG
v $xiak/DIFF.B1.2$MPEG
v $xiirk/DIFF.B1 p=$xiP/cercle.41
v $xiirk/DIFF.B1 p=$xiP/FeuDeForet.42
v $xiirk/DIFF.B1.Source p=$xiP/cercle.41
v $xiirk/DIFF.B1.1
v $xiirk/DIFF.B1.2
# Generee (sur '$LACT19', puis regeneree sur '$LACT1A' aux environs du 20210126105553 #
# a cause du '$MP4' illisible...) par : #
# #
# #
# :Debut_listG_DIFF_B1: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImagesR=$xiirk/DIFF.B1 #
# #
# $Z Sus #
# #
# Les dimensions utilisees 'Sus' et 'Sdu' sont destinees a garantir des mailles correctes #
# pour la grille delimitant les particules (alors que 'Pus' et 'Pal' ne le permettent paP). #
# #
# $Z set _____NpasXY=1 #
# $Z set OrDoNnEe = `calcul $Ymax - $_____NpasXY + 1` #
# $Z set PaRaMeTr = "$K_VIDE" #
# $Z set PaRaMeTr = "$PaRaMeTr"" normaliser=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" abscisse=FAUX" #
# $Z set PaRaMeTr = "$PaRaMeTr"" ordonnee=VRAI" #
# $Z set PaRaMeTr = "$PaRaMeTr"" signe=""$K_VIDE" #
# $Z set OrDoNnEe = `$xci/coordonnees$X $PaRaMeTr Y=$OrDoNnEe` #
# #
# $Z $xci/move$X \ #
# $Z A=$BLANC \ #
# $Z YR=-$OrDoNnEe \ #
# $Z R=$xTV/SOURCE \ #
# $Z $formatI #
# #
# $Z $xci/init$X \ #
# $Z R=$xTV/MARQUEURS \ #
# $Z $formatI #
# #
# En fait, pour 'v $xiirk/DIFF.B1', l'image '$xTV/MARQUEURS' ne sert a rine, mais doit etre #
# malgre tout presente ('v $xiirk/.DIFF.11.2.$U MARQUEURS')... #
# #
# $Z SET _____Derniere=128 #
# $Z set _____Iterations=1 #
# $Z SET _____EpaisSource=$NOIR_PLANCHER #
# $Z set _____NpasX=$_____NpasXY #
# $Z set _____NpasY=$_____NpasXY #
# $Z set _____Frequence=0.5 #
# $Z set _____FoRmAt="Sus" #
# $Z SET _____images=$xTV/DIFF.1 #
# $m4 _____include(_____xiirk/.DIFF.11.0._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.2._____U) #
# $m4 _____include(_____xiirk/.DIFF.11.4._____U) #
# #
# $Z set NuMeRos="premiere=$_____Premiere derniere=$_____Premiere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR.Source \ #
# $Z $formatI #
# $Z set NuMeRos="premiere=$_____Derniere derniere=$_____Derniere" #
# $Z set ImAgE=`$xci/nombres$X A="$_____images." $NuMeRos` #
# #
# $Z $xci/neutre$X \ #
# $Z A=$ImAgE \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# $Z $xci/passe_bande$X \ #
# $Z A=$_____ImagesR.Source \ #
# $Z inf=$_____TerreFerme sup=$_____TerreFerme \ #
# $Z $formatI | \ #
# $Z $xci/cache$X \ #
# $Z A=$_____ImagesR \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$_____Premiere derniere=$_____Derniere \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# $Z SET _____ImageT=$_____images.zoom. #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____images.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" mode=0" #
# #
# $Z SET Premiere=$_____Premiere #
# $Z SET Derniere=$_____Derniere #
# #
# $Z set _____animation=$xiak/`GetLeaf $_____ImagesR` #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $Premiere $Derniere $xci/format.01$X $ArGuMeNtS $formatI $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set ImAgEs=`echo "$_____ImageT" | $SE -e 's/\.$//'` #
# #
# $Z FilSTmpB FSImAgEs #
# #
# $Z $CA $xcs/csh$Y \ #
# $Z >> $FSImAgEs #
# $Z echo "set _____images=$K_QD$ImAgEs$K_QD" \ #
# $Z >> $FSImAgEs #
# $Z source $FSImAgEs #
# #
# Tout cela a cause de difficultes pour definir '$_____images' directement avec 'SET'... #
# #
# $Z FilSTmpE FSImAgEs #
# #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" mx=`calculINS $dimXSdu/$dimXSus`" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" my=`calculINS $dimYSdu/$dimYSus`" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" niveau=$NOIR" #
# #
# $Z execALBUM $Premiere $Derniere $xci/grille.01$X $ArGuMeNtS $formatI #
# #
# $Z set Save_____animation=$_____animation #
# #
# $Z set _____animation=$Save_____animation.1 #
# $Z set _____PaletteMPEG=$xiP/cercle.41 #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z set _____animation=$Save_____animation.2 #
# $Z set _____PaletteMPEG=$xiP/FeuDeForet.42 #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z set _____animation=$Save_____animation #
# #
# $Z $xci/format.01$X \ #
# $Z A=$_____ImagesR \ #
# $Z $format_Sus \ #
# $Z mode=0 \ #
# $Z R=$_____ImagesR \ #
# $Z $formatR_Sdu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____ImagesR \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____ImagesR.1 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____ImagesR \ #
# $Z p=$xiP/FeuDeForet.42 \ #
# $Z R=$_____ImagesR.2 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____animation$R16 \ #
# $Z p=$xiP/cercle.41 \ #
# $Z R=$_____animation.1$R16 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____animation$R16 \ #
# $Z p=$xiP/FeuDeForet.42 \ #
# $Z R=$_____animation.2$R16 \ #
# $Z $formatI #
# #
# :Fin_listG_DIFF_B1: #
# #
# #
# qui montre la diffusion bidimensionnelle "en gros plan"... #
Pal ; $xci/display$X A=$xiirk/DIFS.11 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFS.11.Densite p=$xiP/cercle.35 $formatI
v $xiirk/DIFS.11$M
v $xiirk/DIFS.11$m
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFS_11: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z SET _____Editer=$EXIST #
# $Z set _____Rcarte=VRAI #
# $Z set _____imagesR=$xiirk/DIFS.11 #
# $m4 _____include(_____xiirk/.DIFS.11.1._____U) #
# #
# :Fin_listG_DIFS_11: #
# #
# #
# Montre la diffusion "Soft" de 437 particules "gaussiannisees" bidimensionnelles. #
# #
# On notera que les densites (dans le fichier '$xTV/DENSITE') sont dans le segment #
# [+1.25400632924857e-53,+4.814810088278177] (et non pas dans [0,1]) car, en effet, la #
# variable '$_____Renormaliser' n'est pas positionnee. #
Pal ; $xci/display$X A=$xiirk/DIFS.21 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFS.21.Densite p=$xiP/cercle.35 $formatI
v $xiirk/DIFS.21$M
v $xiirk/DIFS.21$m
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_DIFS_21: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z set _____Facteur=0.2 #
# $Z SET _____Editer=$EXIST #
# $Z set _____Rcarte=VRAI #
# $Z SET _____Renormaliser=$EXIST #
# $Z set _____imagesR=$xiirk/DIFS.21 #
# $m4 _____include(_____xiirk/.DIFS.11.1._____U) #
# #
# :Fin_listG_DIFS_21: #
# #
# #
# Montre la diffusion "Soft" de 44745 particules "gaussiannisees" bidimensionnelles... #
Pal ; $xci/display$X A=$xiirk/DIFS.22 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFS.22.Densite p=$xiP/cercle.35 $formatI
v $xiirk/DIFS.22$M
v $xiirk/DIFS.22$m
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFS_22: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z set _____Facteur=0.2 #
# $Z SET _____Editer=$EXIST #
# $Z set _____FEcarte=20000 #
# $Z set _____Rcarte=VRAI #
# $Z SET _____Renormaliser=$EXIST #
# $Z set _____imagesR=$xiirk/DIFS.22 #
# $m4 _____include(_____xiirk/.DIFS.11.1._____U) #
# #
# :Fin_listG_DIFS_22: #
# #
# #
# Montre la diffusion "Soft" de 44745 particules "gaussiannisees" bidimensionnelles... #
Pal ; $xci/display$X A=$xiirk/DIFS.23 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFS.23.Densite p=$xiP/cercle.35 $formatI
v $xiirk/DIFS.23$M
v $xiirk/DIFS.23$m
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFS_23: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z set _____Facteur=0.2 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.1 #
# $Z set _____FEcarte=4000 #
# $Z set _____Rcarte=VRAI #
# $Z SET _____Renormaliser=$EXIST #
# $Z set _____imagesR=$xiirk/DIFS.23 #
# $m4 _____include(_____xiirk/.DIFS.11.1._____U) #
# #
# :Fin_listG_DIFS_23: #
# #
# #
# Montre la diffusion "Soft" de 44745 particules "gaussiannisees" bidimensionnelles... #
Pal ; $xci/display$X A=$xiirk/DIFS.24 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFS.24.Densite p=$xiP/cercle.35 $formatI
v $xiirk/DIFS.24$M
v $xiirk/DIFS.24$m
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_DIFS_24: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z set _____Facteur=0.2 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.1 #
# $Z set _____FEcarte=8000 #
# $Z set _____Rcarte=VRAI #
# $Z SET _____Renormaliser=$EXIST #
# $Z set _____imagesR=$xiirk/DIFS.24 #
# $m4 _____include(_____xiirk/.DIFS.11.1._____U) #
# #
# :Fin_listG_DIFS_24: #
# #
# #
# Montre la diffusion "Soft" de 44745 particules "gaussiannisees" bidimensionnelles... #
v $xiirk/DIFZ.11
Pal ; $xci/display$X A=$xiirk/DIFZ.11.Densite p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.11.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.11.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.11.Densite
Pal ; $xci/display$X A=$xiirk/DIFZ.21.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.21.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.21.Densite
# Generee (sur {sumix11,...,sumix20} via '$CMAP28') par : #
# #
# #
# :Debut_listG_DIFZ_11_Initiale: #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.10._____U) #
# #
# :Fin_listG_DIFZ_11_Initiale: #
# #
# #
# :Debut_listG_DIFZ_11_Parallele: #
# #
# $Z setenv xTV $xTC #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=20 #
# $Z set _____Facteur=0.0004 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.4 #
# $Z set _____FEcarte=1000 #
# $Z set _____Rcarte=VRAI #
# $Z set _____DepthCueing=0.1 #
# $Z set _____imagesR=$xiirk/DIFZ.11 #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.0._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.1" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.1._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.2._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.2" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $Z SETENV PremiereA $_____Premiere #
# $Z SETENV DerniereA $_____Derniere #
# $Z set _____imagesD=$xTV/DENSITE.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.A.14.2._____U) #
# #
# $Z SET _____Binariser=FAUX #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $m4 _____include(_____xiirk/.DIFZ.11.4._____U) #
# #
# $Z set _____imagesR=$xiirk/DIFZ.21 #
# #
# $Z SET _____Binariser=VRAI #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# :Fin_listG_DIFZ_11_Parallele: #
# #
# #
# Montre la diffusion "Soft" de 1730 particules "gaussiannisees" tridimensionnelles. #
# #
# On notera que les densites dans les fichiers '$xTV/DENSITE.1' sont dans le segment [0,1] ce #
# qui n'est pas correct. En effet, la variable '$_____Renormaliser' n'etant pas positionnee, #
# elle prend sa valeur par defaut (c'est-a-dire '$EXIST')... #
v $xiirk/DIFZ.11.Densite.1
# Generee '$LACT16' : #
# #
# #
# :Debut_listG_DIFZ_11_Densite_1: #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____ImagesA=$xiirk/DIFZ.11.Densite #
# $Z set _____Seuil_1=10 #
# $Z set _____ImagesR=$xiirk/DIFZ.11.Densite.1 #
# $m4 _____include(_____xiirs/.LISE.11.1._____U) #
# #
# :Fin_listG_DIFZ_11_Densite_1: #
# #
v $xiirk/DIFZ.12
Pal ; $xci/display$X A=$xiirk/DIFZ.12.Densite p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.12.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.12.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.12.Densite
Pal ; $xci/display$X A=$xiirk/DIFZ.22.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.22.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.22.Densite
# Generee (sur {sumix11,...,sumix20} via '$CMAP28') par : #
# #
# #
# :Debut_listG_DIFZ_12_Initiale: #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.10._____U) #
# #
# :Fin_listG_DIFZ_12_Initiale: #
# #
# #
# :Debut_listG_DIFZ_12_Parallele: #
# #
# $Z setenv xTV $xTC #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=80 #
# $Z set _____Facteur=0.0040 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.1 #
# $Z set _____FEcarte=8000 #
# $Z set _____Rcarte=VRAI #
# $Z set _____DepthCueing=0.1 #
# $Z set _____imagesR=$xiirk/DIFZ.12 #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.0._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.1" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.1._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.2._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.2" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $Z SETENV PremiereA $_____Premiere #
# $Z SETENV DerniereA $_____Derniere #
# $Z set _____imagesD=$xTV/DENSITE.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.A.14.2._____U) #
# #
# $Z SET _____Binariser=FAUX #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $m4 _____include(_____xiirk/.DIFZ.11.4._____U) #
# #
# $Z set _____imagesR=$xiirk/DIFZ.22 #
# #
# $Z SET _____Binariser=VRAI #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# :Fin_listG_DIFZ_12_Parallele: #
# #
# #
# Montre la diffusion "Soft" de 71210 particules "gaussiannisees" tridimensionnelles. #
# #
# On notera que les densites dans les fichiers '$xTV/DENSITE.1' sont dans le segment [0,1] ce #
# qui n'est pas correct. En effet, la variable '$_____Renormaliser' n'etant pas positionnee, #
# elle prend sa valeur par defaut (c'est-a-dire '$EXIST')... #
v $xiirk/DIFZ.12.Densite.1
# Generee '$LACT16' : #
# #
# #
# :Debut_listG_DIFZ_12_Densite_1: #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____ImagesA=$xiirk/DIFZ.12.Densite #
# $Z set _____Seuil_1=40 #
# $Z set _____Seuil_4=20 #
# $Z set _____Points=49 #
# $Z set _____ImagesR=$xiirk/DIFZ.12.Densite.1 #
# $m4 _____include(_____xiirs/.LISE.11.1._____U) #
# #
# :Fin_listG_DIFZ_12_Densite_1: #
# #
v $xiirk/DIFZ.11.12.1
# Generee '$LACT16' : #
# #
# #
# :Debut_listG_DIFZ_11_12_1: #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z execRVB $xci/minmax$X \ #
# $Z A1=$xiirk/DIFZ.11.Densite.1%s \ #
# $Z A2=$xiirk/DIFZ.12.Densite.1%s \ #
# $Z R=$xiirk/DIFZ.11.12.1%s \ #
# $Z $formatI #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xiirk/DIFZ.11.12.1%s \ #
# $Z R=$xiirk/DIFZ.11.12.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_DIFZ_11_12_1: #
# #
v $xiirk/DIFZ.13
Pal ; $xci/display$X A=$xiak/DIFZ.13$R16 p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.13$R64 p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.13.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.13.Densite.0007
Pal ; anim3 A=$xiirk/DIFZ.13.Densite. premiere=1 derniere=7 D=-1
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0007
Pal ; anim3 A=$xiirk/DIFZ.23.Densite. premiere=1 derniere=7 D=-1
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0007
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0008 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0008
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0009 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0009
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0010 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0010
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0011 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0011
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0012 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0012
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0013 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0013
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0014 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0014
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0015 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0015
Pal ; $xci/display$X A=$xiirk/DIFZ.23.IsoSurfaces.0016 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.IsoSurfaces.0016
v $xiak/DIFZ.23$R16
Pal ; anim3 A=$xiirk/DIFZ.23.IsoSurfaces. premiere=1 derniere=16 D=-1
# Generee (sur {sumix13,...,sumix20} via '$CMAP28', sauf les images '$xiirk/DIFZ.23.Densite' #
# qui ont ete generees directement sur '$CMAP28') par : #
# #
# #
# :Debut_listG_DIFZ_13_Initiale: #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.10._____U) #
# #
# :Fin_listG_DIFZ_13_Initiale: #
# #
# #
# :Debut_listG_DIFZ_13_Parallele: #
# #
# $Z setenv xTV $xTC #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=128 #
# $Z set _____Facteur=0.0040 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.1 #
# $Z set _____FEcarte=8000 #
# $Z set _____Rcarte=VRAI #
# $Z set _____Renormaliser=$NEXIST #
# $Z set _____Rayon=0.005 #
# $Z set _____DepthCueing=0.1 #
# $Z set _____Zoom=0.8 #
# $Z set _____PaletteD=$xiP/cercle.23 #
# $Z set _____imagesR=$xiirk/DIFZ.13 #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.0._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.1" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.1._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.2._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.2" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $Z SETENV PremiereA $_____Premiere #
# $Z SETENV DerniereA $_____Derniere #
# $Z set _____imagesD=$xTV/DENSITE.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.A.14.2._____U) #
# #
# $Z set _____images=$_____imagesD #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFZ.13 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# $Z SET _____Binariser=FAUX #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite.0001 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_2 #
# $Z set _____imagesRD=$_____imagesR.Densite.0002 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_3 #
# $Z set _____imagesRD=$_____imagesR.Densite.0003 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_4 #
# $Z set _____imagesRD=$_____imagesR.Densite.0004 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_5 #
# $Z set _____imagesRD=$_____imagesR.Densite.0005 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_6 #
# $Z set _____imagesRD=$_____imagesR.Densite.0006 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_7 #
# $Z set _____imagesRD=$_____imagesR.Densite.0007 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.4._____U) #
# #
# $Z set _____imagesR=$xiirk/DIFZ.23 #
# #
# $Z SET _____Binariser=VRAI #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite.0001 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_2 #
# $Z set _____imagesRD=$_____imagesR.Densite.0002 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_3 #
# $Z set _____imagesRD=$_____imagesR.Densite.0003 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_4 #
# $Z set _____imagesRD=$_____imagesR.Densite.0004 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_5 #
# $Z set _____imagesRD=$_____imagesR.Densite.0005 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_6 #
# $Z set _____imagesRD=$_____imagesR.Densite.0006 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_7 #
# $Z set _____imagesRD=$_____imagesR.Densite.0007 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $Z SET Bande0=1 #
# $Z SET Nbandes=16 #
# $Z SET _____Binariser=VRAI #
# $Z set _____Pas=4 #
# $Z set _____imagesISD=$_____imagesR.IsoSurfaces #
# $Z set _____PaletteC=$xiP/cercle.23 #
# $m4 _____include(_____xiirk/.DIFZ.13.1._____U) #
# #
# $Z set _____images=$_____imagesISD #
# $Z set Premiere=$Bande0 #
# $Z set Derniere=$Nbandes #
# $Z set _____animation=$xiak/DIFZ.23 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# :Fin_listG_DIFZ_13_Parallele: #
# #
# #
# Montre la diffusion "Soft" de 114299 particules "gaussiannisees" tridimensionnelles. #
# #
# On notera que les densites dans les fichiers '$xTV/DENSITE.1' sont dans le segment [0,1] ce #
# qui n'est pas correct. En effet, la variable '$_____Renormaliser' n'etant pas positionnee, #
# elle prend sa valeur par defaut (c'est-a-dire '$EXIST')... C'est pourquoi, apres le #
# 20070707081916, il a ete decide de regener tout ceci en forcant '$_____Renormaliser' a #
# valeur '$NEXIST'... #
v $xiak/DIFZ.13.2
# Generee (sur '$LACT18') a partir des resultats de 'v $xiirk/DIFZ.13' : #
# #
# #
# :Debut_listG_DIFZ_13_2: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____imagesWW=$xiim/DIFZ.13$D/DENSITE.1 #
# $Z set _____imagesD=$xiim/DIFZ.13$D/DENSITE.2 #
# #
# $Z set cPremiere=1 #
# $Z set cDerniere=128 #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" standard=VRAI" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=3" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z A=$_____imagesD. \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xTV/DIFZ.13.2%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/DIFZ.13.2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirk/DIFZ.13.2%s \ #
# $Z $formatI #
# #
# :Fin_listG_DIFZ_13_2: #
# #
# #
# On notera que pour 'v $xiirk/DIFZ.13', les images '$_____imagesWW' et '$_____imagesD' #
# etaient en fait (lors du calcul proprement dit) dans '$xTV', puis transferees dans #
# '$xiim' a des fins de sauvegarde... #
v $xiirk/DIFZ.14
Pal ; $xci/display$X A=$xiak/DIFZ.14$R16 p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.14$R64 p=$xiP/cercle.35 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.14.1$R16 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.14.1$R64 p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.14.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.14.Densite.0007
Pal ; anim3 A=$xiirk/DIFZ.14.Densite. premiere=1 derniere=7 D=-1
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0007
Pal ; anim3 A=$xiirk/DIFZ.24.Densite. premiere=1 derniere=7 D=-1
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0007
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0008 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0008
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0009 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0009
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0010 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0010
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0011 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0011
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0012 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0012
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0013 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0013
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0014 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0014
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0015 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0015
Pal ; $xci/display$X A=$xiirk/DIFZ.24.IsoSurfaces.0016 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.IsoSurfaces.0016
v $xiak/DIFZ.24$R16
Pal ; anim3 A=$xiirk/DIFZ.24.IsoSurfaces. premiere=1 derniere=16 D=-1
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0001$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0002$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0003$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0004$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0005$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0006$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0007$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0008$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0009$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0010$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0011$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0012$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0013$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0014$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0015$R16 p=$xiP/cercle.32 $formatI
Pal ; $xci/display$X A=$xiak/DIFZ.24.IsoSurfaces$STEREO.0016$R16 p=$xiP/cercle.32 $formatI
Pal ; anim1 A=$xiak/DIFZ.24.IsoSurfaces$STEREO. postfixe=$R16 premiere=1 derniere=16 p=$xiP/cercle.32 D=-1
# Generee (sur {sumix11,...,sumix20} via '$CMAP28', sauf les images '$xiirk/DIFZ.24.Densite' #
# qui ont ete generees directement sur '$CMAP28') par : #
# #
# #
# :Debut_listG_DIFZ_14_Initiale: #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.10._____U) #
# #
# :Fin_listG_DIFZ_14_Initiale: #
# #
# #
# :Debut_listG_DIFZ_14_Parallele: #
# #
# $Z setenv xTV $xTC #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z SET _____PremiereZ=1 #
# $Z SET _____DerniereZ=$dimY #
# $Z SET _____Premiere=1 #
# $Z SET _____Derniere=128 #
# $Z set _____Facteur=0.0010 #
# $Z SET _____Editer=$EXIST #
# $Z set _____SGDcarte=0.1 #
# $Z set _____FEcarte=4000 #
# $Z set _____Rcarte=VRAI #
# $Z set _____Renormaliser=$NEXIST #
# $Z set _____Rayon=0.005 #
# $Z set _____DepthCueing=0.1 #
# $Z set _____Zoom=0.8 #
# $Z set _____PaletteD=$xiP/cercle.23 #
# $Z set _____imagesR=$xiirk/DIFZ.14 #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.0._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.1" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $Z set _____DRotationX=$pis2 #
# $Z set _____DRotationY=0 #
# $Z set _____DRotationZ=0 #
# $Z set _____DTranslationX=0 #
# $Z set _____DTranslationY=+1 #
# $Z set _____DTranslationZ=0 #
# $m4 _____include(_____xiirk/.DIFZ.11.1._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.2._____U) #
# #
# $Z set PaRamP="unique=VRAI fichier=$xTV/VERROU.2" #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.11._____U) #
# #
# $Z SETENV PremiereA $_____Premiere #
# $Z SETENV DerniereA $_____Derniere #
# $Z set _____imagesD=$xTV/DENSITE.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.A.14.2._____U) #
# #
# $Z set _____images=$_____imagesD #
# $Z set Premiere=$_____Premiere #
# $Z set Derniere=$_____Derniere #
# $Z set _____animation=$xiak/DIFZ.14 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# $Z set _____imagesDN=$xTV/DENSITE.3 #
# $Z set _____Inferieur=50 #
# $Z set _____Superieur=70 #
# $m4 _____include(_____xiirk/.DIFZ.14.2._____U) #
# #
# $Z set _____images=$_____imagesDN #
# $Z set _____animation=$xiak/DIFZ.14.1 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# $Z SET _____DRenormaliser=FAUX #
# #
# $Z SET _____Binariser=FAUX #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite.0001 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_2 #
# $Z set _____imagesRD=$_____imagesR.Densite.0002 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_3 #
# $Z set _____imagesRD=$_____imagesR.Densite.0003 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_4 #
# $Z set _____imagesRD=$_____imagesR.Densite.0004 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_5 #
# $Z set _____imagesRD=$_____imagesR.Densite.0005 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_6 #
# $Z set _____imagesRD=$_____imagesR.Densite.0006 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_7 #
# $Z set _____imagesRD=$_____imagesR.Densite.0007 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $m4 _____include(_____xiirk/.DIFZ.11.4._____U) #
# #
# $Z set _____imagesR=$xiirk/DIFZ.24 #
# #
# $Z SET _____Binariser=VRAI #
# #
# $Z SET _____Seuil=$GRIS_1 #
# $Z set _____imagesRD=$_____imagesR.Densite.0001 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_2 #
# $Z set _____imagesRD=$_____imagesR.Densite.0002 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_3 #
# $Z set _____imagesRD=$_____imagesR.Densite.0003 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_4 #
# $Z set _____imagesRD=$_____imagesR.Densite.0004 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_5 #
# $Z set _____imagesRD=$_____imagesR.Densite.0005 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_6 #
# $Z set _____imagesRD=$_____imagesR.Densite.0006 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# $Z SET _____Seuil=$GRIS_7 #
# $Z set _____imagesRD=$_____imagesR.Densite.0007 #
# $m4 _____include(_____xiirk/.DIFZ.11.3._____U) #
# #
# $Z SET Bande0=1 #
# $Z SET Nbandes=16 #
# $Z SET _____Binariser=VRAI #
# $Z set _____Pas=4 #
# $Z set _____imagesISD=$_____imagesR.IsoSurfaces #
# $Z set _____PaletteC=$xiP/cercle.23 #
# $m4 _____include(_____xiirk/.DIFZ.13.1._____U) #
# #
# $Z SET _____Binariser=VRAI #
# $Z set _____Pas=16 #
# $Z set _____animation=$xiak/DIFZ.24 #
# $Z set _____imagesRS=$_____animation.IsoSurfaces$STEREO #
# $m4 _____include(_____xiirk/.DIFZ.14.1._____U) #
# #
# $Z set _____images=$_____imagesISD #
# $Z set Premiere=$Bande0 #
# $Z set Derniere=$Nbandes #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFN.2.12._____U) #
# #
# :Fin_listG_DIFZ_14_Parallele: #
# #
# #
# Montre la diffusion "Soft" de 128312 particules "gaussiannisees" tridimensionnelles avec #
# rotation de pi/2 de la densite ("pour la voir de dessus"...). #
v $xiak/DIFZ.14.2
v $xiak/DIFZ.14.3
# Generee (sur '$LACT18') a partir des resultats de 'v $xiirk/DIFZ.14' : #
# #
# #
# :Debut_listG_DIFZ_14_23: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____imagesWW=$xiim/DIFZ.14$D/DENSITE.1 #
# $Z set _____imagesD=$xiim/DIFZ.14$D/DENSITE.2 #
# $Z set _____imagesDN=$xiim/DIFZ.14$D/DENSITE.3 #
# #
# $Z set cPremiere=1 #
# $Z set cDerniere=128 #
# #
# $Z set PaRaMA="$K_VIDE" #
# $Z set PaRaMA="$PaRaMA"" standard=VRAI" #
# $Z set PaRaMA="$PaRaMA"" premiere=$cPremiere" #
# $Z set PaRaMA="$PaRaMA"" Zmin=`calcul $cPremiere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" Zmax=`calcul $cDerniere-$cPremiere`" #
# $Z set PaRaMA="$PaRaMA"" inverser_Z=VRAI" #
# $Z set PaRaMA="$PaRaMA"" interpoler=VRAI lineaire=VRAI" #
# $Z set PaRaMA="$PaRaMA"" source_lumineuse=VRAI" #
# $Z set PaRaMA="$PaRaMA"" cn=FAUX cnl=VRAI ccXYZ=VRAI" #
# $Z set PaRaMA="$PaRaMA"" speculaire=3" #
# $Z set PaRaMA="$PaRaMA"" depth_cueing=0.3" #
# #
# $Z set PaRaMC="$K_VIDE" #
# $Z set PaRaMC="$PaRaMC"" points=4" #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z A=$_____imagesD. \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xTV/DIFZ.14.2%s \ #
# $Z $formatI #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/DIFZ.14.2%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirk/DIFZ.14.2%s \ #
# $Z $formatI #
# #
# $Z set exec_aR="pX=1 pY=0 pZ=0" #
# $Z set exec_aV="pX=0 pY=1 pZ=0" #
# $Z set exec_aB="pX=0 pY=0 pZ=1" #
# $Z execRVB $xci/accumule.41$X \ #
# $Z A=$_____imagesDN. \ #
# $Z $PaRaMA \ #
# $Z ROTATION_OX=0 \ #
# $Z R=$xTV/DIFZ.14.3%s \ #
# $Z $formatI #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/DIFZ.14.3%s \ #
# $Z $PaRaMC \ #
# $Z R=$xiirk/DIFZ.14.3%s \ #
# $Z $formatI #
# #
# :Fin_listG_DIFZ_14_23: #
# #
# #
# On notera que pour 'v $xiirk/DIFZ.14', les images '$_____imagesWW', '$_____imagesD' #
# et '$_____imagesDN' etaient en fait (lors du calcul proprement dit) dans '$xTV', puis #
# transferees dans '$xiim' a des fins de sauvegarde... #
Pal ; $xci/display$X A=$xiirk/DIFZ.21.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.21.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.21.Densite
# Generee lors du calcul de 'v $xiirk/DIFZ.11'... #
# #
# Montre la diffusion "Soft" de 1730 particules "gaussiannisees" tridimensionnelles et #
# "binarisees"... #
Pal ; $xci/display$X A=$xiirk/DIFZ.22.Densite p=$xiP/gris.01 $formatI
Pal ; $xci/display$X A=$xiirk/DIFZ.22.Densite p=$xiP/trou_noir.A4 $formatI
v $xiirk/DIFZ.22.Densite
# Generee lors du calcul de 'v $xiirk/DIFZ.12'... #
# #
# Montre la diffusion "Soft" de 71210 particules "gaussiannisees" tridimensionnelles et #
# "binarisees"... #
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.23.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.23.Densite.0007
# Generee lors du calcul de 'v $xiirk/DIFZ.13'... #
# #
# Montre la diffusion "Soft" de 114299 particules "gaussiannisees" tridimensionnelles et #
# "binarisees"... #
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0001 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0001
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0002 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0002
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0003 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0003
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0004 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0004
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0005 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0005
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0006 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0006
Pal ; $xci/display$X A=$xiirk/DIFZ.24.Densite.0007 p=$xiP/cercle.23 $formatI
v $xiirk/DIFZ.24.Densite.0007
# Generee lors du calcul de 'v $xiirk/DIFZ.14'... #
# #
# Montre la diffusion "Soft" de 128312 particules "gaussiannisees" tridimensionnelles et #
# "binarisees"... #
v $xiirk/DIFZ.31.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_DIFZ_31: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=-1 C=0 \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# $Z $xci/multi_02.01$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GRADIENT \ #
# $Z A2=$xTV/GRADIENT \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# $Z $xci/multi_02.01$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GRADIENT \ #
# $Z A2=$xTV/GRADIENT \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# #
# $Z set _____ImageT1=$xTV/SECTIONS.1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define GRAINE 1111 #
# $c #define IGRAINE 17 #
# $c #define FACTEUR 0.005 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c int graine=GRAINE; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/random.03$X #
# $c C=$xTV/GRADIENT #
# $c graine=%d #
# $c facteur=%f #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,graine #
# $c ,FACTEUR #
# $c ,n #
# $c ); #
# $c #
# $c graine = graine + IGRAINE; #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____DxDyDz=8 #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=1.00 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/DIFZ.31 #
# $Z set _____Detruire_=$EXIST #
# $Z SET _____Detruire_1=$EXIST #
# $Z set _____Detruire_2_1=$EXIST #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_DIFZ_31: #
# #
v $xiirk/DIFZ.32.2
# Generee (sur '$CMAP28' -ex "courcelle"-) par : #
# #
# #
# :Debut_listG_DIFZ_32: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=-1 C=0 \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# $Z $xci/multi_02.01$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GRADIENT \ #
# $Z A2=$xTV/GRADIENT \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# $Z $xci/multi_02.01$X \ #
# $Z standard=FAUX \ #
# $Z A1=$xTV/GRADIENT \ #
# $Z A2=$xTV/GRADIENT \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$xTV/GRADIENT \ #
# $Z $formatI #
# #
# $Z set _____ImageT1=$xTV/SECTIONS.1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define GRAINE 1111 #
# $c #define IGRAINE 17 #
# $c #define FACTEUR 0.005 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c int graine=GRAINE; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/random.03$X #
# $c C=$xTV/GRADIENT #
# $c graine=%d #
# $c facteur=%f #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,graine #
# $c ,FACTEUR #
# $c ,n #
# $c ); #
# $c #
# $c graine = graine + IGRAINE; #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____DxDyDz=12 #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=1.00 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/DIFZ.32 #
# $Z set _____Detruire_=$EXIST #
# $Z SET _____Detruire_1=$EXIST #
# $Z set _____Detruire_2_1=$EXIST #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_DIFZ_32: #
# #
v $xiirk/ECHE.21
# Images obtenues par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 7 1 / 016350_016381 #
# #
v $xiirk/EPIC.11
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_EPIC_11: #
# #
# $Z Sdu #
# #
# $Z SET _____ImagesR=$xiirk/EPIC.11 #
# $m4 _____include(_____xiirk/.EPIC.11.1._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.2._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.3._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.4._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.5._____U) #
# #
# :Fin_listG_EPIC_11: #
# #
# #
# Il s'agit d'une visualisation du principe des Epicycles de Ptolemee sans equant. #
v $xiirk/EPIC.11.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_EPIC_11_1: #
# #
# $Z Sdu #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$xiirk/EPIC.11%s \ #
# $Z cache=VRAI \ #
# $Z iterations=4 \ #
# $Z anti_aliaser=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/jeu_vie.01$X \ #
# $Z iterations=3 \ #
# $Z R=$xiirk/EPIC.11.1%s \ #
# $Z $formatI" #
# #
# :Fin_listG_EPIC_11_1: #
# #
v $xiirk/EPIC.21
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_EPIC_21: #
# #
# $Z Sdu #
# #
# $Z set _____YTerre=-0.2 #
# $Z set _____YEquant=`calcul -($_____YTerre)` #
# $Z SET _____ImagesR=$xiirk/EPIC.21 #
# $m4 _____include(_____xiirk/.EPIC.11.1._____U) #
# $m4 _____include(_____xiirk/.EPIC.21.2._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.3._____U) #
# $m4 _____include(_____xiirk/.EPIC.21.4._____U) #
# $m4 _____include(_____xiirk/.EPIC.11.5._____U) #
# #
# :Fin_listG_EPIC_21: #
# #
# #
# Il s'agit d'une visualisation du principe des Epicycles de Ptolemee avec equant. #
v $xiirk/ERGO.11.0
v $xiirk/ERGO.11.1
# Images obtenues par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 2 1 / 017100_017227 #
# #
# avec : #
# #
# attenuation=0.0 : $xiirk/ERGO.11.0 #
# attenuation=1.0 : $xiirk/ERGO.11.1 #
# #
v $xiirk/ERGO.12.0 p=$xiP/cercle.22
v $xiirk/ERGO.12.1 p=$xiP/gris.01
v $xiirk/ERGO.12.1 p=$xiP/cercle.32
v $xiirk/ERGO.12.1$m p=$xiP/montagnes.01
v $xiirk/ERGO.12.1$M p=$xiP/montagnes.01
v $xiirk/ERGO.12.1$M p=$xiP/enfer.03
# Image obtenue par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 2 1 / 017228_017355 #
# #
# respectivement avec "log=FAUX" et "log=VRAI" (et "renormaliser=VRAI" dans les deux cas). #
v $xiirk/FLUI.21
v $xiirk/FLUI.31
# Image obtenue avec la commande : #
# #
# Pal #
# $xrk/fluide_2D.11$X np=1 tore=VRAI iterations=50000 #
# COEFFICIENT_W_R2=... #
# ROTATION_OX=... #
# R=$xiirk/FLUI.21... #
# $formatI #
# #
# avec : #
# #
# COEFFICIENT_W_R2 = 0.0 #
# ROTATION_OX = 1.0 #
# #
# Enfin, '$xiirk/FLUI.31' est obtenue en rehaussant la luminance a l'aide de la commande #
# '$xci/substitue$Z' avec la palette '$xiP/gris.11'. #
# #
v $xiirk/FLUI.22
v $xiirk/FLUI.32
