#!/bin/csh
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# N O T A : #
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# Author of '$xiird/$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 $xiird/AC1B.11 p=$xiP/gris.01
# Generee (sur '$LACT14') par : #
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# :Debut_listG_AC1B_11: #
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# $Z Pal #
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# $Z set _____ImageR=$xiird/AC1B.11 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
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# :Fin_listG_AC1B_11: #
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# qui montre l'automate cellulaire "110", soit les regles : #
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# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=B,WWB=B,WWW=W} #
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# Rappelons que d'apres Matthew Cook, l'automate cellulaire "110" est une machine universelle #
# de Turing. Il utilise pour cela les quatre patterns binaires suivantes : #
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# 00010011011111 #
# 0001110111 #
# 1001111 #
# 111 #
# #
# mais apres, cela se complique... #
v $xiird/AC1B.12 p=$xiP/gris.01
# Generee (sur '$LACT14') par : #
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# :Debut_listG_AC1B_12: #
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# $Z Pal #
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# $Z set _____ImageR=$xiird/AC1B.12 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
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# :Fin_listG_AC1B_12: #
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# qui montre l'automate cellulaire "110", soit les regles : #
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# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=B,WWB=B,WWW=W} #
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v $xiird/AC1B.13 p=$xiP/gris.01
# Generee (sur '$LACT16') par : #
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# :Debut_listG_AC1B_13: #
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# $Z Pal #
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# $Z set _____ImageR=$xiird/AC1B.13 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $Z set _____Chaine="00010011011111" #
# $m4 _____include(_____xiird/.AC1B.1.14._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_13: #
# #
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# qui montre l'automate cellulaire "110", soit les regles : #
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# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=B,WWB=B,WWW=W} #
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v $xiird/AC1B.14 p=$xiP/gris.01
# Generee (sur '$LACT16') par : #
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# :Debut_listG_AC1B_14: #
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# $Z Pal #
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# $Z set _____ImageR=$xiird/AC1B.14 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $Z set _____TranslationX=$Xmax #
# $Z set ChAiNe="00010011011111" #
# $Z set LChAiNe = `echo "$ChAiNe" | $WCc` #
# $Z @ LChAiNe = $LChAiNe - 1 #
# $Z @ NChAiNe = $dimX / $LChAiNe #
# $Z @ NChAiNe = $NChAiNe + 1 #
# $Z set _____Chaine="$K_VIDE" #
# $Z repeat $NChAiNe eval 'set _____Chaine="$_____Chaine""$ChAiNe"' #
# $m4 _____include(_____xiird/.AC1B.1.14._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
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# :Fin_listG_AC1B_14: #
# #
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# qui montre l'automate cellulaire "110", soit les regles : #
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# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=B,WWB=B,WWW=W} #
# #
# ATTENTION : le calculer "periodique" (via '_____PerX=VRAI') ne donne pas le resultat #
# attendu car, en effet, '$LChAiNe' ne divise pas exactement '$dimX' en mode 'Pal'... #
v $xiird/AC1B.21 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_21: #
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# $Z Pal #
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# $Z @ _____TranslationX = $Xmax / 2 #
# $Z set _____AutoCellB="90" #
# $Z set _____ImageR=$xiird/AC1B.21 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
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# :Fin_listG_AC1B_21: #
# #
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# qui montre l'automate cellulaire binaire "90", soit les regles : #
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# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=B,WBW=W,WWB=B,WWW=W} #
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v $xiird/AC1B.21.1 p=$xiP/gris.01
# Generee (sur '$LACT1A') par : #
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# :Debut_listG_AC1B_21_1: #
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# $Z Suh #
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# $Z set SaVe_dimX=$dimX #
# $Z set SaVe_dimY=$dimY #
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# $Z @ _____TranslationX = $Xmax / 2 #
# $Z set _____AutoCellB="90" #
# $Z set _____ImageR=$xiird/AC1B.21.1 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $Z $xci/format.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$_____ImageR \ #
# $Z $formatR_Std #
# #
# $Z Std #
# #
# $Z $xci/grille.01$X \ #
# $Z A=$_____ImageR \ #
# $Z denormalisees=VRAI \ #
# $Z mx=`calculINS $dimX/$SaVe_dimX` \ #
# $Z X_increment_gauche=-1 \ #
# $Z my=`calculINS $dimY/$SaVe_dimY` \ #
# $Z Y_increment_bas=-1 \ #
# $Z niveau=$GRIS_4 \ #
# $Z R=$_____ImageR \ #
# $Z $formatI #
# #
# $Z set RaPpOrT_X=4 #
# #
# $Z $xci/format.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI \ #
# $Z mode=8 Atrx=`calculINS $dimX/$RaPpOrT_X` \ #
# $Z R=$_____ImageR \ #
# $Z $formatR_Sud #
# #
# $Z Sud #
# #
# $Z $xci/format.01$X \ #
# $Z A=$_____ImageR \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$_____ImageR \ #
# $Z $formatR_Std #
# #
# $Z Std #
# #
# $Z set TrAnS_X=`calcul ($SaVe_dimX/$dimX)/$RaPpOrT_X` #
# $Z set TrAnS_Y=`calcul ($SaVe_dimY/$dimY)/$RaPpOrT_X` #
# #
# $Z set TrAnS_Xs2=`calcul $TrAnS_X/2` #
# $Z set TrAnS_Ys2=`calcul $TrAnS_Y/2` #
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# $Z set FoNd=$GRIS_2 #
# #
# $Z $xci/scroll$X \ #
# $Z A=$_____ImageR \ #
# $Z toreX=FAUX trX=-$TrAnS_X \ #
# $Z toreY=FAUX trY=+$TrAnS_Y \ #
# $Z niveau=$FoNd \ #
# $Z $formatI | \ #
# $Z $xci/scroll$X \ #
# $Z toreX=FAUX trX=+$TrAnS_Xs2 \ #
# $Z toreY=FAUX trY=-$TrAnS_Ys2 \ #
# $Z niveau=$FoNd \ #
# $Z R=$_____ImageR \ #
# $Z $formatI #
# #
# :Fin_listG_AC1B_21_1: #
# #
# #
# qui montre l'automate cellulaire binaire "90", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=B,WBW=W,WWB=B,WWW=W} #
# #
# On notera tous les changements de format destines a lutter contre le probleme suivant : #
# Le format 'Std' definissant des dimensions puissances de 2, le point initial de l'automate #
# (sur la ligne Y=$Ymin) ne peut pas etre au milieu et donc l'automate symetrique au debut #
# ne le reste pas. A mi hauteur apparaissent a droite des points. La seule solution est donc #
# alors de reduire de moitie l'image afin de faire disparaitre cela. Au passage, le format #
# 'Pal' n'est pas une solution car alors '$xci/grille.01$X' ne donne pas un resultat #
# satisfaisant et ce parce que '$dimXPuh' et '$dimYPuh' ne divisent pas '$dimXPal' et #
# '$dimYPal' respectivement... #
v $xiird/AC1B.22 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
# #
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# :Debut_listG_AC1B_22: #
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# $Z Pal #
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# $Z set _____AutoCellB="90" #
# $Z set _____ImageR=$xiird/AC1B.22 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_22: #
# #
# #
# qui montre l'automate cellulaire binaire "90", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=B,WBW=W,WWB=B,WWW=W} #
# #
v $xiird/AC1B.31.256 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_31_256: #
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# $Z set _____ImageR=$xiird/AC1B.31.256 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.3.11._____U) #
# #
# $Z $xci/S_point$X \ #
# $Z A=$NOIR \ #
# $Z X=$AbScIsSe \ #
# $Z Y=$Ymin \ #
# $Z niveau=$BLANC \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
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# $m4 _____include(_____xiird/.AC1B.3.12._____U) #
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# :Fin_listG_AC1B_31_256: #
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# qui montre les 256 automates cellulaires binaires possibles a partir d'un unique point #
# centre. #
v $xiird/AC1B.32.256 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_32_256: #
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# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
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# $Z set _____ImageR=$xiird/AC1B.32.256 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.3.11._____U) #
# #
# $Z $xci/random.02$X \ #
# $Z seuil=$_____Seuil \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z $xci/StatLigne.01$Z $_____CondInitiales #
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# $m4 _____include(_____xiird/.AC1B.3.12._____U) #
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# :Fin_listG_AC1B_32_256: #
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# qui montre les 256 automates cellulaires binaires possibles a partir de 50% de points. #
# On notera que le seuil '$_____Seuil' utilise ci-dessus vaut 0.5 ; contrairement a ce #
# qu l'on pourrait attendre, cela donne 56.25% de points '$BLANC' (et non pas 50%...). #
v $xiird/AC1B.41 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_41: #
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# $Z Pal #
# #
# $Z @ _____TranslationX = $Xmax / 2 #
# $Z set _____AutoCellB="184" #
# $Z set _____ImageR=$xiird/AC1B.41 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_41: #
# #
# #
# qui montre l'automate cellulaire binaire "184", soit les regles : #
# #
# {BBB=B,BBW=W,BWB=B,BWW=B,WBB=B,WBW=W,WWB=W,WWW=W} #
# #
v $xiird/AC1B.42 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_42: #
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# $Z Pal #
# #
# $Z set _____AutoCellB="184" #
# $Z set _____ImageR=$xiird/AC1B.42 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.13._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_42: #
# #
# #
# qui montre l'automate cellulaire binaire "184", soit les regles : #
# #
# {BBB=B,BBW=W,BWB=B,BWW=B,WBB=B,WBW=W,WWB=W,WWW=W} #
# #
v $xiird/AC1B.51 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_51: #
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# $Z Pal #
# #
# $Z @ _____TranslationX = $Xmax / 2 #
# $Z set _____AutoCellB="86" #
# $Z set _____ImageR=$xiird/AC1B.51 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_51: #
# #
# #
# qui montre l'automate cellulaire binaire "86", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=W,WBW=B,WWB=B,WWW=W} #
# #
v $xiird/AC1B.52 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_52: #
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# $Z Pal #
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# $Z set _____AutoCellB="86" #
# $Z set _____ImageR=$xiird/AC1B.52 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_52: #
# #
# #
# qui montre l'automate cellulaire binaire "86", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=W,WBW=B,WWB=B,WWW=W} #
# #
v $xiird/AC1B.61 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_61: #
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# $Z Pal #
# #
# $Z set _____AutoCellB="106" #
# $Z set _____ImageR=$xiird/AC1B.61 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_61: #
# #
# #
# qui montre l'automate cellulaire binaire "106", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=W,WWB=B,WWW=W} #
# #
v $xiird/AC1B.62 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
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# :Debut_listG_AC1B_62: #
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# $Z Pal #
# #
# $Z set _____AutoCellB="106" #
# $Z set _____ImageR=$xiird/AC1B.62 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# :Fin_listG_AC1B_62: #
# #
# #
# qui montre l'automate cellulaire binaire "106", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=B,BWW=W,WBB=B,WBW=W,WWB=B,WWW=W} #
# #
v $xiird/AC1B.71 p=$xiP/gris.01
v $xiird/AC1B.71 p=$xiP/trou_noir.94
# Generee (sur '$LACT18') par : #
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# :Debut_listG_AC1B_71: #
# #
# $Z Pal #
# #
# $Z set _____ImageR=$xiird/AC1B.71 #
# $Z set _____CondInitiales=$_____ImageR #
# $Z set _____Ymax1=100 #
# $Z set _____Ymax2=400 #
# #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $Z @ _____TranslationX = $Xmax / 2 #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# #
# $Z set _____AutoCellB="106" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z set _____Ymin=$Ymin #
# $Z set _____Ymax=$_____Ymax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____AutoCellB="90" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z set _____Ymax=$_____Ymax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____AutoCellB="86" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z set _____Ymax=$Ymax #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $m4 _____include(_____xiird/.AC1B.7.11._____U) #
# #
# :Fin_listG_AC1B_71: #
# #
# #
# qui montre la succession de trois automates cellulaires binaires {106,90,86}. #
v $xiird/AC1B.72 p=$xiP/gris.01
v $xiird/AC1B.72 p=$xiP/trou_noir.94
# Generee (sur '$LACT18') par : #
# #
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# :Debut_listG_AC1B_72: #
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# $Z Pal #
# #
# $Z set _____ImageR=$xiird/AC1B.72 #
# $Z set _____CondInitiales=$_____ImageR #
# $Z set _____Ymax1=100 #
# $Z set _____Ymax2=400 #
# #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# #
# $Z set _____AutoCellB="106" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z set _____Ymin=$Ymin #
# $Z set _____Ymax=$_____Ymax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____AutoCellB="90" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z set _____Ymax=$_____Ymax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____AutoCellB="86" #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z set _____Ymax=$Ymax #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $m4 _____include(_____xiird/.AC1B.7.11._____U) #
# #
# :Fin_listG_AC1B_72: #
# #
# #
# qui montre la succession de trois automates cellulaires binaires {106,90,86}. #
v $xiird/AC1B.81 p=$xiP/gris.01
v $xiird/AC1B.81 p=$xiP/trou_noir.94
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1B_81: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1B.81 #
# $Z set _____CondInitiales=$_____ImageR #
# $Z set _____DYmax1=50 #
# $Z set _____DYmax2=50 #
# #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $Z @ _____TranslationX = $Xmax / 2 #
# $m4 _____include(_____xiird/.AC1B.1.11._____U) #
# #
# $Z set _____FAutoCellB1=$xTV/AUTOMC.1B.1 #
# $Z set _____FAutoCellB2=$xTV/AUTOMC.1B.2 #
# #
# $Z set _____AutoCellB="168" #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____AutoCellB="165" #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____Ymin=$Ymin #
# #
# $Z while ($_____Ymin < $Ymax) #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z end #
# #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $m4 _____include(_____xiird/.AC1B.8.11._____U) #
# #
# :Fin_listG_AC1B_81: #
# #
# #
# qui montre l'alternance chaque 50 lignes de deux automates cellulaires binaires {168,165} #
# a partir d'un unique point (ceci d'apres une suggestion de Paul Davies dans le livre #
# "Universe or Multiverse" page 502 ou il suggerait {87,90} qui sont en fait {168,165} avec #
# des conventions binaires inversees...). #
v $xiird/AC1B.82 p=$xiP/gris.01