# Image obtenue avec la commande : #
# #
# Pal #
# $xrk/fluide_2D.11$X np=1 tore=VRAI iterations=20000 ordre=4 dt=0.02 #
# VARIABLE_cx0=... #
# VARIABLE_cy0=... #
# ROTATION_OX=... #
# R=$xiirk/FLUI.22... #
# $formatI #
# #
# avec : #
# #
# VARIABLE_cx0 = 0.100 #
# VARIABLE_cy0 = 0.100 #
# ROTATION_OX = -1.2 #
# #
# Enfin, '$xiirk/FLUI.32' est obtenue en rehaussant la luminance a l'aide de la commande #
# '$xci/substitue$Z' avec la palette '$xiP/gris.11'. #
# #
v $xiirk/FLUI.51.0 p=$xiP/cercle.22
v $xiirk/FLUI.51.1 p=$xiP/gris.01
# Image obtenue par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 2 1 / 013743_013870 #
# #
# respectivement avec "log=FAUX" et "log=VRAI". #
v $xiirk/FLUI.71
# Image obtenue avec la commande : #
# #
# Pal #
# $xrk/fluide_2D.11$X np=1 tore=VRAI iterations=5000 ordre=4 dt=0.1 #
# RVB=FAUX ROUGE=... VERTE=... BLEUE=... #
# VARIABLE_cx0=... #
# VARIABLE_cy0=... #
# ROTATION_OX=... #
# R=$xiirk/FLUI.71... #
# $formatI #
# #
# avec : #
# #
# VARIABLE_cx0 = 0.100 #
# VARIABLE_cy0 = 0.100 #
# ROTATION_OX = -1.2 #
# #
# et : #
# #
# 'CMAP23' : ROUGE=VRAI VERTE=FAUX BLEUE=FAUX #
# 'INFO23' : ROUGE=FAUX VERTE=VRAI BLEUE=FAUX #
# 'LACT12' : ROUGE=FAUX VERTE=FAUX BLEUE=VRAI #
# #
v $xiirk/FLUI.81
# Image obtenue avec la commande : #
# #
# Pal #
# $xrk/fluide_2D.11$X np=1 tore=VRAI iterations=1000 ordre=4 dt=0.02 #
# RVB=VRAI #
# ROUGE=... VERTE=... BLEUE=... #
# VARIABLE_cx0=... VARIABLE_cy0=... #
# COEFFICIENT_W_R2=0.0 #
# ROTATION_OX=-1.2 #
# tourbillons=VRAI #
# ROUGE_iterations=1 #
# VERTE_iterations=1 #
# BLEUE_iterations=1 #
# R=$xiirk/FLUI.81... #
# $formatI #
# #
# avec : #
# #
# VARIABLE_cx0=0.100 VARIABLE_cy0=0.100 ROUGE=VRAI VERTE=FAUX BLEUE=FAUX #
# VARIABLE_cx0=0.200 VARIABLE_cy0=0.100 ROUGE=FAUX VERTE=VRAI BLEUE=FAUX #
# VARIABLE_cx0=0.200 VARIABLE_cy0=0.200 ROUGE=FAUX VERTE=FAUX BLEUE=VRAI #
# #
v $xiirk/FLUI.82
# Image obtenue avec la commande : #
# #
# Pal #
# $xrk/fluide_2D.11$X np=1 tore=VRAI iterations=1000 ordre=4 dt=0.02 #
# RVB=VRAI #
# ROUGE=... VERTE=... BLEUE=... #
# VARIABLE_cx0=... VARIABLE_cy0=... #
# ROTATION_OX=-1.2 #
# tourbillons=VRAI #
# ROUGE_iterations=1 #
# VERTE_iterations=1 #
# BLEUE_iterations=1 #
# R=$xiirk/FLUI.82... #
# $formatI #
# #
# avec : #
# #
# VARIABLE_cx0=0.100 VARIABLE_cy0=0.100 ROUGE=VRAI VERTE=FAUX BLEUE=FAUX #
# VARIABLE_cx0=0.200 VARIABLE_cy0=0.100 ROUGE=FAUX VERTE=VRAI BLEUE=FAUX #
# VARIABLE_cx0=0.200 VARIABLE_cy0=0.200 ROUGE=FAUX VERTE=FAUX BLEUE=VRAI #
# #
v $xiirk/HENO.11.10
# Image obtenue en multiplexant (en couleur) trois images Noir & Blanc calculees sur trois #
# SYSTEMEs differents : #
# #
# CMAP22 : #
# $xrk/henon.11$X np=1 iterations=10 premiere=0.1 R=$xiirk/HENO.11.10 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX $formatI #
# #
# INFO23 : #
# $xrk/henon.11$X np=1 iterations=10 premiere=0.1 R=$xiirk/HENO.11.10 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX $formatI #
# #
# LACT23 : #
# $xrk/henon.11$X np=1 iterations=10 premiere=0.1 R=$xiirk/HENO.11.10 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI $formatI #
# #
# et la, il n'y a pas encore assez d'iterations pour voir des differences entre les machines. #
v $xiirk/HENO.11.100
# Image obtenue en multiplexant (en couleur) trois images Noir & Blanc calculees sur trois #
# SYSTEMEs differents : #
# #
# CMAP22 : #
# $xrk/henon.11$X np=1 iterations=100 premiere=0.1 R=$xiirk/HENO.11.100 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX $formatI #
# #
# INFO23 : #
# $xrk/henon.11$X np=1 iterations=100 premiere=0.1 R=$xiirk/HENO.11.100 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX $formatI #
# #
# LACT23 : #
# $xrk/henon.11$X np=1 iterations=100 premiere=0.1 R=$xiirk/HENO.11.100 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI $formatI #
# #
# et la, on voit bien encore le probleme de la sensibilite a la precision des calculs... #
v $xiirk/HENO.11.1000
# Image obtenue en multiplexant (en couleur) trois images Noir & Blanc calculees sur trois #
# SYSTEMEs differents : #
# #
# CMAP22 : #
# $xrk/henon.11$X np=1 iterations=1000 premiere=0.1 R=$xiirk/HENO.11.1000 \ #
# RVB=FAUX ROUGE=VRAI VERTE=FAUX BLEUE=FAUX $formatI #
# #
# INFO23 : #
# $xrk/henon.11$X np=1 iterations=1000 premiere=0.1 R=$xiirk/HENO.11.1000 \ #
# RVB=FAUX ROUGE=FAUX VERTE=VRAI BLEUE=FAUX $formatI #
# #
# LACT23 : #
# $xrk/henon.11$X np=1 iterations=1000 premiere=0.1 R=$xiirk/HENO.11.1000 \ #
# RVB=FAUX ROUGE=FAUX VERTE=FAUX BLEUE=VRAI $formatI #
# #
# et la, on voit bien encore le probleme de la sensibilite a la precision des calculs... #
v $xiirk/IFS2S.11
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_IFS2S_11: #
# #
# $Z Pal #
# #
# $Z SET _____ImagesR=$xiirk/IFS2S.11 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS2S_11: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski bidimensionnel calcule a l'aide de la #
# methode des 'IFS's (visualisation avec deux points de depart ROUGE et VERTE). #
v $xiirk/IFS2S.12
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_IFS2S_12: #
# #
# $Z Pal #
# #
# $Z SET _____Palette=$xiP/arc_ciel.B2 #
# $Z SET _____ImagesR=$xiirk/IFS2S.12 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS2S.31.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS2S_12: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski bidimensionnel calcule a l'aide de la #
# methode des 'IFS's (avec un point de depart et coloriage fonction du numero d'iteration). #
v $xiirk/IFS2S.21
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_IFS2S_21: #
# #
# $Z Pal #
# #
# $Z SET _____ImagesR=$xiirk/IFS2S.21 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS2S.21.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS2S_21: #
# #
# #
# Il s'agit du calcul d'une fougere bidimensionnelle calculee a l'aide de la methode #
# des 'IFS's (visualisation avec deux points de depart ROUGE et VERTE). #
v $xiirk/IFS2S.22
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_IFS2S_22: #
# #
# $Z Pal #
# #
# $Z SET _____Palette=$xiP/arc_ciel.B2 #
# $Z SET _____ImagesR=$xiirk/IFS2S.22 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS2S.31.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS2S.21.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS2S_22: #
# #
# #
# Il s'agit du calcul d'une fougere bidimensionnelle calculee a l'aide de la methode #
# des 'IFS's (avec un point de depart et coloriage fonction du numero d'iteration). #
v $xiirk/IFS3S.11
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_IFS3S_11: #
# #
# $Z Pal #
# #
# $Z set _____Iterations=100000 #
# $Z set _____DepthCueing=0.2 #
# $Z SET _____ImagesR=$xiirk/IFS3S.11 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS3S_11: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's (visualisation avec trois points de depart ROUGE, VERTE et BLEUE). #
v $xiirk/IFS3S.12
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_IFS3S_12: #
# #
# $Z Pal #
# #
# $Z set _____Iterations=100000 #
# $Z set _____DepthCueing=0.2 #
# $Z SET _____Palette=$xiP/arc_ciel.B2 #
# $Z SET _____ImagesR=$xiirk/IFS3S.12 #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.31.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS3S_12: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's (avec un point de depart et coloriage fonction du numero d'iteration). #
v $xiirk/IFS3S.21
v $xiirk/IFS3S.22.1
v $xiirk/IFS3S.22.1.1
v $xiirk/IFS3S.22.1.2
v $xiirk/IFS3S.22.2
v $xiirk/IFS3S.22.2.1
v $xiirk/IFS3S.22.2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_21: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Iterations=10000 #
# $Z set _____DepthCueing=0.2 #
# $Z SET _____ImagesR=$xiirk/IFS3S.21 #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z set _____ImagesR1=$xiirk/IFS3S.22.1 #
# $Z set _____ImagesR11=$xiirk/IFS3S.22.1.1 #
# $Z set _____ImagesR12=$xiirk/IFS3S.22.1.2 #
# $Z set _____ImagesR2=$xiirk/IFS3S.22.2 #
# $Z set _____ImagesR21=$xiirk/IFS3S.22.2.1 #
# $Z set _____ImagesR22=$xiirk/IFS3S.22.2.2 #
# #
# $m4 _____include(_____xiirk/.IFS3S.21.1._____U) #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS3S_21: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.31
v $xiirk/IFS3S.32.1
v $xiirk/IFS3S.32.1.1
v $xiirk/IFS3S.32.1.2
v $xiirk/IFS3S.32.2
v $xiirk/IFS3S.32.2.1
v $xiirk/IFS3S.32.2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_31: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Iterations=100000 #
# $Z set _____DepthCueing=0.2 #
# $Z SET _____ImagesR=$xiirk/IFS3S.31 #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z set _____ImagesR1=$xiirk/IFS3S.32.1 #
# $Z set _____ImagesR11=$xiirk/IFS3S.32.1.1 #
# $Z set _____ImagesR12=$xiirk/IFS3S.32.1.2 #
# $Z set _____ImagesR2=$xiirk/IFS3S.32.2 #
# $Z set _____ImagesR21=$xiirk/IFS3S.32.2.1 #
# $Z set _____ImagesR22=$xiirk/IFS3S.32.2.2 #
# #
# $Z set _____SeuilGD=0.200 #
# #
# $m4 _____include(_____xiirk/.IFS3S.21.1._____U) #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS3S_31: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.41
v $xiirk/IFS3S.42.1
v $xiirk/IFS3S.42.1.1
v $xiirk/IFS3S.42.1.2
v $xiirk/IFS3S.42.2
v $xiirk/IFS3S.42.2.1
v $xiirk/IFS3S.42.2.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_41: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Iterations=100000 #
# $Z set _____DepthCueing=0.2 #
# $Z SET _____ImagesR=$xiirk/IFS3S.41 #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z set _____ImagesR1=$xiirk/IFS3S.42.1 #
# $Z set _____ImagesR11=$xiirk/IFS3S.42.1.1 #
# $Z set _____ImagesR12=$xiirk/IFS3S.42.1.2 #
# $Z set _____ImagesR2=$xiirk/IFS3S.42.2 #
# $Z set _____ImagesR21=$xiirk/IFS3S.42.2.1 #
# $Z set _____ImagesR22=$xiirk/IFS3S.42.2.2 #
# #
# $Z set _____SeuilGD=0.010 #
# #
# $m4 _____include(_____xiirk/.IFS3S.21.1._____U) #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.6._____U) #
# #
# :Fin_listG_IFS3S_41: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.51.1
v $xiirk/IFS3S.51.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_51: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=100000 #
# $Z set _____ImagesR="$K_VIDE" #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z FilSTmpB FSpHeReS #
# #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_X \ #
# $Z >>! $FSpHeReS$COORD_X #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Y \ #
# $Z >>! $FSpHeReS$COORD_Y #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Z \ #
# $Z >>! $FSpHeReS$COORD_Z #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $PAST \ #
# $Z $FSpHeReS$COORD_X \ #
# $Z $FSpHeReS$COORD_Y \ #
# $Z $FSpHeReS$COORD_Z | \ #
# $Z $AW ' { print " X=" $1 " Y=" $2 " Z=" $3 " " } ' \ #
# $Z >> $FLiStEP #
# #
# $Z set _____DemiPave=8 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z FilSTmpE FSpHeReS #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.3 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirk/IFS3S.51 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_IFS3S_51: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.52.1
v $xiirk/IFS3S.52.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_52: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=1000000 #
# $Z set _____ImagesR="$K_VIDE" #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z FilSTmpB FSpHeReS #
# #
# $Z set NoRmAlIsE="origine=0.1 extremite=0.9" #
# #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_X \ #
# $Z $NoRmAlIsE \ #
# $Z >>! $FSpHeReS$COORD_X #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Y \ #
# $Z $NoRmAlIsE \ #
# $Z >>! $FSpHeReS$COORD_Y #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Z \ #
# $Z $NoRmAlIsE \ #
# $Z >>! $FSpHeReS$COORD_Z #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $PAST \ #
# $Z $FSpHeReS$COORD_X \ #
# $Z $FSpHeReS$COORD_Y \ #
# $Z $FSpHeReS$COORD_Z | \ #
# $Z $AW ' { print " X=" $1 " Y=" $2 " Z=" $3 " " } ' \ #
# $Z >> $FLiStEP #
# #
# $Z set _____DemiPave=10 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z FilSTmpE FSpHeReS #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=0 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirk/IFS3S.52 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_IFS3S_52: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.53.1
v $xiirk/IFS3S.53.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_53: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=1000000 #
# $Z set _____ImagesR="$K_VIDE" #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z FilSTmpB FSpHeReS #
# #
# $Z set NoRmAlIsE_X="origine=0.05 extremite=0.95" #
# $Z set NoRmAlIsE_Y="origine=0.25 extremite=0.95" #
# $Z set NoRmAlIsE_Z="origine=0.10 extremite=0.90" #
# #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_X \ #
# $Z $NoRmAlIsE_X \ #
# $Z >>! $FSpHeReS$COORD_X #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Y \ #
# $Z $NoRmAlIsE_Y \ #
# $Z >>! $FSpHeReS$COORD_Y #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Z \ #
# $Z $NoRmAlIsE_Z \ #
# $Z >>! $FSpHeReS$COORD_Z #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $PAST \ #
# $Z $FSpHeReS$COORD_X \ #
# $Z $FSpHeReS$COORD_Y \ #
# $Z $FSpHeReS$COORD_Z | \ #
# $Z $AW ' { print " X=" $1 " Y=" $2 " Z=" $3 " " } ' \ #
# $Z >> $FLiStEP #
# #
# $Z set _____DemiPave=2 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z FilSTmpE FSpHeReS #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.5 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirk/IFS3S.53 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_IFS3S_53: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.54.1
v $xiirk/IFS3S.54.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_54: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=1000000 #
# $Z set _____ImagesR="$K_VIDE" #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $m4 _____include(_____xiirk/.IFS3S.54.1._____U) #
# #
# $Z set _____DemiPave=4 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z FilSTmpE FSpHeReS #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=-0.5 #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$xiirk/IFS3S.54 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_IFS3S_54: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's... #
v $xiirk/IFS3S.54.1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_IFS3S_54_1_1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirk/IFS3S.54.1%s \ #
# $Z iterations=3 \ #
# $Z R=$xTV/IFS3S.54.1%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xTV/IFS3S.54.1%s \ #
# $Z R=$xiirk/IFS3S.54.1.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_IFS3S_54_1_1: #
# #
v $xiirk/IFS3S.55.1$GAUCHE
v $xiirk/IFS3S.55.2$GAUCHE
v $xiirk/IFS3S.55.1$DROITE
v $xiirk/IFS3S.55.2$DROITE
v $xiirk/IFS3S.55.1$STEREO
v $xiirk/IFS3S.55.2$STEREO
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_IFS3S_55: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=400000 #
# $Z set _____ImagesR="$K_VIDE" #
# #
# $m4 _____include(_____xiirk/.IFS2S.11.1._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.2._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.3._____U) #
# $m4 _____include(_____xiirk/.IFS3S.11.4._____U) #
# $m4 _____include(_____xiirk/.IFS2S.11.5._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z FilSTmpB FSpHeReS #
# #
# $Z set NoRmAlIsE_X="origine=0.05 extremite=0.95" #
# $Z set NoRmAlIsE_Y="origine=0.25 extremite=0.95" #
# $Z set NoRmAlIsE_Z="origine=0.10 extremite=0.90" #
# #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_X \ #
# $Z $NoRmAlIsE_X \ #
# $Z >>! $FSpHeReS$COORD_X #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Y \ #
# $Z $NoRmAlIsE_Y \ #
# $Z >>! $FSpHeReS$COORD_Y #
# $Z $xrv/normalise.01$X \ #
# $Z ne=0 \ #
# $Z fichier=$xTV/SPHERES$COORD_Z \ #
# $Z $NoRmAlIsE_Z \ #
# $Z >>! $FSpHeReS$COORD_Z #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $PAST \ #
# $Z $FSpHeReS$COORD_X \ #
# $Z $FSpHeReS$COORD_Y \ #
# $Z $FSpHeReS$COORD_Z | \ #
# $Z $AW ' { print " X=" $1 " Y=" $2 " Z=" $3 " " } ' \ #
# $Z >> $FLiStEP #
# #
# $Z set DePX=`GetArgHX 4 Pdu` #
# $Z set DePY=`GetArgHY 4 Pdu` #
# $Z set _____DemiPave=`$xcg/MAX2.01$X x=$DePX y=$DePY signe="$K_VIDE"` #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z FilSTmpE FSpHeReS #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# #
# $Z set _____ImagesR=$xiirk/IFS3S.55 #
# #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# #
# $Z set _____RotationX=-0.5 #
# $Z set _____ORotationX=$_____RotationX #
# #
# $Z set RotationY_absolue=`calcul $dpi/(16*(16-1))` #
# #
# $Z set _____RotationY=-$RotationY_absolue #
# $Z set _____ORotationY=$_____RotationY #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$_____ImagesR$GAUCHE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z set _____RotationY=+$RotationY_absolue #
# $Z set _____ORotationY=$_____RotationY #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_1=$NEXIST #
# $Z set _____imagesR=$_____ImagesR$DROITE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImagesR$GAUCHE.1%s $_____ImagesR.1$GAUCHE%s #
# $Z execRVB $MV $_____ImagesR$GAUCHE.2%s $_____ImagesR.2$GAUCHE%s #
# #
# $Z execRVB $MV $_____ImagesR$DROITE.1%s $_____ImagesR.1$DROITE%s #
# $Z execRVB $MV $_____ImagesR$DROITE.2%s $_____ImagesR.2$DROITE%s #
# #
# $Z $xci/anaglyphe.31$Z $_____ImagesR.1$GAUCHE $_____ImagesR.1$DROITE \ #
# $Z $_____ImagesR.1$STEREO #
# #
# $Z $xci/acces_RVB.11$Z $_____ImagesR.1$STEREO \ #
# $Z $_____ImagesR.1$STEREO #
# #
# $Z $xci/anaglyphe.31$Z $_____ImagesR.2$GAUCHE $_____ImagesR.2$DROITE \ #
# $Z $_____ImagesR.2$STEREO #
# #
# :Fin_listG_IFS3S_55: #
# #
# #
# Il s'agit du calcul d'un triangle de Sierpinski tridimensionnel calcule a l'aide de la #
# methode des 'IFS's et represente en stereoscopie (en particulier anaglyphique...). #
Pal ; $xci/display$X A=$xiirk/ISIN.11.1 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 10 2 / 024321_024832 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ISIN.D. \ #
# $Z premiere=1 derniere=512 \ #
# $Z R=$xiirk/ISIN.11.1 \ #
# $Z $formatI #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.11.2 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 024321_024832 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ISIN.D. \ #
# $Z premiere=1 derniere=512 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirk/ISIN.11.2 \ #
# $Z $formatI #
# #
v $xiirk/ISIN.11.2$m p=$xiP/montagnes.91
v $xiirk/ISIN.11.2$M p=$xiP/montagnes.91
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ISIN_11_2_m_M: #
# #
# $Z set _____imagesA=$xiirk/ISIN.11.2 #
# $Z set _____Avion=VRAI #
# $Z set _____imagesR=$xiirk/ISIN.11.2$m #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# $Z set _____Avion=FAUX #
# $Z set _____imagesR=$xiirk/ISIN.11.2$M #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# #
# :Fin_listG_ISIN_11_2_m_M: #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.12.1 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 10 2 / 024833_025344 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ISIN.E. \ #
# $Z premiere=1 derniere=512 \ #
# $Z R=$xiirk/ISIN.12.1 \ #
# $Z $formatI #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.12.2 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 024833_025344 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ISIN.E. \ #
# $Z premiere=1 derniere=512 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirk/ISIN.12.2 \ #
# $Z $formatI #
# #
v $xiirk/ISIN.12.2$m p=$xiP/montagnes.91
v $xiirk/ISIN.12.2$M p=$xiP/montagnes.91
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ISIN_12_2_m_M: #
# #
# $Z set _____imagesA=$xiirk/ISIN.12.2 #
# $Z set _____Avion=VRAI #
# $Z set _____imagesR=$xiirk/ISIN.12.2$m #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# $Z set _____Avion=FAUX #
# $Z set _____imagesR=$xiirk/ISIN.12.2$M #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# #
# :Fin_listG_ISIN_12_2_m_M: #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.21.1 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 10 2 / 024321_024832 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ISIN.4. \ #
# $Z premiere=1 derniere=512 \ #
# $Z R=$xiirk/ISIN.21.1 \ #
# $Z $formatI #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.21.2 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 024321_024832 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ISIN.4. \ #
# $Z premiere=1 derniere=512 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirk/ISIN.21.2 \ #
# $Z $formatI #
# #
v $xiirk/ISIN.21.2$m p=$xiP/montagnes.91
v $xiirk/ISIN.21.2$M p=$xiP/montagnes.91
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ISIN_21_2_m_M: #
# #
# $Z set _____imagesA=$xiirk/ISIN.21.2 #
# $Z set _____Avion=VRAI #
# $Z set _____imagesR=$xiirk/ISIN.21.2$m #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# $Z set _____Avion=FAUX #
# $Z set _____imagesR=$xiirk/ISIN.21.2$M #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# #
# :Fin_listG_ISIN_21_2_m_M: #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.22.1 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 10 2 / 024833_025344 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ISIN.5. \ #
# $Z premiere=1 derniere=512 \ #
# $Z R=$xiirk/ISIN.22.1 \ #
# $Z $formatI #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.22.2 p=$xiP/fractal.11 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 024833_025344 #
# #
# avec les parametres : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ISIN.5. \ #
# $Z premiere=1 derniere=512 \ #
# $Z trx=0 try=0 \ #
# $Z R=$xiirk/ISIN.22.2 \ #
# $Z $formatI #
# #
v $xiirk/ISIN.22.2$m p=$xiP/montagnes.91
v $xiirk/ISIN.22.2$M p=$xiP/montagnes.91
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ISIN_22_2_m_M: #
# #
# $Z set _____imagesA=$xiirk/ISIN.22.2 #
# $Z set _____Avion=VRAI #
# $Z set _____imagesR=$xiirk/ISIN.22.2$m #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# $Z set _____Avion=FAUX #
# $Z set _____imagesR=$xiirk/ISIN.22.2$M #
# $m4 _____include(_____xiirk/.ISIN.11.2.1._____U) #
# #
# :Fin_listG_ISIN_22_2_m_M: #
# #
Pal ; $xci/display$X A=$xiirk/ISIN.31 p=$xiP/gris.01 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 023041_023168 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature basse (t=0.1) #
# faisant apparaitre des structures "carrees" caracteristiques. #
Pal ; $xci/display$X A=$xiirk/ISIN.32 p=$xiP/gris.01 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 023297_023424 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature plus #
# elevee (t=0.2). #
Pal ; $xci/display$X A=$xiirk/ISIN.33 p=$xiP/gris.01 $formatI
# Image obtenue par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 10 2 / 023425_023552 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature plus #
# elevee (t=0.4). #
Pal ; $xci/display$X A=$xiirk/ISIN.41.0128 p=$xiP/gris.01 $formatI
# Image '0128' de la sequence : #
# #
# xivPdf 10 2 / 023169_023296 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature basse (t=0.1) #
# faisant apparaitre des structures "carrees" caracteristiques. #
Pal ; $xci/display$X A=$xiirk/ISIN.42.0128 p=$xiP/gris.01 $formatI
# Image '0128' de la sequence : #
# #
# xivPdf 10 2 / 023681_023808 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature plus #
# elevee (t=0.2). #
Pal ; $xci/display$X A=$xiirk/ISIN.43.0128 p=$xiP/gris.01 $formatI
# Image '0128' de la sequence : #
# #
# xivPdf 10 2 / 023553_023680 #
# #
# le generateur aleatoire etant en mode "iterer=FAUX" et avec une temperature encore plus #
# elevee (t=0.4). #
Pal ; $xci/display$X A=$xiirk/ISIN.91 p=$xiP/gris.01 $formatI
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_ISIN_91: #
# #
# $Z Pal #
# #
# $Z set TemperatureC=`calcul 1/(2*2*log(1+sqrt(2)))` #
# $Z $xci/random.02$X \ #
# $Z $formatI | \ #
# $Z $xci/Ising_2D.11$X \ #
# $Z initiales=FAUX \ #
# $Z premiere=1 derniere=1 \ #
# $Z iterations=1000 \ #
# $Z temperature=$TemperatureC \ #
# $Z chiffres=0 \ #
# $Z R=$xiirk/ISIN.91 \ #
# $Z $formatI #
# #
# :Fin_listG_ISIN_91: #
# #
# #
# Il s'agit d'un modele d'Ising a la temperature critique... #
Sdu ; $xci/display$X A=$xiirk/ISIN.92 p=$xiP/gris.01 $formatI
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_ISIN_92: #
# #
# $Z XYmaxNe 4999 4999 #
# #
# $Z set TemperatureC=`calcul 1/(2*2*log(1+sqrt(2)))` #
# $Z $xci/random.02$X \ #
# $Z $formatI | \ #
# $Z $xci/Ising_2D.11$X \ #
# $Z initiales=FAUX \ #
# $Z premiere=1 derniere=1 \ #
# $Z iterations=1000 \ #
# $Z temperature=$TemperatureC \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/ISIN.92.1 \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ISIN.92.1 \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xTV/ISIN.92.2 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/convol.01$X \ #
# $Z A=$xTV/ISIN.92.2 \ #
# $Z points=4 \ #
# $Z R=$xiirk/ISIN.92 \ #
# $Z $formatI #
# #
# :Fin_listG_ISIN_92: #
# #
# #
# Il s'agit d'un modele d'Ising a la temperature critique sur un reseau 5000x5000 ! Cette #
# image ayant ete generee pour 'v $Dcourrier_in/20050824120830 Mathieu.Grousson'. #
Sdu ; $xci/display$X A=$xiirk/ISIN.A2 p=$xiP/gris.01 $formatI
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_ISIN_A2: #
# #
# $Z XYmaxNe 4999 4999 #
# #
# $Z set TemperatureC=`calcul 1/(2*2*log(1+sqrt(2)))` #
# $Z $xci/random.02$X \ #
# $Z seuil=0.53 \ #
# $Z $formatI | \ #
# $Z $xci/Ising_2D.11$X \ #
# $Z initiales=FAUX \ #
# $Z premiere=1 derniere=1 \ #
# $Z periodiser_X=VRAI \ #
# $Z periodiser_Y=VRAI \ #
# $Z iterations=20000 \ #
# $Z probabilite=0.01 \ #
# $Z temperature=$TemperatureC \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/ISIN.A2.1 \ #
# $Z $formatI #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/ISIN.A2.1 \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xTV/ISIN.A2.2 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/convol.01$X \ #
# $Z A=$xTV/ISIN.A2.2 \ #
# $Z points=4 \ #
# $Z R=$xiirk/ISIN.A2 \ #
# $Z $formatI #
# #
# :Fin_listG_ISIN_A2: #
# #
# #
# Il s'agit d'un modele d'Ising a la temperature critique sur un reseau 5000x5000 ! Cette #
# image ayant ete generee pour 'v $Dcourrier_in/20050824120830 Mathieu.Grousson' mais avec #
# une probabilite de selection des points dix fois plus faible, 20 fois plus d'iterations, #
# un peu plus de spins "UP" que de spins "DOWN"que pour 'v $xiirk/ISIN.92' et enfin, #
# generation sur un tore. On notera que 'v $xiirk/ISIN.92' n'exhibe pas l'invariance #
# d'echelle, contrairement a 'v $xiirk/ISIN.A2', ce qui est parfait ; il semblerait, #
# d'apres que les experiences effectuees pour passer de la premiere image a la seconde, #
# que le parametre important soit 'seuil=0.53' au lieu de 'seuil=0.50' initialement (et #
# par defaut) ; malgre tout, il convient de noter qu'il y a plus d'iterations (20000 au #
# lieu de 1000), que la probabilite de tester un site du reseau a chaque iteration est #
# plus faible (0.01 au lieu de 0.1 par defaut) et qu'enfin la simulation est pour la #
# nouvelle image effectuee sur un tore. Ainsi, il y avait 11749045 "DOWN"s et 13250955 "UP"s #
# initialement, et 8938549 "DOWN"s et 16061451 "UP"s au bout des 20000 iterations, soit un #
# rapport DOWN/UP de 0.5565218858495412 initialement et de 0.8866564711750964 a la fin... #
# #
# La version 5000x5000 a ete conservee sous le nom '$xiirk/ISIN.A2.5000x5000$GZIP' (qui est #
# donc compressee...) le 20050902102631. #
v $xiirk/ISIN.B1.1
v $xiirk/ISIN.B1.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ISIN_B1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=64 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/ISIN.B1 #
# $Z SET _____ItererRdn=FAUX #
# $Z SET _____Zmin=$cPremiere #
# $Z SET _____Zmax=$cDerniere #
# $Z set _____Iterations=2000 #
# $Z set _____Temperature=0.20 #
# $Z set _____images=$_____ImageT1 #
# $m4 _____include(_____xivPdf_10_2/.ISIN.6.11._____U) #
# $m4 _____include(_____xivPdf_10_2/.ISIN.6.12._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_21=$EXIST #
# $Z set _____imagesR=$xiirk/ISIN.B1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ISIN_B1: #
# #
# #
# Cette image est inspiree de 'v $xiirk/ISIN.32'... #
v $xiirk/ISIN.B2.1
v $xiirk/ISIN.B2.2
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_ISIN_B2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/ISIN.B2 #
# $Z SET _____ItererRdn=FAUX #
# $Z SET _____Zmin=$cPremiere #
# $Z SET _____Zmax=$cDerniere #
# $Z set _____Iterations=500 #
# $Z set _____Temperature=0.20 #
# $Z set _____images=$_____ImageT1 #
# $m4 _____include(_____xivPdf_10_2/.ISIN.6.11._____U) #
# $m4 _____include(_____xivPdf_10_2/.ISIN.6.12._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z SET _____Detruire_21=$EXIST #
# $Z set _____imagesR=$xiirk/ISIN.B2 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ISIN_B2: #
# #
# #
# Cette image est inspiree de 'v $xiirk/ISIN.32'... #
v $xiirk/ISIN.D1 p=$xiP/vert_orange
v $xiirk/ISIN.D1 p=$xiP/fractal.03
v $xiirk/ISIN.D1$m
# #
# #
# :Debut_listG_ISIN_D1: #
# #
# $Z Pdu #
# #
# $Z SET _____Nderniere=6 #
# $Z set _____Iterations=20 #
# $Z set _____Temperature=0.2 #
# #
# $Z set _____images=$xTV/ISIN.D1 #
# #
# $m4 _____include(_____xiirk/.ISIN.D1.1._____U) #
# $m4 _____include(_____xivPdf_10_2/.ISIN.2.11._____U) #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/INITIAL \ #
# $Z A2=$xTV/FRACTAL_BINAIRE \ #
# $Z R=$xTV/INITIAL \ #
# $Z $formatI #
# #
# L'intervention de l'image '$xTV/FRACTAL_BINAIRE' est destinee a briser la trop grande #
# connexite des ensembles de points generes par 'v $xci/Ising_2D.11$K'... #
# #
# $m4 _____include(_____xivPdf_10_2/.ISIN.H.11._____U) #
# $m4 _____include(_____xivPdf_10_2/.ISIN.1.12._____U) #
# #
# $Z set _____imagesR=$xiirk/ISIN.D1 #
# #
# $Z set NuMeRo=`$xci/nombres$X p=$_____Nderniere d=$_____Nderniere` #
# #
# $Z $xci/complement$X \ #
# $Z A=$_____images.$NuMeRo \ #
# $Z $formatI | \ #
# $Z $xci/contours.22$X \ #
# $Z niveau_aleatoire=VRAI \ #
# $Z R=$_____imagesR \ #
# $Z $formatI #
# #
# #
# set _____Palette=$xiP/vert_orange #
# $Z set _____Palette=$xiP/fractal.03 #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$_____imagesR \ #
# $Z p=$_____Palette \ #
# $Z R=$xTV/ISIN.D1.1 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/ISIN.D1.1%s \ #
# $Z points=25 \ #
# $Z R=$xTV/ISIN.D1.2%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/ISIN.D1.2 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z navap=VRAI \ #
# $Z R=$xTV/ISIN.D1.3 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z echelle=0.1 \ #
# $Z A=$xTV/ISIN.D1.3 \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z T=$xTV/ISIN.D1.2%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____imagesR$m%s \ #
# $Z $formatI #
# #
# :Fin_listG_ISIN_D1: #
# #
Pal ; $xci/display$X A=$xiirk/JVIE.12 p=$xiP/fractal.11 $formatI
# Images obtenues par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 6 2 / 027276_027787 #
# #
# avec : #
# #
# trx=0 try=0 #
# #
Pal ; $xci/display$X A=$xiirk/JVIE.22 p=$xiP/fractal.11 $formatI
# Images obtenues par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 6 2 / 027805_028316 #
# #
# avec : #
# #
# trx=0 try=0 #
# #
v $xiirk/JVIE.32
# Images obtenues par l'accumulation ('$xci/accumule.02$X') de la sequence : #
# #
# xivPdf 6 2 / 028573_029084 #
# #
# avec : #
# #
# trx=0 try=0 #
# #
v $xiirk/JVIE.41.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JVIE_41_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.41 #
# #
# $Z set _____images=$_____ImageT1 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# $m4 _____include(_____xiak/.JVIE.42.1._____U) #
# #
# $Z set _____Iterations=3 #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.41 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_41_2: #
# #
# #
# Cette image correspond a une configuration initiale a 10 cellules qui croit #
# indefiniment a condition d'etre sur un plan infini (et non pas "torique" comme ici). #
# Elle fut mise en evdence par John Von Neumann ('v $xiak/JVIE.42$R16'). #
v $xiirk/JVIE.42.2
# Generee (sur '$CMAP28' -ex "ternes"-) par : #
# #
# #
# :Debut_listG_JVIE_42_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.42 #
# #
# $Z set _____images=$_____ImageT1 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# $m4 _____include(_____xiak/.JVIE.42.1._____U) #
# #
# $Z set _____Iterations=3 #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.42 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_42_2: #
# #
# #
# Cette image correspond a une configuration initiale a 10 cellules qui croit #
# indefiniment a condition d'etre sur un plan infini (et non pas "torique" comme ici). #
# Elle fut mise en evdence par John Von Neumann ('v $xiak/JVIE.42$R16'). #
v $xiirk/JVIE.51.2
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JVIE_51_2: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.51 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.51 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_51_2: #
# #
v $xiirk/JVIE.52.2
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_JVIE_52_2: #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.52 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.52 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_52_2: #
# #
v $xiirk/JVIE.61.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JVIE_61_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.61 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_61_2: #
# #
v $xiirk/JVIE.62.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JVIE_62_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.62 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIE.62 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIE_62_2: #
# #
v $xiirk/JVIG.61.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JVIG_61_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z setenv _____ImageT1 $xTV/JVIG.61 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="001111000" #
# $Z set _____ListesVivantes="110000111" #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_61_2: #
# #
v $xiirk/JVIG.62.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JVIG_62_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z setenv _____ImageT1 $xTV/JVIG.62 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="001111000" #
# $Z set _____ListesVivantes="110000111" #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.62 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_62_2: #
# #
v $xiirk/JVIG.71.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JVIG_71_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=128 #
# $Z SET cDerniere=1 #
# #
# $Z setenv _____ImageT1 $xTV/JVIG.71 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/random.02$X \ #
# $Z seuil=0.02 \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000110000" #
# $Z set _____ListesVivantes="110001111" #
# $Z set _____Iterations=4 #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z $xci/init$X \ #
# $Z niveau=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.71 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_71_2: #
# #
v $xiirk/JVIG.72.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JVIG_72_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=128 #
# $Z SET cDerniere=1 #
# #
# $Z setenv _____ImageT1 $xTV/JVIG.72 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/random.02$X \ #
# $Z seuil=0.02 \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000110000" #
# $Z set _____ListesVivantes="110001111" #
# $Z set _____Iterations=4 #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $Z $xci/init$X \ #
# $Z niveau=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.72 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_72_2: #
# #
v $xiirk/JVIG.81.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JVIG_81_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.51 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000100000" #
# $Z set _____ListesVivantes="110011011" #
# $Z set _____Iterations=1 #
# $Z set _____PeriodiserX=FAUX #
# $Z set _____PeriodiserY=FAUX #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.81 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_81_2: #
# #
v $xiirk/JVIG.82.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JVIG_82_2: #
# #
# $Z setenv xTV $xTSG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=256 #
# #
# $Z setenv _____ImageT1 $xTV/JVIE.51 #
# #
# $Z set N0=`$xci/nombres$X A="$K_VIDE" premiere=$cDerniere derniere=$cDerniere` #
# #
# $Z $xci/croix.01$X \ #
# $Z A=$NOIR \ #
# $Z R=$_____ImageT1.$N0 \ #
# $Z $formatI #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000100000" #
# $Z set _____ListesVivantes="110001111" #
# $Z set _____Iterations=1 #
# $Z set _____PeriodiserX=FAUX #
# $Z set _____PeriodiserY=FAUX #
# $m4 _____include(_____xiirk/.JVIE.51.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JVIG.82 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JVIG_82_2: #
# #
v $xiirk/JWIE.11.23.2
# Generee (sur '$CMAP28' -ex "ternes"-) par : #
# #
# #
# :Debut_listG_JWIE_11_23_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIE.11.23 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.23 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.11.23 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_11_23_2: #
# #
v $xiirk/JWIE.11.24.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JWIE_11_24_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIE.11.24 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.24 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.11.24 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_11_24_2: #
# #
v $xiirk/JWIE.11.25.2
# Generee (sur '$CMAP28' -ex "porte-de-versailles"-) par : #
# #
# #
# :Debut_listG_JWIE_11_25_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIE.11.25 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.25 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=FAUX #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.11.24 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_11_25_2: #
# #
v $xiirk/JWIE.21.23.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIE_21_23_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.21.23 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.23 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.21.23 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_21_23_2: #