v $xiird/AC1B.82 p=$xiP/trou_noir.94
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1B_82: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1B.82 #
# $Z set _____CondInitiales=$_____ImageR #
# $Z set _____DYmax1=50 #
# $Z set _____DYmax2=50 #
# #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1B.1.12._____U) #
# #
# $Z set _____FAutoCellB1=$xTV/AUTOMC.1B.1 #
# $Z set _____FAutoCellB2=$xTV/AUTOMC.1B.2 #
# #
# $Z set _____AutoCellB="168" #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____AutoCellB="165" #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____Ymin=$Ymin #
# #
# $Z while ($_____Ymin < $Ymax) #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z end #
# #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $m4 _____include(_____xiird/.AC1B.8.11._____U) #
# #
# :Fin_listG_AC1B_82: #
# #
# #
# qui montre l'alternance chaque 50 lignes de deux automates cellulaires binaires {168,165} #
# a partir de points regulierement espaces. #
v $xiird/AC1B.83 p=$xiP/gris.01
v $xiird/AC1B.83 p=$xiP/trou_noir.94
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1B_83: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1B.83 #
# $Z set _____CondInitiales=$_____ImageR #
# $Z set _____DYmax1=50 #
# $Z set _____DYmax2=50 #
# #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $Z set _____Seuil=0.02 #
# $m4 _____include(_____xiird/.AC1B.1.13._____U) #
# #
# $Z $xci/StatLigne.01$Z $_____CondInitiales #
# #
# $Z set _____FAutoCellB1=$xTV/AUTOMC.1B.1 #
# $Z set _____FAutoCellB2=$xTV/AUTOMC.1B.2 #
# #
# $Z set _____AutoCellB="168" #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____AutoCellB="165" #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $Z set _____Ymin=$Ymin #
# #
# $Z while ($_____Ymin < $Ymax) #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z end #
# #
# $m4 _____include(_____xiird/.AC1Q.3.21._____U) #
# #
# $m4 _____include(_____xiird/.AC1B.8.11._____U) #
# #
# :Fin_listG_AC1B_83: #
# #
# #
# qui montre l'alternance chaque 50 lignes de deux automates cellulaires binaires {168,165} #
# a partir de 2% de points '$BLANC' aleatoires. #
v $xiird/AC1C.11 p=$xiP/cercle.35
v $xiird/AC1C.11 p=$xiP/gris.01
v $xiad/AC1C.11$R16 p=$xiP/cercle.35
v $xiad/AC1C.11$R16 p=$xiP/gris.01
v $xiad/AC1C.11$R64 p=$xiP/cercle.35
v $xiad/AC1C.11$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_11: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.11 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.1 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.1.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.11 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_11: #
# #
# #
# qui montre un automate cellulaire quasi-continu fractal. #
v $xiird/AC1C.21 p=$xiP/cercle.35
v $xiird/AC1C.21 p=$xiP/gris.01
v $xiad/AC1C.21$R16 p=$xiP/cercle.35
v $xiad/AC1C.21$R16 p=$xiP/gris.01
v $xiad/AC1C.21$R64 p=$xiP/cercle.35
v $xiad/AC1C.21$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_21: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.21 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.21 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_21: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire. #
v $xiird/AC1C.22 p=$xiP/cercle.35
v $xiird/AC1C.22 p=$xiP/gris.01
v $xiird/AC1C.22.bas p=$xiP/cercle.35
v $xiird/AC1C.22.bas p=$xiP/gris.01
v $xiad/AC1C.22$R16 p=$xiP/cercle.35
v $xiad/AC1C.22$R16 p=$xiP/gris.01
v $xiad/AC1C.22$R64 p=$xiP/cercle.35
v $xiad/AC1C.22$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_22: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.22 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.22 $xiird/AC1C.22.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.22 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_22: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique. #
v $xiird/AC1C.23 p=$xiP/cercle.35
v $xiird/AC1C.23 p=$xiP/gris.01
v $xiird/AC1C.23.bas p=$xiP/cercle.35
v $xiird/AC1C.23.bas p=$xiP/gris.01
v $xiad/AC1C.23$R16 p=$xiP/cercle.35
v $xiad/AC1C.23$R16 p=$xiP/gris.01
v $xiad/AC1C.23$R64 p=$xiP/cercle.35
v $xiad/AC1C.23$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_23: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.23 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.23 $xiird/AC1C.23.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.23 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_23: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique. #
v $xiird/AC1C.24 p=$xiP/cercle.35
v $xiird/AC1C.24 p=$xiP/dentscie.01
v $xiird/AC1C.24 p=$xiP/gris.01
v $xiird/AC1C.24.bas p=$xiP/cercle.35
v $xiird/AC1C.24.bas p=$xiP/gris.01
v $xiad/AC1C.24$R16 p=$xiP/cercle.35
v $xiad/AC1C.24$R16 p=$xiP/gris.01
v $xiad/AC1C.24$R64 p=$xiP/cercle.35
v $xiad/AC1C.24$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_24: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.24 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.24 $xiird/AC1C.24.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.24 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_24: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique ou surgissent des #
# triangles de Sierpinski en couleurs (disparaissant avec les palettes '$xiP/dentscie.*'). #
v $xiird/AC1C.25 p=$xiP/cercle.35
v $xiird/AC1C.25 p=$xiP/dentscie.01
v $xiird/AC1C.25 p=$xiP/gris.01
v $xiird/AC1C.25.bas p=$xiP/cercle.35
v $xiird/AC1C.25.bas p=$xiP/gris.01
v $xiad/AC1C.25$R16 p=$xiP/cercle.35
v $xiad/AC1C.25$R16 p=$xiP/gris.01
v $xiad/AC1C.25$R64 p=$xiP/cercle.35
v $xiad/AC1C.25$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_25: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.25 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.25 $xiird/AC1C.25.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.25 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_25: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique ou surgissent des #
# triangles de Sierpinski en couleurs (disparaissant avec les palettes '$xiP/dentscie.*'). #
v $xiird/AC1C.26 p=$xiP/cercle.35
v $xiird/AC1C.26 p=$xiP/dentscie.01
v $xiird/AC1C.26 p=$xiP/gris.01
v $xiird/AC1C.26.bas p=$xiP/cercle.35
v $xiird/AC1C.26.bas p=$xiP/gris.01
v $xiad/AC1C.26$R16 p=$xiP/cercle.35
v $xiad/AC1C.26$R16 p=$xiP/gris.01
v $xiad/AC1C.26$R64 p=$xiP/cercle.35
v $xiad/AC1C.26$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_26: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.26 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.26 $xiird/AC1C.26.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.26 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_26: #
# #
# #
# qui montre un automate cellulaire quasi-continu aleatoire periodique ou surgissent des #
# triangles de Sierpinski en couleurs (disparaissant avec les palettes '$xiP/dentscie.*'). #
v $xiird/AC1C.27 p=$xiP/cercle.35
v $xiird/AC1C.27 p=$xiP/dentscie.01
v $xiird/AC1C.27 p=$xiP/gris.01
v $xiird/AC1C.27.bas p=$xiP/cercle.35
v $xiird/AC1C.27.bas p=$xiP/gris.01
v $xiad/AC1C.27$R16 p=$xiP/cercle.35
v $xiad/AC1C.27$R16 p=$xiP/gris.01
v $xiad/AC1C.27$R64 p=$xiP/cercle.35
v $xiad/AC1C.27$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_27: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.27 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# $Z $xci/random.01$X \ #
# $Z R=$xTV/RANDOM \ #
# $Z $formatI #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/RANDOM \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=240 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.27 $xiird/AC1C.27.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.27 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_27: #
# #
# #
# qui montre un automate cellulaire quasi-continu aleatoire periodique ou surgissent des #
# triangles de Sierpinski en couleurs (disparaissant avec les palettes '$xiP/dentscie.*'). #
v $xiird/AC1C.28 p=$xiP/cercle.35
v $xiird/AC1C.28 p=$xiP/gris.01
v $xiird/AC1C.28.bas p=$xiP/cercle.35
v $xiird/AC1C.28.bas p=$xiP/gris.01
v $xiad/AC1C.28$R16 p=$xiP/cercle.35
v $xiad/AC1C.28$R16 p=$xiP/gris.01
v $xiad/AC1C.28$R64 p=$xiP/cercle.35
v $xiad/AC1C.28$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_28: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.28 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.28 $xiird/AC1C.28.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.28 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_28: #
# #
# #
# qui montre un automate cellulaire quasi-continu aleatoire periodique. #
v $xiird/AC1C.29 p=$xiP/cercle.35
v $xiird/AC1C.29 p=$xiP/gris.01
v $xiird/AC1C.29.bas p=$xiP/cercle.35
v $xiird/AC1C.29.bas p=$xiP/gris.01
v $xiad/AC1C.29$R16 p=$xiP/cercle.35
v $xiad/AC1C.29$R16 p=$xiP/gris.01
v $xiad/AC1C.29$R64 p=$xiP/cercle.35
v $xiad/AC1C.29$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_29: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.29 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.2 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# $Z $xci/random.01$X \ #
# $Z R=$xTV/RANDOM \ #
# $Z $formatI #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/RANDOM \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=240 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.29 $xiird/AC1C.29.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.29 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_29: #
# #
# #
# qui montre un automate cellulaire quasi-continu aleatoire periodique. #
v $xiird/AC1C.31 p=$xiP/cercle.35
v $xiird/AC1C.31 p=$xiP/gris.01
v $xiad/AC1C.31$R16 p=$xiP/cercle.35
v $xiad/AC1C.31$R16 p=$xiP/gris.01
v $xiad/AC1C.31$R64 p=$xiP/cercle.35
v $xiad/AC1C.31$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_31: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.31 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.3 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z c=512 \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z set _____AutoCellB="90" #
# $Z set _____EdAutoCellB=$NEXIST #
# $Z set _____RendreContinu=$EXIST #
# $m4 _____include(_____xiird/.AC1B.2.11._____U) #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.31 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_31: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique reposant sur #
# l'automate cellulaire binaire "90", soit les regles : #
# #
# {BBB=W,BBW=B,BWB=W,BWW=B,WBB=B,WBW=W,WWB=B,WWW=W} #
# #
v $xiird/AC1C.42 p=$xiP/cercle.35
v $xiird/AC1C.42 p=$xiP/gris.01
v $xiird/AC1C.42.bas p=$xiP/cercle.35
v $xiird/AC1C.42.bas p=$xiP/gris.01
v $xiad/AC1C.42$R16 p=$xiP/cercle.35
v $xiad/AC1C.42$R16 p=$xiP/gris.01
v $xiad/AC1C.42$R64 p=$xiP/cercle.35
v $xiad/AC1C.42$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_42: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.42 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.4 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.4.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.42 $xiird/AC1C.42.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.42 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_42: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" periodique. #
v $xiird/AC1C.43 p=$xiP/cercle.35
v $xiird/AC1C.43 p=$xiP/gris.01
v $xiird/AC1C.43.bas p=$xiP/cercle.35
v $xiird/AC1C.43.bas p=$xiP/gris.01
v $xiad/AC1C.43$R16 p=$xiP/cercle.35
v $xiad/AC1C.43$R16 p=$xiP/gris.01
v $xiad/AC1C.43$R64 p=$xiP/cercle.35
v $xiad/AC1C.43$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_43: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.43 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.4 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.4.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.43 $xiird/AC1C.43.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.43 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_43: #
# #
# #
# qui montre un automate cellulaire quasi-continu "rotatif" periodique. #
v $xiird/AC1C.54 p=$xiP/cercle.35
v $xiird/AC1C.54 p=$xiP/gris.01
v $xiad/AC1C.54$R16 p=$xiP/cercle.35
v $xiad/AC1C.54$R16 p=$xiP/gris.01
v $xiad/AC1C.54$R64 p=$xiP/cercle.35
v $xiad/AC1C.54$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_54: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.54 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.5 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.5.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.54 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_54: #
# #
# #
# qui montre un automate cellulaire quasi-continu "inverse" periodique. #
v $xiird/AC1C.63 p=$xiP/cercle.35
v $xiird/AC1C.63 p=$xiP/gris.01
v $xiad/AC1C.63$R16 p=$xiP/cercle.35
v $xiad/AC1C.63$R16 p=$xiP/gris.01
v $xiad/AC1C.63$R64 p=$xiP/cercle.35
v $xiad/AC1C.63$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_63: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.63 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.6 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.6.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.63 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_63: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique. #
v $xiird/AC1C.71 p=$xiP/dentscie.01
v $xiird/AC1C.71 p=$xiP/fractal.11
v $xiird/AC1C.71 p=$xiP/gris.01
v $xiird/AC1C.71.bas p=$xiP/fractal.11
v $xiird/AC1C.71.bas p=$xiP/gris.01
v $xiad/AC1C.71.1$R16 p=$xiP/fractal.11
v $xiad/AC1C.71.1$R16 p=$xiP/gris.01
v $xiad/AC1C.71.1$R64 p=$xiP/fractal.11
v $xiad/AC1C.71.1$R64 p=$xiP/gris.01
v $xiad/AC1C.71.2$R16 p=$xiP/fractal.11
v $xiad/AC1C.71.2$R16 p=$xiP/gris.01
v $xiad/AC1C.71.2$R64 p=$xiP/fractal.11
v $xiad/AC1C.71.2$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_71: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____FAutoCellB1=$xTV/AUTOMC.1C.1 #
# $Z set _____FAutoCellB2=$xTV/AUTOMC.1C.2 #
# #
# $Z set _____ImageR=$xiird/AC1C.71 #
# $Z set _____CondInitiales=$_____ImageR #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z set _____DYmax1=50 #
# $Z set _____DYmax2=50 #
# $Z set _____PerX=VRAI #
# #
# $Z set _____Ymin=$Ymin #
# #
# $Z while ($_____Ymin < $Ymax) #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z end #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.71 $xiird/AC1C.71.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB1 #
# $Z set _____animation=$xiad/AC1C.71.1 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z set _____images=$_____FAutoCellB2 #
# $Z set _____animation=$xiad/AC1C.71.2 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_71: #
# #
# #
# qui montre l'alternance chaque 50 lignes de deux automates cellulaires quasi-continus #
# aleatoires periodiques. #
v $xiird/AC1C.82 p=$xiP/cercle.35
v $xiird/AC1C.82 p=$xiP/gris.01
v $xiird/AC1C.82.bas p=$xiP/cercle.35
v $xiird/AC1C.82.bas p=$xiP/gris.01
v $xiad/AC1C.82$R16 p=$xiP/cercle.35
v $xiad/AC1C.82$R16 p=$xiP/gris.01
v $xiad/AC1C.82$R64 p=$xiP/cercle.35
v $xiad/AC1C.82$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_82: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.82 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.8 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.8.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.82 $xiird/AC1C.82.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.82 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_82: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" periodique. #
v $xiird/AC1C.83 p=$xiP/cercle.35
v $xiird/AC1C.83 p=$xiP/gris.01
v $xiird/AC1C.83.bas p=$xiP/cercle.35
v $xiird/AC1C.83.bas p=$xiP/gris.01
v $xiad/AC1C.83$R16 p=$xiP/cercle.35
v $xiad/AC1C.83$R16 p=$xiP/gris.01
v $xiad/AC1C.83$R64 p=$xiP/cercle.35