# #
v $xiirk/JWIE.21.24.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIE_21_24_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.21.24 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.24 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.21.24 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_21_24_2: #
# #
v $xiirk/JWIE.21.25.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIE_21_25_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.21.25 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.25 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.21.25 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_21_25_2: #
# #
v $xiirk/JWIE.31.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIE_31_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.31 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $m4 _____include(_____xiirk/.JWIE.31.1._____U) #
# #
# $Z set _____Ssolitude=5 #
# $Z set _____Snaissance_inferieur=7 #
# $Z set _____Snaissance_superieur=18 #
# $Z set _____Setouffement=22 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.31 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_31_2: #
# #
v $xiirk/JWIE.41.23.2
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_JWIE_41_23_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.41.23 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.23 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.41.23 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_41_23_2: #
# #
v $xiirk/JWIE.41.24.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIE_41_24_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.41.24 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.24 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.41.24 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_41_24_2: #
# #
v $xiirk/JWIE.41.25.2
# Generee (sur '$CMAP28' -ex "ternes"-) par : #
# #
# #
# :Debut_listG_JWIE_41_25_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Suq #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIE.41.25 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.25 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z Sdu #
# #
# $m4 _____include(_____xiirk/.JVIE.61.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIE.41.25 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIE_41_25_2: #
# #
v $xiirk/JWIG.21.020.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_020_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.020 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.020 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.020 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_020_2: #
# #
v $xiirk/JWIG.21.020.2.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_020_2_1: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xiirk/JWIG.21.020.2%s \ #
# $Z R=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z periodiser_X=VRAI periodiser_Y=VRAI \ #
# $Z R=$xTV/TAPISSERIE.2%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z execRVB $xci/un_sur_z.01$X \ #
# $Z A=$xTV/TAPISSERIE.2%s \ #
# $Z R=$xiirk/JWIG.21.020.2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_JWIG_21_020_2_1: #
# #
v $xiirk/JWIG.21.018.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_018_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.018 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.018 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.018 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_018_2: #
# #
v $xiirk/JWIG.21.018.2.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_018_2_1: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xiirk/JWIG.21.018.2%s \ #
# $Z R=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z periodiser_X=VRAI periodiser_Y=VRAI \ #
# $Z R=$xTV/TAPISSERIE.2%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z execRVB $xci/un_sur_z.01$X \ #
# $Z A=$xTV/TAPISSERIE.2%s \ #
# $Z R=$xiirk/JWIG.21.018.2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_JWIG_21_018_2_1: #
# #
v $xiirk/JWIG.21.016.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_016_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.016 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.016 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.016 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_016_2: #
# #
v $xiirk/JWIG.21.016.2.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_016_2_1: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z execRVB $xci/tapisserie$X \ #
# $Z A=$xiirk/JWIG.21.016.2%s \ #
# $Z R=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/TAPISSERIE.1%s \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z periodiser_X=VRAI periodiser_Y=VRAI \ #
# $Z R=$xTV/TAPISSERIE.2%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z execRVB $xci/un_sur_z.01$X \ #
# $Z A=$xTV/TAPISSERIE.2%s \ #
# $Z R=$xiirk/JWIG.21.016.2.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_JWIG_21_016_2_1: #
# #
v $xiirk/JWIG.21.014.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_014_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.014 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.014 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.014 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_014_2: #
# #
v $xiirk/JWIG.21.012.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_012_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.012 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.012 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.012 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_012_2: #
# #
v $xiirk/JWIG.21.010.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_21_010_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.21.010 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.010 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.21.010 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_21_010_2: #
# #
v $xiirk/JWIG.22.010.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_22_010_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.22.010 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.010 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.22.010 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_22_010_2: #
# #
v $xiirk/JWIG.22.012.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_22_012_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.22.012 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.012 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.22.012 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_22_012_2: #
# #
v $xiirk/JWIG.22.014.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_22_014_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.22.014 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.014 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.22.014 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_22_014_2: #
# #
v $xiirk/JWIG.22.016.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_22_016_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.22.016 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.016 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.22.016 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_22_016_2: #
# #
v $xiirk/JWIG.31.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_31_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.31 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z SET _____ParalleleCroix=VRAI #
# $m4 _____include(_____xiirk/.JWIE.31.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000000011111111111100000000" #
# $Z set _____ListesVivantes="111110000000000000000001111" #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.31 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_31_2: #
# #
v $xiirk/JWIG.32.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_JWIG_32_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sud #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z set _____ImageT1=$xTV/JWIG.32 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z SET _____Epaisseur=33 #
# $Z SET _____ParalleleCroix=VRAI #
# $m4 _____include(_____xiirk/.JWIE.31.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.32 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_32_2: #
# #
v $xiirk/JWIG.33.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_33_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Std #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.33 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z SET _____Epaisseur=33 #
# $Z SET _____ParalleleCroix=VRAI #
# $m4 _____include(_____xiirk/.JWIE.31.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000011001110010011100110000" #
# $Z set _____ListesVivantes="111111000001111100000011111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.33 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_33_2: #
# #
v $xiirk/JWIG.34.2
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_JWIG_34_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Std #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____ImageT1=$xTV/JWIG.34 #
# $Z setenv _____ImageTW $_____ImageT1.W #
# #
# $Z SET _____Epaisseur=33 #
# $Z SET _____ParalleleCroix=VRAI #
# $m4 _____include(_____xiirk/.JWIE.31.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001010000010100010000" #
# $Z set _____ListesVivantes="001100001000101000010000100" #
# $Z set _____NGenerations=100 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=+0.8 #
# $Z set _____RotationY=+0.2 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.34 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_34_2: #
# #
v $xiirk/JWIG.41.004.1
v $xiirk/JWIG.41.004.2
v $xiirk/JWIG.41.004.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JWIG_41_004_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.41.004 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.004 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.41.004 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_41_004_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 06:00:00 (approximativement) #
# #
# $xci/ombrage.11$X : 00:02:09 #
# #
# $xci/accumule.42$X : 00:06:55 #
# #
v $xiirk/JWIG.41.008.1
v $xiirk/JWIG.41.008.2
v $xiirk/JWIG.41.008.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JWIG_41_008_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.41.008 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.008 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.41.008 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_41_008_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 06:00:00 (approximativement) #
# #
# $xci/densite_3D.11$X : 00:21:34 #
# #
# $xci/ombrage.11$X : 00:25:56 #
# #
# $xci/accumule.42$X : 00:12:13 #
# #
v $xiirk/JWIG.41.012.1
v $xiirk/JWIG.41.012.2
v $xiirk/JWIG.41.012.21
# Generee (sur '$CMAP28' -ex "republique.polytechnique.fr"-) par : #
# #
# #
# :Debut_listG_JWIG_41_012_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.41.012 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.012 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.41.012 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_41_012_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 06:00:00 (approximativement) #
# #
# $xci/densite_3D.11$X : 00:17:37 #
# #
# $xci/ombrage.11$X : 00:36:2 #
# #
# $xci/accumule.42$X : 00:24:40 #
# #
v $xiirk/JWIG.41.016.1
v $xiirk/JWIG.41.016.2
v $xiirk/JWIG.41.016.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JWIG_41_016_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.41.016 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.016 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000010001110000011100010000" #
# $Z set _____ListesVivantes="111111100011111110000111111" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.41.016 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_41_016_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 06:00:00 (approximativement) #
# #
# $xci/densite_3D.11$X : 00:21:21 #
# #
# $xci/ombrage.11$X : 00:55:24 #
# #
# $xci/accumule.42$X : 01:01:44 #
# #
v $xiirk/JWIG.51.003.1
v $xiirk/JWIG.51.003.2
v $xiirk/JWIG.51.003.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JWIG_51_003_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.51.003 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.003 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000111111110000000000000000" #
# $Z set _____ListesVivantes="110000000001111111111111110" #
# $Z set _____NGenerations=40 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____Neutre=VRAI #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.51.003 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_51_003_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 06:26:00 #
# #
# $xci/ombrage.11$X : 00:40:10 #
# #
# $xci/accumule.42$X : 00:49:41 #
# #
v $xiirk/JWIG.52.003.1
v $xiirk/JWIG.52.003.2
v $xiirk/JWIG.52.003.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_JWIG_52_003_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.52.003 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.003 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000111111110000000000000000" #
# $Z set _____ListesVivantes="110000000001111111111111110" #
# $Z set _____NGenerations=30 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____Neutre=VRAI #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.52.003 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_52_003_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 05:00:09 #
# #
# $xci/ombrage.11$X : 00:33:38 #
# #
# $xci/accumule.42$X : 00:40:41 #
# #
v $xiirk/JWIG.53.003.1
v $xiirk/JWIG.53.003.2
v $xiirk/JWIG.53.003.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_JWIG_53_003_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.53.003 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.003 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000111111110000000000000000" #
# $Z set _____ListesVivantes="110000000001111111111111110" #
# $Z set _____NGenerations=20 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____Neutre=VRAI #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.53.003 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_53_003_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 02:41:40 #
# #
# $xci/ombrage.11$X : 00:19:45 #
# #
# $xci/accumule.42$X : 00:19:28 #
# #
v $xiirk/JWIG.54.003.1
v $xiirk/JWIG.54.003.2
v $xiirk/JWIG.54.003.21
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_JWIG_54_003_2: #
# #
# $Z setenv xTV $xTSG #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z set _____ImageT1=$xTV/JWIG.54.003 #
# $Z set _____ImageTW=$_____ImageT1.W #
# #
# $Z SET _____SeuilAleatoire=0.003 #
# $m4 _____include(_____xiirk/.JWIE.11.1._____U) #
# #
# $Z set _____Listes=VRAI #
# $Z set _____ListesMortes__="000111111110000000000000000" #
# $Z set _____ListesVivantes="110000000001111111111111110" #
# $Z set _____NGenerations=10 #
# $m4 _____include(_____xiirk/.JWIE.11.2._____U) #
# #
# $Z set execRVB_Para=VRAI #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $Z set _____Neutre=VRAI #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=0 #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/JWIG.54.003 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_JWIG_54_003_2: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/jeu_vie.12$X : 02:16:35 (approximativement) #
# #
# $xci/ombrage.11$X : 00:18:29 #
# #
# $xci/accumule.42$X : 00:10:58 #
# #
v $xiirk/LORE.12$DROITE
v $xiirk/LORE.12$GAUCHE
v $xiirk/LORE.12$STEREO
# Image en relief en vraies couleurs et sa version anaglyphique... #
v $xiirk/LORE.13
# Image obtenue par : #
# #
# Pal #
# $xrk/lorenz.11$X R=$xw1/LORE. np=1 iterations=10000 ordre=1 RVB=VRAI r=1.0 $formatI #
# #
# ATTENTION : on notera qu'autrefois '$xrk/lorenz.11$X' s'appelait '$xrk/lorenz.01$X'... #
v $xiirk/LORE.14
# Image obtenue par : #
# #
# Pal #
# $xrk/lorenz.11$X R=$xw1/LORE. np=1 iterations=10000 ordre=1 RVB=VRAI r=2.0 $formatI #
v $xiirk/LORE.15
# Image obtenue par : #
# #
# Pal #
# $xrk/lorenz.11$X R=$xw1/LORE. np=1 iterations=10000 ordre=1 RVB=VRAI r=3.0 $formatI #
v $xiirk/LORE.16
v $xiirk/LORE.17
# Images obtenues par (ATTENTION, sur '$LACT12' ce qui plus qu'important a cause des erreurs #
# d'arrondis ; j'ai fait le 1995101800 de malheureux essais sur '$LACT28' qui evidemment ne #
# redonnaient pas les memes images...) : #
# #
# Pal #
# $xci/valeurs_inte$X p=0 d=1 vD=5.6297340352329 vA=5.6297340352329 > $xT/param11 #
# . #
# /|\ #
# | #
# | #
# #
# ceci est du a 'iINTERPOLATION_...(...)' #
# #
# ATTENTION, pour obtenir la meme image, il convient de doubler l'angle indique ci-dessus, #
# et ce a cause d'un bug de '$xrq/nucleon.LX.2$I' (corrige le 1993061500) et qui avait pour #
# consequence d'appliquer deux fois chaque rotation (d'ou la necessite de doubler l'angle). #
# #
# $xrk/lorenz.11$X R=$xw1/LORE.1 np=1 \ #
# iterations=10000 ordre=1 \ #
# RVB=VRAI r=1.5 \ #
# ROTATION_OX=$xT/param11 \ #
# arbitraire=... \ #
# $formatI #
# #
# avec : #
# #
# arbitraire=VRAI : $xiirk/LORE.16 #
# arbitraire=FAUX : $xiirk/LORE.17 #
# #
# On notera qu'il y a eu ici pendant longtemps 5.1810669842963 au lieu de 5.6297340352329 #
# de meme que 'r=1.0' au lieu de 'r=1.5', le tout pour une raison mysterieuse. ATTENTION, le #
# 1994012400, j'ai refait l'image '$xiirk/LORE.17' parce qu'elle avait un defaut identique #
# a celui de l'image '$xiirs/MINI.11', et chose tres bizarre, il a fallu revenir a un angle #
# de rotation de 5.1810669842963, d'ou : #
# #
# $xrk/lorenz.11$X R=$xw1/LORE.1 np=1 \ #
# iterations=10000 ordre=1 \ #
# RVB=VRAI r=1.0 \ #
# ROTATION_OX=5.1810669842963 \ #
# arbitraire=... \ #
# $formatI #
# #
v $xiirk/LORE.17$Fi
# Image obtenue par : #
# #
# Pal #
# $xci/flou.12$Z $xiirk/LORE.17.? $xiirk/LORE.17$Fi.? 0.3 #
# #
# ATTENTION, l'image '$xiirk/LORE.17' qui a ete utilisee pour calculer '$xiirk/LORE.17$Fi' #
# n'est pas exactement celle qui est actuellement memorisee (voir le commentaire ci-dessus). #
Std ; $xci/display$X A=$xiirk/LORE.21 p=$xiP/universel.11 $formatI
# Image obtenue en fausses couleurs associee a une image voisine de '$xiirk/LORE.15'... #
Pal ; $xci/display$X A=$xiirk/LORE.41 p=$xiP/dentscie.01 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/LORE.41 p=$xiP/fractal.91 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/LORE.41 p=$xiP/rouge_jaune d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
# Luminance (par '$xci/luminance.01$X') renormalisee (par $xci/acces$X') de '$xiirk/LORE.41'. #
v $xiirk/LORE.51.4200
v $xiirk/LORE.51.4800
v $xiirk/LORE.51.4980
v $xiirk/LORE.51.5060
# Quatre images pertinentes (0002, 0032, 0041, 0045) extraites de la sequence : #
# #
# xivPdf 2 1 / 008872_008935 #
# #
# sans fantome... #
v $xiirk/LORE.51.1.4200 p=$xiP/gris.01
v $xiirk/LORE.51.1.4800 p=$xiP/gris.01
v $xiirk/LORE.51.1.4980 p=$xiP/gris.01
v $xiirk/LORE.51.1.5060 p=$xiP/gris.01
# Quatre images pertinentes calculees en Noir et Blanc a partir des quatre triplets #
# d'images '$xiirk/LORE.51.????.[RVB]' de la facon suivante : #
# #
# alias sub1 '$xci/substitue$X A=$xiirk/LORE.51.\!:1.\!:2 \\ #
# p=palettes/gris.01 substitution=L_SUBSTITUTION_\!:3 NOIR=FAUX \\ #
# R=$xiim/LORE.51.\!:1.\!:2 $formatI' #
# alias sub2 '$xci/somme_03$X A1=$xiim/LORE.51.\!:1$ROUGE \\ #
# A2=$xiim/LORE.51.\!:1$VERTE \\ #
# A3=$xiim/LORE.51.\!:1$BLEUE \\ #
# R=$xiirk/LORE.51.1.\!:1 $formatI' #
# #
# sub1 4200 R 32 #
# sub1 4200 V 35 #
# sub1 4200 B 3G #
# sub2 4200 #
# #
# sub1 4800 R 32 #
# sub1 4800 V 35 #
# sub1 4800 B 3G #
# sub2 4800 #
# #
# sub1 4980 R 32 #
# sub1 4980 V 35 #
# sub1 4980 B 3G #
# sub2 4980 #
# #
# sub1 5060 R 32 #
# sub1 5060 V 35 #
# sub1 5060 B 3G #
# sub2 5060 #
# #
v $xiirk/LORE.51.2.4200 p=$xiP/gris.01
v $xiirk/LORE.51.2.4800 p=$xiP/gris.01
v $xiirk/LORE.51.2.4980 p=$xiP/gris.01
v $xiirk/LORE.51.2.5060 p=$xiP/gris.01
# Quatre images pertinentes calculees en Noir et Blanc a partir des quatre triplets #
# d'images '$xiirk/LORE.51.????.[RVB]' de la facon suivante : #
# #
# alias sub1 '$xci/substitue$X A=$xiirk/LORE.51.\!:1.\!:2 \\ #
# p=palettes/gris.01 substitution=L_SUBSTITUTION_\!:3 NOIR=FAUX \\ #
# R=$xiim/LORE.51.\!:1.\!:2 $formatI' #
# alias sub2 '$xci/somme_03$X A1=$xiim/LORE.51.\!:1$ROUGE \\ #
# A2=$xiim/LORE.51.\!:1$VERTE \\ #
# A3=$xiim/LORE.51.\!:1$BLEUE \\ #
# R=$xiirk/LORE.51.2.\!:1 $formatI' #
# #
# sub1 4200 R 33 #
# sub1 4200 V 38 #
# sub1 4200 B 3G #
# sub2 4200 #
# #
# sub1 4800 R 33 #
# sub1 4800 V 38 #
# sub1 4800 B 3G #
# sub2 4800 #
# #
# sub1 4980 R 33 #
# sub1 4980 V 38 #
# sub1 4980 B 3G #
# sub2 4980 #
# #
# sub1 5060 R 33 #
# sub1 5060 V 38 #
# sub1 5060 B 3G #
# sub2 5060 #
# #
v $xiirk/LORE.62.4200
v $xiirk/LORE.62.4800
v $xiirk/LORE.62.4980
v $xiirk/LORE.62.5060
# Quatre images pertinentes (0006, 0036, 0045, 0049) extraites de la sequence : #
# #
# xivPdf 2 1 / 008264_008343 #
# #
# avec fantome... #
v $xiirk/LO.64.4200$DROITE
v $xiirk/LO.64.4800$DROITE
v $xiirk/LO.64.4980$DROITE
v $xiirk/LO.64.5060$DROITE
# Quatre images pertinentes (0002, 0032, 0041, 0045) extraites de la sequence : #
# #
# xivPdf 2 1 / 010488_010551 #
# #
# sans fantome... #
v $xiirk/LO.64.4200$GAUCHE
v $xiirk/LO.64.4800$GAUCHE
v $xiirk/LO.64.4980$GAUCHE
v $xiirk/LO.64.5060$GAUCHE
# Quatre images pertinentes (0002, 0032, 0041, 0045) extraites de la sequence : #
# #
# xivPdf 2 1 / 010552_010615 #
# #
# sans fantome... #
v $xiirk/LORE.71.0
v $xiirk/LORE.71.1
# Images obtenues par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 2 1 / 017052_017083 #
# #
# avec : #
# #
# attenuation=0.0 : $xiirk/LORE.71.0 #
# attenuation=1.0 : $xiirk/LORE.71.1 #
# #
v $xiirk/LORE.71$m
v $xiirk/LORE.72$m
# Images obtenues par la mise en montagne individuelle des trois composantes de l'image #
# '$xiirk/LORE.71' suivant : #
# #
# $xci/substitue$X A=$xiirk/LORE.71.? substitution=L_SUBSTITUTION_02 $formatI | #
# $xci/montagne.01$X A=$xiirk/LORE.71.? R=$xiirk/LORE.71$m.? avion=VRAI $formatI #
# #
# puis, avec une transformation conforme : #
# #
# $xci/z_carre.01$X A=$xiirk/LORE.71$m.? R=$xiirk/LORE.72$m.? $formatI #
# #
v $xiirk/LORE.73$m
v $xiirk/LORE.73$M
# Images obtenues par la mise en montagne coherente de l'image '$xiirk/LORE.71' grace au #
# calcul preliminaire de sa luminance : #
# #
# $xci/luminance.01$X AR=$xiirk/LORE.71$ROUGE \ #
# AV=$xiirk/LORE.71$VERTE \ #
# AB=$xiirk/LORE.71$BLEUE \ #
# R=$xT/LUMINANCE $formatI #
# #
# puis : #
# #
# $xci/substitue$X A=$xiirk/LORE.71.? substitution=L_SUBSTITUTION_02 $formatI | #
# $xci/montagne.01$X A=$xT/LUMINANCE R=$xiirk/LORE.73$m.? avion=VRAI $formatI #
# #
# Enfin, l'image '$M' est faite de la meme facon... #
v $xiirk/LORE.91
# Image obtenue avec les memes parametres que les sequences : #
# #
# xivPdf 7 1 / 013148_013275 #
# xivPdf 7 1 / 013276_013403 #
# #
# mais avec : #
# #
# iterations=20000 #
# stereo=0 #
# RVB=VRAI #
# #
# sur '$LACT12' (alors que les sequences ont ete generees sur '$LACT27'). #
v $xiirk/LORE.D1.0
v $xiirk/LORE.D1.1
# Images obtenues par accumulation de la sequence : #
# #
# xivPdf 7 1 / 034637_034764 #
# #
# par '$xci/accumule.01$X' avec une "attenuation=" de '0' et de '1' respectivement puis #
# ATTENTION, la composante '$xiirk/LORE.D1.1$BLEUE' a subie une mise a l'echelle grace a #
# '$xci/scale$X' avec un facteur "a=" de '0.74'. #
v $xiirk/LORE.D2.0
v $xiirk/LORE.D2.1
# Images obtenues par '$xci/substitue$Z' avec la palette '$xiP/gris.11' a partir des #
# images '$xiirk/LORE.D1.?'. #
v $xiirk/LORE.E1.0100$m p=$xiP/montagnes.01
v $xiirk/LORE.E1.0180$m p=$xiP/montagnes.01
v $xiirk/LORE.E1.0256$m p=$xiP/montagnes.01
# Correspond aux images '0100', '0180' et '0256' de la sequence d'images suivante : #
# #
# xivPdf 11 1 / 008449_008704 #
# #
v $xiirk/LORE.E1.0100$M p=$xiP/montagnes.01
v $xiirk/LORE.E1.0180$M p=$xiP/montagnes.01
v $xiirk/LORE.E1.0256$M p=$xiP/montagnes.01
# Correspond aux images '0100', '0180' et '0256' de la sequence d'images suivante : #
# #
# xivPdf 11 1 / 009729_009984 #
# #
v $xiirk/LORE.E2.0100 p=$xiP/fractal.11
v $xiirk/LORE.E2.0100 p=$xiP/orange.11
v $xiirk/LORE.E2.0100 p=$xiP/random.03
v $xiirk/LORE.E2.0100 p=$xiP/random.06
v $xiirk/LORE.E2.0180 p=$xiP/fractal.11
v $xiirk/LORE.E2.0180 p=$xiP/orange.11
v $xiirk/LORE.E2.0180 p=$xiP/random.03
v $xiirk/LORE.E2.0180 p=$xiP/random.06
v $xiirk/LORE.E2.0256 p=$xiP/fractal.11
v $xiirk/LORE.E2.0256 p=$xiP/orange.11
v $xiirk/LORE.E2.0256 p=$xiP/random.03
v $xiirk/LORE.E2.0256 p=$xiP/random.06
# Correspond aux images '0100', '0180' et '0256' des sequences d'images suivantes : #
# #
# xivPdf 11 1 / 008705_008960 #
# xivPdf 11 1 / 008961_009216 #
# xivPdf 11 1 / 009217_009472 #
# xivPdf 11 1 / 009473_009728 #
# #
v $xiirk/LORE.F1.0 p=$xiP/fractal.11
v $xiirk/LORE.F1.0 p=$xiP/fractal.91 d=4 animation=VRAI increment=2
v $xiirk/LORE.F1.0$m p=$xiP/montagnes.01
# Correspond a l'accumulation par '$xci/accumule.01$X' avec 'attenuation=0' de la sequence : #
# #
# xivPdf 11 1 / 013697_013952 #
# #
# puis sa mise en montagne... #
v $xiirk/LORE.F1.1 p=$xiP/fractal.11
v $xiirk/LORE.F1.1 p=$xiP/fractal.91 d=4 animation=VRAI increment=2
v $xiirk/LORE.F1.1$m p=$xiP/montagnes.01
# Correspond a l'accumulation par '$xci/accumule.01$X' avec 'attenuation=1' de la sequence : #
# #
# xivPdf 11 1 / 013697_013952 #
# #
# puis sa mise en montagne... #
v $xiirk/LORE.G1.1
v $xiirk/LORE.G1.2
v $xiirk/LORE.G1.4
# Images obtenues par : #
# #
# $xrk/lorenz.11$X R=$xiirk/LORE.G1.? \ #
# np=1 \ #
# iterations=10000 \ #
# ordre=? \ #
# $formatI #
# #
v $xiirk/LORE.H1
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_LORE_H1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/init$X \\\ #
# $Z niveau=$BLANC \\\ #
# $Z R=$xTV/FOND%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z iterations=10000 \ #
# $Z r=1.25 \ #
# $Z RVB=FAUX \ #
# $Z facteur_ROUGE=1 \ #
# $Z facteur_VERTE=0 \ #
# $Z facteur_BLEUE=0 \ #
# $Z fond=VRAI \ #
# $Z F=$xTV/FOND \ #
# $Z R=$xTV/LORENZ. \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($CP $xTV/LORENZ.0001%s \\\ #
# $Z $xiirk/LORE.H1%s)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_LORE_H1: #
# #
v $xiirk/LORE.I2
# Images obtenues par l'accumulation ('$xci/accumule.01$X') de la sequence : #
# #
# xivPdf 9 2 / 033311_033438 #
# #
# avec : #
# #
# attenuation=0 #
# #
# puis avec une complementation ('$xci/complement$X'). #
v $xiirk/LORE.J1
v $xiirk/LORE.J1.1 p=$xiP/gris.01
v $xiirk/LORE.J1.1 p=$xiP/masque
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_LORE_J1: #
# #
# $Z Pal #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z iterations=20000 \ #
# $Z methode=1 \ #
# $Z Vrayon=0.4 \ #
# $Z R=$xiirk/LORE.J1 \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# $Z $xci/detourage.31$Z $xiirk/LORE.J1 $xiirk/LORE.J1.1 30 #
# #
# :Fin_listG_LORE_J1: #
# #
# #
# qui montre une image assez similaire a 'v $xiirk/LORE.41' (pour laquelle je n'ai plus #
# exactement les parametres de calcul bien qu'il semble qu'elle ait ete calculee avec #
# 20000 iterations : 'v $Dhistory/LACT12.D/19920717144353 LORE.41' ; on notera au passage #
# que les differences entre les deux versions doivent venir de la sensibilite aux erreurs #
# d'arrondi, la methode d'integration etant la meme -1- puisque les deux autres -2 et 4- #
# donnent quelque chose de tres different), ainsi que sa version "graphique"... #
v $xiirk/LORE.J1.82.11 p=$xiP/fractal.31
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_LORE_J1_82_11: #
# #
# $Z Std #
# #
# $Z $xci/seuil$X \ #
# $Z A=$xiio/ETOILE.11 \ #
# $Z seuil=$GRIS_4 \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z mode=7 \ #
# $Z $formatI \ #
# $Z R=$xTV/ETOILE \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z execRVB $xci/interpole.03$X \ #
# $Z A1=$xiirs/PROJ.82.11.2%s \ #
# $Z A2=$xiirk/LORE.J1%s \ #
# $Z P=$xTV/ETOILE \ #
# $Z R=$xTV/INTERPOLE%s \ #
# $Z $formatI #
# $Z execRVB $xci/complement$X \ #
# $Z A=$xTV/INTERPOLE%s \ #
# $Z R=$xTV/INTERPOLE%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/INTERPOLE \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiirk/LORE.J1.82.11 \ #
# $Z $formatI #
# #
# :Fin_listG_LORE_J1_82_11: #
# #
# #
# ATTENTION : on notera qu'il est impossible de regrouper les deux 'execRVB's en un seul #
# en utilisant un "pipe" a cause de 'v $xci/interpole.03$K ExecSdu'... #
v $xiirk/LORE.K1
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_LORE_K1: #
# #
# $Z Pal #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z iterations=41000 \ #
# $Z methode=1 \ #
# $Z integration_adaptative=VRAI \ #
# $Z seuil_integration_adaptative=0.10 \ #
# $Z Vrayon=0.25 \ #
# $Z extrema_differentielles_veritables=VRAI \ #
# $Z N_AU_CARRE=VRAI \ #
# $Z Lz=1000 \ #
# $Z R=$xiirk/LORE.K1 \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# :Fin_listG_LORE_K1: #
# #
# #
# On notera le nombre d'iterations "pas tres rond" (=41000) afin de ne pas rendre visible #
# le point materialisant la derniere iteration (qui pour 40000, par exemple, est tres #
# apparent...). #
v $xiirk/LORE.L1
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_LORE_L1: #
# #
# $Z Pal #
# #
# $Z set PaRaM="$K_VIDE" #
# $Z set PaRaM="$PaRaM"" iterations=41000" #
# $Z set PaRaM="$PaRaM"" integration_adaptative=VRAI" #
# $Z set PaRaM="$PaRaM"" seuil_integration_adaptative=0.10" #
# $Z set PaRaM="$PaRaM"" Vrayon=0.25" #
# $Z set PaRaM="$PaRaM"" extrema_differentielles_veritables=VRAI" #
# $Z set PaRaM="$PaRaM"" N_AU_CARRE=VRAI" #
# $Z set PaRaM="$PaRaM"" Lz=1000" #
# $Z set PaRaM="$PaRaM"" chiffres=0" #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z $PaRaM \ #
# $Z methode=1 \ #
# $Z R=$xTV/LORE.L1.1 \ #
# $Z $formatI #
# $Z $xrk/lorenz.11$X \ #
# $Z $PaRaM \ #
# $Z methode=2 \ #
# $Z R=$xTV/LORE.L1.2 \ #
# $Z $formatI #
# $Z $xrk/lorenz.11$X \ #
# $Z $PaRaM \ #
# $Z methode=4 \ #
# $Z R=$xTV/LORE.L1.4 \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/LORE.L1.1 \ #
# $Z R=$xiirk/LORE.L1$ROUGE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/LORE.L1.2 \ #
# $Z R=$xiirk/LORE.L1$VERTE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/LORE.L1.4 \ #
# $Z R=$xiirk/LORE.L1$BLEUE \ #
# $Z $formatI #
# #
# :Fin_listG_LORE_L1: #
# #
# #
# Cette image montre la superposition des trois methodes d'integration numerique disponibles. #
# #
# On notera le nombre d'iterations "pas tres rond" (=41000) afin de ne pas rendre visible #
# le point materialisant la derniere iteration (qui pour 40000, par exemple, est tres #
# apparent...). #
v $xiirk/LORE.M1
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_LORE_M1: #
# #
# $Z Pal #
# #
# $Z FileTmpB CoNd_InIt #
# $Z FileTmpB ImAgE_TmP #
# #
# $Z $xrs/sphere.11$X \ #
# $Z PARAMETRE_R=10 \ #
# $Z mu=0.1 Mu=3 \ #
# $Z pu=0.7 pv=0.7 \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=FAUX \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z R=$ImAgE_TmP \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >& $CoNd_InIt #
# #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* X=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_X #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* Y=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_Y #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* Z=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_Z #
# #
# $Z $xrk/lorenz.11$Z $CoNd_InIt \ #
# $Z $xiirk/LORE.M1 \ #
# $Z "iterations=1000" #
# #
# $Z FileTmpE ImAgE_TmP #
# $Z FileTmpE CoNd_InIt #
# #
# :Fin_listG_LORE_M1: #
# #
# #
# Cette image montre la superposition de 45 conditions initiales differentes reparties sur #
# une sphere, les couleurs visualisant comme d'habitude {dx,dy,dz}. #
v $xiirk/LORE.M2
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_LORE_M2: #
# #
# $Z Pal #
# #
# $Z FileTmpB CoNd_InIt #
# $Z FileTmpB ImAgE_TmP #
# #
# $Z $xrs/sphere.11$X \ #
# $Z PARAMETRE_R=10 \ #
# $Z mu=0.1 Mu=3 \ #
# $Z pu=0.7 pv=0.7 \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=FAUX \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z R=$ImAgE_TmP \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >& $CoNd_InIt #
# #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* X=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_X #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* Y=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_Y #
# $Z $CA $CoNd_InIt | \ #
# $Z $SE -e 's/^.* Z=\([^ ]*\) .*$/\1/' \ #
# $Z > $CoNd_InIt$COORD_Z #
# #
# $Z $xrk/lorenz.11$Z $CoNd_InIt \ #
# $Z $xiirk/LORE.M2 \ #
# $Z "iterations=1000" \ #
# $Z "$K_VIDE" \ #
# $Z $EXIST #
# #
# $Z FileTmpE ImAgE_TmP #
# $Z FileTmpE CoNd_InIt #
# #
# :Fin_listG_LORE_M2: #
# #
# #
# Cette image montre la superposition de 45 conditions initiales differentes reparties sur #
# une sphere, les couleurs etant aleatoires et "marquant" les differentes conditions #
# initiales... #
v $xiirk/LORE.N3
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_LORE_N3: #
# #
# $Z Pal #
# #
# $Z execRVB $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$xTV/FOND%s \ #
# $Z $formatI #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z np=1 \ #
# $Z iterations=10000 \ #
# $Z ordre=1 \ #
# $Z r=1.0 \ #
# $Z RVB=VRAI \ #
# $Z fond=VRAI \ #
# $Z F=$xTV/FOND \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z R=$xiirk/LORE.N3 \ #
# $Z chiffres=0 \ #
# $Z $formatI #
# #
# :Fin_listG_LORE_N3: #
# #
v $xiirk/LORE.O1
v $xiirk/LORE.O1.1
v $xiirk/LORE.O1.2
v $xiirk/LORE.O1.2.1
# Generee (sur '$CMAP28' -ex "maubert"-) par : #
# #
# #
# :Debut_listG_LORE_O1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z set _____ImageT1=$xTV/LORE.O1 #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $Z set PaRaMs="$K_VIDE" #
# $Z set PaRaMs="$PaRaMs"" NOMBRE_D_ITERATIONS=1000" #
# #
# $Z $xrs/SurfDensi.01$Z $xrk/lorenz.11$X \ #
# $Z $_____ImageTd. \ #
# $Z $cPremiere \ #
# $Z $cDerniere \ #
# $Z 2500 \ #
# $Z 1 \ #
# $Z "$PaRaMs" #
# #
# $Z set _____Fseuil=$NOIR #
# $Z set _____SourceZ=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiirk/LORE.O1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_LORE_O1: #
# #
# #
# Il s'agit d'un attracteur de Lorenz visualise a l'aide d'une densite... #
v $xiirk/LORE.P1$STEREO
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_LORE_P1: #
# #
# $Z Pal #
# #
# $Z set PaRaMs="$K_VIDE" #
# $Z set PaRaMs="$PaRaMs"" iterations=41000" #
# $Z set PaRaMs="$PaRaMs"" methode=1" #
# $Z set PaRaMs="$PaRaMs"" integration_adaptative=VRAI" #
# $Z set PaRaMs="$PaRaMs"" seuil_integration_adaptative=0.10" #
# $Z set PaRaMs="$PaRaMs"" Vrayon=0.25" #
# $Z set PaRaMs="$PaRaMs"" extrema_differentielles_veritables=VRAI" #
# $Z set PaRaMs="$PaRaMs"" ROTATION_OX=0" #
# $Z set PaRaMs="$PaRaMs"" N_AU_CARRE=VRAI" #
# $Z set PaRaMs="$PaRaMs"" Lz=1000" #
# $Z set PaRaMs="$PaRaMs"" chiffres=0" #
# #
# $Z set AnGlE=0.02 #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z $PaRaMs \ #
# $Z stereo=-$AnGlE \ #
# $Z R=$xTV/LORE.P1$GAUCHE \ #
# $Z $formatI #
# #
# $Z $xrk/lorenz.11$X \ #
# $Z $PaRaMs \ #
# $Z stereo=+$AnGlE \ #
# $Z R=$xTV/LORE.P1$DROITE \ #
# $Z $formatI #
# #
# $Z $xci/anaglyphe.31$Z $xTV/LORE.P1$GAUCHE $xTV/LORE.P1$DROITE \ #
# $Z $xiirk/LORE.P1$STEREO #
# #
# $Z $xci/acces_RVB.11$Z $xiirk/LORE.P1$STEREO \ #
# $Z $xiirk/LORE.P1$STEREO #
# #
# :Fin_listG_LORE_P1: #
# #
# #
# Version anaglyphique de 'v $xiirk/LORE.K1'... #
v $xiirk/LYAP.12$m
v $xiirk/LYAP.13 p=$xiP/orange.11 d=4 animation=VRAI increment=8
v $xiirk/LYAP.13$m
v $xiirk/LYAP.14.1000 p=$xiP/orange.11 d=4 animation=VRAI increment=8
# Images obtenues par : #
# #
# Sdu #
# $xrk/lyapunov.01$X R=$xiirk/LYAP.1* n=1 iterations=1000 suite="222222111111" \ #
# xbgD=3.000 ybgD=3.500 xhdD=3.350 yhdD=3.850 \ #
# xbgA=3.235 ybgA=3.675 xhdA=3.235 yhdA=3.675 \ #
# $formatI #
# #
v $xiirk/LYAP.14.30000 p=$xiP/orange.11 d=4 animation=VRAI increment=8
# Image obtenue par : #
# #
# Sdu #
# $xrk/lyapunov.01$X R=$xiirk/LYAP.1* n=1 iterations=30000 suite="222222111111" \ #
# xbgD=3.000 ybgD=3.500 xhdD=3.350 yhdD=3.850 \ #
# xbgA=3.235 ybgA=3.675 xhdA=3.235 yhdA=3.675 \ #
# $formatI #
# #
v $xiirk/LYAP.14$M p=$xiP/montagnes.01
v $xiirk/LYAP.14$m p=$xiP/montagnes.01
# Image obtenue par : #
# #
# Sdu #
# $xci/init$X n=$BLANC \ #
# $formatI | #
# $xci/montagne.01$X A=$xiirk/LYAP.14.30000 Ty=0.8 avion=... \ #
# R=... \ #
# $formatI #
# #
# puis anti-aliasing par '$xci/reduction_04$X' et '$xcg/extract$X' pour arriver a 'Std'... #
v $xiirk/LYAP.15.0064 p=$xiP/orange.11 d=4 animation=VRAI increment=8
v $xiirk/LYAP.15.0072 p=$xiP/orange.11 d=4 animation=VRAI increment=8
# 64eme et 72eme images (a epsilon pres) de la sequence '$xiak/LYAP.15.8$R16'. #
v $xiirk/LYAP.116.10000 p=$xiP/orange.11 d=4 animation=VRAI increment=8
# Image obtenue par : #
# #
# Pal #
# $xrk/lyapunov.01$X R=$xiirk/LYAP.1* n=1 iterations=10000 suite="222222111111" \ #
# xbgD=3.000 ybgD=3.500 xhdD=3.350 yhdD=3.850 \ #
# xbgA=3.235 ybgA=3.675 xhdA=3.235 yhdA=3.675 \ #
# $formatI #
# #
# On notera le "rebaptisage" de '$xiirk/LYAP.16.10000' en '$xiirk/LYAP.116.10000' a cause #
# de l'alias 'restitP' dans '$xiMo/creation$Z'... #
v $xiirk/LYAP.17 p=$xiP/orange.11
# Image obtenue par : #
# #
# Std #
# $xrk/lyapunov.01$X R=$xiirk/LYAP.1* n=1 iterations=100000 suite="222222111111" \ #
# xbgD=3.000 ybgD=3.500 xhdD=3.350 yhdD=3.850 \ #
# xbgA=3.235 ybgA=3.675 xhdA=3.235 yhdA=3.675 \ #
# $formatI #
# #
v $xiirk/LYAP.17.1 p=$xiP/orange.11
# Image obtenue par : #
# #
# Std #
# $xci/tapisserie$X A=$xiirk/LYAP.17 $formatI | #
# $xci/un_sur_z.01$X R=$xiirk/LYAP.17.1 $formatI #
# #
v $xiirk/LYAP.17.1$Fi p=$xiP/cercle.11