v $xiad/AC1C.83$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_83: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.83 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.8 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.8.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.83 $xiird/AC1C.83.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.83 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_83: #
# #
# #
# qui montre un automate cellulaire quasi-continu "rotatif" periodique. #
v $xiird/AC1C.91 p=$xiP/cercle.35
v $xiird/AC1C.91 p=$xiP/gris.01
v $xiird/AC1C.91.bas p=$xiP/cercle.35
v $xiird/AC1C.91.bas p=$xiP/gris.01
v $xiad/AC1C.91$R16 p=$xiP/cercle.35
v $xiad/AC1C.91$R16 p=$xiP/gris.01
v $xiad/AC1C.91$R64 p=$xiP/cercle.35
v $xiad/AC1C.91$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_91: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.91 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.9 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.9.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.91 $xiird/AC1C.91.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.91 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_91: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" discret periodique. #
v $xiird/AC1C.92 p=$xiP/cercle.35
v $xiird/AC1C.92 p=$xiP/gris.01
v $xiird/AC1C.92.bas p=$xiP/cercle.35
v $xiird/AC1C.92.bas p=$xiP/gris.01
v $xiad/AC1C.92$R16 p=$xiP/cercle.35
v $xiad/AC1C.92$R16 p=$xiP/gris.01
v $xiad/AC1C.92$R64 p=$xiP/cercle.35
v $xiad/AC1C.92$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_92: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.92 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.9 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.9.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.92 $xiird/AC1C.92.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.92 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_92: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" discret periodique. #
v $xiird/AC1C.93 p=$xiP/cercle.35
v $xiird/AC1C.93 p=$xiP/gris.01
v $xiird/AC1C.93.bas p=$xiP/cercle.35
v $xiird/AC1C.93.bas p=$xiP/gris.01
v $xiad/AC1C.93$R16 p=$xiP/cercle.35
v $xiad/AC1C.93$R16 p=$xiP/gris.01
v $xiad/AC1C.93$R64 p=$xiP/cercle.35
v $xiad/AC1C.93$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_93: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.93 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.9 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/sinus$X \ #
# $Z sinus=FAUX \ #
# $Z cX=$dpi cY=0 \ #
# $Z carre_X_CHAMP_3D=FAUX carre_Y_CHAMP_3D=FAUX \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z standard=FAUX zero=FAUX \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.9.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.93 $xiird/AC1C.93.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.93 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_93: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" discret periodique. #
v $xiird/AC1C.A1 p=$xiP/cercle.35
v $xiird/AC1C.A1 p=$xiP/gris.01
v $xiird/AC1C.A1.bas p=$xiP/cercle.35
v $xiird/AC1C.A1.bas p=$xiP/gris.01
v $xiad/AC1C.A1$R16 p=$xiP/cercle.35
v $xiad/AC1C.A1$R16 p=$xiP/gris.01
v $xiad/AC1C.A1$R64 p=$xiP/cercle.35
v $xiad/AC1C.A1$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_A1: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.A1 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.A #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.A.11._____U) #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.A1 $xiird/AC1C.A1.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.A1 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_A1: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" discret periodique. #
v $xiird/AC1C.B1 p=$xiP/cercle.35
v $xiird/AC1C.B1 p=$xiP/dentscie.01
v $xiird/AC1C.B1 p=$xiP/gris.01
v $xiird/AC1C.B1.bas p=$xiP/cercle.35
v $xiird/AC1C.B1.bas p=$xiP/gris.01
v $xiad/AC1C.B1.1$R16 p=$xiP/cercle.35
v $xiad/AC1C.B1.1$R16 p=$xiP/gris.01
v $xiad/AC1C.B1.1$R64 p=$xiP/cercle.35
v $xiad/AC1C.B1.1$R64 p=$xiP/gris.01
v $xiad/AC1C.B1.2$R16 p=$xiP/cercle.35
v $xiad/AC1C.B1.2$R16 p=$xiP/gris.01
v $xiad/AC1C.B1.2$R64 p=$xiP/cercle.35
v $xiad/AC1C.B1.2$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_B1: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____FAutoCellB1=$xTV/AUTOMC.1C.1 #
# $Z set _____FAutoCellB2=$xTV/AUTOMC.1C.2 #
# #
# $Z set _____ImageR=$xiird/AC1C.B1 #
# $Z set _____CondInitiales=$_____ImageR #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.9.11._____U) #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# #
# $Z $xci/random.01$X \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z set _____DYmax1=50 #
# $Z set _____DYmax2=50 #
# $Z set _____PerX=VRAI #
# #
# $Z set _____Ymin=$Ymin #
# #
# $Z while ($_____Ymin < $Ymax) #
# $Z set _____FAutoCellB=$_____FAutoCellB1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax1 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z set _____FAutoCellB=$_____FAutoCellB2 #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z @ _____Ymax = $_____Ymin + $_____DYmax2 #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z @ _____Ymin = $_____Ymax + 1 #
# $Z end #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.B1 $xiird/AC1C.B1.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB1 #
# $Z set _____animation=$xiad/AC1C.B1.1 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z set _____images=$_____FAutoCellB2 #
# $Z set _____animation=$xiad/AC1C.B1.2 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_B1: #
# #
# #
# qui montre l'alternance chaque 50 lignes de deux automates cellulaires quasi-continus #
# aleatoires periodiques. #
v $xiird/AC1C.C2 p=$xiP/cercle.35
v $xiird/AC1C.C2 p=$xiP/gris.01
v $xiird/AC1C.C2.bas p=$xiP/cercle.35
v $xiird/AC1C.C2.bas p=$xiP/gris.01
v $xiad/AC1C.C2$R16 p=$xiP/cercle.35
v $xiad/AC1C.C2$R16 p=$xiP/gris.01
v $xiad/AC1C.C2$R64 p=$xiP/cercle.35
v $xiad/AC1C.C2$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_C2: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.C2 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.C #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.4.11._____U) #
# $Z set _____Aleatoire=VRAI #
# $Z set _____SAleatoire=0.1 #
# $Z set _____PAleatoire=$xiP/gris.01 #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.C2 $xiird/AC1C.C2.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.C2 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_C2: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire "rotatif" periodique perturbe #
# aleatoirement. #
v $xiird/AC1C.D5 p=$xiP/cercle.35
v $xiird/AC1C.D5 p=$xiP/dentscie.01
v $xiird/AC1C.D5 p=$xiP/gris.01
v $xiird/AC1C.D5.bas p=$xiP/cercle.35
v $xiird/AC1C.D5.bas p=$xiP/gris.01
v $xiad/AC1C.D5$R16 p=$xiP/cercle.35
v $xiad/AC1C.D5$R16 p=$xiP/gris.01
v $xiad/AC1C.D5$R64 p=$xiP/cercle.35
v $xiad/AC1C.D5$R64 p=$xiP/gris.01
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_AC1C_D5: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageR=$xiird/AC1C.D5 #
# $Z set _____FAutoCellB=$xTV/AUTOMC.1C.D #
# $m4 _____include(_____xiird/.AC1B.0.11._____U) #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0 \ #
# $Z R=$_____CondInitiales \ #
# $Z $formatI #
# #
# $Z SET _____AN=0.0 #
# $Z SET _____BN=-1.0 #
# $m4 _____include(_____xiird/.AC1C.3.11._____U) #
# $m4 _____include(_____xiird/.AC1C.2.11._____U) #
# $Z set _____Aleatoire=VRAI #
# $Z set _____SAleatoire=0.0004 #
# $Z set _____PAleatoire=$xiP/gris.01 #
# $Z set _____PerX=VRAI #
# $m4 _____include(_____xiird/.AC1Q.3.11._____U) #
# #
# $Z $xci/DuplLigne.01$Z $xiird/AC1C.D5 $xiird/AC1C.D5.bas #
# #
# $Z SformatI #
# $Z XYmaxNe $NOIR $BLANC $NOIR $BLANC #
# $Z set _____images=$_____FAutoCellB #
# $Z set _____animation=$xiad/AC1C.D5 #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $Z RformatI #
# #
# :Fin_listG_AC1C_D5: #
# #
# #
# qui montre un automate cellulaire quasi-continu lineaire periodique ou surgissent des #
# triangles de Sierpinski en couleurs, mais perturbe aleatoirement. #
v $xiird/AC1C.D5.1 p=$xiP/CEN.11
v $xiird/AC1C.D5.1 p=$xiP/etching.13
v $xiird/AC1C.D5.1 p=$xiP/gris_oran.14
v $xiird/AC1C.D5.1 p=$xiP/iles.11
v $xiird/AC1C.D5.1 p=$xiP/paysages.03
v $xiird/AC1C.D5.1 p=$xiP/rac3.12
v $xiird/AC1C.D5.1 p=$xiP/random.A5
v $xiird/AC1C.D5.1 p=$xiP/vert_orange
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_AC1C_D5_1: #
# #
# $Z Pal #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xiird/AC1C.D5 \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=250 \ #
# $Z R=$xTV/FILTRAGE \ #
# $Z $formatI #
# #
# $Z $xci/tapisserie$X \ #
# $Z A=$xTV/FILTRAGE \ #
# $Z $formatI | \ #
# $Z $xci/egaliseH.01$X \ #
# $Z plat=VRAI \ #
# $Z R=$xiird/AC1C.D5.1 \ #
# $Z $formatI #
# #
# :Fin_listG_AC1C_D5_1: #
# #
# #
# Cette image est une variation artistique sur 'v $xiad/AC1C.D5' qui presente une #
# particularaite interessante : elle donne une impression de profondeur "multi-plan", #
# les differentes couleurs primaires semblant etre a des distances variees de l'observateur #
# lors de l'utilisation d'une palette telle 'v $xiird/AC1C.D5.1 p=$xiP/CEN.11'. #
v $xiird/AC2B.11.064 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_AC2B_11_064: #
# #
# $Z set _____ImageR=$xiird/AC2B.11.064 #
# $m4 _____include(_____xiird/.AC2B.3.11._____U) #
# #
# :Fin_listG_AC2B_11_064: #
# #
# #
# Voici la liste des automates ainsi generes (il s'agit ci-apres de la partie droite #
# des regles definissant les automates cellulaires -donnant le niveau a inscrire si #
# la regle est satisfaite- en ce qui concerne les 6=log2(64) points generes ; voir a #
# ce propos 'v $xiird/.AC2B.3.11.$U LOG.N.N0.1.') : #
# #
# #
# image en haut et a droite #
# #
# || #
# || #
# \/ #
# #
# WWWBBB BWWBBB WBWBBB BBWBBB WWBBBB BWBBBB WBBBBB BBBBBB #
# WWWWBB BWWWBB WBWWBB BBWWBB WWBWBB BWBWBB WBBWBB BBBWBB #
# WWWBWB BWWBWB WBWBWB BBWBWB WWBBWB BWBBWB WBBBWB BBBBWB #
# WWWWWB BWWWWB WBWWWB BBWWWB WWBWWB BWBWWB WBBWWB BBBWWB #
# WWWBBW BWWBBW WBWBBW BBWBBW WWBBBW BWBBBW WBBBBW BBBBBW #
# WWWWBW BWWWBW WBWWBW BBWWBW WWBWBW BWBWBW WBBWBW BBBWBW #
# WWWBWW BWWBWW WBWBWW BBWBWW WWBBWW BWBBWW WBBBWW BBBBWW #
# WWWWWW BWWWWW WBWWWW BBWWWW WWBWWW BWBWWW WBBWWW BBBWWW #
# #
# /\ #
# || #
# || #
# #
# image en bas et a gauche #
# #
v $xiird/AC2B.21 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_AC2B_21: #
# #
# $Z Pal #
# #
# $Z set _____EdAutoCellB=$NEXIST #
# #
# $Z source $xci/AutoC_NDB$vv$Y #
# #
# $Z set Automate="$K_VIDE" #
# $Z set Automate="$Automate"" $pN$pN$pN$pN$pN$pN$pN$pN$pN$pS$pN" #
# $Z set Automate="$Automate"" $pB$pN$pN$pN$pN$pN$pN$pN$pN$pS$pN" #
# $Z set Automate="$Automate"" $pB$pB$pN$pN$pN$pN$pN$pN$pN$pS$pB" #
# $Z set Automate="$Automate"" $pB$pB$pB$pN$pN$pN$pN$pN$pN$pS$pB" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pN$pN$pN$pN$pN$pS$pB" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pB$pN$pN$pN$pN$pS$pB" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pB$pB$pN$pN$pN$pS$pB" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pB$pB$pB$pN$pN$pS$pN" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pB$pB$pB$pB$pN$pS$pN" #
# $Z set Automate="$Automate"" $pB$pB$pB$pB$pB$pB$pB$pB$pB$pS$pN" #
# #
# $Z $xci/AutoC_2DB.01$Z \ #
# $Z $xTV/AUTOMATE \ #
# $Z "$Automate" \ #
# $Z $_____EdAutoCellB #
# #
# $Z $xci/AutoC_2DQ.01$X \ #
# $Z A=$xiio/GRILLE_16x16 \ #
# $Z automate=$xTV/AUTOMATE \ #
# $Z regles=10 \ #
# $Z iterations=20 \ #
# $Z forme=FAUX \ #
# $Z R=$xiird/AC2B.21 \ #
# $Z $formatI #
# #
# :Fin_listG_AC2B_21: #
# #
v $xiird/AC2B.31$m p=$xiP/montagnes.91
# Montre l'accumulation de la sequence (sur '$LACT15') : #
# #
# xivPdf 6 2 / 029725_029980 #
# #
# selon : #
# #
# #
# :Debut_listG_AC2B_31_m: #
# #
# $Z Pal #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/AC2B.1. \ #
# $Z premiere=1 derniere=256 \ #
# $Z maximum=FAUX \ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \ #
# $Z $formatI | \ #
# $Z $xci/montagne.01$X \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=VRAI \ #
# $Z R=$xiird/AC2B.31$m \ #
# $Z $formatI #
# #
# :Fin_listG_AC2B_31_m: #
# #
v $xiird/AC2B.41 p=$xiP/cercle.35
v $xiird/AC2B.41 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_AC2B_41: #
# #
# $Z Pal #
# #
# $Z set _____EdAutoCellB=$NEXIST #
# #
# $Z source $xci/AutoC_NDB$vv$Y #
# #
# $Z set Automate="$K_VIDE" #
# #
# $Z set Automate="$Automate"" 000000000=0 700000000=0" #
# $Z set Automate="$Automate"" 770000000=0 777000000=i" #
# $Z set Automate="$Automate"" 777700000=i 777770000=i" #
# $Z set Automate="$Automate"" 777777000=0 777777700=0" #
# $Z set Automate="$Automate"" 777777770=0 777777777=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 600000000=0" #
# $Z set Automate="$Automate"" 660000000=h 666000000=0" #
# $Z set Automate="$Automate"" 666600000=h 666660000=0" #
# $Z set Automate="$Automate"" 666666000=h 666666600=0" #
# $Z set Automate="$Automate"" 666666660=0 666666666=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 500000000=g" #
# $Z set Automate="$Automate"" 550000000=0 555000000=g" #
# $Z set Automate="$Automate"" 555500000=0 555550000=g" #
# $Z set Automate="$Automate"" 555555000=0 555555500=g" #
# $Z set Automate="$Automate"" 555555550=0 555555555=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 400000000=f" #
# $Z set Automate="$Automate"" 440000000=f 444000000=0" #
# $Z set Automate="$Automate"" 444400000=0 444440000=f" #
# $Z set Automate="$Automate"" 444444000=f 444444400=0" #
# $Z set Automate="$Automate"" 444444440=f 444444444=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 300000000=0" #
# $Z set Automate="$Automate"" 330000000=e 333000000=e" #
# $Z set Automate="$Automate"" 333300000=0 333330000=e" #
# $Z set Automate="$Automate"" 333333000=e 333333300=0" #
# $Z set Automate="$Automate"" 333333330=e 333333333=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 200000000=0" #
# $Z set Automate="$Automate"" 220000000=d 222000000=d" #
# $Z set Automate="$Automate"" 222200000=d 222220000=d" #
# $Z set Automate="$Automate"" 222222000=d 222222200=d" #
# $Z set Automate="$Automate"" 222222220=0 222222222=0" #
# #
# $Z set Automate="$Automate"" 000000000=0 100000000=c" #
# $Z set Automate="$Automate"" 110000000=c 111000000=c" #
# $Z set Automate="$Automate"" 111100000=c 111110000=c" #
# $Z set Automate="$Automate"" 111111000=c 111111100=c" #
# $Z set Automate="$Automate"" 111111110=c 111111111=0" #
# #
# $Z $xci/AutoC_2DQ.01$Z \ #
# $Z $xTV/AUTOMATE \ #
# $Z "$Automate" \ #
# $Z $_____EdAutoCellB #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiio/SPIRALE \ #
# $Z $format_Std \ #
# $Z mode=1 \ #
# $Z $formatR_Pal | \ #
# $Z $xci/and$X \ #
# $Z A2=$xiio/GRILLE_16x16 \ #
# $Z $formatI | \ #
# $Z $xci/AutoC_2DQ.01$X \ #
# $Z automate=$xTV/AUTOMATE \ #
# $Z regles=70 \ #
# $Z iterations=20 \ #
# $Z forme=FAUX \ #
# $Z susbtituer=VRAI \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z p=$xiP/escalier2.07 \ #
# $Z R=$xiird/AC2B.41 \ #
# $Z $formatI #
# #
# :Fin_listG_AC2B_41: #
# #
v $xiird/ACIN.11
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ACIN_11: #
# #
# $Z Pal #
# #
# $Z $xu/Felici.M/GenImages.01$Z $xiird/ACIN.11 5 5 5 0 0 0 $xiP/trou_noir.84 1234 #
# #
# :Fin_listG_ACIN_11: #
# #
# #
# Cette image est relative aux bronchioles terminales du poumon (Les grosses spheres #
# blanches sont proches de l'entree du labyrinthe tridimensionnel -defini dans un cube #
# 5x5x5 avec l'entree en {0,0,0}-, alors que les petites spheres rouges sombres en a #
# l'oppose). #
v $xiird/ACIN.21
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ACIN_21: #
# #
# $Z Pal #
# #
# $Z $xu/Felici.M/GenImages.01$Z $xiird/ACIN.21 6 6 6 0 0 0 $xiP/trou_noir.84 1234 #
# #
# :Fin_listG_ACIN_21: #
# #
# #
# Cette image est relative aux bronchioles terminales du poumon (Les grosses spheres #
# blanches sont proches de l'entree du labyrinthe tridimensionnel -defini dans un cube #
# 6x6x6 avec l'entree en {0,0,0}-, alors que les petites spheres rouges sombres en a #
# l'oppose). #
v $xiird/ACIN.33.0049