# Image obtenue par : #
# #
# Std #
# $xci/filtre.01$X A=$xiirk/LYAP.17.1 N=$xiio/GAUSS.8110 \ #
# R=$xiirk/LYAP.17.1$Fi \ #
# $formatI #
# #
v $xiirk/LYAP.21
v $xiirk/LYAP.22
v $xiirk/LYAP.23
# Integrations diverses... #
v $xiirk/LYAP.31.10000 p=$xiP/orange.11
v $xiirk/LYAP.32.10000 p=$xiP/arc_ciel.01
v $xiirk/LYAP.33.10000
# Generee (sur '$LACT28' pour 'LYAP.31' et sur '$LACT27' pour 'LYAP.32') par : #
# #
# #
# :Debut_listG_LYAP_33_10000: #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z Pal #
# #
# $Z set ItErAtIoNs=10000 #
# $Z set SuItE="222222111111" #
# $Z set DePaRt="xbgD=3.000 ybgD=3.500 xhdD=3.350 yhdD=3.850" #
# $Z set ArRiVeE="xbgA=3.235 ybgA=3.675 xhdA=3.235 yhdA=3.675" #
# #
# $Z $xrk/lyapunov.01$X \ #
# $Z n=1 iterations=$ItErAtIoNs \ #
# $Z suite="$SuItE" \ #
# $Z $DePaRt \ #
# $Z $ArRiVeE \ #
# $Z negatifs=VRAI positifs=FAUX \ #
# $Z R=$xiirk/LYAP.31.$ItErAtIoNs \ #
# $Z NombreMaximalChiffresNumeros=0 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/LYAP.31.$ItErAtIoNs \ #
# $Z p=$xiP/orange.11 \ #
# $Z R=$xTV/LYAP.31.$ItErAtIoNs \ #
# $Z $formatI #
# #
# $Z $xrk/lyapunov.01$X \ #
# $Z n=1 iterations=$ItErAtIoNs \ #
# $Z suite="$SuItE" \ #
# $Z $DePaRt \ #
# $Z $ArRiVeE \ #
# $Z negatifs=FAUX positifs=VRAI \ #
# $Z R=$xiirk/LYAP.32.$ItErAtIoNs \ #
# $Z NombreMaximalChiffresNumeros=0 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/LYAP.32.$ItErAtIoNs \ #
# $Z p=$xiP/arc_ciel.01 \ #
# $Z R=$xTV/LYAP.32.$ItErAtIoNs \ #
# $Z $formatI #
# #
# $Z execRVB $xci/or_02$X \ #
# $Z A1=$xTV/LYAP.31.$ItErAtIoNs%s \ #
# $Z A2=$xTV/LYAP.32.$ItErAtIoNs%s \ #
# $Z R=$xiirk/LYAP.33.$ItErAtIoNs%s \ #
# $Z $formatI #
# #
# :Fin_listG_LYAP_33_10000: #
# #
# #
# On notera au passage que la "fenetre" de calcul n'est pas : #
# #
# {3.000,3.350}x{3.500,3.850} #
# #
# mais : #
# #
# {2.763,3.587}x{3.500,3.850} #
# #
# puisque l'on est en mode 'Pal'... #
v $xiirk/LYAP.33$m
# Image obtenue par : #
# #
# Pal #
# #
# $xci/substitue$X A=$xiirk/LYAP.31.10000 \ #
# substitution=L_SUBSTITUTION_ROUGE \ #
# p=$xiP/gris.13 \ #
# R=$xT/LYAP.11 \ #
# $formatI #
# $xci/substitue$X A=$xiirk/LYAP.32.10000 \ #
# substitution=L_SUBSTITUTION_01 \ #
# R=$xT/LYAP.12 \ #
# $formatI #
# #
# $xci/maximum$X A1=$xT/LYAP.11 \ #
# A2$xT/LYAP.12 \ #
# R=$xT/LYAP.21 \ #
# $formatI #
# #
# $xci/montagne.01$X A=$xT/LYAP.21 \ #
# T=$xiirk/LYAP.33.10000.? \ #
# avion=VRAI \ #
# sy=40 \ #
# R=$xiirk/LYAP.33$m.? \ #
# $formatI #
# #
v $xiirk/LYAP.51$m
# Ceci est est obtenu a partir de la sequence : #
# #
# xivPdf 9 2 / 003612_003739 #
# #
# par la procedure suivante sur '$LACT29' : #
# #
# $Z Pal #
# #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/LYAP.1. \ #
# $Z premiere=1 derniere=128 \ #
# $Z attenuation=1 inverser=VRAI \ #
# $Z R=$xTV/ACCUMULE \ #
# $Z $formatI #
# #
# $Z $xci/acces$X \ #
# $Z A=$xTV/ACCUMULE \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=64 \ #
# $Z R=$xTV/SURFACE \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/ACCUMULE \ #
# $Z p=$xiP/roug2_jaun2 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/substitue$X \\\ #
# $Z A=$xTV/TEXTURE%s \\\ #
# $Z substitution=L_SUBSTITUTION_02 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/montagne.01$X \\\ #
# $Z A=$xTV/SURFACE \\\ #
# $Z standard=FAUX zero=FAUX \\\ #
# $Z avion=VRAI sY=40 \\\ #
# $Z R=$xiirk/LYAP.51$m%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiirk/NCOR.62.0512
v $xiirk/NCOR.63.0512
# Images '0512' des sequences : #
# #
# xivPdf 7 1 / 028538_029049 #
# xivPdf 7 1 / 029050_029561 #
# #
v $xiirk/NCOR.92.0512
# Image '0512' de la sequence : #
# #
# xivPdf 7 1 / 033357_033868 #
# #
v $xiirk/NCOR.94.0340
v $xiirk/NCOR.94.0512
# Images '0340' et '0512' de la sequence : #
# #
# xivPdf 7 1 / 034765_035276 #
# #
v $xiirk/NCOR.B1.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 006268_006779 #
# #
v $xiirk/NCOR.B2.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 007548_008059 #
# #
v $xiirk/NCOR.C1.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 012241_012752 #
# #
v $xiirk/NCOR.C3.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 016047_016558 #
# #
v $xiirk/NCOR.D1.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 012753_013264 #
# #
v $xiirk/NCOR.D3.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 016559_017070 #
# #
v $xiirk/NCOR.D4.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 015535_016046 #
# #
v $xiirk/NCOR.I1.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 017171_017682 #
# #
v $xiirk/NCOR.I2.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 017683_018194 #
# #
v $xiirk/NCOR.L1.0002
v $xiirk/NCOR.L1.0089
v $xiirk/NCOR.L1.0242
v $xiirk/NCOR.L1.0378
v $xiirk/NCOR.L1.0439
v $xiirk/NCOR.L1.0491
v $xiirk/NCOR.L1.0499
v $xiirk/NCOR.L1.0502
v $xiirk/NCOR.L1.0507
# Neuf images de la sequence : #
# #
# xivPdf 9 1 / 023827_024338 #
# #
# choisie de la facon a ce qu'elle donne approximativement le point de vus de chaque planete #
# du systeme solaire. Le choix a ete fait grace a la variable 'Odist' qui donne la distance #
# de la planete virtuelle (que l'on deplace de Pluton au Soleil) au Soleil a l'instant #
# initial, et en la comparant aux distances moyennes de chacune des neufs planetes (pour #
# cela 'v $xrr/N_corps.11$K') ; bien evidemment, 'Odist' n'est pas la distance moyenne, #
# elle ne donne meme pas un extremum, elle est meme relativement quelconque, mais que faire #
# d'autre...). Voici donc le choix effectue : #
# #
# image=0002 Odist=+5.41681e+12 Pluton (Pluto) #
# image=0089 Odist=+4.49362e+12 Neptune (Neptune) #
# image=0242 Odist=+2.87008e+12 Uranus (Uranus) #
# image=0378 Odist=+1.42693e+12 Saturne (Saturn) #
# image=0439 Odist=+7.79632e+11 Jupiter (Jupiter) #
# image=0491 Odist=+2.27839e+11 Mars (Mars) #
# image=0499 Odist=+1.42948e+11 Terre (Earth) #
# image=0502 Odist=+1.11114e+11 Venus (Venus) #
# image=0507 Odist=+5.80570e+10 Mercure (Mercury) #
# #
v $xiirk/NCOR.Z1.0002
v $xiirk/NCOR.Z1.0089
v $xiirk/NCOR.Z1.0242
v $xiirk/NCOR.Z1.0378
v $xiirk/NCOR.Z1.0439
v $xiirk/NCOR.Z1.0491
v $xiirk/NCOR.Z1.0499
v $xiirk/NCOR.Z1.0502
v $xiirk/NCOR.Z1.0507
# Neuf images de la sequence : #
# #
# xivPdf 9 1 / 022299_022810 #
# #
# ATTENTION, contrairement aux autres images du systeme solaire pour lesquelles un tel #
# message n'apparait pas, les images '$xiirk/NCOR.Z?' montrent les planetes sans la #
# transformation non lineaire des coordonnees spheriques (option "lineaire=VRAI" pour #
# '$xrr/N_corps.11$K'). #
v $xiirk/NCOR.L1.0
v $xiirk/NCOR.L1.1
# Accumulation par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 9 1 / 023827_024338 #
# #
# avec "attenuation=" de 0 et de 1 respectivement. #
v $xiirk/NCOR.L2
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/arc_ciel.01 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/cercle.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/fractal.91 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/orange.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/inter.02.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$ROUGE p=$xiP/inter.02.12 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/arc_ciel.01 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/cercle.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/fractal.91 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/orange.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/inter.02.11 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.L2$VERTE p=$xiP/inter.02.12 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
# Image generee par : #
# #
# $xci/distance.01$X A1=$xiirk/NCOR.L1.0.? \ #
# A2=$xiirk/NCOR.L1.1.? \ #
# $formatI | #
# $xci/acces$X \ #
# renormaliser=VRAI \ #
# $formatI | #
# $xci/complement$X \ #
# R=$xiirk/NCOR.L2.? \ #
# $formatI #
# #
v $xiirk/NCOR.O3.0512
# Image '0512' de la sequence : #
# #
# xivPdf 9 1 / 026137_026648 #
# #
v $xiirk/NCOR.R1.0096
Pal ; $xci/display$X A=$xiirk/NCOR.R1.0096$ROUGE p=$xiP/fractal.91 d=2 animation=VRAI NOIR=FAUX $formatI
Pal ; $xci/display$X A=$xiirk/NCOR.R1.0096$ROUGE p=$xiP/orange.11 d=2 animation=VRAI NOIR=FAUX $formatI
# Image '0096' de la sequence : #
# #
# xivPdf 9 1 / 031513_031768 #
# #
v $xiirk/NCOR.S9.0073
v $xiirk/NCOR.S9.0193
v $xiirk/NCOR.S9.0353
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_S9: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Pal #
# #
# $Z SET Nimages=512 #
# $Z SET Npositions=512 #
# #
# $Z set NcorpsS=11 #
# #
# $Z $DELETE $xT/ROTATION$COORD_X #
# $Z $xci/valeurs_inte$X p=1 d=$Npositions vD=1.40 vA=1.40 cubique=VRAI \ #
# $Z > $xT/ROTATION$COORD_X #
# #
# $Z alias genere 'set Fl=\!:1 ; set Li=(\!:2*) ; \\ #
# $Z $DELETE $Fl ; \\ #
# $Z echo "$Li" | $SE -e "s/$K_BLANC$K_BLANC*/ /g" | $R "$K_BLANC" "$K_NL" > $Fl ; \\ #
# $Z unset Fl Li' #
# #
# #
# $Z genere $xT/MASSES \ #
# $Z +2.0e30 +3.3e23 +48.7e23 \ #
# $Z +60.5e23 \ #
# $Z +6.4e23 +189.9e25 +56.8e25 +8.6e25 +10.3e25 +6.6e21 \ #
# $Z +60.5e23 #
# $Z genere $xT/RAYONS \ #
# $Z +50e10 +35e10 +35e10 \ #
# $Z +35e10 \ #
# $Z +35e10 +45e10 +45e10 +40e10 +40e10 +35e10 \ #
# $Z +35e10 #
# $Z genere $xT/COULEURS$ROUGE \ #
# $Z $GRIS_8 $GRIS_8 $GRIS_8 \ #
# $Z $GRIS_0 \ #
# $Z $GRIS_8 $GRIS_8 $GRIS_8 $GRIS_4 $GRIS_0 $GRIS_7 \ #
# $Z $GRIS_0 #
# $Z genere $xT/COULEURS$VERTE \ #
# $Z $GRIS_8 $GRIS_6 $GRIS_4 \ #
# $Z $GRIS_6 \ #
# $Z $GRIS_4 $GRIS_6 $GRIS_7 $GRIS_8 $GRIS_7 $GRIS_7 \ #
# $Z $GRIS_4 #
# $Z genere $xT/COULEURS$BLEUE \ #
# $Z $GRIS_0 $GRIS_2 $GRIS_0 \ #
# $Z $GRIS_8 \ #
# $Z $GRIS_2 $GRIS_0 $GRIS_0 $GRIS_8 $GRIS_8 $GRIS_8 \ #
# $Z $GRIS_8 #
# #
# $Z Pal #
# #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 1 #
# $c #define N Nimages #
# $c #define Npos Npositions #
# #
# $c extern double cos(); #
# $c extern double sin(); #
# $c extern double sqrt(); #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c double thetaD=0; #
# $c double thetaA=2*3.1415926535897932; #
# #
# $c double XcentreS=+1e3; #
# $c double XcentreD=-392e+10; #
# $c double XcentreA=-392e+10; #
# #
# $c double YcentreS=+1e3; #
# $c double YcentreD=+1e3; #
# $c double YcentreA=+1e3; #
# #
# $c double ZcentreS=+1e3; #
# $c double ZcentreD=+1e3; #
# $c double ZcentreA=+1e3; #
# #
# $c double XvitessD=0.0; #
# #
# $c double YvitessD=-5.00e+3; #
# #
# $c double ZvitessD=0.0; #
# #
# $c double Fcentre; #
# $c double OdistD; #
# #
# $c OdistD=sqrt(((XcentreD-XcentreS)*(XcentreD-XcentreS))+ #
# $c ((YcentreD-YcentreS)*(YcentreD-YcentreS))+ #
# $c ((ZcentreD-ZcentreS)*(ZcentreD-ZcentreS)) #
# $c ); #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c if ((n==73) || (n==193) || (n==353)) #
# $c { #
# $c double Xcentre; #
# $c double Ycentre; #
# $c double Zcentre; #
# #
# $c double Xvitess; #
# $c double Yvitess; #
# $c double Zvitess; #
# #
# $c double Odist; #
# $c double theta; #
# #
# $c theta=((thetaA*(n-N0))+(thetaD*(N-n)))/(N-N0); #
# $c Xcentre=+(XcentreA*cos(theta))+(ZcentreA*sin(theta)); #
# $c Ycentre=((YcentreA*(n-N0))+(YcentreD*(N-n)))/(N-N0); #
# $c Zcentre=-(XcentreA*sin(theta))+(ZcentreA*cos(theta)); #
# #
# $c Odist=sqrt(((Xcentre-XcentreS)*(Xcentre-XcentreS))+ #
# $c ((Ycentre-YcentreS)*(Ycentre-YcentreS))+ #
# $c ((Zcentre-ZcentreS)*(Zcentre-ZcentreS)) #
# $c ); #
# #
# $c Xvitess=XvitessD*sqrt(OdistD/Odist); #
# $c Yvitess=YvitessD*sqrt(OdistD/Odist); #
# $c Zvitess=ZvitessD*sqrt(OdistD/Odist); #
# #
# $c printf("genere #
# $c $xT/COORDONNEES$COORD_X #
# $c %+g +514e+8 +213e+8 #
# $c -203e+8 #
# $c -204e+9 +501e+9 -134e+10 -150e+9 -436e+10 #
# $c -392e+10 %+g\n" #
# $c ,XcentreS,Xcentre #
# $c ); #
# $c printf("genere #
# $c $xT/COORDONNEES$COORD_Y #
# $c %+g +682e+7 +967e+8 #
# $c +133e+9 #
# $c +126e+9 -519e+9 +341e+9 +259e+10 -115e+10 #
# $c +307e+10 %+g\n" #
# $c ,YcentreS,Ycentre #
# $c ); #
# $c printf("genere #
# $c $xT/COORDONNEES$COORD_Z #
# $c %+g -163e+7 +422e+8 #
# $c +579e+8 #
# $c +634e+8 -235e+9 +199e+9 +113e+10 -363e+9 #
# $c +216e+10 %+g\n" #
# $c ,ZcentreS,Zcentre #
# $c ); #
# #
# $c printf("genere #
# $c $xT/VITESSES$COORD_X #
# $c 0 -1.46e+4 -3.44e+4 #
# $c -2.99e+4 #
# $c -1.27e+4 +9.67e+3 -3.21e+3 -6.84e+3 +1.42e+3 #
# $c -2.27e+3 %+g\n" #
# $c ,Xvitess #
# $c ); #
# $c printf("genere #
# $c $xT/VITESSES$COORD_Y #
# $c 0 +4.43e+4 +5.39e+3 #
# $c -3.88e+3 #
# $c -1.64e+4 +8.59e+3 -8.62e+3 -6.50e+2 -4.79e+3 #
# $c -4.53e+3 %+g\n" #
# $c ,Yvitess #
# $c ); #
# $c printf("genere #
# $c $xT/VITESSES$COORD_Z #
# $c 0 +2.52e+4 +4.60e+3 #
# $c -1.68e+3 #
# $c -7.18e+3 +3.44e+3 -3.42e+3 -1.88e+2 -2.00e+3 #
# $c -7.39e+2 %+g\n" #
# $c ,Zvitess #
# $c ); #
# #
# $c printf("$xrr/N_corps.11$X #
# $c corps=$NcorpsS #
# $c np=%d #
# $c LISTE_X=$xT/COORDONNEES$COORD_X #
# $c LISTE_Y=$xT/COORDONNEES$COORD_Y #
# $c LISTE_Z=$xT/COORDONNEES$COORD_Z #
# $c LISTE_VX=$xT/VITESSES$COORD_X #
# $c LISTE_VY=$xT/VITESSES$COORD_Y #
# $c LISTE_VZ=$xT/VITESSES$COORD_Z #
# $c LISTE_MASSE=$xT/MASSES #
# $c LISTE_RAYON=$xT/RAYONS #
# $c LISTE_ROUGE=$xT/COULEURS$ROUGE #
# $c LISTE_VERTE=$xT/COULEURS$VERTE #
# $c LISTE_BLEUE=$xT/COULEURS$BLEUE #
# $c centrer=FAUX reference=1 #
# $c extension=5 #
# $c dct=15000 #
# $c 2_a_2=FAUX source=1 #
# $c nombre=1000 #
# $c ensemble=VRAI #
# $c acceptable=0.5 #
# $c Ranterieurs=0.5 #
# $c trainees=FAUX #
# $c renormaliser=FAUX #
# $c lineaire=FAUX exposant=0.4 #
# $c Lz=1.0e13 #
# $c TRANSLATION_OX=0 #
# $c TRANSLATION_OY=0 #
# $c ROTATION_OX=$xT/ROTATION$COORD_X #
# $c ZOOM=0.60 #
# $c fond=FAUX #
# $c pV=%d #
# $c R=$xTV/NCOR.1. #
# $c $formatI\n" #
# $c ,Npos,Npos #
# $c ); #
# $c printf("$MV $xTV/NCOR.1.%04d$ROUGE #
# $c $xTV/NCOR.2.%04d$ROUGE\n" #
# $c ,Npos,n #
# $c ); #
# $c printf("$MV $xTV/NCOR.1.%04d$VERTE #
# $c $xTV/NCOR.2.%04d$VERTE\n" #
# $c ,Npos,n #
# $c ); #
# $c printf("$MV $xTV/NCOR.1.%04d$BLEUE #
# $c $xTV/NCOR.2.%04d$BLEUE\n" #
# $c ,Npos,n #
# $c ); #
# #
# $c printf("$DELETE $xT/COORDONNEES$COORD_X\n"); #
# $c printf("$DELETE $xT/COORDONNEES$COORD_Y\n"); #
# $c printf("$DELETE $xT/COORDONNEES$COORD_Z\n"); #
# #
# $c printf("$DELETE $xT/VITESSES$COORD_X\n"); #
# $c printf("$DELETE $xT/VITESSES$COORD_Y\n"); #
# $c printf("$DELETE $xT/VITESSES$COORD_Z\n"); #
# $c } #
# $c else #
# $c { #
# $c } #
# $c } #
# $c } #
# #
# $Z $DELETE $xT/MASSES #
# $Z $DELETE $xT/RAYONS #
# $Z $DELETE $xT/COULEURS$ROUGE #
# $Z $DELETE $xT/COULEURS$VERTE #
# $Z $DELETE $xT/COULEURS$BLEUE #
# #
# $Z $DELETE $xT/ROTATION$COORD_X #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xTV/NCOR.2.0073%s \ #
# $Z R=$xiirk/NCOR.S9.0073%s \ #
# $Z $formatI #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xTV/NCOR.2.0193%s \ #
# $Z R=$xiirk/NCOR.S9.0193%s \ #
# $Z $formatI #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xTV/NCOR.2.0353%s \ #
# $Z R=$xiirk/NCOR.S9.0353%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_S9: #
# #
v $xiirk/NCOR.S1.0073
v $xiirk/NCOR.S1.0193
v $xiirk/NCOR.S1.0353
# Images '0073', '0193' et '0353' de la sequence : #
# #
# xivPdf 9 1 / 032537_033048 #
# #
v $xiirk/NCOR.S1.0.0
v $xiirk/NCOR.S1.0.1
v $xiirk/NCOR.S1.1.0
v $xiirk/NCOR.S1.1.1
# Images obtenues par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 9 1 / 032537_033048 #
# #
# avec un facteur "attenuation=" de 0 et de 1 respectivement, puis une correction de #
# luminance par '$xci/substitue$X' avec la palette '$xiP/gris.11'. #
v $xiirk/NCOR.T1.0026
Pal ; $xci/display$X A=$xiirk/NCOR.T1.0026$VERTE p=$xiP/fractal.91 d=2 animation=VRAI NOIR=FAUX $formatI
v $xiirk/NCOR.T1.0046
Pal ; $xci/display$X A=$xiirk/NCOR.T1.0046$VERTE p=$xiP/fractal.91 d=2 animation=VRAI NOIR=FAUX $formatI
# Images '0026' et '0046' de la sequence : #
# #
# xivPdf 9 1 / 033305_033560 #
# #
v $xiirk/NCOR.U1.2048
# Image '2048' de la sequence : #
# #
# xivPdf 11 1 / 000001_002048 #
# #
# (vue du Soleil). #
v $xiirk/NCOR.U4.2048
# Image '2048' de la sequence : #
# #
# xivPdf 11 1 / 002049_004096 #
# #
# (vue de la Terre). #
v $xiirk/NCOR.U6.2048
# Image '2048' de la sequence : #
# #
# xivPdf 11 1 / 011393_013440 #
# #
# (vue de Jupiter). #
v $xiirk/NCOR.U6.2048.1 p=$xiP/rougA_jaunA.b
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_U6_2048_1: #
# #
# $Z Pal #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirk/NCOR.U6.2048 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/NCOR.U6.2048.1 \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_U6_2048_1: #
# #
v $xiirk/NCOR.U9.2048
# Image '2048' de la sequence : #
# #
# xivPdf 11 1 / 006145_008192 #
# #
# (vue de Neptune). #
v $xiirk/NCOR.UA.2048
# Image '2048' de la sequence : #
# #
# xivPdf 11 1 / 004097_006144 #
# #
# (vue de Pluton). #
v $xiirk/NCOR.UA.2048.1 p=$xiP/rougA_jaunA.b
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_UA_2048_1: #
# #
# $Z Pal #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirk/NCOR.UA.2048 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/convol.01$X \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/NCOR.UA.2048.1 \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_UA_2048_1: #
# #
v $xiirk/NCOR.c1.0512
# Image '0512' de la sequence : #
# #
# xivPdf 11 2 / 015361_015872 #
# #
v $xiirk/NCOR.d1
# Image obtenue par accumulation de la sequence : #
# #
# xivPdf 9 2 / 013596_014107 #
# #
# et montre le systeme solaire par rapport au Soleil au cours de 247 annees terrestres #
# sans changement d'echelle (donc, tel qu'il est...). #
v $xiirk/NCOR.d1.1
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_NCOR_d1_1: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z c=128 \ #
# $Z R=$xT/GAUSS \ #
# $Z $formatI #
# #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xiirk/NCOR.d1%s \\\ #
# $Z N=$xT/GAUSS \\\ #
# $Z ATTENTION=FAUX \\\ #
# $Z seuil=230 \\\ #
# $Z R=$xT/NCOR%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/SelfTrans.11$Z \ #
# $Z $xT/NCOR \ #
# $Z RVB \ #
# $Z $xiirk/NCOR.d1.1 #
# #
# :Fin_listG_NCOR_d1_1: #
# #
v $xiirk/NCOR.d1.2
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_NCOR_d1_2: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z c=128 \ #
# $Z R=$xT/GAUSS \ #
# $Z $formatI #
# #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xiirk/NCOR.d1%s \\\ #
# $Z N=$xT/GAUSS \\\ #
# $Z ATTENTION=FAUX \\\ #
# $Z seuil=250 \\\ #
# $Z R=$xT/NCOR%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/SelfTrans.21$Z \ #
# $Z $xT/NCOR \ #
# $Z RVB \ #
# $Z $xiirk/NCOR.d1.2 #
# #
# :Fin_listG_NCOR_d1_2: #
# #
v $xiirk/NCOR.d2
# Image obtenue par accumulation de la sequence : #
# #
# xivPdf 9 2 / 014108_014619 #
# #
# et montre le systeme solaire et le Centre de Gravite des 9 planetes par rapport au Soleil #
# au cours de 247 annees terrestres. #
v $xiirk/NCOR.d2.1
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_NCOR_d2_1: #
# #
# $Z set _____imagesR=$xiirk/NCOR.d2.1 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.14._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.11._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.12._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.13._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.14._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.15._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# :Fin_listG_NCOR_d2_1: #
# #
v $xiirk/NCOR.d2.2
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_NCOR_d2_2: #
# #
# $Z set _____imagesR=$xiirk/NCOR.d2.2 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.14._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.11._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.2.12._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.13._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.2.14._____U) #
# $m4 _____include(_____xiirk/.NCOR.d2.1.15._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# :Fin_listG_NCOR_d2_2: #
# #
v $xiirk/NCOR.d2.3
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_NCOR_d2_3: #
# #
# $Z set _____imagesR=$xiirk/NCOR.d2.3 #
# $m4 _____include(_____xiirk/.NCOR.d2.3.15._____U) #
# #
# :Fin_listG_NCOR_d2_3: #
# #
v $xiirk/NCOR.d3
# Image obtenue par accumulation de la sequence : #
# #
# xivPdf 9 2 / 014620_015131 #
# #
# et montre le systeme solaire par rapport au Centre de Gravite des 9 planetes au cours de #
# 247 annees terrestres. #
v $xiirk/NCOR.e1
# Image obtenue par accumulation de la sequence : #
# #
# xivPdf 9 2 / 016543_017054 #
# #
# qui montre l'hodographe des vitesses des 9 planetes du systeme solaire au cours de 243 #
# annees terrestres. #
v $xiirk/NCOR.e2
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_NCOR_5: #
# #
# $Z set _____imagesR1=$xiim/NCOR.5 #
# $Z set _____imagesR2=$xiim/NCOR.6 #
# $Z SET _____Lister=$EXIST #
# $Z set _____ListerPoints="$K_VIDE" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points=VRAI" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points_apres=FAUX" #
# $Z set _____ListerPoints="$_____ListerPoints"" zoom_automatique=FAUX" #
# $Z set _____Points=2 #
# #
# Faire '_____Points=2' permet de materialiser les segments (c'est-a-dire les vecteurs #
# vitesses tous issus d'un meme point) avec 2 points uniquement : l'origine et l'extremite, #
# et ainsi seront materialises les trajectoires des extremites (et donc les hodographes...). #
# On notera que "_____Jonction=FAUX" produirait les memes images... #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.14._____U) #
# #
# La duree de la simulation est donc de 512*15000*1000 = 7680000000 secondes, soit un peu #
# plus de 243 annees terrestres... #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.6.22._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# $Z set _____images=$_____imagesR2 #
# $Z set _____accumulation=$xiirk/NCOR.e2 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.31._____U) #
# #
# :Fin_listG_NCOR_5: #
# #
v $xiirk/NCOR.e3
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOR_e3: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Sdu #
# #
# $Z set _____imagesR1=$xTV/NCOR.5 #
# $Z set _____imagesR2=$xTV/NCOR.6 #
# #
# $Z SET _____Lister=$EXIST #
# $Z set _____ListerPoints="$K_VIDE" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points=VRAI" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points_apres=FAUX" #
# $Z set _____ListerPoints="$_____ListerPoints"" zoom_automatique=FAUX" #
# #
# $Z set _____Jonction=FAUX #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# $Z $DELETE $xTV/VISIBILITE #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=1536 #
# $Z #
# $Z @ Nimages = $Derniere - $Premiere #
# $Z @ Nimages = $Nimages + 1 #
# $Z #
# $Z set NcorpsS=10 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.13._____U) #
# #
# $Z set NeX=$NEXIST #
# $Z set _eX=$EXIST #
# $Z genere $xTV/VISIBILITE \ #
# $Z $_eX $NeX $NeX $_eX $NeX $_eX $_eX $_eX $_eX $NeX #
# #
# Ainsi, on supprime Mercure et Venus (via '$NeX') pour lesquelles l'hodographe est beaucoup #
# trop irregulier. Pluton doit aussi etre supprimee car, en effet, n'etant pas dans le plan #
# de l'ecliptique, le cercle attendu sera vu en perspective et donc comme une ellipse... #
# Finalement, Mars est aussi supprimee car son cercle est un peu irregulier... #
# #
# $Z set _____ParamNCorps="$K_VIDE" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" LISTE_VISIBILITE=$xTV/VISIBILITE" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" dct=150" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" nombre=100000" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" Ar=0.1" #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.14._____U) #
# #
# La duree de la simulation est donc de 1536*150*100000 = 23040000000 secondes, soit un peu #
# plus de 730 annees terrestres (soit 3 annees plutoniennes). #
# #
# $Z set _____ParamParticule="$K_VIDE" #
# $Z set _____ParamParticule="$_____ParamParticule"" Ar=2.0e-14" #
# $Z set _____ParamParticule="$_____ParamParticule"" ZOOM=1.5" #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.6.22._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# $Z $DELETE $xTV/VISIBILITE #
# #
# $Z set _____images=$_____imagesR2 #
# $Z set _____accumulation=$xiirk/NCOR.e3 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.31._____U) #
# #
# :Fin_listG_NCOR_e3: #
# #
# #
# Cette image montre l'hodographe de {la Terre,Jupiter,Saturne,Uranus,neptune} sous forme #
# de cercles, au cours de 730 annees terrestres (soit 3 annees plutoniennes). #
v $xiirk/NCOR.e4
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOR_e4: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Sdu #
# #
# $Z set _____imagesR1=$xTV/NCOR.5 #
# $Z set _____imagesR2=$xTV/NCOR.6 #
# #
# $Z SET _____Lister=$EXIST #
# $Z set _____ListerPoints="$K_VIDE" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points=VRAI" #
# $Z set _____ListerPoints="$_____ListerPoints"" lister_les_points_apres=FAUX" #
# $Z set _____ListerPoints="$_____ListerPoints"" zoom_automatique=FAUX" #
# #
# $Z set _____Jonction=VRAI #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# $Z $DELETE $xTV/VISIBILITE #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=1536 #
# $Z #
# $Z @ Nimages = $Derniere - $Premiere #
# $Z @ Nimages = $Nimages + 1 #
# $Z #
# $Z set NcorpsS=10 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.13._____U) #
# #
# $Z set NeX=$NEXIST #
# $Z set _eX=$EXIST #
# $Z genere $xTV/VISIBILITE \ #
# $Z $_eX $NeX $NeX $_eX $NeX $_eX $_eX $_eX $_eX $NeX #
# #
# Ainsi, on supprime Mercure et Venus (via '$NeX') pour lesquelles l'hodographe est beaucoup #
# trop irregulier. Pluton doit aussi etre supprimee car, en effet, n'etant pas dans le plan #
# de l'ecliptique, le cercle attendu sera vu en perspective et donc comme une ellipse... #
# Finalement, Mars est aussi supprimee car son cercle est un peu irregulier... #
# #
# $Z set _____ParamNCorps="$K_VIDE" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" LISTE_VISIBILITE=$xTV/VISIBILITE" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" dct=150" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" nombre=100000" #
# $Z set _____ParamNCorps="$_____ParamNCorps"" Ar=0.1" #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.14._____U) #
# #
# La duree de la simulation est donc de 1536*150*100000 = 23040000000 secondes, soit un peu #
# plus de 730 annees terrestres (soit 3 annees plutoniennes). #
# #
# $Z set _____ParamParticule="$K_VIDE" #
# $Z set _____ParamParticule="$_____ParamParticule"" Ar=2.0e-14" #
# $Z set _____ParamParticule="$_____ParamParticule"" ZOOM=1.5" #
# $Z set _____ParamParticule="$_____ParamParticule"" Pajuster=VRAI" #
# $Z set _____ParamParticule="$_____ParamParticule"" equidistance=VRAI" #
# $Z set _____ParamParticule="$_____ParamParticule"" dm=0.005" #
# $Z set _____ParamParticule="$_____ParamParticule"" jonction_a_un_corps=FAUX" #
# $Z set _____ParamParticule="$_____ParamParticule"" Xjonction=0.5" #
# $Z set _____ParamParticule="$_____ParamParticule"" Yjonction=0.5" #
# $Z set _____ParamParticule="$_____ParamParticule"" Zjonction=0.5" #
# $Z set _____ParamParticule="$_____ParamParticule"" Rjonction=$GRIS_4" #
# $Z set _____ParamParticule="$_____ParamParticule"" Vjonction=$GRIS_4" #
# $Z set _____ParamParticule="$_____ParamParticule"" Bjonction=$GRIS_4" #
# $Z set _____ParamParticule="$_____ParamParticule"" rayon_jonction=+15e10" #
# $Z set _____ParamParticule="$_____ParamParticule"" couronne=2" #
# #
# $Z SET _____Pas=64 #
# #
# $m4 _____include(_____xivPdf_09_2/.NCOR.6.22._____U) #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.15._____U) #
# #
# $Z $DELETE $xTV/VISIBILITE #
# #
# $Z set _____images=$_____imagesR2 #
# $Z set _____accumulation=$xiirk/NCOR.e4 #
# $m4 _____include(_____xivPdf_09_2/.NCOR.1.31._____U) #
# #
# :Fin_listG_NCOR_e4: #
# #
# #
# Cette image montre l'hodographe de {la Terre,Jupiter,Saturne,Uranus,neptune} sous forme #
# de faisceaux de vecteurs, au cours de 730 annees terrestres (soit 3 annees plutoniennes). #
v $xiirk/NCOR.e5
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NCOR_e5: #
# #
# $Z Sdu #
# #
# $Z execRVB "$xci/scale$X \ #
# $Z A=$xiirk/NCOR.e4%s \ #
# $Z a=0.4 \ #
# $Z $formatI | #
# $Z $xci/cache$X \ #
# $Z A=$xiirk/NCOR.e3%s \ #
# $Z R=$xiirk/NCOR.e5%s \ #
# $Z $formatI" #
# #
# :Fin_listG_NCOR_e5: #
# #
# #
# Cette image montre l'hodographe de {la Terre,Jupiter,Saturne,Uranus,neptune} sous forme #
# de faisceaux de vecteurs et de cercles, au cours de 730 annees terrestres (soit 3 annees #
# plutoniennes). #
v $xiirk/NCOR.f1.0197
v $xiirk/NCOR.f1.0261
v $xiirk/NCOR.f1.0300
v $xiirk/NCOR.f1.0356
# Montrent les images {0197,0261,0300,0356} de la sequence : #
# #
# xivPdf 12 1 / 017500_018011 #
# #
v $xiirk/NCOR.f1.0197.1 p=$xiP/gris.01
v $xiirk/NCOR.f1.0197.1 p=$xiP/masque
v $xiirk/NCOR.f1.0261.1 p=$xiP/gris.01
v $xiirk/NCOR.f1.0261.1 p=$xiP/masque
v $xiirk/NCOR.f1.0300.1 p=$xiP/gris.01
v $xiirk/NCOR.f1.0300.1 p=$xiP/masque
v $xiirk/NCOR.f1.0356.1 p=$xiP/gris.01
v $xiirk/NCOR.f1.0356.1 p=$xiP/masque
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_NCOR_f1______1: #
# #
# $Z Pal #
# #
# $Z $xci/detourage.31$Z $xiirk/NCOR.f1.0197 $xiirk/NCOR.f1.0197.1 30 #
# $Z $xci/detourage.31$Z $xiirk/NCOR.f1.0261 $xiirk/NCOR.f1.0261.1 30 #
# $Z $xci/detourage.31$Z $xiirk/NCOR.f1.0300 $xiirk/NCOR.f1.0300.1 30 #
# $Z $xci/detourage.31$Z $xiirk/NCOR.f1.0356 $xiirk/NCOR.f1.0356.1 30 #
# #
# :Fin_listG_NCOR_f1______1: #
# #
# #
# qui montre la version "graphique" des images 'v $xiirk/NCOR.f1.0???'... #
v $xiirk/NCOR.f1.1.1 p=$xiP/fractal.91
v $xiirk/NCOR.f1.1.1 p=$xiP/gris_oran.26
v $xiirk/NCOR.f1.1.1 p=$xiP/ondes.11
v $xiirk/NCOR.f1.1.1 p=$xiP/quadri.13
v $xiirk/NCOR.f1.1.1 p=$xiP/roug8_jaun8
v $xiirk/NCOR.f1.1.1 p=$xiP/trou_noir.94
v $xiirk/NCOR.f1.1.1 p=$xiP/trou_noir.C6
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 017500_018011 #
# #
# par : #
# #
# #
# :Debut_listG_NCOR_f1_1_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/NCOR.2. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=32 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/NCOR%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/NCOR$ROUGE \ #
# $Z AV=$xTV/NCOR$VERTE \ #
# $Z AB=$xTV/NCOR$BLEUE \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xiirk/NCOR.f1.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_f1_1_1: #
# #
v $xiirk/NCOR.f9.0197
v $xiirk/NCOR.f9.0261
v $xiirk/NCOR.f9.0300
v $xiirk/NCOR.f9.0356
# Montrent les images {0197,0261,0300,0356} de la sequence : #
# #
# xivPdf 12 1 / 016988_017499 #
# #
v $xiirk/NCOR.h1.0197
v $xiirk/NCOR.h1.0261
v $xiirk/NCOR.h1.0300
v $xiirk/NCOR.h1.0356
# Montrent les images {0197,0261,0300,0356} de la sequence 'v $xiak/NCOR.h1$R16'. #
v $xiirk/NCOR.h9.0197
v $xiirk/NCOR.h9.0261
v $xiirk/NCOR.h9.0300
v $xiirk/NCOR.h9.0356
# Montrent les images {0197,0261,0300,0356} de la sequence 'v $xiak/NCOR.h9$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j01.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j01$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j02.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j02$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j03.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j03$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j04.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j04$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j05.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j05$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j06.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j06$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j07.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j07$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j08.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j08$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j09.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j09$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.j10.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.j10$R16'. #
v $xiirk/NCOR.s123456789.3x3
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NCOR_s123456789_3x3: #
# #
# $Z setenv xTV $xTG #
# #
# $Z Squ #
# $Z set _____Images=$xTV/NCOR #
# #
# #
# $Z alias GeNeRe 'set ImAgE=\!:1 ; set NuMeRo=\!:2 ; \\ #
# $Z execRVB "$xci/format.01$X \\ #
# $Z A=$ImAgE%s \\ #
# $Z Xmin=0 Xmax=999 \\ #
# $Z Ymin=0 Ymax=999 \\ #
# $Z methode=2 \\ #
# $Z R=$_____Images.$NuMeRo%s \\ #
# $Z $formatR_Squ" ; \\ #
# $Z unset ImAgE NuMeRo' #
# #
# $Z GeNeRe $xiirk/NCOR.j02.0750 0001 #
# $Z GeNeRe $xiirk/NCOR.j03.0750 0002 #
# $Z GeNeRe $xiirk/NCOR.j04.0750 0003 #
# $Z GeNeRe $xiirk/NCOR.j09.0750 0004 #
# $Z GeNeRe $xiirk/NCOR.j01.0750 0005 #
# $Z GeNeRe $xiirk/NCOR.j05.0750 0006 #
# $Z GeNeRe $xiirk/NCOR.j08.0750 0007 #
# $Z GeNeRe $xiirk/NCOR.j07.0750 0008 #
# $Z GeNeRe $xiirk/NCOR.j06.0750 0009 #
# #
# $Z execRVB $xci/regroupe.01$Z $_____Images. \ #
# $Z $xiirk/NCOR.s123456789.3x3%s \ #
# $Z 1 1 3 3 \ #
# $Z %s #
# #
# $Z set MaIlLe_XY=`calcul 1/3` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$NOIR \ #
# $Z normalisee=VRAI \ #
# $Z mx=$MaIlLe_XY my=$MaIlLe_XY \ #
# $Z X_dans_image=VRAI Y_dans_image=VRAI \ #
# $Z niveau=$GRIS_4 \ #
# $Z $formatI | \ #
# $Z $xci/dilate.01$X \ #
# $Z dilater=VRAI \ #
# $Z points=25 \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z A=$xiirk/NCOR.s123456789.3x3%s \ #
# $Z M=$xTV/GRILLE \ #
# $Z R=$xiirk/NCOR.s123456789.3x3%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_s123456789_3x3: #
# #
XYmaxNe 999 999 ; v $xiirk/NCOR.m01.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m01$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m02.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m02$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m03.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m03$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m04.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m04$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m05.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m05$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m06.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m06$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m07.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m07$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m08.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m08$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m09.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m09$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.m10.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.m10$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.n01.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.n01$R16'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.q01.0750
# Montre l'image {0750} de la sequence 'v $xiak/NCOR.q01$R16'. #
XYmaxNe 999 999 ; $xci/display$X A=$xiirk/NCOR.r01 p=$xiP/orange.11 $formatI
XYmaxNe 3999 3999 ; $xci/display$X A=$xiirk/NCOR.r01$HauteDef p=$xiP/orange.11 $formatI
# Generee (sur '$LACT16') a partir de l'animation 'v $xiak/NCOR.r01$R16' : #
# #
# #
# :Debut_listG_NCOR_r01: #
# #
# $Z XYmaxNe 999 999 #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$xiim/NCOR.r.01. \ #
# $Z postfixe=%s \ #
# $Z premiere=1 derniere=750 \ #
# $Z maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 \ #
# $Z R=$xTV/NCOR.r01%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/NCOR.r01 \ #
# $Z R=$xTV/NCOR.r01 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/NCOR.r01 \ #
# $Z N=$xTV/GAUSS \ #
# $Z R=$xiirk/NCOR.r01 \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_r01: #
# #
# #
# Le 20171008174828, ces images ont ete recalculees au format 'XYmaxNe 3999 3999' suite a #
# 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
XYmaxNe 999 999 ; v $xiirk/NCOR.r01.1
# Generee (sur '$LACT16') : #
# #
# #
# :Debut_listG_NCOR_r01_1: #
# #
# $Z XYmaxNe 999 999 #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/NCOR.r01 \ #
# $Z p=$xiP/fractal.31 \ #
# $Z R=$xTV/NCOR.31 \ #
# $Z $formatI #
# #
# $Z $xci/acces$X \ #
# $Z A=$xiirk/NCOR.r01 \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z standard=FAUX \ #
# $Z passes=100 \ #
# $Z $formatI | \ #
# $Z $xci/montagne.01$X \ #
# $Z standard=FAUX \ #
# $Z T=$BLANC \ #
# $Z avion=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/gris.51 \ #
# $Z R=$xTV/NCOR.32 \ #
# $Z $formatI #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z niveau=4 \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z p=$xiP/gris.A3 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$xTV/NCOR.34 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/interpole.02$X \ #
# $Z A1=$xTV/NCOR.31%s \ #
# $Z A2=$xTV/NCOR.32%s \ #
# $Z P=$xTV/NCOR.34 \ #
# $Z R=$xiirk/NCOR.r01.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOR_r01_1: #
# #
v $xiirk/NCOR.s01.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s01: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=01 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.01 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s01.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s01: #