v $xiird/ACIN.33.0305
# Quelques images de la sequence : #
# #
# xivPdf 4 2 / 029690_030201 #
# #
# avec respectivement les angles de rotation suivants : #
# #
# 0049 : Acinus_Rot_OX=0.590201 Acinus_Rot_OY=0.590201 #
# 0305 : Acinus_Rot_OX=3.737942 Acinus_Rot_OY=3.737942 #
# #
v $xiird/ACIN.63
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 031939_032178 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_63: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.D. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=240 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.63%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_63: #
# #
v $xiird/ACIN.71.1.0 p=$xiP/gris.01
v $xiird/ACIN.71.1.1 p=$xiP/gris.01
# Montre l'accumulation de la sequence : #
# #
# xivPdf 12 1 / 032179_032306 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIN_71_1: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI depart=0.1 arrivee=1.0 \ #
# $Z R=$xiird/ACIN.71.1.0 \ #
# $Z $formatI #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 inverser=VRAI SY=VRAI \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI depart=0.1 arrivee=1.0 \ #
# $Z R=$xiird/ACIN.71.1.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIN_71_1: #
# #
v $xiird/ACIN.71.2.00 p=$xiP/gris.01
v $xiird/ACIN.71.2.00 p=$xiP/trou_noir.94
v $xiird/ACIN.71.2.10 p=$xiP/gris.11
v $xiird/ACIN.71.2.10 p=$xiP/trou_noir.94
v $xiird/ACIN.71.2.01 p=$xiP/gris.01
v $xiird/ACIN.71.2.01 p=$xiP/trou_noir.94
v $xiird/ACIN.71.2.11 p=$xiP/gris.11
v $xiird/ACIN.71.2.11 p=$xiP/trou_noir.94
# Montre l'accumulation de la sequence : #
# #
# xivPdf 10 2 / 032179_032306 #
# #
# selon : #
# #
# :Debut_listG_ACIN_71_2: #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 \ #
# $Z seuil=10 \ #
# $Z binariser=VRAI \ #
# $Z trx=0.002 try=0.001 \ #
# $Z R=$xiird/ACIN.71.2.00 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 \ #
# $Z seuil=10 \ #
# $Z binariser=FAUX \ #
# $Z trx=0.002 try=0.001 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiird/ACIN.71.2.10 \ #
# $Z $formatI #
# \ #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 inverser=VRAI SY=VRAI \ #
# $Z seuil=10 \ #
# $Z binariser=VRAI \ #
# $Z trx=0.002 try=0.001 \ #
# $Z R=$xiird/ACIN.71.2.01 \ #
# $Z $formatI #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ACIN.G. \ #
# $Z premiere=1 derniere=128 inverser=VRAI SY=VRAI \ #
# $Z seuil=10 \ #
# $Z binariser=FAUX \ #
# $Z trx=0.002 try=0.001 \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiird/ACIN.71.2.11 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIN_71_2: #
# #
v $xiird/ACIN.72.0
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 032307_032818 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_72_0: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.H. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.72.0%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_72_0: #
# #
v $xiird/ACIN.72.1
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 032307_032818 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_72_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.H. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=1.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.72.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_72_1: #
# #
v $xiird/ACIN.73 p=$xiP/fract.02$Fi
v $xiird/ACIN.73 p=$xiP/fract.03$Fi
v $xiird/ACIN.73 p=$xiP/gris.01
v $xiird/ACIN.73 p=$xiP/random.11$Fi
v $xiird/ACIN.73 p=$xiP/random.13$Fi
# Geometrie du milieu de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 032819_033330 #
# #
v $xiird/ACIN.73.0
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 032819_033330 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_73_0: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.I. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.73.0%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_73_0: #
# #
v $xiird/ACIN.73.1
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 032819_033330 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_73_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.I. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=1.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.73.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_73_1: #
# #
v $xiird/ACIN.81
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_ACIN_81: #
# #
# $Z set _____MailleCarree=$EXIST #
# $Z set _____DistanceX=8 #
# $Z set _____DistanceY=8 #
# $Z set _____DistanceZ=1 #
# $Z set _____RayonsP=0.010 #
# $Z set _____DepthCueing=0.3 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____RotationOY=$pi #
# $Z set _____Zoom=0.85 #
# $Z set _____imagesM=$xiim/ACIN.G #
# $Z set _____imageR=$xiird/ACIN.81 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xiird/.ACIN.H.11._____U) #
# $m4 _____include(_____xiird/.ACIN.K.12._____U) #
# #
# :Fin_listG_ACIN_81: #
# #
v $xiird/ACIN.91 p=$xiP/fract.02$Fi
v $xiird/ACIN.91 p=$xiP/fract.03$Fi
v $xiird/ACIN.91 p=$xiP/gris.01
v $xiird/ACIN.91 p=$xiP/random.11$Fi
v $xiird/ACIN.91 p=$xiP/random.13$Fi
# Geometrie du milieu de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 033843_034354 #
# #
v $xiird/ACIN.91.0
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 033843_034354 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_91_0: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.K. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.91.0%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_91_0: #
# #
v $xiird/ACIN.91.1
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 4 2 / 033843_034354 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_91_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.K. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=1.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.91.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_91_1: #
# #
v $xiird/ACIN.A3.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 4 2 / 034355_034866 #
# #
v $xiird/ACIN.A4.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 4 2 / 034867_035378 #
# #
v $xiird/ACIN.B3.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 000513_001024 #
# #
v $xiird/ACIN.B4.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 001025_001536 #
# #
v $xiird/ACIN.C1 p=$xiP/fract.02$Fi
v $xiird/ACIN.C1 p=$xiP/fract.03$Fi
v $xiird/ACIN.C1 p=$xiP/gris.01
v $xiird/ACIN.C1 p=$xiP/random.11$Fi
v $xiird/ACIN.C1 p=$xiP/random.13$Fi
# Geometrie du milieu de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 001537_002048 #
# #
v $xiird/ACIN.C1.0
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 001537_002048 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_C1_0: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.4. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.C1.0%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_C1_0: #
# #
v $xiird/ACIN.C1.1
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 001537_002048 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_C1_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.4. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=1.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.C1.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_C1_1: #
# #
v $xiird/ACIN.D1.0
v $xiird/ACIN.D1.1
# Accumulations de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 002049_002560 #
# #
# de type [0->1] et [1->1] respectivement. #
v $xiird/ACIN.E1.0
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 003073_003584 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_E1_0: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.7. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.E1.0%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_E1_0: #