# #
# #
# Cette animation montre la trajectoire "Soleil-centrique" des planetes du systeme solaire #
# (point de vue "heliocentrique" avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s02.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s02: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=02 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.02 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s02.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s02: #
# #
# #
# Cette animation montre la trajectoire "Mercure-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s03.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s03: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=03 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.03 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s03.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s03: #
# #
# #
# Cette animation montre la trajectoire "Venus-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s04.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s04: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=04 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.04 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s04.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s04: #
# #
# #
# Cette animation montre la trajectoire "Terre-centrique" des planetes du systeme solaire #
# (point de vue "geocentrique" avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s05.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s05: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=05 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.05 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s05.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s05: #
# #
# #
# Cette animation montre la trajectoire "Mars-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s06.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s06: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=06 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.06 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s06.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s06: #
# #
# #
# Cette animation montre la trajectoire "Jupiter-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s07.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s07: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=07 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.07 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s07.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s07: #
# #
# #
# Cette animation montre la trajectoire "Saturne-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s08.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s08: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=08 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.08 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s08.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s08: #
# #
# #
# Cette animation montre la trajectoire "Uranus-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s09.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s09: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=09 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.09 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s09.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s09: #
# #
# #
# Cette animation montre la trajectoire "Neptune-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.s10.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_s10: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=10 #
# $Z set _____FacteurRayon=0.45 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=FAUX #
# $Z set _____Exposant=0.8 #
# $Z set _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.10 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.s10.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_s10: #
# #
# #
# Cette animation montre la trajectoire "Pluton-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.t01.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_t01: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=`calcul 15000*(686.980/90465)` #
# $Z set _____Reference=01 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=18.50 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.t.01 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.t01.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_t01: #
# #
# #
# Cette image montre la trajectoire "Soleil-centrique" des planetes du systeme solaire #
# (point de vue "heliocentrique" avec vue a la "verticale" du plan de l'ecliptique...) avec #
# zoom sur les quatre planetes telluriques. #
v $xiirk/NCOR.t02.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_t02: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=`calcul 15000*(686.980/90465)` #
# $Z set _____Reference=02 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=18.50 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.t.02 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.t02.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_t02: #
# #
# #
# Cette image montre la trajectoire "Mercure-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.t03.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_t03: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=`calcul 15000*(686.980/90465)` #
# $Z set _____Reference=03 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=18.50 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.t.03 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.t03.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_t03: #
# #
# #
# Cette image montre la trajectoire "Venus-centrique" des planetes du systeme solaire #
# (avec vue a la "verticale" du plan de l'ecliptique...). #
v $xiirk/NCOR.t04.7500
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_t04: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=`calcul 15000*(686.980/90465)` #
# $Z set _____Reference=04 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=18.50 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.t.04 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.j1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.t04.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_t04: #
# #
# #
# Cette image montre la trajectoire "Terre-centrique" des planetes du systeme solaire #
# (point de vue "geocentrique" avec vue a la "verticale" du plan de l'ecliptique...) avec #
# zoom sur les quatre planetes telluriques. #
# #
# On notera que la planete Mars est celle dont la trajectoire apparait dans le coin en #
# haut et a gauche de l'image... #
v $xiirk/NCOR.u1.0023
v $xiirk/NCOR.u1.0030
v $xiirk/NCOR.u1.0045
v $xiirk/NCOR.u1.0048
v $xiirk/NCOR.u1.0058
v $xiirk/NCOR.u1.0023$HauteDef
v $xiirk/NCOR.u1.0030$HauteDef
v $xiirk/NCOR.u1.0045$HauteDef
v $xiirk/NCOR.u1.0048$HauteDef
v $xiirk/NCOR.u1.0058$HauteDef
# Montrent les images N={0023,0030,0045,0048,0058} de la sequence 'v $xiak/NCOR.uP$R16'. #
# Cette animation est a priori identique a 'v $xiak/NCOR.lP$R16' mais ne contient que 69 #
# images au lieu de 750 et a donc ete generee avec un pas de 11. Les numeros 'N' des images #
# '$xiirk/NCOR.u1.00??' doivent donc etre transformes par '(N-1)*11+1' si l'on veut resituer #
# ces images dans 'v $xiak/NCOR.lP$R16'... #
# #
# Le 20171006080621, ces images ont ete recalculees au format 'Shu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
v $xiirk/NCOR.v1.0023
v $xiirk/NCOR.v1.0030
v $xiirk/NCOR.v1.0045
v $xiirk/NCOR.v1.0048
v $xiirk/NCOR.v1.0058
# Montrent les images N={0023,0030,0045,0048,0058} de la sequence 'v $xiak/NCOR.vS$R16'. #
# Cette animation est a priori identique a 'v $xiak/NCOR.pS$R16' mais ne contient que 69 #
# images au lieu de 750 et a donc ete generee avec un pas de 11. Les numeros 'N' des images #
# '$xiirk/NCOR.v1.00??' doivent donc etre transformes par '(N-1)*11+1' si l'on veut resituer #
# ces images dans 'v $xiak/NCOR.pS$R16'... #
v $xiirk/NCOR.w01.0750
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_NCOR_w01_0750: #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z XYmaxNe 999 999 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirk/NCOR.j01.0750%s \ #
# $Z $formatI \ #
# $Z mode=7 \ #
# $Z R=$xiirk/NCOR.w01.0750%s \ #
# $Z $formatR_Pal #
# #
# :Fin_listG_NCOR_w01_0750: #
# #
# #
# Montre 'v $xiirk/NCOR.j01.0750' en format 'Pal'. Ceci est du a la variable '$phi_psi_HD' #
# qui ne peut etre utilisee dans 'v $xe/.images$D/XYmaxNe$vv$Y 20100521093828', alors que #
# l'alias 'tiffi' devait etre utilise pour les images de 'v $xiMd/infinity.02$vv$m4'. #
v $xiirk/NCOR.x01.7500
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOR_x01_7500: #
# #
# $Z Squ #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=01 #
# $Z SET _____VraisRayons=$EXIST #
# $Z set _____FacteurRayon=5400 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=0.7 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.01 #
# $m4 _____include(_____xiirk/.NCOR.x01.1._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.x01.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_x01_7500: #
# #
# #
# Cette image montre la trajectoire helio-centrique des planetes en tentant d'etre a #
# l'echelle en ce qui concerne les rayons, mais de toute evidence cela est impossible et #
# pour voir Pluton, il faut un enorme '$_____FacteurRayon' ce qui a l'inconvenient majeur #
# de mettre toutes les planetes, a l'exception de Neptune, "a l'interieur" du Soleil... #
v $xiirk/NCOR.x02.7500
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOR_x02_7500: #
# #
# $Z Squ #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Reference=01 #
# $Z SET _____VraisRayons=$NEXIST #
# $Z set _____FacteurRayon=1 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=0.7 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xiim/NCOR.s.02 #
# $m4 _____include(_____xiirk/.NCOR.x01.1._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.x02.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_x02_7500: #
# #
# #
# Cette image est identique a 'v $xiirk/NCOR.x01.7500' sauf que ce ne sont plus les vrais #
# rayons qui sont utilises, mais des rayons arbitraires et independants permettant de tout #
# voir... #
v $xiirk/NCOR.y01.7500
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NCOR_y01: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=7500 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=`calcul 15000*(686.980/90465)` #
# $Z set _____Reference=01 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=12.0 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xTV/NCOR.t.01 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.y1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.y01.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_y01: #
# #
# #
# Cette image montre la trajectoire "Soleil-centrique" de la Terre et de Mars #
# (point de vue "heliocentrique" avec vue a la "verticale" du plan de l'ecliptique...) #
# pendant 1 annee marsienne. #
v $xiirk/NCOR.y04.9999
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NCOR_y04: #
# #
# $Z Sdu #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____Nimages=9999 #
# $Z set _____PremiereImage=$_____Nimages #
# $Z set _____Dct=200 #
# $Z set _____Reference=04 #
# $Z set _____Ranterieurs=0.5 #
# $Z set _____Canterieurs=0.8 #
# $Z set _____Lineaire=VRAI #
# $Z set _____Zoom=12.0 #
# $Z set _____FacteurRayon=`calcul 0.45*(0.45/$_____Zoom)` #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xTV/NCOR.t.04 #
# $Z set Premiere=1 #
# $Z set Derniere=$_____Nimages #
# $m4 _____include(_____xiirk/.NCOR.y1.1.11._____U) #
# #
# $Z set LaSt=`$xci/nombres$X premiere=$_____Nimages derniere=$_____Nimages` #
# $Z execRVB $xci/neutre$X A=$_____images.$LaSt%s R=$xiirk/NCOR.y04.$LaSt%s $formatI #
# #
# :Fin_listG_NCOR_y04: #
# #
# #
# Cette image montre la trajectoire "Terre-centrique" de la Terre et de Mars #
# (point de vue "geocentrique" avec vue a la "verticale" du plan de l'ecliptique...) #
# pendant 11.7 annee marsienne. #
v $xiak/NCOS.11$R16
v $xiak/NCOS.11$R64
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_11: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTM #
# #
# $Z SET _____Reference=1 #
# $Z set _____Lineaire=FAUX #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____FacteurRayon=0.5 #
# $Z set _____Zoom=0.50 #
# $Z SET _____images=$xTV/NCOS.11 #
# $Z set _____animation=$xiak/NCOS.11 #
# $m4 _____include(_____xivPdf_10_2/.NCOR.1.11._____U) #
# #
# :Fin_listG_NCOS_11: #
# #
# #
# Du Soleil a Pluton : point de vue du Soleil ('1'). #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (512*1000*15000)/(3600*24*365) = 243 ~ 247 (periode de Pluton) #
# #
# Ces images proviennent de 'v $xiak/NCOR.N9$R16' et 'v $xiak/NCOR.N9$R64'. #
v $xiirk/NCOS.1B.0499
v $xiirk/NCOS.1B.0491
v $xiirk/NCOS.1B.0439
v $xiirk/NCOS.1B.0378
v $xiirk/NCOS.1B.0242
v $xiirk/NCOS.1B.0089
v $xiirk/NCOS.1B.0002
v $xiak/NCOS.1B$R16
v $xiak/NCOS.1B$R64
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_1B: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTM #
# #
# $Z SET _____Reference=11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____Lineaire=FAUX #
# $Z set _____FacteurRayon=0.5 #
# $Z set _____Zoom=0.50 #
# $Z SET _____images=$xTV/NCOS.1B #
# $Z set _____animation=$xiak/NCOS.1B #
# $m4 _____include(_____xivPdf_10_2/.NCOR.1.11._____U) #
# #
# $Z set _____ImageR=$xiirk/NCOS.1B #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0499%s \ #
# $Z R=$_____ImageR.0499%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0491%s \ #
# $Z R=$_____ImageR.0491%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0439%s \ #
# $Z R=$_____ImageR.0439%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0378%s \ #
# $Z R=$_____ImageR.0378%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0242%s \ #
# $Z R=$_____ImageR.0242%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0089%s \ #
# $Z R=$_____ImageR.0089%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0002%s \ #
# $Z R=$_____ImageR.0002%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOS_1B: #
# #
# #
# Du Soleil a Pluton : point de vue d'une planete virtuelle ('B') verte. #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (512*1000*15000)/(3600*24*365) = 243 ~ 247 (periode de Pluton) #
# #
# Ces images proviennent de 'v $xiak/NCOR.N1.1$R16' et 'v $xiak/NCOR.N1.1$R64'. #
# #
# Aux environs du 20150318095324 a ete cree 'v $xiak/NCOS.1B$MP4' (voir a ce sujet #
# 'v $xiak/$Fnota Debut_listG_NCOS_1B')... #
v $xiirk/NCOS.21.0197
v $xiirk/NCOS.21.0261
v $xiirk/NCOS.21.0300
v $xiirk/NCOS.21.0356
v $xiak/NCOS.21$R16
v $xiak/NCOS.21$R64
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_21: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTM #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=512 #
# $Z SET _____Extrapolation=300 #
# $Z SET _____Reference=1 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____FGRayons=0.5 #
# $Z SET _____Zoom=0.50 #
# $Z set _____Rotation_OX=1.40 #
# $Z set _____images=$xTV/NCOS.21 #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# $Z set _____animation=$xiak/NCOS.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z set _____ImageR=$xiirk/NCOS.21 #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0197%s \ #
# $Z R=$_____ImageR.0197%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0261%s \ #
# $Z R=$_____ImageR.0261%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0300%s \ #
# $Z R=$_____ImageR.0300%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0356%s \ #
# $Z R=$_____ImageR.0356%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOS_21: #
# #
# #
# Du Soleil a Pluton -extrapolation 1- : point de vue du Soleil ('1'). #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (512*1000*15000)/(3600*24*365) = 243 ~ 247 (periode de Pluton) #
# #
# Ces images proviennent de 'v $xiak/NCOR.f9$R16' et 'v $xiak/NCOR.f9$R64'. #
v $xiirk/NCOS.2B.0197
v $xiirk/NCOS.2B.0261
v $xiirk/NCOS.2B.0300
v $xiirk/NCOS.2B.0356
v $xiak/NCOS.2B$R16
v $xiak/NCOS.2B$R64
v $xiak/NCOS.2B$R16$HauteDef
v $xiak/NCOS.2B$R64$HauteDef
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_2B: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTM #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=512 #
# $Z SET _____Extrapolation=300 #
# $Z SET _____Reference=11 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____FGRayons=0.5 #
# $Z SET _____Zoom=0.50 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xTV/NCOS.2B #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# $Z set _____animation=$xiak/NCOS.2B #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z set _____ImageR=$xiirk/NCOS.2B #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0197%s \ #
# $Z R=$_____ImageR.0197%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0261%s \ #
# $Z R=$_____ImageR.0261%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0300%s \ #
# $Z R=$_____ImageR.0300%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0356%s \ #
# $Z R=$_____ImageR.0356%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOS_2B: #
# #
# #
# Du Soleil a Pluton -extrapolation 1- : point de vue d'une planete virtuelle ('B') verte. #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (512*1000*15000)/(3600*24*365) = 243 ~ 247 (periode de Pluton) #
# #
# Ces images proviennent de 'v $xiak/NCOR.f1$R16' et 'v $xiak/NCOR.f1$R64'. #
# #
# Le 20171002121436, ces images ont ete recalculees au format 'Shu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
v $xiirk/NCOS.31.0254
v $xiirk/NCOS.31.0331
v $xiirk/NCOS.31.0496
v $xiirk/NCOS.31.0529
v $xiirk/NCOS.31.0639
v $xiak/NCOS.31$R16
v $xiak/NCOS.31$R64
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_31: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTM #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=750 #
# $Z SET _____Reference=1 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____Canterieurs=1 #
# $Z set _____Lineaire=VRAI #
# $Z SET _____Extrapolation=300 #
# $Z set _____FARayons=1 #
# $Z set _____FGRayons=0.45 #
# $Z SET _____Zoom=0.45 #
# $Z set _____Rotation_OX=`calcul 1.50+$pi` #
# $Z set _____images=$xTV/NCOS.31 #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# $Z set _____animation=$xiak/NCOS.31 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z set _____ImageR=$xiirk/NCOS.31 #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0254%s \ #
# $Z R=$_____ImageR.0254%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0331%s \ #
# $Z R=$_____ImageR.0331%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0496%s \ #
# $Z R=$_____ImageR.0496%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0529%s \ #
# $Z R=$_____ImageR.0529%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0639%s \ #
# $Z R=$_____ImageR.0639%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOS_31: #
# #
# #
# Du Soleil a Pluton -extrapolation 2- : point de vue du Soleil ('1'). #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (1250*838*15000)/(3600*24*365) = 498 #
# #
# Ces images proviennent de 'v $xiak/NCOR.pR$R16' et 'v $xiak/NCOS.pS$R64'. #
v $xiirk/NCOS.3B.0254
v $xiirk/NCOS.3B.0331
v $xiirk/NCOS.3B.0496
v $xiirk/NCOS.3B.0529
v $xiirk/NCOS.3B.0639
v $xiirk/NCOS.3B.0254$HauteDef
v $xiirk/NCOS.3B.0331$HauteDef
v $xiirk/NCOS.3B.0496$HauteDef
v $xiirk/NCOS.3B.0529$HauteDef
v $xiirk/NCOS.3B.0639$HauteDef
v $xiak/NCOS.3B$MPEG
v $xiak/NCOS.3B$R16
v $xiak/NCOS.3B$R64
v $xiak/NCOS.3B$R16$HauteDef
v $xiak/NCOS.3B$R64$HauteDef
# Generee (sur '$CMAP28' -ex "picpus"-, puis sur 'LACT1B') par : #
# #
# #
# :Debut_listG_NCOS_3B: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xT #
# #
# Le choix de '$xT' et non pas de '$xTG' est lie a 'v $xiirk/.NCOR.f1.1.1$u 20061029112229' #
# afin d'etre sur d'initialiser tous les fichiers de parametres utiles... #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=750 #
# $Z SET _____Reference=11 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____Canterieurs=1 #
# $Z set _____Lineaire=VRAI #
# $Z SET _____Extrapolation=300 #
# $Z set _____FARayons=1 #
# $Z set _____FGRayons=0.45 #
# $Z SET _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z SET _____images=$xTV/NCOS.3B #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# $Z set _____animation=$xiak/NCOS.3B #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z SET _____PaletteMPEG=RVB #
# $Z SET _____ImageT=$_____images. #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# $Z set _____ImageR=$xiirk/NCOS.3B #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0254%s \ #
# $Z R=$_____ImageR.0254%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0331%s \ #
# $Z R=$_____ImageR.0331%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0496%s \ #
# $Z R=$_____ImageR.0496%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0529%s \ #
# $Z R=$_____ImageR.0529%s \ #
# $Z $formatI #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____images.0639%s \ #
# $Z R=$_____ImageR.0639%s \ #
# $Z $formatI #
# #
# :Fin_listG_NCOS_3B: #
# #
# #
# Du Soleil a Pluton -extrapolation 2- : point de vue d'une planete virtuelle ('B') verte. #
# #
# La duree de la simulation (en annees terrestres) est egale a : #
# #
# (1250*838*15000)/(3600*24*365) = 498 #
# #
# Ces images proviennent de 'v $xiak/NCOR.lP$R16' et 'v $xiak/NCOR.lP$R64'. #
# #
# Le 20171005165503, ces images ont ete recalculees au format 'Shu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
v $xiak/NCOS.3B$IdM$R16
v $xiak/NCOS.3B$IdM$MPEG
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_3B_IdM: #
# #
# $Z TvB #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=750 #
# $Z SET _____Reference=11 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____Canterieurs=1 #
# $Z set _____Lineaire=VRAI #
# $Z SET _____Extrapolation=300 #
# $Z set _____FARayons=1 #
# $Z set _____FGRayons=0.45 #
# $Z SET _____Zoom=0.45 #
# $Z set _____Rotation_OX=0 #
# $Z SET _____images=$xTV/NCOS.3B #
# #
# $Z $DELETE $xTV/COORDONNEES.* >& $nul #
# $Z $DELETE $xTV/COULEURS.* >& $nul #
# $Z $DELETE $xTV/ROTATION.* >& $nul #
# $Z $DELETE $xTV/VITESSES.* >& $nul #
# $Z $DELETE $xTV/MASSES >& $nul #
# $Z $DELETE $xTV/RAYONS >& $nul #
# $Z $DELETE $xTV/VISIBILITE >& $nul #
# #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# #
# $Z SET _____CalculerR64=$NEXIST #
# $Z set _____animation=$xiak/NCOS.3B$IdM #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_NCOS_3B_IdM: #
# #
# #
# Du Soleil a Pluton -extrapolation 2- : point de vue d'une planete virtuelle ('B') verte. #
v $xiak/NCOS.3C$IdM$R16
# Generee (sur '$CMAP28' -ex "picpus"-) par : #
# #
# #
# :Debut_listG_NCOS_3C_IdM: #
# #
# $Z TvB #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=750 #
# $Z SET _____Reference=11 #
# $Z SET _____DistanceA=0.10e11 #
# $Z set _____FictiveR=$GRIS_0 #
# $Z set _____FictiveV=$GRIS_8 #
# $Z set _____FictiveB=$GRIS_0 #
# $Z set _____Canterieurs=1 #
# $Z set _____Lineaire=VRAI #
# $Z SET _____Extrapolation=300 #
# $Z set _____FARayons=1 #
# $Z set _____FGRayons=0.45 #
# $Z SET _____Zoom=0.285 #
# $Z set _____Rotation_OX=0 #
# $Z set _____images=$xTV/NCOS.3C #
# #
# $Z $DELETE $xTV/COORDONNEES.* >& $nul #
# $Z $DELETE $xTV/COULEURS.* >& $nul #
# $Z $DELETE $xTV/ROTATION.* >& $nul #
# $Z $DELETE $xTV/VITESSES.* >& $nul #
# $Z $DELETE $xTV/MASSES >& $nul #
# $Z $DELETE $xTV/RAYONS >& $nul #
# $Z $DELETE $xTV/VISIBILITE >& $nul #
# #
# $m4 _____include(_____xiirk/.NCOR.f1.1.11._____U) #
# #
# $Z SET _____CalculerR64=$NEXIST #
# $Z set _____animation=$xiak/NCOS.3C$IdM #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# :Fin_listG_NCOS_3C_IdM: #
# #
# #
# Du Soleil a Pluton -extrapolation 2- : point de vue d'une planete virtuelle ('B') verte. #
v $xiirk/NCOS.61.1
v $xiirk/NCOS.61.2
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOS_61: #
# #
# $Z Sdu #
# #
# $Z set _____ImagesR=$xiirk/NCOS.61 #
# #
# $Z set _____Reference=1 #
# $Z set _____TransX=-40e10 #
# $Z set _____TransY=-220e10 #
# $Z set _____ImageR=$_____ImagesR.$_____Reference #
# $m4 _____include(_____xiirk/.NCOS.61.1.11._____U) #
# #
# $Z set _____Reference=2 #
# $Z set _____TransX=-40e10 #
# $Z set _____TransY=-245e10 #
# $Z set _____ImageR=$_____ImagesR.$_____Reference #
# $m4 _____include(_____xiirk/.NCOS.61.1.11._____U) #
# #
# :Fin_listG_NCOS_61: #
# #
v $xiirk/NCOS.71
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOS_71: #
# #
# $Z Pdu #
# #
# $Z set _____ImageR=$xiirk/NCOS.71 #
# $m4 _____include(_____xiirk/.NCOS.71.1._____U) #
# #
# :Fin_listG_NCOS_71: #
# #
v $xiirk/NCOS.81
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NCOS_81: #
# #
# $Z Pal #
# #
# $Z set _____ImageR=$xiirk/NCOS.81 #
# $Z set Nimages=82 #
# #
# $Z set NcorpsS=2 #
# #
# $Z alias genere 'set FiLe=\!:1 ; set LiStE=(\!:2*) ; \\ #
# $Z $DELETE $FiLe ; \\ #
# $Z echo "$LiStE" | $SE -e "s/ */\n/g" > $FiLe ; \\ #
# $Z unset FiLe LiStE' #
# #
# $Z genere $xTG/COORDONNEES$COORD_X +1.0e3 -800.0e9 #
# $Z genere $xTG/COORDONNEES$COORD_Y +1.0e3 +1.0e3 #
# $Z genere $xTG/COORDONNEES$COORD_Z +1.0e3 +1.0e3 #
# $Z genere $xTG/VITESSES$COORD_X 0 0 #
# $Z genere $xTG/VITESSES$COORD_Y 0 +7.0e3 #
# $Z genere $xTG/VITESSES$COORD_Z 0 0 #
# $Z genere $xTG/MASSES 1.0e30 2.0e27 #
# $Z genere $xTG/RAYONS 4.0e10 2.0e10 #
# $Z genere $xTG/COULEURS$ROUGE $GRIS_8 $GRIS_0 #
# $Z genere $xTG/COULEURS$VERTE $GRIS_7 $GRIS_8 #
# $Z genere $xTG/COULEURS$BLEUE $GRIS_0 $GRIS_8 #
# #
# $Z $xrr/N_corps.11$X corps=$NcorpsS \ #
# $Z np=$Nimages \ #
# $Z LISTE_X=$xTG/COORDONNEES$COORD_X \ #
# $Z LISTE_Y=$xTG/COORDONNEES$COORD_Y \ #
# $Z LISTE_Z=$xTG/COORDONNEES$COORD_Z \ #
# $Z LISTE_VX=$xTG/VITESSES$COORD_X \ #
# $Z LISTE_VY=$xTG/VITESSES$COORD_Y \ #
# $Z LISTE_VZ=$xTG/VITESSES$COORD_Z \ #
# $Z LISTE_MASSE=$xTG/MASSES \ #
# $Z LISTE_RAYON=$xTG/RAYONS \ #
# $Z LISTE_ROUGE=$xTG/COULEURS$ROUGE \ #
# $Z LISTE_VERTE=$xTG/COULEURS$VERTE \ #
# $Z LISTE_BLEUE=$xTG/COULEURS$BLEUE \ #
# $Z dct=100 \ #
# $Z nombre=40000 \ #
# $Z trainees=VRAI mode=1 \ #
# $Z attenuation_des_images=1.0 \ #
# $Z attenuation_des_trainees=0.99 \ #
# $Z renormaliser=FAUX \ #
# $Z TRANSLATION_OX=250e9 \ #
# $Z ZOOM=1.7 \ #
# $Z fond=FAUX \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_avant=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImageR \ #
# $Z $formatI | \ #
# $Z $SE -e 's/^.*\(X=.*\) Z=.*$/\1/' | \ #
# $Z $NL -nrz -w4 | \ #
# $Z $AW ' { print $1 " " $2 " " $3 } ' | \ #
# $Z $GRE -e "^[$Alphabet_0_9]*[24680] " | \ #
# $Z $AW ' { print $2 " " $3 } ' #
# #
# :Fin_listG_NCOS_81: #
# #
# #
# Voici la liste des coordonnees {X,Y} ainsi calculees : #
# #
# #
# :Debut_listG_NCOS_81_coordonnees_XY: #
# #
# X=-800000000000 Y= +1000 #
# X=-799166000064.454468 Y= +27989568947.760650 #
# X=-796663511901.509888 Y= +55921375246.897300 #
# X=-792491283632.184937 Y= +83735923255.243881 #
# X=-786647243443.405396 Y=+111373744767.720016 #
# X=-779128521231.340820 Y=+138774353113.066803 #
# X=-769931489097.738647 Y=+165875883044.374756 #
# X=-759051804715.996460 Y=+192614711478.117554 #
# X=-746484479038.770020 Y=+218925054332.794769 #
# X=-732223953778.206543 Y=+244738533244.007599 #
# X=-716264213954.533447 Y=+269983706706.834137 #
# X=-698598919432.062622 Y=+294585557945.559204 #
# X=-679221575849.836548 Y=+318464929193.731323 #
# X=-658125753714.453125 Y=+341537896320.715393 #
# X=-635305359835.672241 Y=+363715071637.104004 #
# X=-610754984887.974731 Y=+384900821220.337158 #
# X=-584470346608.554565 Y=+404992390454.005859 #
# X=-556448846633.977905 Y=+423878913452.105347 #
# X=-526690275857.960571 Y=+441440297714.340515 #
# X=-495197717087.342590 Y=+457545961486.339233 #
# X=-461978695533.236389 Y=+472053411434.564392 #
# X=-427046653020.436279 Y=+484806639343.538879 #
# X=-390422834068.982605 Y=+495634329810.908386 #
# X=-352138716161.846497 Y=+504347874400.330322 #
# X=-312239139907.355164 Y=+510739199645.671082 #
# X=-270786351349.391632 Y=+514578458131.797607 #
# X=-227865229686.255005 Y=+515611666175.225647 #
# X=-183590042709.856995 Y=+513558468956.451233 #
# X=-138113159832.700897 Y=+508110328739.113464 #
# X= -91636235028.870025 Y=+498929666769.876892 #
# X= -44424416024.877166 Y=+485650807662.503113 #
# X= +3175900065.465378 Y=+467884075341.501648 #
# X= +50715503185.226310 Y=+445225103997.960083 #
# X= +97617427472.923400 Y=+417272362288.405457 #
# X=+143150528185.577606 Y=+383656913569.580444 #
# X=+186406172868.677582 Y=+344089133453.590576 #
# X=+226286945182.115662 Y=+298426404636.323669 #
# X=+261521714723.657501 Y=+246761858210.234467 #
# X=+290725629051.373169 Y=+189524738428.388153 #
# X=+312520841585.724304 Y=+127567417275.454803 #
# X=+325716668536.934021 Y= +62198223006.654739 #
# X=+329515043551.962524 Y= -4882226246.836296 #
# X=+323674532868.917603 Y= -71755092708.735641 #
# X=+308564150133.509460 Y=-136528805597.224564 #
# X=+285081892772.509705 Y=-197575237592.599060 #
# X=+254475501947.702972 Y=-253681601590.071869 #
# X=+218137658787.323669 Y=-304090926985.294800 #
# X=+177436906761.184479 Y=-348453819930.926392 #
# X=+133610597143.845917 Y=-386735626516.374207 #
# X= +87716052194.003341 Y=-419117050514.681030 #
# X= +40622578393.841774 Y=-445909525249.911804 #
# X= -6973667863.918034 Y=-467492196848.978088 #
# X= -54525136275.164947 Y=-484269211220.109741 #
# X=-101606497534.667068 Y=-496642941958.444824 #
# X=-147890330250.330505 Y=-504998521330.766052 #
# X=-193126365338.586426 Y=-509695854117.710144 #
# X=-237124520192.660980 Y=-511066339505.118835 #
# X=-279741380978.299683 Y=-509412401795.952881 #
# X=-320869592701.490845 Y=-505008611894.748901 #
# X=-360429601866.614075 Y=-498103619840.776733 #
# X=-398363259766.155457 Y=-488922441210.968323 #
# X=-434628874995.758789 Y=-477668816546.808472 #
# X=-469197382259.000793 Y=-464527498768.808533 #
# X=-502049380352.338501 Y=-449666385627.008789 #
# X=-533172829268.901184 Y=-433238466668.945557 #
# X=-562561259638.667480 Y=-415383573394.559753 #
# X=-590212378315.997192 Y=-396229942333.709900 #
# X=-616126969700.465210 Y=-375895603252.519348 #
# X=-640308042395.343994 Y=-354489608547.058411 #
# X=-662760159839.397949 Y=-332113120234.844666 #
# X=-683488909924.952026 Y=-308860374532.823303 #
# X=-702500482089.756958 Y=-284819536244.112122 #
# X=-719801340182.548706 Y=-260073461792.595642 #
# X=-735397962263.524780 Y=-234700379460.007568 #
# X=-749296632401.443970 Y=-208774502202.248444 #
# X=-761503277891.523193 Y=-182366580523.182190 #
# X=-772023340802.756470 Y=-155544404924.997314 #
# X=-780861679188.498535 Y=-128373267044.422150 #
# X=-788022488122.065308 Y=-100916386548.792847 #
# X=-793509238390.982666 Y= -73235308198.392166 #
# X=-797324630363.287231 Y= -45390273860.971466 #
# X=-799470563564.701050 Y= -17440583527.914199 #
# #
# :Fin_listG_NCOS_81_coordonnees_XY: #
# #
v $xiirk/NCOS.C1.2048
# Montre l'image 2048 de la sequence 'v $xiak/NCOS.C1$R16'. #
v $xiirk/NSPH.31.0512
# Montre une accumulation de la sequence : #
# #
# xivPdf 10 2 / 019457_019968 #
# #
# portant respectivement sur les images : #
# #
# premiere=1 derniere=512 inverser=VRAI (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.1 arrivee=1.0 #
# #
v $xiirk/NSPH.31 p=$xiP/dentscie.08
v $xiirk/NSPH.31 p=$xiP/fract.02$Fi
v $xiirk/NSPH.31 p=$xiP/fract.03$Fi
v $xiirk/NSPH.31 p=$xiP/inter.02.11
v $xiirk/NSPH.31 p=$xiP/random.12$Fi
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_NSPH_31: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/symetries.01$X \\\ #
# $Z A=$xiirk/NSPH.31.0512%s \\\ #
# $Z minmax=FAUX \\\ #
# $Z R=$xTV/SYMETRIE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/SYMETRIE$ROUGE \ #
# $Z AV=$xTV/SYMETRIE$VERTE \ #
# $Z AB=$xTV/SYMETRIE$BLEUE \ #
# $Z R=$xTV/SYMETRIE \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/SYMETRIE \ #
# $Z N=$xTV/GAUSS \ #
# $Z R=$xiirk/NSPH.31 \ #
# $Z $formatI #
# #
# :Fin_listG_NSPH_31: #
# #
v $xiirk/PERC.11.grille p=$xiP/gris.01
v $xiirk/PERC.11.non.vide p=$xiP/gris.01
v $xiirk/PERC.11.non.bouchon p=$xiP/gris.01
v $xiirk/PERC.11.non
v $xiirk/PERC.11.oui.vide p=$xiP/gris.01
v $xiirk/PERC.11.oui
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_PERC_11: #
# #
# $Z Suq #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Xentree=0.29 #
# #
# La valeur 0.29 de l'abscisse du point d'entree est en fait assez arbitraire et a ete #
# obtenu par une suite d'essais et d'erreurs... #
# #
# $Z set _____SeuilNon=0.403274409844307152317456 #
# $Z set _____SeuilOui=0.403274409844307152317455 #
# #
# $m4 _____include(_____xiirk/.PERC.11.1._____U) #
# #
# $Z ext Sdu 0 #
# #
# $Z set _____Connexite="$K_VIDE" #
# $Z set _____Connexite="$_____Connexite"" nord___est=FAUX" #
# $Z set _____Connexite="$_____Connexite"" nord_ouest=FAUX" #
# $Z set _____Connexite="$_____Connexite"" sud_ouest=FAUX" #
# $Z set _____Connexite="$_____Connexite"" sud___est=FAUX" #
# $Z set _____ImageR=$xiirk/PERC.11 #
# #
# $m4 _____include(_____xiirk/.PERC.11.2._____U) #
# #
# :Fin_listG_PERC_11: #
# #
# #
# On notera les valeurs suivantes : #
# #
# Il y a +60.022% de points NOIRs -sites vides- (sans percolation). #
# Il y a +60.028% de points NOIRs -sites vides- (avec percolation). #
# #
# les points NOIRs assurant le passage d'un bord a l'autre... #
v $xiirk/PERC.11.oui.1 p=$xiP/abso.11
v $xiirk/PERC.11.oui.1 p=$xiP/dentscie.12
v $xiirk/PERC.11.oui.1 p=$xiP/vert_orange
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_PERC_11_oui_1: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageA=$xiirk/PERC.11.oui #
# $Z set _____ImageR=$_____ImageA.1 #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____ImageA%s \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z trx=0.5 \ #
# $Z toreX=VRAI \ #
# $Z R=$xTV/PERC.12%s \ #
# $Z $formatI" #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/xxxx.31 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/filtre.01$X \ #
# $Z A=$xTV/PERC.12%s \ #
# $Z N=$xTV/uxxx.31 \ #
# $Z R=$xTV/PERC.13%s \ #
# $Z seuil=250 \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/PERC.13 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/lissage$X \ #
# $Z passes=20 \ #
# $Z standard=FAUX \ #
# $Z navap=VRAI \ #
# $Z R=$xTV/PERC.15 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/PERC.15 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/PERC.13%s \ #
# $Z avion=VRAI \ #
# $Z R=$xTV/PERC.16%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/PERC.16 \ #
# $Z $formatI | \ #
# $Z $xci/transpose$X \ #
# $Z R=$_____ImageR \ #
# $Z $formatI #
# #
# :Fin_listG_PERC_11_oui_1: #
# #
v $xiirk/PERC.12.grille p=$xiP/gris.01
v $xiirk/PERC.12.non.vide p=$xiP/gris.01
v $xiirk/PERC.12.non.bouchon p=$xiP/gris.01
v $xiirk/PERC.12.non
v $xiirk/PERC.12.oui.vide p=$xiP/gris.01
v $xiirk/PERC.12.oui
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_PERC_12: #
# #
# $Z Suq #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Xentree=0.40 #
# #
# La valeur 0.31 de l'abscisse du point d'entree est en fait assez arbitraire et a ete #
# obtenu par une suite d'essais et d'erreurs... #
# #
# $Z set _____SeuilNon=0.6130 #
# $Z SET _____ForcerPoints=$EXIST #
# $Z set _____LXPoints=(17 92) #
# $Z set _____LYPoints=(42 112) #
# #
# Ne pas oublier que les images "finales" subissent, apres tous les calculs, une symetrie #
# par rapport a 'OX' (et ce afin que le "liquide" semble aller du haut vers le bas...) et #
# donc les coordonnees '$_____LYPoints' doivent aussi subir cette symetrie par rapport a 'OX' #
# si elles sont determinees en regardant ces fameuses images "finales"... #
# #
# On notera de plus que les valeurs {{17 92},{42 112}} sont valables pour le format 'Suq' #
# uniquement... #
# #
# $m4 _____include(_____xiirk/.PERC.11.1._____U) #
# #
# $Z ext Sdu 0 #
# #
# $Z set _____Connexite="$K_VIDE" #
# $Z set _____Connexite="$_____Connexite"" nord___est=VRAI" #
# $Z set _____Connexite="$_____Connexite"" nord_ouest=VRAI" #
# $Z set _____Connexite="$_____Connexite"" sud_ouest=VRAI" #
# $Z set _____Connexite="$_____Connexite"" sud___est=VRAI" #
# $Z set _____ImageR=$xiirk/PERC.12 #
# #
# $m4 _____include(_____xiirk/.PERC.11.2._____U) #
# #
# :Fin_listG_PERC_12: #
# #
# #
# On notera les valeurs suivantes : #
# #
# Il y a +39.441% de points NOIRs -sites vides- (sans percolation). #
# Il y a +39.453% de points NOIRs -sites vides- (avec percolation). #
# #
# les points NOIRs assurant le passage d'un bord a l'autre... #
v $xiirk/RDNW.51.0512
Pal ; $xci/display$X A=$xiirk/RDNW.51.0512$ROUGE p=$xiP/arc_ciel.03 $formatI
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 1 / 003764_004275 #
# #
v $xiirk/RDNW.52.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 1 / 004276_004787 #
# #
v $xiirk/RDNW.53.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 1 / 004788_005299 #
# #
v $xiirk/RDNW.61.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 1 / 018195_018706 #
# #
v $xiirk/RDNW.71.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 1 / 026649_027160 #
# #
v $xiirk/RDNW.71$Fi
Std ; $xci/display$X A=$xiirk/RDNW.71$Fi$VERTE p=$xiP/fractal.91 d=2 animation=VRAI increment=1 NOIR=FAUX $formatI
# Ceci est le resultat de l'accumulation par '$xci/accumule.02$X' avec les options #
# 'binariser=FAUX trx=0 try=0' de l'integralite de la sequence : #
# #
# xivPdf 9 1 / 027161_027672 #
# #
v $xiirk/RDNW.81.0512
# Ceci serait la derniere image de la sequence : #
# #
# xivPdf 9 1 / 003764_004275 #
# #
# si on la regenerait avec les parametres suivants : #
# #
# genere $xT/RAYONS 0.028 0.028 (au lieu de '0.014 0.014') #
# #
# pour le premier appel de '$xrk/rdn_walk.21$X', et : #
# #
# genere $xT/RAYONS 0.06 0.06 (au lieu de '0.03 0.03') #
# attenuation_des_trainees=0.95 (au lieu de '0.85') #
# #
# pour le second appel de '$xrk/rdn_walk.21$X'. #
v $xiirk/RDNW.92.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 034270_034781 #
# #
v $xiirk/RDNW.94.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 034843_035354 #
# #
v $xiirk/RDNW.96.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 035355_035866 #
# #
v $xiirk/RDNW.98.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 035867_036378 #
# #
v $xiirk/RDNW.A2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 000513_001024 #
# #
v $xiirk/RDNW.A4.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 001025_001536 #
# #
v $xiirk/RDNW.A6.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 001537_002048 #
# #
v $xiirk/RDNW.A8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 002049_002560 #
# #
v $xiirk/RECS.2.12
# Image obtenue par accumulation ('$xci/accumule.01$X') des 64 premieres images de la #
# sequence : #
# #
# xivPdf 2 1 / 020450_020577 #
# #
v $xiirk/RECS.2.31
# Image obtenue par accumulation ('$xci/accumule.01$X') des 128 premieres images de la #
# sequence, suivie d'une inversion : #
# #
# xivPdf 2 1 / 021346_021473 #
# #
v $xiirk/RECS.3.11
# Vision stereoscopique obtenue par : #
# #
# Pal #
# $xrk/recuit_3D.11$X np=2 essais=25600 points=8 \ #
# RVB=FAUX points=8 stereo=... \ #
# R=$xiirk/RECS.3.11... $formatI #
# #
# ou le parametre 'stereo' vaut +0.10 a '$DROITE' et -0.10 a '$GAUCHE'. #
v $xiirk/RECS.3.12
# Image obtenue par accumulation ('$xci/accumule.01$X') des 64 premieres images de la #
# sequence : #
# #
# xivPdf 2 1 / 020706_020833 #
# #
v $xiirk/RECS.3.12$m
# Images obtenues par la mise en montagne individuelle des trois composantes de l'image #
# '$xiirk/RECS.3.12' suivant : #
# #
# Pal #
# #
# $xci/luminance.01$X AR=$xiirk/RECS.3.12$ROUGE \ #
# AV=$xiirk/RECS.3.12$VERTE \ #
# AB=$xiirk/RECS.3.12$BLEUE \ #
# R=$xT/LUMINANCE \ #
# $formatI #
# #
# $xci/substitue$X A=$xiirk/RECS.3.12.? substitution=L_SUBSTITUTION_02 $formatI | #
# $xci/montagne.01$X A=$xT/LUMINANCE R=$xiirk/RECS.3.12$m.? avion=VRAI $formatI #
# #
v $xiirk/RECS.3.13
# Image obtenue par accumulation ('$xci/accumule.01$X') des 128 premieres images de la #
# sequence : #
# #
# xivPdf 2 1 / 021664_021791 #
# #
v $xiirk/REFL.11.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 022811_023322 #
# #
# qui montre de la reflexion dans un billiard rectangulaire bidimensionnel avec 64 particules #
# initialement non isotropes. #
v $xiirk/REFL.12.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 026718_027229 #
# #
# qui montre de la reflexion dans un billiard rectangulaire bidimensionnel avec 64 particules #
# initialement isotropes et sans collisions ulterieures. #
v $xiirk/REFL.13.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 028766_029277 #
# #
# qui montre de la reflexion dans un billiard rectangulaire bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures. #
v $xiirk/REFL.21.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 023323_023834 #
# #
# qui montre de la reflexion dans un billiard de Mandelbrot bidimensionnel avec 64 particules #
# initialement non isotropes (avec malheureusement quelques boules refractees). #
v $xiirk/REFL.22.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 025371_025882 #
# #
# qui montre de la reflexion dans un billiard de Mandelbrot bidimensionnel avec 64 particules #
# initialement isotropes et sans collisions ulterieures. #
v $xiirk/REFL.23.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 027742_028253 #
# #
# qui montre de la reflexion dans un billiard de Mandelbrot bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures. #
v $xiirk/REFL.31.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 023835_024346 #
# #
# qui montre de la reflexion dans un double billiard rectangulaire bidimensionnel avec 64 #
# particules initialement isotropes (avec malheureusement quelques boules refractees). #
v $xiirk/REFL.32.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 025883_026394 #
# #
# qui montre de la reflexion dans un double billiard rectangulaire bidimensionnel avec 64 #
# particules initialement isotropes et sans collisions ulterieures. #
v $xiirk/REFL.33.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 028254_028765 #
# #
# qui montre de la reflexion dans un double billiard rectangulaire bidimensionnel avec 64 #
# particules initialement isotropes et avec collisions ulterieures. #
v $xiirk/REFL.42.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 027230_027741 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski bidimensionnel avec 64 particules #
# initialement isotropes et sans collisions ulterieures. #
v $xiirk/REFL.43.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 029278_029789 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures. #
v $xiirk/RE.53$M.0032
v $xiirk/RE.53$M.0064
v $xiirk/RE.53$M.0128
v $xiirk/RE.53$M.0256
v $xiirk/RE.53$M.0512
# Quelques images ('0032', '0064', '0128', '0256' et '0512') de la sequence : #
# #
# xivPdf 11 1 / 030302_030813 #
# #
# qui montre de la reflexion dans un billiard rectangulaire bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures, avec une mise en montagne filtree. #
v $xiirk/RE.53$m.0032
v $xiirk/RE.53$m.0064
v $xiirk/RE.53$m.0128
v $xiirk/RE.53$m.0256
v $xiirk/RE.53$m.0512
# Quelques images ('0032', '0064', '0128', '0256' et '0512') de la sequence : #
# #
# xivPdf 11 1 / 029790_030301 #
# #
# qui montre de la reflexion dans un billiard rectangulaire bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures, avec une mise en montagne filtree. #
v $xiirk/RE.83$M.0032
v $xiirk/RE.83$M.0064
v $xiirk/RE.83$M.0128
v $xiirk/RE.83$M.0256
v $xiirk/RE.83$M.0512
# Quelques images ('0032', '0064', '0128', '0256' et '0512') de la sequence : #
# #
# xivPdf 11 1 / 030814_031325 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures, avec une mise en montagne filtree. #
v $xiirk/RE.83$m.0032
v $xiirk/RE.83$m.0064
v $xiirk/RE.83$m.0128
v $xiirk/RE.83$m.0256
v $xiirk/RE.83$m.0512
# Quelques images ('0032', '0064', '0128', '0256' et '0512') de la sequence : #
# #
# xivPdf 11 1 / 031326_031837 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski bidimensionnel avec 64 particules #
# initialement isotropes et avec collisions ulterieures, avec une mise en montagne filtree. #
v $xiirk/REFL.91.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 1 / 031966_032477 #
# #
# qui montre de la reflexion dans un billiard flocon de neige bidimensionnel avec 64 #
# particules initialement isotropes et avec collisions ulterieures. #
v $xiirk/REFL.A2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 005633_006144 #
# #
v $xiirk/REFL.A4.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 006145_006656 #
# #
v $xiirk/REFL.A6.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 006657_007168 #
# #
v $xiirk/REFL.A8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 007169_007680 #
# #
v $xiirk/REFL.B1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 007681_008192 #
# #
v $xiirk/REFL.C1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 008193_008704 #
# #
v $xiirk/REFL.C2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 014849_015360 #
# #
v $xiirk/REFL.C3.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 013313_013824 #
# #
v $xiirk/REFL.D2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 008705_009216 #
# #
v $xiirk/REFL.D4.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 009217_009728 #
# #
v $xiirk/REFL.D6.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 009729_010240 #
# #
v $xiirk/REFL.D8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 010241_010752 #
# #
v $xiirk/RE.E6$m.0512
# Image 0512 de la sequence : #
# #
# xivPdf 11 2 / 010753_011264 #
# #
# qui montre de la reflexion dans un billiard rectangulaire avec 64 particules et leur #
# centre de gravite, avec une mise en montagne filtree. #
v $xiirk/RE.F6$m.0512
# Image 0512 de la sequence : #
# #
# xivPdf 11 2 / 011265_011776 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski avec 64 particules et leur #
# centre de gravite, avec une mise en montagne filtree. #
v $xiirk/RE.G6$M.0512
v $xiirk/RE.G6$m.0512
# Images 0512 des sequences : #
# #
# xivPdf 11 2 / 012289_012800 #
# xivPdf 11 2 / 012801_013312 #
# #
# qui montre de la reflexion dans un billiard rectangulaire avec 64 particules et leur #
# centre de gravite, avec une mise en montagne filtree. #
v $xiirk/RE.H6$M.0512
v $xiirk/RE.H6$m.0512
# Images 0512 des sequences : #
# #
# xivPdf 11 2 / 013825_014336 #
# xivPdf 11 2 / 014337_014848 #
# #
# qui montre de la reflexion dans un billiard de Sierpinski avec 64 particules et leur #
# centre de gravite, avec une mise en montagne filtree. #
v $xiirk/REFL.I2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 015873_016384 #
# #
v $xiirk/REFL.I4.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 016385_016896 #
# #
v $xiirk/REFL.I6.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 016897_017408 #
# #
v $xiirk/REFL.I8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 017409_017920 #
# #
v $xiirk/REFL.J8.0256
v $xiirk/REFL.J8.0512
# Ce sont les images '0256' et '0512' de la sequence : #
# #
# xivPdf 11 2 / 018098_018609 #
# #
v $xiirk/REFL.K8.0256
v $xiirk/REFL.K8.0512
# Ce sont les images '0256' et '0512' de la sequence : #
# #
# xivPdf 11 2 / 018610_019121 #
# #
v $xiirk/REFL.L8.0256
v $xiirk/REFL.L8.0512
# Ce sont les images '0256' et '0512' de la sequence : #
# #
# xivPdf 11 2 / 019122_019633 #
# #
v $xiirk/REFL.M2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 019634_020145 #
# #
v $xiirk/REFL.M4.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 020146_020657 #
# #
v $xiirk/REFL.M6.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 020658_021169 #
# #
v $xiirk/REFL.M8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 021170_021681 #
# #
v $xiirk/REFL.N8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 023346_023857 #
# #
v $xiirk/REFL.O8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 023858_024369 #
# #
v $xiirk/REFL.P8.1024
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 024370_025393 #
# #
v $xiirk/REFL.Q8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 025522_026033 #
# #
v $xiirk/REFL.R8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 026034_026545 #
# #
v $xiirk/REFL.S8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 026546_027057 #
# #
v $xiirk/REFL.T8.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 027284_027795 #
# #
v $xiirk/REFL.U1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 027796_028307 #
# #
v $xiirk/REFL.Y1.0256
v $xiirk/REFL.Y1.0512
# Ce sont les images '0256' et '0512' de la sequence : #
# #
# xivPdf 11 2 / 030996_031507 #
# #
# en notant bien qu'elle a ete recalculee le 19981005090605 (sur '$LACT29') en remplacant #
# '$xrk/rdn_walk.41$X' par '$xrk/rdn_walk.51$X' afin de tester ce dernier, mais qu'elle n'a #
# pas ete reenregistree... #
v $xiirk/REFL.b1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 11 2 / 035604_036115 #
# #
v $xiirk/REFL.b2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 2 / 000001_000512 #
# #
v $xiirk/REFL.d1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 9 2 / 002972_003483 #
# #
v $xiirk/RE.k$Fi.0128
v $xiirk/RE.k$Fi.0512
# Montre les images '0128' et '0512' de la sequence : #
# #
# xivPdf 9 2 / 011548_012059 #
# #
v $xiirk/RE.l$Fi.0128
v $xiirk/RE.l$Fi.0512
# Montre les images '0128' et '0512' de la sequence : #
# #
# xivPdf 9 2 / 012572_013083 #
# #
v $xiirk/RE.l$Fi.0.0 p=$xiP/trou_noir.A4
v $xiirk/RE.l$Fi.0.1 p=$xiP/trou_noir.A4
v $xiirk/RE.l$Fi.1.0 p=$xiP/trou_noir.A4
v $xiirk/RE.l$Fi.1.1 p=$xiP/trou_noir.A4
# Images obtenues par l'accumulation ('$xci/accumule.02$X') de la composante '$ROUGE' de #
# la sequence : #
# #
# xivPdf 9 2 / 012572_013083 #
# #
# avec les options respectives : #
# #
# 0.0 inverser=FAUX binariser=FAUX trx=0.0008 try=0.0008 #
# 0.1 inverser=FAUX binariser=VRAI trx=0.0008 try=0.0008 #
# 1.0 inverser=VRAI binariser=FAUX trx=0.0008 try=0.0008 #
# 1.1 inverser=VRAI binariser=VRAI trx=0.0008 try=0.0008 #
# #
v $xiirk/REFL.l1.0128
v $xiirk/REFL.l1.0512
# Montre les images '0128' et '0512' de la sequence : #
# #
# xivPdf 9 2 / 013084_013595 #
# #
v $xiirk/REFL.n1.0064
v $xiirk/REFL.n1.0128
v $xiirk/REFL.n1.0256
v $xiirk/REFL.n1.0512
v $xiirk/REFL.n1.0512 p=$xiP/fractal.11
v $xiirk/REFL.n1.0512 p=$xiP/dentscie.02
v $xiirk/REFL.n1.0512 p=$xiP/dentscie.04
v $xiirk/REFL.n1.0512 p=$xiP/dentscie.08
# Montre quatre accumulations de la sequence : #
# #
# xivPdf 9 2 / 016031_016542 #
# #
# portant respectivement sur les images : #
# #
# premiere=1 derniere=64 (.0064) #
# premiere=1 derniere=128 (.0128) #
# premiere=1 derniere=256 (.0256) #
# premiere=1 derniere=512 (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 #
# #
# Enfin, l'image fausses couleurs est la luminance de l'image '$xiirk/REFL.n1.0512' obtenue #
# par '$xci/luminance.01$X'. #
v $xiirk/REFL.n3.0064
v $xiirk/REFL.n3.0128
v $xiirk/REFL.n3.0256
v $xiirk/REFL.n3.0512
# Montre quatre accumulations de la sequence : #
# #
# xivPdf 10 2 / 026509_027020 #
# #
# portant respectivement sur les images : #
# #
# premiere=1 derniere=64 (.0064) #
# premiere=1 derniere=128 (.0128) #
# premiere=1 derniere=256 (.0256) #
# premiere=1 derniere=512 (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 #
# #
# On peut voir nettement sur 'v $xiirk/REFL.n3.0512' que quelques particules n'ont pas #
# bouge (elles apparaissent alors parfaitement nettes, contrairement aux autres qui #
# ont bouge et qui possedent donc une trainee...). #
v $xiirk/REFL.o5.0512
# Montre l'image '0512' de la sequence : #
# #
# xivPdf 9 2 / 020127_020638 #
# #
v $xiirk/REFL.q0
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 022175_022686 #
# #
v $xiirk/REFL.q1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 020639_021150 #
# #
v $xiirk/REFL.q2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 021151_021662 #
# #
v $xiirk/REFL.q3
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 021663_022174 #
# #
v $xiirk/REFL.qA
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 022687_023198 #
# #
v $xiirk/REFL.qA.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_REFL_qA_1: #
# #
# $Z Pal #
# #
# $Z execRVB $xci/multi_02.01$X \ #
# $Z A=$xiirk/REFL.qA%s \ #
# $Z carre_image=VRAI iterations=1 \ #
# $Z renormaliser=FAUX \ #
# $Z R=$xiirk/REFL.qA.1%s \ #
# $Z $formatI #
# #
# :Fin_listG_REFL_qA_1: #
# #
v $xiirk/REFL.u1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 029343_029854 #
# #
# avec les options : #
# #
# maximum=VRAI attenuation=1 #
# #
# qui montre un billard bidimensionnel avec visualisation de l'histogramme des modules des #
# vitesses qui est donc en : #
# #
# 2 2 #
# D-1 -k.v 1 -k.v #
# v .e = v .e #
# #
# ou 'D' designe la dimension de l'espace (D=2). #
v $xiirk/REFL.v1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 029855_030366 #
# #
# avec les options : #
# #
# maximum=VRAI attenuation=1 #
# #
# qui montre un billard bidimensionnel avec visualisation de l'histogramme des modules des #
# vitesses qui est donc en : #
# #
# 2 2 #
# D-1 -k.v 2 -k.v #
# v .e = v .e #
# #
# ou 'D' designe la dimension de l'espace (D=3). #
v $xiirk/REFL.v2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 030367_030878 #
# #
# avec les options : #
# #
# maximum=VRAI attenuation=1 #
# #
# qui montre un billard bidimensionnel avec visualisation de l'histogramme des modules des #
# vitesses qui est donc en : #
# #
# 2 2 #
# D-1 -k.v 2 -k.v #
# v .e = v .e #
# #
# ou 'D' designe la dimension de l'espace (D=3). #
v $xiirk/REFL.w2.0512
# Montre l'image '0512' de la sequence : #
# #
# xivPdf 9 2 / 028319_028830 #
# #
# en indiquant avec '$ROUGE' le resultat du calcul sur '$LACT29' (qui correspond donc #
# exactement a 'v $xiak/REFL.n2$R16') et avec '$VERTE' le resultat du calcul sur '$CMAP27'. #
# On voit ainsi sur ce double calcul la sensibilite aux erreurs d'arrondi. #
v $xiirk/RE.x4$m.0130
# Montre l'image '0130' de la sequence : #
# #
# xivPdf 10 2 / 012801_013312 #
# #
v $xiirk/RE.x4$M.0130
# Montre l'image '0130' de la sequence : #
# #
# xivPdf 10 2 / 013313_013824 #
# #
v $xiirk/REFL.y1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 034463_034974 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.9985 #
# #
v $xiirk/REFL.z1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 9 2 / 035487_035998 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.99 #
# #
v $xiirk/REFM.11
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 000513_001024 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.99 #
# #
v $xiirk/REFM.21
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 001025_001536 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.99 #
# #
v $xiirk/REFM.41
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 003585_004096 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.99 #
# #
v $xiirk/REFM.41$Fi p=$xiP/cercle.11
v $xiirk/REFM.41$Fi p=$xiP/dentscie.08
v $xiirk/REFM.41$Fi p=$xiP/dentscie.A8
v $xiirk/REFM.41$Fi p=$xiP/inter.02.11
v $xiirk/REFM.41$Fi p=$xiP/inter.02.12
v $xiirk/REFM.41$Fi p=$xiP/orange.11
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_REFM_41_Fi: #
# #
# $Z set _____imagesA=$xiirk/REFM.41 #
# $Z set _____imagesR=$xiirk/REFM.41$Fi #
# $m4 _____include(_____xiirk/.REFM.41.1._____U) #
# #
# :Fin_listG_REFM_41_Fi: #
# #
v $xiirk/REFM.51.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 004609_005120 #
# #
# qui montre la constitution d'un aggregat fractal par collage dans un champ de gravitation #
# central. #
v $xiirk/REFM.51
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 004609_005120 #
# #
v $xiirk/REFM.52.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 005121_005632 #
# #
# qui montre la constitution d'un aggregat fractal par collage dans un champ de gravitation #
# central plus fort et sur une duree plus longue que '$xiirk/REFM.51'. #
v $xiirk/REFM.52
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 005121_005632 #
# #
v $xiirk/REFM.52$Fi p=$xiP/cercle.11
v $xiirk/REFM.52$Fi p=$xiP/dentscie.08
v $xiirk/REFM.52$Fi p=$xiP/dentscie.A8
v $xiirk/REFM.52$Fi p=$xiP/inter.02.11
v $xiirk/REFM.52$Fi p=$xiP/inter.02.12
v $xiirk/REFM.52$Fi p=$xiP/orange.11
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_REFM_52_Fi: #
# #
# $Z set _____imagesA=$xiirk/REFM.52 #
# $Z set _____imagesR=$xiirk/REFM.52$Fi #
# $m4 _____include(_____xiirk/.REFM.41.1._____U) #
# #
# :Fin_listG_REFM_52_Fi: #
# #
v $xiirk/REFM.53.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 005633_006144 #
# #
# qui montre un billiard bidimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central identique a '$xiirk/REFM.52', mais avec 4 fois plus #
# de particules. #
v $xiirk/REFM.53
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 005633_006144 #
# #
v $xiirk/REFM.54.0512
v $xiirk/REFM.54
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFM.54$R16 #
# #
# qui montre un billiard bidimensionnel identique a 'v $xiak/REFM.53$R16' si ce n'est que #
# la couleur des particules est donnee par 'v $xiit/JFC.F1.F2'... #
v $xiirk/REFM.55.0512
v $xiirk/REFM.55
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFM.55$R16 #
# #
v $xiirk/REFM.56.0512
v $xiirk/REFM.56
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFM.56$R16 #
# #
v $xiirk/REFM.63.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 006145_006656 #
# #
# qui montre un billiard bidimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central identique a '$xiirk/REFM.53', mais ou 50% des #
# particules sont "non collables" (et conservent donc un comportement individuel). #
v $xiirk/REFM.63
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 006145_006656 #
# #
v $xiirk/REFM.63$m p=$xiP/montagnes.91
# Generee (sur '$LACT29') a partir de la sequence : #
# #
# xivPdf 10 2 / 006145_006656 #
# #
# sans les bords du billiard. #
# #
# #
# :Debut_listG_REFM_63_m: #
# #
# $Z set _____imagesA=$xiim/REFL.Wa. #
# $Z set _____imagesR=$xiirk/REFM.63$m #
# $m4 _____include(_____xiirk/.REFM.63.1._____U) #
# #
# :Fin_listG_REFM_63_m: #
# #
v $xiirk/REFM.65.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 015361_015872 #
# #
# qui montre un billiard bidimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central identique a '$xiirk/REFM.63', mais ou les particules #
# "collables" apparaissent en BLANC afin de les distinguer des particules "non collables"... #
# On notera le nom '$xiirk/REFM.65.0512' (et non pas '$xiirk/REFM.64.0512') afin d'eviter #
# une confusion entre ".64" et '$R64'... #
v $xiirk/REFM.65
v $xiirk/REFM.65$HauteDef
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 015361_015872 #
# #
# On notera le nom '$xiirk/REFM.65' (et non pas '$xiirk/REFM.64') afin d'eviter #
# une confusion entre ".64" et '$R64'... #
# #
# Le 20171006080953, cette image a ete recalculee au format 'Pqu' suite a la demande #
# de 'v $xamci/20171003124551 Message.Id...CBAA2E97-2678-412B-B1E0-92B8557BAAFA@gmail.com.'. #
# On notera qu'il y a alors 850 particules dans la boite... #
v $xiirk/REFM.71.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 006657_007168 #
# #
# qui montre un billiard tridimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central. #
v $xiirk/REFM.71
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 006657_007168 #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI #
# attenuation=0.998 #
# #
v $xiirk/REFM.72.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 007169_007680 #
# #
# qui montre un billiard tridimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central sur un temps plus long que '$xiirk/REFM.71' et avec #
# rotation de l'observateur. #
v $xiirk/REFM.72
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 007169_007680 #
# #
v $xiirk/REFM.73.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 008193_008704 #
# #
# qui montre un billiard tridimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central identique a '$xiirk/REFM.72' et avec des petites #
# trainees. #
v $xiirk/REFM.81
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 007681_008192 #
# #
v $xiirk/REFM.91.0512
v $xiirk/REFM.91$VERTE p=$xiP/cercle.11
v $xiirk/REFM.91$VERTE p=$xiP/dentscie.08
v $xiirk/REFM.91$VERTE p=$xiP/orange.11
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 009217_009728 #
# #
# qui montre un billiard tridimensionnel avec immersion dans un champ de gravitation central #
# et avec rotation de l'observateur ; les particules rebondissent donc sur le "coeur" de #
# l'espace. #
v $xiirk/REFM.91
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 009217_009728 #
# #
v $xiirk/REFM.A1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 009729_010240 #
# #
# qui montre un billiard tridimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central et avec rotation de l'observateur. #
v $xiirk/REFM.A1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 009729_010240 #
# #
v $xiirk/REFM.A1.2.11 p=$xiP/gris.01
v $xiirk/REFM.A1.2.11 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 014337_014848 #
# #
# selon : #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.Wb. \ #
# $Z standard=FAUX \ #
# $Z premiere=1 derniere=512 \ #
# $Z attenuation=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z R=$xiirk/REFM.A1.2.11 \ #
# $Z $formatI #
# #
v $xiirk/REFM.A1.2.21.0 p=$xiP/gris.01
v $xiirk/REFM.A1.2.21.0 p=$xiP/trou_noir.94
v $xiirk/REFM.A1.2.21.1 p=$xiP/gris.11
v $xiirk/REFM.A1.2.21.1 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 014337_014848 #
# #
# selon : #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.S. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS \ #
# $Z binariser=VRAI \ #
# $Z trx=0.0006 try=0.0006 \ #
# $Z R=$xiirk/REFM.A1.2.21.0 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.S. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS \ #
# $Z binariser=FAUX \ #
# $Z trx=0.0006 try=0.0006 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiirk/REFM.A1.2.21.1 \ #
# $Z $formatI #
# #
v $xiirk/RE.A1.2$M.21
v $xiirk/RE.A1.2$M.21 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 030093_030604 #
# #
# generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_RE_A1_2_M_21: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/RE.a$M. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z R=$xiirk/RE.A1.2$M.21%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiirk/RE.A1.2$M.21$ROUGE \ #
# $Z AV=$xiirk/RE.A1.2$M.21$VERTE \ #
# $Z AB=$xiirk/RE.A1.2$M.21$BLEUE \ #
# $Z R=$xiirk/RE.A1.2$M.21 \ #
# $Z $formatI #
# #
# :Fin_listG_RE_A1_2_M_21: #
# #
v $xiirk/REFM.A1.3.11 p=$xiP/gris.01
v $xiirk/REFM.A1.3.11 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 014849_015360 #
# #
# selon : #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.Wb. \ #
# $Z standard=FAUX \ #
# $Z premiere=1 derniere=512 \ #
# $Z attenuation=1 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z R=$xiirk/REFM.A1.3.11 \ #
# $Z $formatI #
# #
v $xiirk/REFM.A1.3.21.0 p=$xiP/gris.01
v $xiirk/REFM.A1.3.21.0 p=$xiP/trou_noir.94
v $xiirk/REFM.A1.3.21.1 p=$xiP/gris.11
v $xiirk/REFM.A1.3.21.1 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 014849_015360 #
# #
# selon : #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.U. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS \ #
# $Z binariser=VRAI \ #
# $Z trx=0.0008 try=0.0008 \ #
# $Z R=$xiirk/REFM.A1.3.21.0 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.U. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS \ #
# $Z binariser=FAUX \ #
# $Z trx=0.0008 try=0.0008 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiirk/REFM.A1.3.21.1 \ #
# $Z $formatI #
# #
v $xiirk/REFM.A2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 10 2 / 011265_011776 #
# #
# qui montre un billiard tridimensionnel avec collage lors des collisions pour 50% des #
# particules et immersion dans un champ de gravitation central et avec rotation de #
# l'observateur. #
v $xiirk/REFM.A2
v $xiirk/REFM.A2$ROUGE p=$xiP/orange.11
v $xiirk/REFM.A2$VERTE p=$xiP/orange.11
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 011265_011776 #
# #
v $xiirk/REFM.C1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 013825_014336 #
# #
v $xiirk/REFM.C2.2.11 p=$xiP/altit.01$Fi
v $xiirk/REFM.C2.2.11 p=$xiP/cercle.11
v $xiirk/REFM.C2.2.11 p=$xiP/dentscie.08
v $xiirk/REFM.C2.2.11 p=$xiP/inter.02.11
v $xiirk/REFM.C2.2.11 p=$xiP/inter.02.12
v $xiirk/REFM.C2.2.11 p=$xiP/orange.11
v $xiirk/REFM.C2.2.11 p=$xiP/trou_noir.94
# Generee (sur '$LACT14') par accumulation de la sequence : #
# #
# xivPdf 12 1 / 003073_003584 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_C2_2_11: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.02$X \\\ #
# $Z A=$xiim/REFL.7. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z trx=0 try=0 \\\ #
# $Z R=$xTV/ACCUMULE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xTV/ACCUMULE%s \\\ #
# $Z N=$xTV/GAUSS \\\ #
# $Z seuil=240 \\\ #
# $Z R=$xTV/FILTRE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/FILTRE$ROUGE \ #
# $Z AV=$xTV/FILTRE$VERTE \ #
# $Z AB=$xTV/FILTRE$BLEUE \ #
# $Z R=$xiirk/REFM.C2.2.11 \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_C2_2_11: #
# #
v $xiirk/REFM.D1.1
# Montre la "superposition" de la sequence : #
# #
# xivPdf 10 2 / 029069_029580 #
# #
# suivant : #
# #
# :Debut_listG_REFM_D1_1: #
# #
# $Z Pal #
# #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.Z.0006$ROUGE \ #
# $Z AV=$xiim/REFL.Z.0006$VERTE \ #
# $Z AB=$xiim/REFL.Z.0006$BLEUE \ #
# $Z R=$xiirk/REFM.D1.1$ROUGE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.Z.0259$ROUGE \ #
# $Z AV=$xiim/REFL.Z.0259$VERTE \ #
# $Z AB=$xiim/REFL.Z.0259$BLEUE \ #
# $Z R=$xiirk/REFM.D1.1$VERTE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.Z.0512$ROUGE \ #
# $Z AV=$xiim/REFL.Z.0512$VERTE \ #
# $Z AB=$xiim/REFL.Z.0512$BLEUE \ #
# $Z R=$xiirk/REFM.D1.1$BLEUE \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_D1_1: #
# #
# qui confirme le caractere isotherme de cette detente, puisque les trois histogrammes #
# (correspondant respectivement a {0006,0259,0512}) sont superposes selon le code de #
# couleur {$ROUGE,$VERTE,$BLEUE} respectivement... #
v $xiirk/REFM.D2.1
# Montre la "superposition" de la sequence : #
# #
# xivPdf 10 2 / 030605_031116 #
# #
# suivant : #
# #
# :Debut_listG_REFM_D2_1: #
# #
# $Z Pal #
# #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.b.0006$ROUGE \ #
# $Z AV=$xiim/REFL.b.0006$VERTE \ #
# $Z AB=$xiim/REFL.b.0006$BLEUE \ #
# $Z R=$xiirk/REFM.D2.1$ROUGE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.b.0259$ROUGE \ #
# $Z AV=$xiim/REFL.b.0259$VERTE \ #
# $Z AB=$xiim/REFL.b.0259$BLEUE \ #
# $Z R=$xiirk/REFM.D2.1$VERTE \ #
# $Z $formatI #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/REFL.b.0512$ROUGE \ #
# $Z AV=$xiim/REFL.b.0512$VERTE \ #
# $Z AB=$xiim/REFL.b.0512$BLEUE \ #
# $Z R=$xiirk/REFM.D2.1$BLEUE \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_D2_1: #
# #
# qui confirme le caractere isotherme de cette detente, puisque les trois histogrammes #
# (correspondant respectivement a {0006,0259,0512}) sont superposes selon le code de #
# couleur {$ROUGE,$VERTE,$BLEUE} respectivement... #
v $xiirk/REFM.F2.0512
# Montre une accumulation de la sequence : #
# #
# xivPdf 10 2 / 032653_033164 #
# #
# portant sur les images : #
# #
# premiere=1 derniere=512 (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 #
# #
v $xiirk/REFM.F3.0512
# Montre une accumulation de la sequence : #
# #
# xivPdf 10 2 / 033165_033676 #
# #
# portant sur les images : #
# #
# premiere=1 derniere=512 (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 #
# #
v $xiirk/REFM.G3.0512
# Montre une accumulation de la sequence : #
# #
# xivPdf 10 2 / 033677_034188 #
# #
# portant sur les images : #
# #
# premiere=1 derniere=512 (.0512) #
# #
# #
# par '$xci/accumule.01$X' avec les parametres : #
# #
# maximum=VRAI lineaire=VRAI depart=0.0 arrivee=1.0 #
# #
v $xiirk/REFM.K1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 001025_001536 #
# #
# qui montre un billiard bidimensionnel avec collage de 100% des particules lors des #
# collisions et immersion dans un champ de gravitation vertical. #
v $xiirk/REFM.K1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 001025_001536 #
# #
v $xiirk/REFM.K2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 001537_002048 #
# #
# qui montre un billiard bidimensionnel avec collage de 50% des particules lors des #
# collisions et immersion dans un champ de gravitation vertical. #
v $xiirk/REFM.K2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 001537_002048 #
# #
v $xiirk/REFM.K2.0
v $xiirk/REFM.K2.1 p=$xiP/bleu_roug.01
v $xiirk/REFM.K2.1 p=$xiP/altit.01$Fi
v $xiirk/REFM.K2.1 p=$xiP/cercle.11
v $xiirk/REFM.K2.1 p=$xiP/fract.02$Fi
v $xiirk/REFM.K2.1 p=$xiP/inter.02.12
v $xiirk/REFM.K2.1 p=$xiP/orange.11
v $xiirk/REFM.K2.1 p=$xiP/trou_noir.94
v $xiirk/REFM.K2.4 p=$xiP/bleu_roug.01
v $xiirk/REFM.K2.4 p=$xiP/altit.01$Fi
v $xiirk/REFM.K2.4 p=$xiP/cercle.11
v $xiirk/REFM.K2.4 p=$xiP/fract.02$Fi
v $xiirk/REFM.K2.4 p=$xiP/inter.02.12
v $xiirk/REFM.K2.4 p=$xiP/orange.11
v $xiirk/REFM.K2.4 p=$xiP/trou_noir.94
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_REFM_K2_0_1_4: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/Sy$X \ #
# $Z A=$xiirk/REFM.K2$ROUGE \ #
# $Z R=$xiirk/REFM.K2.0$ROUGE \ #
# $Z $formatI #
# $Z $xci/Sy$X \ #
# $Z A=$xiirk/REFM.K2$VERTE \ #
# $Z R=$xiirk/REFM.K2.0$BLEUE \ #
# $Z $formatI #
# $Z $xci/Sy$X \ #
# $Z A=$xiirk/REFM.K2$BLEUE \ #
# $Z R=$xiirk/REFM.K2.0$VERTE \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xiirk/REFM.K2.0%s \\\ #
# $Z N=$xTV/GAUSS \\\ #
# $Z s=240 \\\ #
# $Z R=$xTV/REFM.2%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/REFM.2$ROUGE \ #
# $Z AV=$xTV/REFM.2$VERTE \ #
# $Z AB=$xTV/REFM.2$BLEUE \ #
# $Z R=$xiirk/REFM.K2.1 \ #
# $Z $formatI #
# #
# $Z $xci/tapisserie$X \ #
# $Z A=$xiirk/REFM.K2.1 \ #
# $Z R=$xiirk/REFM.K2.4 \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_K2_0_1_4: #
# #
v $xiirk/REFM.L1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 002049_002560 #
# #
# qui montre un billiard tridimensionnel avec collage de 100% des particules lors des #
# collisions et immersion dans un champ de gravitation vertical. #
v $xiirk/REFM.L1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 002049_002560 #
# #
v $xiirk/REFM.L1.2.11 p=$xiP/altit.01$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/cercle.11
v $xiirk/REFM.L1.2.11 p=$xiP/dentscie.08
v $xiirk/REFM.L1.2.11 p=$xiP/fract.02$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/inter.02.11
v $xiirk/REFM.L1.2.11 p=$xiP/inter.02.12
v $xiirk/REFM.L1.2.11 p=$xiP/orange.11
v $xiirk/REFM.L1.2.11 p=$xiP/random.03$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/random.11$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/random.12$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/random.13$Fi
v $xiirk/REFM.L1.2.11 p=$xiP/trou_noir.94
v $xiirk/REFM.L1.2.11 p=$xiP/trou_noir.C4
# Generee (sur '$LACT14') par accumulation de la sequence : #
# #
# xivPdf 12 1 / 002049_002560 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_L1_2_11: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.02$X \\\ #
# $Z A=$xiim/REFL.5. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z R=$xTV/ACCUMULE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xTV/ACCUMULE%s \\\ #
# $Z N=$xTV/GAUSS \\\ #
# $Z seuil=240 \\\ #
# $Z R=$xTV/FILTRE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/FILTRE$ROUGE \ #
# $Z AV=$xTV/FILTRE$VERTE \ #
# $Z AB=$xTV/FILTRE$BLEUE \ #
# $Z R=$xiirk/REFM.L1.2.11 \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_L1_2_11: #
# #
v $xiirk/REFM.L1.2.21 p=$xiP/inter.02.12
v $xiirk/REFM.L1.2.21 p=$xiP/random.11$Fi
v $xiirk/REFM.L1.2.22 p=$xiP/inter.02.12
v $xiirk/REFM.L1.2$m p=$xiP/montagnes.91
# Generee (sur '$LACT14') par les transformations suivantes de la sequence : #
# #
# xivPdf 12 1 / 008705_009216 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_L1_2_m: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.I. \ #
# $Z premiere=1 derniere=512 \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI depart=0.1 arrivee=1.0 \ #
# $Z R=$xiirk/REFM.L1.2.21 \ #
# $Z $formatI #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.I. \ #
# $Z premiere=1 derniere=512 inverser=VRAI \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI depart=0.1 arrivee=1.0 \ #
# $Z R=$xiirk/REFM.L1.2.22 \ #
# $Z $formatI #
# #
# $Z $xci/minmax$X \ #
# $Z A1=$xiirk/REFM.L1.2.21 \ #
# $Z A2=$xiirk/REFM.L1.2.22 \ #
# $Z R=$xT/ACCUMULE \ #
# $Z $formatI #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$xT/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xT/ACCUMULE \ #
# $Z T=$xT/TEXTURE \ #
# $Z avion=VRAI \ #
# $Z R=$xiirk/REFM.L1.2$m \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_L1_2_m: #
# #
v $xiirk/REFM.L2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 002561_003072 #
# #
# qui montre un billiard tridimensionnel avec collage de 50% des particules lors des #
# collisions et immersion dans un champ de gravitation vertical. #
v $xiirk/REFM.L2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 002561_003072 #
# #
v $xiirk/REFM.M1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 003585_004096 #
# #
v $xiirk/REFM.M1.2.11 p=$xiP/altit.01$Fi
v $xiirk/REFM.M1.2.11 p=$xiP/cercle.11
v $xiirk/REFM.M1.2.11 p=$xiP/dentscie.08
v $xiirk/REFM.M1.2.11 p=$xiP/fract.02$Fi
v $xiirk/REFM.M1.2.11 p=$xiP/inter.02.11
v $xiirk/REFM.M1.2.11 p=$xiP/inter.02.12
v $xiirk/REFM.M1.2.11 p=$xiP/orange.11
v $xiirk/REFM.M1.2.11 p=$xiP/trou_noir.94
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_REFM_M1_2_11: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/filtre.01$X \\\ #
# $Z A=$xiirk/REFM.M1%s \\\ #
# $Z N=$xTV/GAUSS \\\ #
# $Z seuil=240 \\\ #
# $Z R=$xTV/FILTRE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xTV/FILTRE$ROUGE \ #
# $Z AV=$xTV/FILTRE$VERTE \ #
# $Z AB=$xTV/FILTRE$BLEUE \ #
# $Z R=$xiirk/REFM.M1.2.11 \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_M1_2_11: #
# #
v $xiirk/REFM.N2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 004609_005120 #
# #
# qui montre un billiard tridimensionnel avec collage de 50% des particules lors des #
# collisions et immersion dans un champ de gravitation central. #
v $xiirk/REFM.N2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 004609_005120 #
# #
v $xiirk/REFM.O1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 005121_005632 #
# #
v $xiirk/REFM.P3.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 006145_006656 #
# #
# qui montre un billiard bidimensionnel avec collage lors des collisions et immersion #
# dans un champ de gravitation central, les vitesses initiales des particules etant nulles. #
v $xiirk/REFM.P3
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 006145_006656 #
# #
v $xiirk/REFM.Q1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 006657_007168 #
# #
v $xiirk/REFM.R1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 007681_008192 #
# #
v $xiirk/REFM.S1.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 009217_009728 #
# #
# qui montre un aggregat obtenu par collage dans un billiard bidimensionnel immerge #
# dans un champ de gravitation central, avec un champ des vitesses initiales a fortes #
# symetries. #
v $xiirk/REFM.S1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 009217_009728 #
# #
v $xiirk/REFM.S2.0512
# Ceci est la derniere image de la sequence : #
# #
# xivPdf 12 1 / 010241_010752 #
# #
# qui montre un aggregat obtenu par collage dans un billiard bidimensionnel immerge #
# dans un champ de gravitation central, avec un champ des vitesses initiales a tres fortes #
# symetries. #
v $xiirk/REFM.S2
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 010241_010752 #
# #
v $xiirk/REFM.U1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 011777_012288 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_U1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xTV/BOITE.3. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/BOITES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/REFL.Wa. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/PARTICULES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/PARTICULES \ #
# $Z $xTV/BOITES \ #
# $Z $xiirk/REFM.U1 #
# #
# :Fin_listG_REFM_U1: #
# #
v $xiirk/REFM.V1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 012801_013312 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_V1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xTV/BOITE.3. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/BOITES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/REFL.Wa. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/PARTICULES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/PARTICULES \ #
# $Z $xTV/BOITES \ #
# $Z $xiirk/REFM.V1 #
# #
# :Fin_listG_REFM_V1: #
# #
v $xiirk/REFM.W1
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 013825_014336 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_W1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xTV/BOITE.3. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/BOITES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/REFL.Wa. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xTV/PARTICULES%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/PARTICULES \ #
# $Z $xTV/BOITES \ #
# $Z $xiirk/REFM.W1 #
# #
# :Fin_listG_REFM_W1: #
# #
v $xiirk/REFM.Y1
v $xiirk/REFM.Y1$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.Y1$VERTE p=$xiP/fractal.31
v $xiirk/REFM.Y1$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.Y1$R16 #
# #
# par : #
# #
# #
# :Debut_listG_REFM_Y1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/REFL.1. \\\ #
# $Z postfixe=%s \\\ #
# $Z inverser=VRAI \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.Y1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_REFM_Y1: #
# #
v $xiirk/REFM.Y2
v $xiirk/REFM.Y2$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.Y2$VERTE p=$xiP/fractal.31
v $xiirk/REFM.Y2$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.Y2$R16 #
# #
v $xiirk/REFM.Y3
v $xiirk/REFM.Y3$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.Y3$VERTE p=$xiP/fractal.31
v $xiirk/REFM.Y3$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.Y3$R16 #
# #
v $xiirk/REFM.Y4
v $xiirk/REFM.Y4$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.Y4$VERTE p=$xiP/fractal.31
v $xiirk/REFM.Y4$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.Y4$R16 #
# #
v $xiirk/REFM.Z1
v $xiirk/REFM.Z1.1
# Montre l'accumulation (sur '$LACT16') d'une sequence similaire a : #
# #
# xivPdf 9 2 / 034975_035486 #
# #
# (mais avec 4 fois plus de particules) par : #
# #
# #
# :Debut_listG_REFM_Z1: #
# #
# $Z set _____DistanceX=13 #
# $Z set _____DistanceY=13 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=1.0 #
# $Z set _____Finter=0.90 #
# $Z set _____MVitesse=0.02 #
# $Z set _____Minimum=0.499 #
# $Z set _____Maximum=0.501 #
# $Z set _____MinimumM=1 #
# $Z set _____IntermediaireM=1000000 #
# $Z set _____MaximumM=1 #
# $Z set _____MinimumR=1.2 #
# $Z set _____IntermediaireR=1.8 #
# $Z set _____MaximumR=1.2 #
# $Z set _____MinimumV=1.0 #
# $Z set _____IntermediaireV=0.0 #
# $Z set _____MaximumV=1.0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____MinimumK=1 #
# $Z set _____IntermediaireK=$COULEURS #
# $Z set _____MaximumK=1 #
# $Z set _____MinimumL=0 #
# $Z set _____IntermediaireL=1 #
# $Z set _____MaximumL=0 #
# $Z set Amplitude_T=0.000 #
# $Z set _____ThetaMin=`$xcg/SOUS.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____ThetaMax=`$xcg/ADD2.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____MinimumCY=1.0 #
# $Z set _____IntermediaireCY=0.98 #
# $Z set _____MaximumCY=1.0 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.x.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.52._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.s.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.u.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.w.53._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.81._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.t.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# #
# $Z set _____Milieu=FAUX #
# $Z set _____Periodiser=VRAI #
# $Z set _____Dct=0.02 #
# $Z set _____Nombre=50 #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.Z1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=400 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.Z1.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_REFM_Z1: #
# #
# #
# qui montre les trajectoires des particules dans un fluide bidimensionnel... #
v $xiirk/REFM.a1
v $xiirk/REFM.a1.1
# Montre l'accumulation (sur '$LACT16') d'une sequence similaire a : #
# #
# xivPdf 9 2 / 034975_035486 #
# #
# (mais avec 4 fois plus de particules) par : #
# #
# #
# :Debut_listG_REFM_a1: #
# #
# $Z set _____DistanceX=13 #
# $Z set _____DistanceY=13 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=1.0 #
# $Z set _____Finter=0.90 #
# $Z set _____MVitesse=0.02 #
# $Z set _____Minimum=0.499 #
# $Z set _____Maximum=0.501 #
# $Z set _____MinimumM=1 #
# $Z set _____IntermediaireM=1000000 #
# $Z set _____MaximumM=1 #
# $Z set _____MinimumR=1.2 #
# $Z set _____IntermediaireR=1.8 #
# $Z set _____MaximumR=1.2 #
# $Z set _____MinimumV=1.0 #
# $Z set _____IntermediaireV=0.0 #
# $Z set _____MaximumV=1.0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____MinimumK=1 #
# $Z set _____IntermediaireK=$COULEURS #
# $Z set _____MaximumK=1 #
# $Z set _____MinimumL=0 #
# $Z set _____IntermediaireL=1 #
# $Z set _____MaximumL=0 #
# $Z set Amplitude_T=0.000 #
# $Z set _____ThetaMin=`$xcg/SOUS.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____ThetaMax=`$xcg/ADD2.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____MinimumCY=1.0 #
# $Z set _____IntermediaireCY=0.98 #
# $Z set _____MaximumCY=1.0 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.x.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.52._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.s.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.u.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.w.53._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.81._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.t.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# #
# $Z set _____Milieu=FAUX #
# $Z set _____Periodiser=VRAI #
# $Z set _____Dct=0.02 #
# $Z set _____Nombre=10 #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.a1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=400 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.a1.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_REFM_a1: #
# #
# #
# qui montre les trajectoires des particules dans un fluide bidimensionnel sur une duree #
# cinq fois plus courte que pour 'v $xiirk/REFM.Z1'... #
v $xiirk/REFM.a2
v $xiirk/REFM.a2.1
# Montre l'accumulation (sur '$CMAP28') d'une sequence similaire a : #
# #
# xivPdf 9 2 / 034975_035486 #
# #
# (mais avec 4 fois plus de particules) par : #
# #
# #
# :Debut_listG_REFM_a2: #
# #
# $Z set _____DistanceX=13 #
# $Z set _____DistanceY=13 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=1.0 #
# $Z set _____Finter=0.90 #
# $Z set _____MVitesse=0.02 #
# $Z set _____Minimum=0.499 #
# $Z set _____Maximum=0.501 #
# $Z set _____MinimumM=1 #
# $Z set _____IntermediaireM=1000000 #
# $Z set _____MaximumM=1 #
# $Z set _____MinimumR=1.2 #
# $Z set _____IntermediaireR=1.8 #
# $Z set _____MaximumR=1.2 #
# $Z set _____MinimumV=4.0 #
# $Z set _____IntermediaireV=0.0 #
# $Z set _____MaximumV=4.0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____MinimumK=1 #
# $Z set _____IntermediaireK=$COULEURS #
# $Z set _____MaximumK=1 #
# $Z set _____MinimumL=0 #
# $Z set _____IntermediaireL=1 #
# $Z set _____MaximumL=0 #
# $Z set Amplitude_T=0.000 #
# $Z set _____ThetaMin=`$xcg/SOUS.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____ThetaMax=`$xcg/ADD2.01$X a=0.0 b=$Amplitude_T` #
# $Z set _____MinimumCY=1.0 #
# $Z set _____IntermediaireCY=0.98 #
# $Z set _____MaximumCY=1.0 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.x.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.52._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.s.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.u.83._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.w.53._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.81._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.t.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# #
# $Z set _____Milieu=FAUX #
# $Z set _____Periodiser=VRAI #
# $Z set _____Dct=0.02 #
# $Z set _____Nombre=10 #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.a2%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$_____imagesW. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=400 derniere=512 \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiirk/REFM.a2.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_REFM_a2: #
# #
# #
# qui montre les trajectoires des particules dans un fluide bidimensionnel quatre fois #
# plus rapide que pour 'v $xiirk/REFM.a1'... #
v $xiirk/REFM.b1.0512
v $xiirk/REFM.b1
# Montre la derniere image et l'accumulation de 'v $xiak/REFM.b1$R16'... #
v $xiirk/REFM.d3.0128
v $xiirk/REFM.d3
# Montre la derniere image et l'accumulation de 'v $xiak/REFM.d3$R16'... #
v $xiirk/REFM.e3.0
v $xiirk/REFM.e3.1024
v $xiak/REFM.e3$R16
v $xiak/REFM.e3$R64
v $xiirk/REFM.e3.1
v $xiirk/REFM.e3.2
v $xiirk/REFM.e3.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_REFM_e3: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=1024 #
# #
# $Z SET cPremiere=$tPremiereA #
# $Z SET cDerniere=$tDerniereA #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z SETENV _____ImageT1 $xTV/REFM.e1 #
# $Z setenv _____ImageT2 $xTV/REFM.e2 #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=40 #
# $Z set _____DistanceY=40 #
# $Z set _____Lignes=FAUX #
# $Z set _____RayonsP=0.020 #
# $Z set _____FacteurPsI=1.0 #
# $Z set _____Finter=0.80 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.21._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.41._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.43._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.52._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.42._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0002 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Restitution=1.0 #
# $Z set _____Dct=0.005 #
# $Z set _____Nombre=19 #
# $Z SET _____imagesW=$_____ImageT1 #
# #
# $Z set _____imagesR=$xiirk/REFM.e3 #
# $Z set _____images=$xTV/REFM.e3 #
# $Z set _____animation=$xiak/REFM.e3 #
# $Z set _____accumulation=$_____imagesR.0 #
# $Z set _____last=$_____imagesR #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.11._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.12._____U) #
# #
# $Z set ArGuMeNtS="$K_VIDE" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" A=$_____ImageT1.%04d" #
# $Z set ArGuMeNtS="$ArGuMeNtS"" R=$_____ImageT1.%04d" #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $cPremiere $cDerniere $xci/luminance.01$X $ArGuMeNtS $formatI #
# #
# $Z $xci/neutra$X \ #
# $Z A=$_____ImageT1. \ #
# $Z inverserA=FAUX \ #
# $Z premiere=$cPremiere \ #
# $Z R=$_____ImageT1. \ #
# $Z inverserR=VRAI \ #
# $Z $formatI \ #
# $Z Zmin=`calcul $cPremiere-$cPremiere` \ #
# $Z Zmax=`calcul $cDerniere-$cPremiere` #
# #
# Afin de faire apparaitre l'agregat fractal au premier plan, j'avais essaye de faire : #
# #
# inverser_ZA=FAUX #
# inverser_ZT=FAUX #
# #
# dans 'v $xiirc/.MANE.41.4.$u _____ParamAccumule', mais cela ne fonctionne pas (et est #
# risque a modifier...) a cause tres certainement de la source lumineuse d'ombrage, d'ou #
# cette solution (implemente via 'v $xiii/files$FON 20181101120955'...). #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set _____ImageTT=$_____ImageTo #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_REFM_e3: #
# #
# #
# Donne une version tridimensionnelle de 'v $xiak/REFM.53$R16' avec 484 particules... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:25:23 #
# #
# $xci/accumule.42$X : 00:21:51 #
# #
v $xiirk/REFM.f1.0
v $xiak/REFM.f1$R16
v $xiak/REFM.f1$R64
v $xiirk/REFM.f1.1
v $xiirk/REFM.f1.2
v $xiirk/REFM.f1.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_f1: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=36 #
# $Z set _____DistanceY=36 #
# $Z set _____DistanceZ=36 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.f1 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.f1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=10 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_f1: #
# #
# #
# Image inspiree de 'v $xiirk/REFM (avec 3375 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:25:50 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:04 #
# #
# $xci/ombrage.11$X : 00:01:44 #
# #
# $xci/accumule.42$X : 00:07:16 #
# #
v $xiirk/REFM.f2.0
v $xiak/REFM.f2$R16
v $xiak/REFM.f2$R64
v $xiirk/REFM.f2.1
v $xiirk/REFM.f2.2
v $xiirk/REFM.f2.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_f2: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.f2 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.f2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=20 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_f2: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.A1.0512' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:44 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:05 #
# #
# $xci/ombrage.11$X : 00:01:43 #
# #
# $xci/accumule.42$X : 00:10:28 #
# #
v $xiirk/REFM.f3.0
v $xiak/REFM.f3$R16
v $xiak/REFM.f3$R64
v $xiirk/REFM.f3.1
v $xiirk/REFM.f3.2
v $xiirk/REFM.f3.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_f3: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.f3 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.f3 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=40 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_f3: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.A1.0512' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:44 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:13 #
# #
# $xci/ombrage.11$X : 00:02:13 #
# #
# $xci/accumule.42$X : 00:24:34 #
# #
v $xiirk/REFM.g3.0
v $xiak/REFM.g3$R16
v $xiak/REFM.g3$R64
v $xiirk/REFM.g3.1
v $xiirk/REFM.g3.2
v $xiirk/REFM.g3.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_g3: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.g3 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.g3 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=5 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_g3: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.A1.0512' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:59 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:04 #
# #
# $xci/ombrage.11$X : 00:01:10 #
# #
# $xci/accumule.42$X : 00:06:35 #
# #
v $xiirk/REFM.g4.0
v $xiirk/REFM.g4.1
v $xiirk/REFM.g4.2
v $xiirk/REFM.g4.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_g4: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.g4 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xTV/REFM.g4 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=10 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_g4: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.A1.0512' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:59 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:06 #
# #
# $xci/ombrage.11$X : 00:01:25 #
# #
# $xci/accumule.42$X : 00:07:36 #
# #
v $xiirk/REFM.h4.0
v $xiirk/REFM.h4.1
v $xiirk/REFM.h4.2
v $xiirk/REFM.h4.21
# Generee (sur '$CMAP28' -ex "republique"-) par : #
# #
# #
# :Debut_listG_REFM_h4: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.h4 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xTV/REFM.h4 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# $Z set _____DemiPave=10 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=0 #
# $Z SET _____MaxNormaliserX=1 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=0 #
# $Z SET _____MaxNormaliserY=1 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=0 #
# $Z SET _____MaxNormaliserZ=1 #
# $Z set _____InverserZStructure=VRAI #
# #
# $Z set _____ParamStoreAlbum="$K_VIDE" #
# $Z set _____ParamStoreAlbum="$_____ParamStoreAlbum"" cumuler_niveaux=VRAI" #
# $Z set _____ParamStoreAlbum="$_____ParamStoreAlbum"" cumuler_ADD2=0" #
# $Z set _____ParamStoreAlbum="$_____ParamStoreAlbum"" cumuler_MAX2=1" #
# #
# Ces options ont ete introduites pour voir si cela resorbaient les anomalies de ces #
# images. En fait il n'en est rien, cela n'a strictement rien change, mais je les laisse, #
# on ne sait jamais... #
# #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $Z SET _____Facteur=120000 #
# $m4 _____include(_____xiirf/.MENG.65.5._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# $Z execRVB $xci/Sx$X \ #
# $Z A=$_____imagesR.21%s \ #
# $Z R=$_____imagesR.21%s \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_h4: #
# #
# #
# Il s'agit d'une transformation 1/O de 'v $xiirk/REFM.g4.21'... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:59 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:06 #
# #
# $xci/ombrage.11$X : 00:02:28 #
# #
# $xci/accumule.42$X : 00:08:31 #
# #
v $xiirk/REFM.h4.1.1
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_REFM_h4_1_1: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____ImageA=$xiirk/REFM.h4.1 #
# $Z set _____ImageR=$_____ImageA.1 #
# #
# #
# $Z $xci/gauss$X \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/multi_02.01$X \ #
# $Z puissance_image=VRAI \ #
# $Z exposant=16 \ #
# $Z R=$xTV/FILTRE \ #
# $Z $formatI #
# #
# $Z execRVB "$xci/tapisserie$X \ #
# $Z A=$_____ImageA%s \ #
# $Z cache=VRAI \ #
# $Z iterations=3 \ #
# $Z anti_aliaser=FAUX \ #
# $Z echelle=VRAI a=0.6 \ #
# $Z $formatI | \ #
# $Z $xci/convol.02$X \ #
# $Z V=$BLANC F=$BLANC \ #
# $Z facteur_points=1 \ #
# $Z N=$xTV/FILTRE \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI" #
# #
# :Fin_listG_REFM_h4_1_1: #
# #
v $xiirk/REFM.i2
v $xiirk/REFM.i2$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.i2$VERTE p=$xiP/fractal.31
v $xiirk/REFM.i2$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.i2$R16 #
# #
v $xiirk/REFM.i3
v $xiirk/REFM.i3$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.i3$VERTE p=$xiP/fractal.31
v $xiirk/REFM.i3$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.i3$R16 #
# #
v $xiirk/REFM.j2
v $xiirk/REFM.j2$VERTE p=$xiP/dentscie.02
v $xiirk/REFM.j2$VERTE p=$xiP/fractal.31
v $xiirk/REFM.j2$VERTE p=$xiP/gris_oran.13
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFM.j2$R16 #
# #
v $xiirk/REFM.l3.0
v $xiak/REFM.l3$R16
v $xiak/REFM.l3$R64
v $xiirk/REFM.l3.1
v $xiirk/REFM.l3.2
v $xiirk/REFM.l3.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_l3: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.l3 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.l3 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_l3: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.g3.21' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:50 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:07 #
# #
# $xci/ombrage.11$X : 00:01:52 #
# #
# $xci/accumule.42$X : 00:08:21 #
# #
v $xiirk/REFM.l4.0
v $xiak/REFM.l4$R16
v $xiak/REFM.l4$R64
v $xiirk/REFM.l4.1
v $xiirk/REFM.l4.2
v $xiirk/REFM.l4.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_l4: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=25 #
# $Z set _____DistanceY=25 #
# $Z set _____DistanceZ=25 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.l4 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.l4 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z set _____PaveMinimum=1 #
# $Z set _____PaveMaximum=10 #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_l4: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.l3.21' (avec 9261 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 01:13:49 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:05 #
# #
# $xci/ombrage.11$X : 00:02:09 #
# #
# $xci/accumule.42$X : 00:07:32 #
# #
v $xiirk/REFM.l5.0
v $xiak/REFM.l5$R16
v $xiak/REFM.l5$R64
v $xiirk/REFM.l5.1
v $xiirk/REFM.l5.2
v $xiirk/REFM.l5.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_l5: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=25 #
# $Z set _____DistanceY=25 #
# $Z set _____DistanceZ=25 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# $Z set _____RotationOY=0 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.10 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.l5 #
# #
# $Z set LastPicture=`$xci/nombres$X A="$K_VIDE" premiere=$Derniere derniere=$Derniere` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____imagesW.$LastPicture%s \ #
# $Z R=$_____imagesR.0%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesW #
# $Z set _____animation=$xiak/REFM.l5 #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $Z set _____DistanceEpsilon=3 #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z set _____PaveMinimum=1 #
# $Z set _____PaveMaximum=10 #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2._____U) #
# #
# :Fin_listG_REFM_l5: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.l3.21' (avec 9261 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 01:13:04 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:06 #
# #
# $xci/ombrage.11$X : 00:02:16 #
# #
# $xci/accumule.42$X : 00:08:03 #
# #
v $xiirk/REFM.m3.1
v $xiirk/REFM.m3.2
v $xiirk/REFM.m3.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_m3: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=50 #
# $Z set _____DistanceY=50 #
# $Z set _____DistanceZ=50 #
# $Z set _____RayonsP=0.028 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.05 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.m3 #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.1._____U) #
# #
# $Z SET _____PremiereT=0 #
# $Z SET _____DerniereT=127 #
# $Z SET _____ImageT=$xiff/NUAGES.N.1 #
# $Z set _____FormatT="$format_Std" #
# $Z set _____PaletteT=$xiP/random.A5 #
# $m4 _____include(_____xiirk/.REFM.m1.1._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.2._____U) #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____PostfixeT="%s" #
# $m4 _____include(_____xiirk/.REFM.f1.2.3._____U) #
# #
# :Fin_listG_REFM_m3: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.g3.21' (avec 1331 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 00:08:52 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:07 #
# #
# $xci/ombrage.11$X : 00:01:52 #
# #
# $xci/accumule.42$X : 00:08:21 #
# #
v $xiirk/REFM.m5.1
v $xiirk/REFM.m5.2
v $xiirk/REFM.m5.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_m5: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=25 #
# $Z set _____DistanceY=25 #
# $Z set _____DistanceZ=25 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# $Z set _____RotationOY=0 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.10 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.m5 #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $Z set _____DistanceEpsilon=3 #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z set _____PaveMinimum=1 #
# $Z set _____PaveMaximum=10 #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.1._____U) #
# #
# $Z SET _____PremiereT=0 #
# $Z SET _____DerniereT=127 #
# $Z SET _____ImageT=$xiff/NUAGES.N.1 #
# $Z set _____FormatT="$format_Std" #
# $Z set _____PaletteT=$xiP/random.A5 #
# #
# J'ai voulu utiliser '$xiP/arc_ciel.L1' pour definir '$_____PaletteT', mais malheureusement #
# cela a provoque les messages 'v $xiii/di_album$FON texturage.est.negatif.ou.nul'... #
# #
# $m4 _____include(_____xiirk/.REFM.m1.1._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.2._____U) #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____PostfixeT="%s" #
# $m4 _____include(_____xiirk/.REFM.f1.2.3._____U) #
# #
# :Fin_listG_REFM_m5: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.g3.21' (avec 9261 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 01:13:04 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:06 #
# #
# $xci/ombrage.11$X : 00:02:14 #
# #
# $xci/accumule.42$X : 00:08:02 #
# #
v $xiirk/REFM.m6.1
v $xiirk/REFM.m6.2
v $xiirk/REFM.m6.21
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_m6: #
# #
# $Z Std #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET tPremiereA=1 #
# $Z SET tDerniereA=128 #
# #
# On notera qu'il suffirait de generer peu (2 ?) images puisque seule la derniere nous #
# interesse. En fait en generer de nombreuses permet de suivre l'avancement du calcul... #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=25 #
# $Z set _____DistanceY=25 #
# $Z set _____DistanceZ=25 #
# $Z set _____RayonsP=0.014 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# $Z set _____RotationOY=0 #
# #
# $m4 _____include(_____xiirk/.REFM.f1.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.51._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.z.11._____U) #
# #
# $Z set _____GC=VRAI #
# $Z set _____IGC=+0.0010 #
# $Z set _____GX=0 #
# $Z set _____GY=0 #
# $Z set _____GZ=0 #
# $Z set _____MoyenneV=VRAI #
# $Z set _____FamillesD=VRAI #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Dct=0.10 #
# $Z set _____Nombre=`calculINS 5*8` #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.v.11._____U) #
# #
# $Z set _____ParamRdnWalk="$K_VIDE" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" ChiffresFlot=4" #
# $Z set _____ParamRdnWalk="$_____ParamRdnWalk"" extrema_hors=FAUX" #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# #
# $Z set _____imagesR=$xiirk/REFM.m6 #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=$mdimXY #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $xTV/LISTE_POINTS | \ #
# $Z $GRE "^periode=""$tDerniereA" \ #
# $Z >> $FLiStEP #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.83._____U) #
# #
# $Z FilSTmpB LiStEPoInTs #
# #
# $Z set _____DistanceEpsilon=3 #
# $m4 _____include(_____xiirk/.REFM.g3.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $CA $LiStEPoInTs \ #
# $Z >> $FLiStEP #
# #
# $Z FilSTmpE LiStEPoInTs #
# #
# $Z set _____Ppu=0.1 #
# $Z set _____Ppv=0.1 #
# $Z set _____Ppw=0.1 #
# #
# $Z set _____Zoom=1.0 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# #
# $Z set _____PaveMinimum=1 #
# $Z set _____PaveMaximum=10 #
# $Z SET _____NormaliserX=$EXIST #
# $Z SET _____MinNormaliserX=+0.05 #
# $Z SET _____MaxNormaliserX=+0.95 #
# $Z SET _____NormaliserY=$EXIST #
# $Z SET _____MinNormaliserY=+0.05 #
# $Z SET _____MaxNormaliserY=+0.95 #
# $Z SET _____NormaliserZ=$EXIST #
# $Z SET _____MinNormaliserZ=+0.05 #
# $Z SET _____MaxNormaliserZ=+0.95 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirk/.REFM.l1.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $m4 _____include(_____xiirs/.EPIC.41.12._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.1._____U) #
# #
# $Z SET _____PremiereT=0 #
# $Z SET _____DerniereT=127 #
# $Z SET _____ImageT=$xiff/NUAGES.N.1 #
# $Z set _____FormatT="$format_Std" #
# $Z set _____PaletteT=$xiP/arc_ciel.L1 #
# #
# Pour utiliser la palette '$xiP/arc_ciel.L1' il faut l'option "accepter_points_isoles=VRAI". #
# #
# $m4 _____include(_____xiirk/.REFM.m1.1._____U) #
# #
# $m4 _____include(_____xiirk/.REFM.f1.2.2._____U) #
# #
# $Z set _____ParamAccumule="$K_VIDE" #
# $Z set _____ParamAccumule="$_____ParamAccumule"" accepter_points_isoles=VRAI" #
# #
# $Z set _____ccXYZ=FAUX #
# $Z set _____exec_aR="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aV="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____exec_aB="pX=0 pY=0 pZ=0 pR=0 pP=0 pT=0" #
# $Z set _____PostfixeT="%s" #
# $m4 _____include(_____xiirk/.REFM.f1.2.3._____U) #
# #
# :Fin_listG_REFM_m6: #
# #
# #
# Image inspiree de 'v $xiirk/REFM.g3.21' (avec 9261 particules)... #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrk/rdn_walk.52$X : 01:13:04 (approximatif...) #
# #
# $xrv/store_album$X : 00:00:06 #
# #
# $xci/ombrage.11$X : 00:02:14 #
# #
# $xci/accumule.42$X : 00:08:02 #
# #
v $xiirk/REFM.n2.0512
v $xiirk/REFM.n2
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFM.n2$R16 #
# #
v $xiirk/REFM.n2.1 p=$xiP/KleinBlue.13
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFM_n2_1: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImagesA=$xiirk/REFM.n2 #
# $Z set _____ImagesR=$_____ImagesA.1 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImagesA \ #
# $Z R=$xTV/LUMINANCE \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=16 \ #
# $Z R=$xTV/NOYAU \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/LUMINANCE \ #
# $Z N=$xTV/NOYAU \ #
# $Z seuil=244 \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# :Fin_listG_REFM_n2_1: #
# #
v $xiirk/REFN.81
v $xiirk/REFN.81.0128
# Montre la derniere image et l'accumulation de 'v $xiak/REFN.81$R16'... #
v $xiirk/REFN.82
v $xiirk/REFN.82.0128
# Montre la derniere image et l'accumulation de 'v $xiak/REFN.82$R16'... #
v $xiirk/REFN.B3
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFN.B3$R16 #
# #
v $xiirk/REFN.B4
# Montre l'accumulation de la sequence : #
# #
# v $xiak/REFN.B4$R16 #
# #
v $xiirk/REFN.B3$m
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_REFN_B3_m: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageA=$xiirk/REFN.B3 #
# $Z set _____ImageR=$_____ImageA$m #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageA \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z convertir=VRAI \ #
# $Z $formatI | \ #
# #
# $Z $xci/lissage$X \ #
# $Z passes=200 \ #
# $Z standard=FAUX \ #
# $Z navap=VRAI \ #
# $Z R=$xTV/REFN.B3 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/REFN.B3 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$_____ImageA%s \ #
# $Z avion=VRAI \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatI #
# #
# :Fin_listG_REFN_B3_m: #
# #
v $xiirk/REFN.D5.0512
v $xiirk/REFN.D5
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFN.D5$R16 #
# #
v $xiirk/REFN.D6.0512
v $xiirk/REFN.D6
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFN.D6$R16 #
# #
v $xiirk/REFN.E5.0512
v $xiirk/REFN.E5
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFN.E5$R16 #
# #
v $xiirk/REFN.E6.0512
v $xiirk/REFN.E6
# Montrent respectivement la derniere image et l'accumulation de la sequence : #
# #
# $xiak/REFN.E6$R16 #
# #
v $xiirk/SERPENTS.11 p=$xiP/cercle.35
# Calculee a l'aide de '$xrk/serpents.01$X'. #
v $xiirk/SOLE.11.0128
# Ceci est l'image 0128 de la sequence : #
# #
# xivPdf 11 2 / 022322_022833 #
# #
v $xiirk/SOLE.12.0128
# Ceci est est obtenu a partir de l'image 0128 de la sequence : #
# #
# xivPdf 11 2 / 022322_022833 #
# #
# par la procedure suivante sur '$LACT29' (a la demande de Marina Ponjaert) : #
# #
# $Z Pal #
# #
# #
# $Z $xci/luminance.01$X \ #
# $Z AR=$xiim/SOLE.W.0128$ROUGE \ #
# $Z AV=$xiim/SOLE.W.0128$VERTE \ #
# $Z AB=$xiim/SOLE.W.0128$BLEUE \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X \ #
# $Z seuil=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z R=$xTV/SOLEIL.52 \ #
# $Z $formatI #
# #
# $Z $xci/init$X \ #
# $Z niveau=$NOIR \ #
# $Z R=$xTV/SOLEIL.31$ROUGE \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z niveau=140 \ #
# $Z R=$xTV/SOLEIL.31$VERTE \ #
# $Z $formatI #
# $Z $xci/init$X \ #
# $Z niveau=130 \ #
# $Z R=$xTV/SOLEIL.31$BLEUE \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/and$X \\\ #
# $Z A1=$xTV/SOLEIL.52 \\\ #
# $Z A2=$xTV/SOLEIL.31%s \\\ #
# $Z $formatI | \\\ #
# $Z $xci/convol.01$X \\\ #
# $Z points=81 \\\ #
# $Z R=$xTV/SOLEIL.33%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cache$X \\\ #
# $Z A=$xTV/SOLEIL.33%s \\\ #
# $Z M=$xiim/SOLE.W.0128%s \\\ #
# $Z R=$xTV/SOLEIL.42%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/SOLEIL.71$ROUGE \ #
# $Z $formatI #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/SOLEIL.71$ROUGE \ #
# $Z R=$xTV/SOLEIL.71$VERTE \ #
# $Z $formatI #
# $Z $xci/neutre$X \ #
# $Z A=$xTV/SOLEIL.71$ROUGE \ #
# $Z R=$xTV/SOLEIL.71$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/SOLEIL.42 \ #
# $Z $xTV/SOLEIL.71 \ #
# $Z $xiirk/SOLE.12.0128 #
# #
v $xiirk/SOLE.21.0512
# Ceci est l'image 0512 de la sequence : #
# #
# xivPdf 11 2 / 022834_023345 #
# #
v $xiirk/SOLE.31.0512
# Ceci est l'image 0512 de la sequence : #
# #
# xivPdf 11 2 / 032020_032531 #
# #
v $xiirk/SOLE.31.0512.1 p=$xiP/gris.01
v $xiirk/SOLE.31.0512.1 p=$xiP/masque
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_SOLE_31_0512_1: #
# #
# $Z Pal #
# #
# $Z $xci/detourage.31$Z $xiirk/SOLE.31.0512 $xiirk/SOLE.31.0512.1 50 #
# #
# :Fin_listG_SOLE_31_0512_1: #
# #
# #
# qui montre la version "graphique" de l'image 'v $xiirk/SOLE.31.0512'... #
v $xiirk/SYRA.11 p=$xiP/cercle.35
v $xiirk/SYRA.11 p=$xiP/gris.01
v $xiirk/SYRA.11 p=$xiP/niveaux.01 animation=VRAI d=2 NOIR=VRAI increment=-1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_SYRA_11: #
# #
# $Z Std #
# #
# $Z set _____Pas=1 #
# $Z set _____Premier=$_____Pas #
# $Z set _____ImageR=$xiirk/SYRA.1$_____Pas #
# $m4 _____include(_____xiirk/.SYRA.11.1._____U) #
# #
# :Fin_listG_SYRA_11: #
# #
# #
# Il s'agit d'une visualisation de la suite de Syracuse ou la luminance de chacun des points #
# de la spirale numerotes {1,2,...,N,...} est proportionnelle au rang d'apparition de #
# {4,2,1} pour chaque suite de Syracuse partant de 'N'. On notera que parmi les 262144 #
# points, il y en a 30 qui demandent plus de 350 iterations, ce que l'on voit avec les #
# options : #
# #
# editer_rangs=VRAI premier_rang_edition=100000 #
# #
# et qui apparaissent donc avec le rang maximal (350, puis 100000 le 20130124084357). #
v $xiirk/SYRA.12 p=$xiP/cercle.35
v $xiirk/SYRA.12 p=$xiP/gris.01
v $xiirk/SYRA.12 p=$xiP/niveaux.01 animation=VRAI d=2 NOIR=VRAI increment=-1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_SYRA_12: #
# #
# $Z Std #
# #
# $Z set _____Pas=2 #
# $Z set _____Premier=$_____Pas #
# $Z set _____ImageR=$xiirk/SYRA.1$_____Pas #
# $m4 _____include(_____xiirk/.SYRA.11.1._____U) #
# #
# :Fin_listG_SYRA_12: #
# #
# #
# Il s'agit d'une visualisation de la suite de Syracuse ou la luminance de chacun des points #
# de la spirale numerotes {2,4,...,N,...} est proportionnelle au rang d'apparition de #
# {4,2,1} pour chaque suite de Syracuse partant de 'N'. On notera que parmi les 262144 #
# points, il y en a 41 qui demandent plus de 350 iterations... #
v $xiirk/SYRA.13 p=$xiP/cercle.35
v $xiirk/SYRA.13 p=$xiP/gris.01
v $xiirk/SYRA.13 p=$xiP/niveaux.01 animation=VRAI d=2 NOIR=VRAI increment=-1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_SYRA_13: #
# #
# $Z Std #
# #
# $Z set _____Pas=3 #
# $Z set _____Premier=$_____Pas #
# $Z set _____ImageR=$xiirk/SYRA.1$_____Pas #
# $m4 _____include(_____xiirk/.SYRA.11.1._____U) #
# #
# :Fin_listG_SYRA_13: #
# #
# #
# Il s'agit d'une visualisation de la suite de Syracuse ou la luminance de chacun des points #
# de la spirale numerotes {3,6,...,N,...} est proportionnelle au rang d'apparition de #
# {4,2,1} pour chaque suite de Syracuse partant de 'N'. On notera que parmi les 262144 #
# points, il y en a 185 qui demandent plus de 350 iterations... #
v $xiirk/SYRA.15 p=$xiP/cercle.35
v $xiirk/SYRA.15 p=$xiP/gris.01
v $xiirk/SYRA.15 p=$xiP/niveaux.01 animation=VRAI d=2 NOIR=VRAI increment=-1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_SYRA_15: #
# #
# $Z Std #
# #
# $Z set _____Pas=5 #
# $Z set _____Premier=$_____Pas #
# $Z set _____ImageR=$xiirk/SYRA.1$_____Pas #
# $m4 _____include(_____xiirk/.SYRA.11.1._____U) #
# #
# :Fin_listG_SYRA_15: #
# #
# #
# Il s'agit d'une visualisation de la suite de Syracuse ou la luminance de chacun des points #
# de la spirale numerotes {5,10,...,N,...} est proportionnelle au rang d'apparition de #
# {4,2,1} pour chaque suite de Syracuse partant de 'N'. On notera que parmi les 262144 #
# points, il y en a 304 qui demandent plus de 350 iterations... #
v $xiirk/SYRA.17 p=$xiP/cercle.35
v $xiirk/SYRA.17 p=$xiP/gris.01
v $xiirk/SYRA.17 p=$xiP/niveaux.01 animation=VRAI d=2 NOIR=VRAI increment=-1
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_SYRA_17: #
# #
# $Z Std #
# #
# $Z set _____Pas=7 #
# $Z set _____Premier=$_____Pas #
# $Z set _____ImageR=$xiirk/SYRA.1$_____Pas #
# $m4 _____include(_____xiirk/.SYRA.11.1._____U) #
# #
# :Fin_listG_SYRA_17: #
# #
# #
# Il s'agit d'une visualisation de la suite de Syracuse ou la luminance de chacun des points #
# de la spirale numerotes {7,14,...,N,...} est proportionnelle au rang d'apparition de #
# {4,2,1} pour chaque suite de Syracuse partant de 'N'. On notera que parmi les 262144 #
# points, il y en a 370 qui demandent plus de 350 iterations... #
v $xiirk/SYRA.20 p=$xiP/cercle.35
v $xiirk/SYRA.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_21: #
# #
# $Z Suq #
# #
# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xrk/Syracuse.11$X \ #
# $Z visualiser_rang=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z p=$xiP/gris.81 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/SYRA.20 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/SYRA.20 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/SYRA.20 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/SYRA.20 \ #
# $Z p=$xiP/cercle.35 \ #
# $Z R=$xTV/SYRA.21 \ #
# $Z $formatI #
# #
# $Z set MaIlLe_X=`calculINS $dimX/$SaVe_dimX` #
# $Z set MaIlLe_Y=`calculINS $dimY/$SaVe_dimY` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$BLANC \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z ox=$Xmin mx=$MaIlLe_X \ #
# $Z oy=$Ymin my=$MaIlLe_Y \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/GRILLE \ #
# $Z A2=$xiirk/SYRA.20 \ #
# $Z R=$xiirk/SYRA.20 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/SYRA.21%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/SYRA.21%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_21: #
# #
# #
# On notera l'utilisation des formats {Suq,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.30 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.31
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_31: #
# #
# $Z Suq #
# #
# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xrk/Syracuse.11$X \ #
# $Z visualiser_U0=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/SYRA.30 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/SYRA.30 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/SYRA.30 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/SYRA.30 \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$xTV/SYRA.31 \ #
# $Z $formatI #
# #
# $Z set MaIlLe_X=`calculINS $dimX/$SaVe_dimX` #
# $Z set MaIlLe_Y=`calculINS $dimY/$SaVe_dimY` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$BLANC \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z ox=$Xmin mx=$MaIlLe_X \ #
# $Z oy=$Ymin my=$MaIlLe_Y \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/GRILLE \ #
# $Z A2=$xiirk/SYRA.30 \ #
# $Z R=$xiirk/SYRA.30 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/SYRA.31%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/SYRA.31%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_31: #
# #
# #
# On notera l'utilisation des formats {Suq,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.32 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.33
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_33: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set ____ImageR1=$xiirk/SYRA.32 #
# $Z set ____ImageR2=$xiirk/SYRA.33 #
# $m4 _____include(_____xiirk/.SYRA.32.1._____U) #
# #
# :Fin_listG_SYRA_33: #
# #
# #
# Conjecture de Syracuse pour les nombres {1,2,3,4,...}. #
# #
# On notera l'utilisation des formats {Sud,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.32.2 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.33.2
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_33_2: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Pas=2 #
# $Z set _____Premier=$_____Pas #
# $Z set ____ImageR1=$xiirk/SYRA.32.2 #
# $Z set ____ImageR2=$xiirk/SYRA.33.2 #
# $m4 _____include(_____xiirk/.SYRA.32.1._____U) #
# #
# :Fin_listG_SYRA_33_2: #
# #
# #
# Conjecture de Syracuse pour les nombres {2,4,6,8,...}. #
v $xiirk/SYRA.32.3 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.33.3
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_33_3: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Pas=3 #
# $Z set _____Premier=$_____Pas #
# $Z set ____ImageR1=$xiirk/SYRA.32.3 #
# $Z set ____ImageR2=$xiirk/SYRA.33.3 #
# $m4 _____include(_____xiirk/.SYRA.32.1._____U) #
# #
# :Fin_listG_SYRA_33_3: #
# #
# #
# Conjecture de Syracuse pour les nombres {3,6,9,12,...}. #
v $xiirk/SYRA.32.5 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.33.5
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_33_5: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Pas=5 #
# $Z set _____Premier=$_____Pas #
# $Z set ____ImageR1=$xiirk/SYRA.32.5 #
# $Z set ____ImageR2=$xiirk/SYRA.33.5 #
# $m4 _____include(_____xiirk/.SYRA.32.1._____U) #
# #
# :Fin_listG_SYRA_33_5: #
# #
# #
# Conjecture de Syracuse pour les nombres {5,10,15,20,...}. #
v $xiirk/SYRA.32.7 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.33.7
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_33_7: #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Pas=7 #
# $Z set _____Premier=$_____Pas #
# $Z set ____ImageR1=$xiirk/SYRA.32.7 #
# $Z set ____ImageR2=$xiirk/SYRA.33.7 #
# $m4 _____include(_____xiirk/.SYRA.32.1._____U) #
# #
# :Fin_listG_SYRA_33_7: #
# #
# #
# Conjecture de Syracuse pour les nombres {7,14,21,28,...}. #
v $xiirk/SYRA.40 p=$xiP/cercle.35
v $xiirk/SYRA.41
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_41: #
# #
# $Z Suq #
# #
# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xrk/Syracuse.12$X \ #
# $Z visualiser_rang=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z p=$xiP/gris.81 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/SYRA.40 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/SYRA.40 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/SYRA.40 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/SYRA.40 \ #
# $Z p=$xiP/cercle.35 \ #
# $Z R=$xTV/SYRA.41 \ #
# $Z $formatI #
# #
# $Z set MaIlLe_X=`calculINS $dimX/$SaVe_dimX` #
# $Z set MaIlLe_Y=`calculINS $dimY/$SaVe_dimY` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$BLANC \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z ox=$Xmin mx=$MaIlLe_X \ #
# $Z oy=$Ymin my=$MaIlLe_Y \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/GRILLE \ #
# $Z A2=$xiirk/SYRA.40 \ #
# $Z R=$xiirk/SYRA.40 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/SYRA.41%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/SYRA.41%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_41: #
# #
# #
# Cette image est identique a 'v $xiirk/SYRA.21' sauf qu'au lieu prendre pour U(0) tous #
# les entiers {1,2,3,4,...} on ne prend que les nombres premiers {2,3,5,7,...}. #
# #
# On notera l'utilisation des formats {Suq,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.50 p=$xiP/arc_ciel.C2
v $xiirk/SYRA.51
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_51: #
# #
# $Z Suq #
# #
# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xrk/Syracuse.12$X \ #
# $Z visualiser_U0=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xTV/SYRA.50 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/SYRA.50 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xiirk/SYRA.50 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirk/SYRA.50 \ #
# $Z p=$xiP/arc_ciel.C2 \ #
# $Z R=$xTV/SYRA.51 \ #
# $Z $formatI #
# #
# $Z set MaIlLe_X=`calculINS $dimX/$SaVe_dimX` #
# $Z set MaIlLe_Y=`calculINS $dimY/$SaVe_dimY` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$BLANC \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z ox=$Xmin mx=$MaIlLe_X \ #
# $Z oy=$Ymin my=$MaIlLe_Y \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/GRILLE \ #
# $Z A2=$xiirk/SYRA.50 \ #
# $Z R=$xiirk/SYRA.50 \ #
# $Z $formatI #
# #
# $Z execRVB $xci/convol.01$X \ #
# $Z A=$xTV/SYRA.51%s \ #
# $Z points=9 \ #
# $Z circulaire=VRAI circulaire_optimale=VRAI \ #
# $Z R=$xiirk/SYRA.51%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_51: #
# #
# #
# Cette image est identique a 'v $xiirk/SYRA.31' sauf qu'au lieu prendre pour U(0) tous #
# les entiers {1,2,3,4,...} on ne prend que les nombres premiers {2,3,5,7,...}. #
# #
# On notera l'utilisation des formats {Suq,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.61.7
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_61_7: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# $Z set _____U0=7 #
# $m4 _____include(_____xiirk/.SYRA.61.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.61.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# #
# :Fin_listG_SYRA_61_7: #
# #
# #
# Cette image montre la suite bidimensionnellement 'U(n)' avec 'U(0)=7'. #
v $xiirk/SYRA.61.871
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_61_871: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.005 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# $Z set _____U0=871 #
# $m4 _____include(_____xiirk/.SYRA.61.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.61.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# #
# :Fin_listG_SYRA_61_871: #
# #
# #
# Cette image montre la suite bidimensionnellement 'U(n)' avec 'U(0)=871', #
# 871 etant dans [1,1000] le recordman du Rang atteint avec 178 (en partant de 0). #
v $xiirk/SYRA.61.6171
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_61_6171: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.005 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# $Z set _____U0=6171 #
# $m4 _____include(_____xiirk/.SYRA.61.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.61.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# #
# :Fin_listG_SYRA_61_6171: #
# #
# #
# Cette image montre la suite bidimensionnellement 'U(n)' avec 'U(0)=6171', #
# 6171 etant dans [1,10000] le recordman du Rang atteint avec 261 (en partant de 0). #
v $xiirk/SYRA.71$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_71_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.71 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.61.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.71 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_71_R16: #
# #
# #
# Cette image montre bidimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 20. #
v $xiirk/SYRA.72$R16
v $xiirk/SYRA.72$R64
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_72_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.020 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.72 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.61.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.72 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_72_R64: #
# #
# #
# Cette image montre bidimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 68. #
v $xiirk/SYRA.81.7
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_81_7: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiirk/.SYRA.81.1._____U) #
# $Z set _____U0=7 #
# $m4 _____include(_____xiirk/.SYRA.81.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.81.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.81.3._____U) #
# #
# :Fin_listG_SYRA_81_7: #
# #
# #
# Cette image montre tridimensionnellement la suite 'U(n)' avec 'U(0)=7'. #
v $xiirk/SYRA.81.871
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_81_871: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.005 #
# $m4 _____include(_____xiirk/.SYRA.81.1._____U) #
# $Z set _____U0=871 #
# $m4 _____include(_____xiirk/.SYRA.81.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.81.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.81.3._____U) #
# #
# :Fin_listG_SYRA_81_871: #
# #
# #
# Cette image montre tridimensionnellement la suite 'U(n)' avec 'U(0)=871', #
# 871 etant dans [1,1000] le recordman du Rang atteint avec 178 (en partant de 0). #
v $xiirk/SYRA.81.6171
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_81_6171: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.005 #
# $m4 _____include(_____xiirk/.SYRA.81.1._____U) #
# $Z set _____U0=6171 #
# $m4 _____include(_____xiirk/.SYRA.81.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.81.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.81.3._____U) #
# #
# :Fin_listG_SYRA_81_6171: #
# #
# #
# Cette image montre tridimensionnellement la suite 'U(n)' avec 'U(0)=6171', #
# 6171 etant dans [1,10000] le recordman du Rang atteint avec 261 (en partant de 0). #
v $xiirk/SYRA.91$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_91_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.81.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.91 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.81.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.81.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.91 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_91_R16: #
# #
# #
# Cette image montre tridimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 20. #
v $xiirk/SYRA.92$R16
v $xiirk/SYRA.92$R64
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_92_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.020 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.81.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.92 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.81.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.81.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.92 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_92_R64: #
# #
# #
# Cette image montre tridimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 68. #
v $xiirk/SYRA.A1.7
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_A1_7: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiirk/.SYRA.A1.1._____U) #
# $Z set _____U0=7 #
# $m4 _____include(_____xiirk/.SYRA.A1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.A1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.A1.3._____U) #
# #
# :Fin_listG_SYRA_A1_7: #
# #
# #
# Cette image montre en coordonnees polaires (en etoile) la suite 'U(n)' avec 'U(0)=7'. #
v $xiirk/SYRA.A1.871
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_A1_871: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.007 #
# $m4 _____include(_____xiirk/.SYRA.A1.1._____U) #
# $Z set _____U0=871 #
# $m4 _____include(_____xiirk/.SYRA.A1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.A1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.A1.3._____U) #
# #
# :Fin_listG_SYRA_A1_871: #
# #
# #
# Cette image montre en coordonnees polaires (en etoile) la suite 'U(n)' avec 'U(0)=871', #
# 871 etant dans [1,1000] le recordman du Rang atteint avec 178 (en partant de 0). #
v $xiirk/SYRA.A1.6171
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_A1_6171: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.007 #
# $m4 _____include(_____xiirk/.SYRA.A1.1._____U) #
# $Z set _____U0=6171 #
# $m4 _____include(_____xiirk/.SYRA.A1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.A1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.A1.3._____U) #
# #
# :Fin_listG_SYRA_A1_6171: #
# #
# #
# Cette image montre en coordonnees polaires (en etoile) la suite 'U(n)' avec 'U(0)=6171', #
# 6171 etant dans [1,10000] le recordman du Rang atteint avec 261 (en partant de 0). #
v $xiirk/SYRA.B1$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_B1_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.A1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.B1 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.A1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.A1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.B1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_B1_R16: #
# #
# #
# Cette image montre en coordonnees polaires (en etoile) seize suites 'U(n)' avec 'U(0)' #
# variant de 5 a 20. #
v $xiirk/SYRA.B2$R16
v $xiirk/SYRA.B2$R64
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_B2_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.015 #
# $Z set _____Grossissement=1.5 #
# $m4 _____include(_____xiirk/.SYRA.A1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.B2 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.A1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.A1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.B2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_B2_R64: #
# #
# #
# Cette image montre en coordonnees polaires (en etoile) seize suites 'U(n)' avec 'U(0)' #
# variant de 5 a 68. #
v $xiirk/SYRA.C1.7
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_C1_7: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# $Z set _____U0=7 #
# $m4 _____include(_____xiirk/.SYRA.C1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.C1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# #
# :Fin_listG_SYRA_C1_7: #
# #
# #
# Cette image montre en coordonnees polaires (en spirale) la suite 'U(n)' avec 'U(0)=7'. #
v $xiirk/SYRA.C1.871
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_C1_871: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.007 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# $Z set _____U0=871 #
# $m4 _____include(_____xiirk/.SYRA.C1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.C1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# #
# :Fin_listG_SYRA_C1_871: #
# #
# #
# Cette image montre en coordonnees polaires (en spirale) la suite 'U(n)' avec 'U(0)=871', #
# 871 etant dans [1,1000] le recordman du Rang atteint avec 178 (en partant de 0). #
v $xiirk/SYRA.C1.6171
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_C1_6171: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.005 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.007 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# $Z set _____U0=6171 #
# $m4 _____include(_____xiirk/.SYRA.C1.2._____U) #
# $Z set _____ImageR=$xiirk/SYRA.C1.$_____U0 #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# #
# :Fin_listG_SYRA_C1_6171: #
# #
# #
# Cette image montre en coordonnees polaires (en spirale) la suite 'U(n)' avec 'U(0)=6171', #
# 6171 etant dans [1,10000] le recordman du Rang atteint avec 261 (en partant de 0). #
v $xiirk/SYRA.D1$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_D1_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.D1 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.C1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.D1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_D1_R16: #
# #
# #
# Cette image montre en coordonnees polaires (en spirale) seize suites 'U(n)' avec 'U(0)' #
# variant de 5 a 20. #
v $xiirk/SYRA.D2$R16
v $xiirk/SYRA.D2$R64
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_D2_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.015 #
# $Z set _____Grossissement=1.5 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.D2 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $m4 _____include(_____xiirk/.SYRA.C1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.D2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_D2_R64: #
# #
# #
# Cette image montre en coordonnees polaires (en spirale) seize suites 'U(n)' avec 'U(0)' #
# variant de 5 a 68. #
v $xiirk/SYRA.E1$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_E1_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirk/SYRA.D1.16 \ #
# $Z R=$xTV/LUMINANCE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z M=$xiirk/SYRA.B1.16%s \ #
# $Z A=$xTV/LUMINANCE \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xiirk/SYRA.E1$R16%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_E1_R16: #
# #
v $xiirk/SYRA.E2$R64
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_E2_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiirk/SYRA.D2.64 \ #
# $Z R=$xTV/LUMINANCE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/cache$X \ #
# $Z M=$xiirk/SYRA.B2.64%s \ #
# $Z A=$xTV/LUMINANCE \ #
# $Z anti_aliaser=VRAI \ #
# $Z R=$xiirk/SYRA.E2$R64%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_E2_R64: #
# #
v $xiirk/SYRA.F1
v $xiirk/SYRA.F1.MIRE
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_F1: #
# #
# $Z set _____ImageR=$xiirk/SYRA.F1 #
# $m4 _____include(_____xiirk/.SYRA.F1.1._____U) #
# #
# :Fin_listG_SYRA_F1: #
# #
# #
# On notera que chaque sequence Syracuse (de U(0)=1 a U(0)=256) est disposee horizontalement #
# (et non pas verticalement comme 'v $xiirk/SYRA.32' par exemple) afin d'etre compatible #
# avec le contenu de 'v $xiMd/ConjectureDeSyracuse_0256.vv.m4 U.0..0001'). Les extrema #
# valent : #
# #
# min({U(n})=1 (evidemment !) #
# max({U(n})=13120 #
# #
# Cette image a demande 00:03:16 sur '$LACT19' lors de son recalcul le 20170923105648... #
v $xiirk/SYRA.F1.1
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_F1_1: #
# #
# $Z Sdu #
# #
# $Z set _____ImageA=$xiirk/SYRA.F1 #
# $Z set _____ImageR=$_____ImageA.1 #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$_____ImageA%s \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xTV/SYRA.F1.1%s \ #
# $Z XminR=$XminSqu XmaxR=$XmaxSqu \ #
# $Z YminR=$YminSdu YmaxR=$YmaxSdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/SYRA.F1.1%s \ #
# $Z Xmin=$XminSqu Xmax=$XmaxSqu \ #
# $Z Ymin=$YminSdu Ymax=$YmaxSdu \ #
# $Z mode=3 \ #
# $Z R=$_____ImageR%s \ #
# $Z $formatR_Sdu #
# #
# :Fin_listG_SYRA_F1_1: #
# #
v $xiirk/SYRA.F2
v $xiirk/SYRA.F2.MIRE
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SYRA_F2: #
# #
# $Z set _____FormatA="Std" #
# $Z set _____FormatR="Squ" #
# $Z set _____ImageR=$xiirk/SYRA.F2 #
# $m4 _____include(_____xiirk/.SYRA.F1.1._____U) #
# #
# :Fin_listG_SYRA_F2: #
# #
# #
# Les extrema valent : #
# #
# min({U(n})=1 (evidemment !) #
# max({U(n})=39364 #
# #
# Le calcul de cette image a demande 00:05:57 (ce qui est beaucoup moins que 07:40:10 #
# pour 'v $xiirk/SYRA.F1' avant les optimisations des 20170919101620 et 20170920113419...). #
# Cette image a demande 00:03:54 sur '$LACT1A' lors de son recalcul le 20170923114354... #
v $xiirk/SYRA.G0 p=$xiP/cercle.35
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_SYRA_G0: #
# #
# $Z Suq #
# #
# $Z set _____ImagesR=$xiirk/SYRA.G0 #
# #
# $Z set OBaSe=10 #
# #
# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FSyRaCuSe #
# #
# $Z $xrk/Syracuse.11$X \ #
# $Z visualiser_parite=VRAI \ #
# $Z editer=VRAI Prme=VRAI \ #
# $Z R=$xTV/SYRA.G0 \ #
# $Z $formatI \ #
# $Z >> $FSyRaCuSe #
# #
# $Z $CA $xcs/csh$Y \ #
# $Z > $FSyRaCuSe$Y #
# #
# $Z $CA $FSyRaCuSe | \ #
# $Z $SE -e "s/^=/Reverse /" \ #
# $Z >> $FSyRaCuSe$Y #
# #
# $Z $DELETE $FSyRaCuSe #
# #
# $Z alias Reverse 'set LiStE=(\!*) ; \\ #
# $Z FilSTmpB FLiStE ; \\ #
# $Z echo "$LiStE" | $R "$K_BLANC" "$K_NL" | $AC \\ #
# $Z >> $FLiStE ; \\ #
# $Z set LiStEr=`$CA $FLiStE` ; \\ #
# $Z echo "$LiStEr" ; \\ #
# $Z FilSTmpE FLiStE ; \\ #
# $Z unset LiStE LiStEr' #
# #
# $Z (source $FSyRaCuSe$Y) | \ #
# $Z $SE -e "s/^/= /" \ #
# $Z > $FSyRaCuSe #
# #
# $Z $CA $FSyRaCuSe | \ #
# $Z $SE -e "s/^= *//" \ #
# $Z -e "s/ //g" \ #
# $Z > $FSyRaCuSe.5 #
# #
# $Z echo "scale = 1000;" \ #
# $Z > $FSyRaCuSe.1 #
# $Z echo "obase = $OBaSe;" \ #
# $Z >> $FSyRaCuSe.1 #
# $Z echo "ibase = 2;" \ #
# $Z >> $FSyRaCuSe.1 #
# #
# On notera qu'avec 'OBaSe=4' et 'OBaSe=8', il manque respectivement les chiffres {3} #
# et {3,6,7} dans '$FSyRaCuSe.1'. C'est bien mysterieux... #
# #
# $Z $CA $FSyRaCuSe | \ #
# $Z $xcp/substitue.01$X \ #
# $Z c01="^= " s01="" \ #
# $Z c02=" " s02="" \ #
# $Z c03='$' s03=";" \ #
# $Z > $FSyRaCuSe.2 #
# #
# $Z echo "quit;" \ #
# $Z > $FSyRaCuSe.3 #
# #
# $Z $CA $FSyRaCuSe.1 $FSyRaCuSe.2 $FSyRaCuSe.3 \ #
# $Z > $FSyRaCuSe.4 #
# #
# $Z $BC $FSyRaCuSe.4 | \ #
# $Z $SE -e "s/^/ /" \ #
# $Z -e 's/^.*\(........................................\)$/\1/' | \ #
# $Z $NL -nrz -w3 | \ #
# $Z $SE -e "s/^\(...\)/ U(0) = \1 --> /" \ #
# $Z -e 's/$/ /' \ #
# $Z > $FSyRaCuSe.6 #
# #
# $Z $PAST $FSyRaCuSe.6 $FSyRaCuSe.5 | \ #
# $Z $R "$K_TAB" "$K_BLANC" | \ #
# $Z $SE -e 's/ \([^ ][^ ]*\)$/\1/' \ #
# $Z -e 's+\(>\) +\1 +' #
# #
# Sortie destinee a 'v $xiMd/ConjectureDeSyracuse_0128.Parity$vv$m4 U.0..='... #
# #
# $Z FilSTmpE FSyRaCuSe #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/SYRA.G0 \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$_____ImagesR \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set MaIlLe_X=`calculINS $dimX/$SaVe_dimX` #
# $Z set MaIlLe_Y=`calculINS $dimY/$SaVe_dimY` #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$BLANC \ #
# $Z niveau=$NOIR \ #
# $Z denormalisees=VRAI \ #
# $Z ox=$Xmin mx=$MaIlLe_X \ #
# $Z oy=$Ymin my=$MaIlLe_Y \ #
# $Z R=$xTV/GRILLE \ #
# $Z $formatI #
# #
# $Z $xci/and$X \ #
# $Z A1=$xTV/GRILLE \ #
# $Z A2=$_____ImagesR \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_G0: #
# #
# #
# On notera l'utilisation des formats {Suq,Sdu} qui se laissent parfaitement diviser par 2 #
# et donc permettent ensuite la generation d'une grille parfaite de delimitation des points, #
# ce qui n'avait pas ete possible avec les formats {Pdu,Puq}... #
v $xiirk/SYRA.H1.2$R16
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SYRA_H1_2_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.H1 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z SET _____Dimension=2 #
# $m4 _____include(_____xiirk/.SYRA.H1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.H1.$_____Dimension #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_H1_2_R16: #
# #
# #
# Cette image montre bidimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 20. #
v $xiirk/SYRA.H1.3$R16
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SYRA_H1_3_R16: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set _____images=$xTV/SYRA.H1 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z SET _____Dimension=3 #
# $m4 _____include(_____xiirk/.SYRA.H1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.H1.$_____Dimension #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_H1_3_R16: #
# #
# #
# Cette image montre tridimensionnellement seize suites 'U(n)' avec 'U(0)' variant de 5 a 20. #
v $xiirk/SYRA.H2.2$R64
v $xiirk/SYRA.H2.2$R16
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SYRA_H2_2_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.H2 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z SET _____Dimension=2 #
# $m4 _____include(_____xiirk/.SYRA.H1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.H2.$_____Dimension #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_H2_2_R64: #
# #
# #
# Cette image montre bidimensionnellement soixante-quatre suites 'U(n)' avec 'U(0)' #
# variant de 5 a 20. #
v $xiirk/SYRA.H2.3$R64
v $xiirk/SYRA.H2.3$R16
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SYRA_H2_3_R64: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.010 #
# $Z set _____Grossissement=2.0 #
# $m4 _____include(_____xiirk/.SYRA.61.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.H2 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# $Z set _____U0=5 #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z SET _____Dimension=3 #
# $m4 _____include(_____xiirk/.SYRA.H1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.61.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.H2.$_____Dimension #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_SYRA_H2_3_R64: #
# #
# #
# Cette image montre tridimensionnellement soixante-quatre suites 'U(n)' avec 'U(0)' #
# variant de 5 a 20. #
v $xiirk/SYRA.I1
v $xiirk/SYRA.I1$R16
v $xiirk/SYRA.I1$R64
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_SYRA_I1: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.004 #
# $Z set _____Zoom=0.95 #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____Grossissement=1.5 #
# $Z set _____DistanceMinimale=0.004 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.I1 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# #
# $Z set _____U0=5 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" p=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" d=`calculINS $Derniere+1`" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vD=0" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vA=$dpi" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" lineaire=VRAI" #
# $Z set LPhi=`$xci/valeurs_inte$X $PaRaMeTrEs` #
# #
# $Z set _____ParticulePara="$K_VIDE" #
# $Z set _____ParticulePara="$_____ParticulePara"" couronne=2" #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z set _____TPhi=$LPhi[$index] #
# $m4 _____include(_____xiirk/.SYRA.I1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z @ index = $index + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.I1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$_____images. \ #
# $Z postfixe=%s \ #
# $Z premiere=$Premiere \ #
# $Z derniere=$Derniere \ #
# $Z interpolation_lineaire=VRAI \ #
# $Z normaliser=VRAI \ #
# $Z maximum=VRAI \ #
# $Z R=$_____animation%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_I1: #
# #
# #
# Cette image montre en coordonnees polaires soixante-quatre suites 'U(n)' avec 'U(0)' #
# variant de 5 a 68 et renormalisees dans un cercle de rayon 1. #
v $xiirk/SYRA.I2
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_SYRA_I2: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.004 #
# $Z set _____Zoom=0.95 #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____Grossissement=1.1 #
# $Z set _____DistanceMinimale=0.004 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=64 #
# #
# $Z set _____images=$xTV/SYRA.I2 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# #
# $Z set _____U0=5 #
# #
# $Z SET _____FRayon=0.010 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" p=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" d=`calculINS $Derniere+1`" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vD=0" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vA=$dpi" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" lineaire=VRAI" #
# $Z set LPhi=`$xci/valeurs_inte$X $PaRaMeTrEs` #
# #
# $Z set _____ParticulePara="$K_VIDE" #
# $Z set _____ParticulePara="$_____ParticulePara"" couronne=2" #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z set _____TPhi=$LPhi[$index] #
# $m4 _____include(_____xiirk/.SYRA.I1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z @ index = $index + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.I2 #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$_____images. \ #
# $Z postfixe=%s \ #
# $Z premiere=$Premiere \ #
# $Z derniere=$Derniere \ #
# $Z interpolation_lineaire=VRAI \ #
# $Z normaliser=VRAI \ #
# $Z maximum=VRAI \ #
# $Z R=$_____animation%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_I2: #
# #
# #
# Cette image montre en coordonnees polaires soixante-quatre suites 'U(n)' avec 'U(0)' #
# variant de 5 a 68. #
v $xiirk/SYRA.I3
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_SYRA_I3: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Rayon=0.004 #
# $Z set _____Zoom=0.95 #
# $Z set _____Palette=$xiP/trou_noir.74 #
# $Z set _____Grossissement=1.1 #
# $Z set _____DistanceMinimale=0.004 #
# $m4 _____include(_____xiirk/.SYRA.C1.1._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=256 #
# #
# $Z set _____images=$xTV/SYRA.I3 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" premiere=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" derniere=$Derniere" #
# #
# $Z set LNuMeRo=`$xci/nombres$X $PaRaMeTrEs` #
# $Z set index=1 #
# #
# $Z set _____U0=5 #
# #
# $Z set _____Parite0=-0.005 #
# $Z set _____Parite1=+0.005 #
# $Z SET _____FRayon=0.008 #
# #
# $Z set PaRaMeTrEs="$K_VIDE" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" p=$Premiere" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" d=`calculINS $Derniere+1`" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vD=0" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" vA=$dpi" #
# $Z set PaRaMeTrEs="$PaRaMeTrEs"" lineaire=VRAI" #
# $Z set LPhi=`$xci/valeurs_inte$X $PaRaMeTrEs` #
# #
# $Z set _____ParticulePara="$K_VIDE" #
# $Z set _____ParticulePara="$_____ParticulePara"" couronne=2" #
# #
# $Z foreach NuMeRo ($LNuMeRo) #
# $Z set _____TPhi=$LPhi[$index] #
# $m4 _____include(_____xiirk/.SYRA.I1.2._____U) #
# $Z set _____ImageR=$_____images.$NuMeRo #
# $m4 _____include(_____xiirk/.SYRA.C1.3._____U) #
# $Z @ _____U0 = $_____U0 + 1 #
# $Z @ index = $index + 1 #
# $Z end #
# #
# $Z set _____animation=$xiirk/SYRA.I3 #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$_____images. \ #
# $Z postfixe=%s \ #
# $Z premiere=$Premiere \ #
# $Z derniere=$Derniere \ #
# $Z interpolation_lineaire=VRAI \ #
# $Z normaliser=VRAI \ #
# $Z maximum=VRAI \ #
# $Z R=$_____animation%s \ #
# $Z $formatI #
# #
# :Fin_listG_SYRA_I3: #
# #
# #
# Cette image montre en coordonnees polaires deux-cent-cinquante-six suites 'U(n)' avec #
# 'U(0)' variant de 5 a 260. #
v $xiirk/VERH.11
v $xiirk/VERH.11$VERTE p=$xiP/enfer.04
v $xiirk/VERH.11$VERTE p=$xiP/trou_noir.14
# Cette image est le resultat des manipulations suivantes : #
# #
# #
# $Z Pal #
# #
# $Z $xrk/verhulst.21$X \ #
# $Z np=1 iterations=60000 \ #
# $Z tore=VRAI \ #
# $Z Lz=100 \ #
# $Z N_carre=FAUX \ #
# $Z R=$xTV/VERHULST. \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($CP $xTV/VERHULST.0001%s \\\ #
# $Z $xiirk/VERH.11%s)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiirk/VERH.17
v $xiirk/VERH.17$VERTE p=$xiP/enfer.04
# Cette image est le resultat des manipulations suivantes : #
# #
# #
# $Z Pal #
# #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/acces$X \\\ #
# $Z A=$xiirk/VERH.11%s \\\ #
# $Z R=$xTV/VERHULST.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $c #define N0 1 #
# $c #define N 7 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/reduction_04$X #
# $c A=$xTV/VERHULST.1$ROUGE #
# $c chiffres=0 #
# $c $formatI | #
# $c $xci/minmax$X #
# $c A1=$xTV/VERHULST.1$ROUGE #
# $c R=$xTV/VERHULST.1$ROUGE #
# $c $formatI\n" #
# $c ); #
# $c printf("$xci/reduction_04$X #
# $c A=$xTV/VERHULST.1$VERTE #
# $c chiffres=0 #
# $c $formatI | #
# $c $xci/minmax$X #
# $c A1=$xTV/VERHULST.1$VERTE #
# $c R=$xTV/VERHULST.1$VERTE #
# $c $formatI\n" #
# $c ); #
# $c printf("$xci/reduction_04$X #
# $c A=$xTV/VERHULST.1$BLEUE #
# $c chiffres=0 #
# $c $formatI | #
# $c $xci/minmax$X #
# $c A1=$xTV/VERHULST.1$BLEUE #
# $c R=$xTV/VERHULST.1$BLEUE #
# $c $formatI\n" #
# $c ); #
# $c } #
# $c } #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/acces$X \\\ #
# $Z A=$xTV/VERHULST.1%s \\\ #
# $Z R=$xiirk/VERH.17%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiirk/VERH.18
v $xiirk/VERH.18$VERTE p=$xiP/enfer.04
# Cette image est le resultat des manipulations suivantes (sur '$LACT15') : #
# #
# #
# :Debut_listG_VERH_18: #
# #
# $Z Pal #
# #
# $Z $xci/trefle$X \ #
# $Z Ct=3 \ #
# $Z amplificateur=400 translateur=-200 \ #
# $Z standard=FAUX \ #
# $Z R=$xTV/TREFLE.03 \ #
# $Z $formatI #
# $Z $xci/trefle$X \ #
# $Z Ct=5 \ #
# $Z amplificateur=400 translateur=-200 \ #
# $Z standard=FAUX \ #
# $Z R=$xTV/TREFLE.05 \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/acces$X \\\ #
# $Z A=$xiirk/VERH.11%s \\\ #
# $Z convertir=VRAI \\\ #
# $Z $formatI | \\\ #
# $Z $xci/deforme.01$X \\\ #
# $Z TX=$xTV/TREFLE.03 \\\ #
# $Z TY=$xTV/TREFLE.05 \\\ #
# $Z periodiser_X=VRAI \\\ #
# $Z periodiser_Y=VRAI \\\ #
# $Z R=$xTV/DEFORMATION%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/acces_RVB.12$Z \ #
# $Z $xTV/DEFORMATION \ #
# $Z $xiirk/VERH.18 #
# #
# :Fin_listG_VERH_18: #
# #
v $xiirk/VERH.31
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_VERH_31: #
# #
# $Z Pal #
# #
# $Z set _____ImagesR=$xiirk/VERH.31 #
# #
# $Z $xrk/verhulst.31$X \ #
# $Z np=1 iterations=1000000 \ #
# $Z dct=1.0 \ #
# $Z COEFFICIENT_Rxx=1.3 \ #
# $Z COEFFICIENT_Rxy=1.3 \ #
# $Z COEFFICIENT_Rxz=0.0 \ #
# $Z COEFFICIENT_Ryx=0.0 \ #
# $Z COEFFICIENT_Ryy=1.3 \ #
# $Z COEFFICIENT_Ryz=1.3 \ #
# $Z COEFFICIENT_Rzx=0.0 \ #
# $Z COEFFICIENT_Rzy=0.0 \ #
# $Z COEFFICIENT_Rzz=3.0 \ #
# $Z VARIABLE_cx0=0.5 \ #
# $Z VARIABLE_cy0=0.5 \ #
# $Z VARIABLE_cz0=0.5 \ #
# $Z TRANSLATION_OY_projetee=-0.110 \ #
# $Z ZOOM=2.4 \ #
# $Z Vrayon=0.01 \ #
# $Z N_au_carre=FAUX \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# :Fin_listG_VERH_31: #
# #
v $xiirk/VERH.32
# Generee (sur '$CMAP28' -ex "porte-pouchet"-) par : #
# #
# #
# :Debut_listG_VERH_32: #
# #
# $Z Pal #
# #
# $Z set _____ImagesR=$xiirk/VERH.32 #
# #
# $Z $xrk/verhulst.31$X \ #
# $Z np=1 iterations=1000000 \ #
# $Z dct=1.0 \ #
# $Z COEFFICIENT_Rxx=1.4 \ #
# $Z COEFFICIENT_Rxy=1.4 \ #
# $Z COEFFICIENT_Rxz=0.0 \ #
# $Z COEFFICIENT_Ryx=0.0 \ #
# $Z COEFFICIENT_Ryy=1.4 \ #
# $Z COEFFICIENT_Ryz=1.4 \ #
# $Z COEFFICIENT_Rzx=0.0 \ #
# $Z COEFFICIENT_Rzy=0.0 \ #
# $Z COEFFICIENT_Rzz=3.0 \ #
# $Z VARIABLE_cx0=0.5 \ #
# $Z VARIABLE_cy0=0.5 \ #
# $Z VARIABLE_cz0=0.5 \ #
# $Z TRANSLATION_OY_projetee=-0.100 \ #
# $Z ZOOM=2.2 \ #
# $Z Vrayon=0.01 \ #
# $Z N_au_carre=FAUX \ #
# $Z chiffres=0 \ #
# $Z R=$_____ImagesR \ #
# $Z $formatI #
# #
# :Fin_listG_VERH_32: #
# #
v $xiirk/VERHULST.41 p=$xiP/cercle.35
# Calculee a l'aide de '$xrk/verhulst.04$X'. #
v $xiirk/VERHULST.51 p=$xiP/cercle.35
# Calculee a l'aide de '$xrk/verhulst.05$X'. #
#######################################################################################################################################
# #
# I M A G E S L E S P L U S P E R T I N E N T E S : #
# #
#######################################################################################################################################
Gamma ; v $xiirk/FLUI.21
# Fluide 2D parfait avec mapping torique, les deux tourbillons etant immobiles. #
Gamma ; v $xiirk/FLUI.22
# Fluide 2D parfait avec mapping torique, les deux tourbillons oscillant. #
v $xiirk/FLUI.81
# Fluide 2D parfait avec mapping torique, sensibilite aux conditions initiales, les deux #
# etant immobiles. #
v $xiirk/FLUI.82
# Fluide 2D parfait avec mapping torique, sensibilite aux conditions initiales, les deux #
# tourbillons oscillant. #
v $xiirk/HENO.11.10
v $xiirk/HENO.11.100
v $xiirk/HENO.11.1000
# Attracteur de Henon sur trois machines pour 10, 100 et 1000 iterations. #
v $xiirk/LORE.41
v $xiirk/LORE.42
Gamma ; v $xiirk/LORE.17
v $xiirk/LORE.17$Fi
# Attracteur de Lorenz. #
Gamma ; v $xiirk/LO.64.4200$DROITE
Gamma ; v $xiirk/LO.64.4800$DROITE
Gamma ; v $xiirk/LO.64.4980$DROITE
Gamma ; v $xiirk/LO.64.5060$DROITE
# Attracteur de Lorenz sur trois machines ('CCVR14', 'INFO24' et 'LACT12'). #
v $xiirk/LORE.71.1
v $xiirk/LORE.71$m
# Integration temporelle d'un mouvement autour de l'attracteur de Lorenz et variations... #
v $xiirk/LYAP.14.30000 p=$xiP/orange.11
v $xiirk/LYAP.33.10000
# Exposant de Lyapunov pour la dynamique de Verhulst. #
v $xiirk/NCOR.C3.0512
# Notre systeme solaire (version heliocentrique). #
v $xiirk/NCOR.D3.0512
# Notre systeme solaire (version geocentrique). #
v $xiirk/NCOR.I1.0512
v $xiirk/NCOR.I2.0512
# Notre systeme solaire (un peu de Science-Fiction). #
v $xiirk/RECS.3.12
# Integration temporelle d'un recuit simule sur un reseau cubique. #
v $xiirk/REFL.12.0512
v $xiirk/REFL.32.0512
v $xiirk/REFL.42.0512
v $xiirk/REFL.22.0512
# Billiards (rectangulaire, double, Sierpinski, Mandelbrot) avec 64 particules isotropes et #
# sans collisions. #
v $xiirk/REFL.13.0512
v $xiirk/REFL.33.0512
v $xiirk/REFL.43.0512
v $xiirk/REFL.23.0512
# Billiards (rectangulaire, double, Sierpinski, Mandelbrot) avec 64 particules isotropes et #
# avec collisions. #
v $xiirk/REFL.A2.0512
v $xiirk/REFL.A4.0512
v $xiirk/REFL.A6.0512
v $xiirk/REFL.A8.0512
# Billiard rectangulaire avec {4,16,64,256} particules aleatoires en collisions avec #
# visualisation de leur centre de gravite (en BLANC). #
v $xiirk/REFL.D2.0512
v $xiirk/REFL.D4.0512
v $xiirk/REFL.D6.0512
v $xiirk/REFL.D8.0512
# Billiard de Sierpinski avec {4,16,64,256} particules aleatoires en collisions avec #
# visualisation de leur centre de gravite (en BLANC). #
v $xiirk/RE.G6$M.0512
v $xiirk/RE.H6$M.0512
# Et variations artistiques pour 64 particules pour les billiards rectangulaire et de #
# Sierpinski. #
v $xiirk/RDNW.A2.0512
v $xiirk/RDNW.A4.0512
v $xiirk/RDNW.A6.0512
v $xiirk/RDNW.A8.0512
# Marche aleatoire de {4,16,64,256} avec visualisation de leur centre de gravite (en BLANC). #