# #
v $xiird/ACIN.E1.1
# Integration de la sequence (sur '$LACT14') : #
# #
# xivPdf 14 1 / 003073_003584 #
# #
# par : #
# #
# #
# :Debut_listG_ACIN_E1_1: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.7. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=1.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIN.E1.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIN_E1_1: #
# #
v $xiird/ACIN.E3.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 004097_004608 #
# #
v $xiird/ACIN.E4.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 004609_005120 #
# #
v $xiird/ACIN.H2.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 006657_007168 #
# #
v $xiird/ACIN.H3.0512
# Cette image est la derniere image de la sequence : #
# #
# xivPdf 14 1 / 007169_007680 #
# #
v $xiird/ACIN.H4.0131
v $xiird/ACIN.H4.0174
v $xiird/ACIN.H4.0512
# Ces images sont les images {0131,0174,0512} de la sequence : #
# #
# xivPdf 14 1 / 007681_008192 #
# #
v $xiird/ACIN.H5.0131
v $xiird/ACIN.H5.0174
v $xiird/ACIN.H5.0512
# Ces images sont les images {0131,0174,0512} de la sequence : #
# #
# xivPdf 14 1 / 008193_008704 #
# #
v $xiird/ACIN.M2.0131
v $xiird/ACIN.M2.0174
v $xiird/ACIN.M2.0512
# Ces images sont les images {0131,0174,0512} de la sequence : #
# #
# xivPdf 14 1 / 012289_012800 #
# #
v $xiird/ACIN.N1.0113
v $xiird/ACIN.N1.0281
v $xiird/ACIN.N1.0329
v $xiird/ACIN.N1.0393
# Ces images sont les images {0113,0281,0329,0393} de la sequence : #
# #
# xivPdf 14 1 / 012801_013312 #
# #
v $xiird/ACIN.O1.0113
v $xiird/ACIN.O1.0281
v $xiird/ACIN.O1.0329
v $xiird/ACIN.O1.0393
# Ces images sont les images {0113,0281,0329,0393} de la sequence : #
# #
# xivPdf 14 1 / 013313_013824 #
# #
v $xiird/ACIN.O2.0113
v $xiird/ACIN.O2.0281
v $xiird/ACIN.O2.0329
v $xiird/ACIN.O2.0393
# Ces images sont les images {0113,0281,0329,0393} de la sequence : #
# #
# xivPdf 14 1 / 013825_014336 #
# #
v $xiird/ACIN.Q2.0209
v $xiird/ACIN.Q2.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 019791_020302 #
# #
v $xiird/ACIN.R1.1 p=$xiP/gris.01
v $xiird/ACIN.R1.2 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 14 1 / 020303_020430 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIN_R1: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/ACIN.X. \ #
# $Z premiere=1 derniere=128 inverser=VRAI SY=VRAI \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI \ #
# $Z R=$xiird/ACIN.R1.1 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/ACIN.X. \ #
# $Z premiere=1 derniere=128 inverser=VRAI SY=VRAI \ #
# $Z zmax=128 \ #
# $Z R=$xiird/ACIN.R1.2 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIN_R1: #
# #
v $xiird/ACIN.S2.0209
v $xiird/ACIN.S2.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 020431_020942 #
# #
v $xiird/ACIN.S3.0209
v $xiird/ACIN.S3.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 021967_022478 #
# #
v $xiird/ACIN.S4.0209
v $xiird/ACIN.S4.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 022479_022990 #
# #
v $xiird/ACIN.T4.0209
v $xiird/ACIN.T4.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 023117_023628 #
# #
v $xiird/ACIN.U4.0209
v $xiird/ACIN.U4.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 024653_025164 #
# #
v $xiird/ACIN.U5.0209
v $xiird/ACIN.U5.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 025165_025676 #
# #
v $xiird/ACIN.V5.0209
v $xiird/ACIN.V5.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 025677_026188 #
# #
v $xiird/ACIN.W5.0209
v $xiird/ACIN.W5.0305
# Ces images sont les images {0209,0305} de la sequence : #
# #
# xivPdf 14 1 / 026189_026700 #
# #
v $xiird/ACIS.11.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 026701_026828 #
# #
v $xiird/ACIS.21.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 027213_027724 #
# #
v $xiird/ACIS.22.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 027725_028236 #
# #
v $xiird/ACIS.22.1 p=$xiP/cercle.35
v $xiird/ACIS.22.1 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 14 1 / 027725_028236 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_22_1: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z maximum=VRAI \ #
# $Z attenuation=1 \ #
# $Z R=$xiird/ACIS.22.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_22_1: #
# #
v $xiird/ACIS.22.2.0 p=$xiP/cercle.35
v $xiird/ACIS.22.2.0 p=$xiP/gris.01
v $xiird/ACIS.22.2.0 p=$xiP/trou_noir.94
v $xiird/ACIS.22.2.1 p=$xiP/cercle.35
v $xiird/ACIS.22.2.1 p=$xiP/gris.01
v $xiird/ACIS.22.2.1 p=$xiP/trou_noir.94
# Montre deux accumulations de la sequence : #
# #
# xivPdf 14 1 / 027725_028236 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_22_2: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=VRAI \ #
# $Z R=$xiird/ACIS.22.2.0 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiird/ACIS.22.2.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_22_2: #
# #
v $xiird/ACIS.23.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 028237_028748 #
# #
v $xiird/ACIS.23.1 p=$xiP/cercle.35
v $xiird/ACIS.23.1 p=$xiP/gris.01
# Montre une accumulation de la sequence : #
# #
# xivPdf 14 1 / 028237_028748 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_23_1: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z maximum=VRAI \ #
# $Z attenuation=1 \ #
# $Z R=$xiird/ACIS.23.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_23_1: #
# #
v $xiird/ACIS.23.2.0 p=$xiP/cercle.35
v $xiird/ACIS.23.2.0 p=$xiP/gris.01
v $xiird/ACIS.23.2.0 p=$xiP/trou_noir.94
v $xiird/ACIS.23.2.1 p=$xiP/cercle.35
v $xiird/ACIS.23.2.1 p=$xiP/gris.01
v $xiird/ACIS.23.2.1 p=$xiP/trou_noir.94
# Montre deux accumulations de la sequence : #
# #
# xivPdf 14 1 / 028237_028748 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_23_2: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=VRAI \ #
# $Z R=$xiird/ACIS.23.2.0 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiird/ACIS.23.2.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_23_2: #
# #
v $xiird/ACIS.31.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 028749_029260 #
# #
v $xiird/ACIS.32.0512
# Cette image est l'image '0512' de la sequence : #
# #
# xivPdf 14 1 / 029261_029772 #
# #
v $xiird/ACIS.32.1 p=$xiP/cercle.35
v $xiird/ACIS.32.1 p=$xiP/gris.01
# Montre une accumulation de la sequence : #
# #
# xivPdf 14 1 / 029261_029772 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_32_1: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z maximum=VRAI \ #
# $Z attenuation=1 \ #
# $Z R=$xiird/ACIS.32.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_32_1: #
# #
v $xiird/ACIS.32.2.0 p=$xiP/cercle.35
v $xiird/ACIS.32.2.0 p=$xiP/gris.01
v $xiird/ACIS.32.2.0 p=$xiP/trou_noir.94
v $xiird/ACIS.32.2.1 p=$xiP/cercle.35
v $xiird/ACIS.32.2.1 p=$xiP/gris.01
v $xiird/ACIS.32.2.1 p=$xiP/trou_noir.94
# Montre deux accumulations de la sequence : #
# #
# xivPdf 14 1 / 029261_029772 #
# #
# selon : #
# #
# #
# :Debut_listG_ACIS_32_2: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=VRAI \ #
# $Z R=$xiird/ACIS.32.2.0 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/REFL.Wa. \ #
# $Z premiere=1 derniere=512 \ #
# $Z seuil=$GRIS_1 \ #
# $Z trx=0.0002 try=0.0002 \ #
# $Z binariser=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/acces$X \ #
# $Z renormaliser=VRAI \ #
# $Z R=$xiird/ACIS.32.2.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_32_2: #
# #
v $xiird/ACIS.52
# Integration de la sequence (sur '$LACT15') : #
# #
# xivPdf 14 1 / 034304_034815 #
# #
# par : #
# #
# #
# :Debut_listG_ACIS_52: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/accumule.01$X \\\ #
# $Z A=$xiim/ACIN.k. \\\ #
# $Z premiere=1 \\\ #
# $Z derniere=512 \\\ #
# $Z postfixe=%s \\\ #
# $Z maximum=VRAI \\\ #
# $Z lineaire=VRAI depart=0.0 arrivee=1.0 \\\ #
# $Z R=$xiird/ACIS.52%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_ACIS_52: #
# #
v $xiird/ACIS.61.1
v $xiird/ACIS.61.2
v $xiird/ACIS.61.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ACIS_61: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiird/.ACIS.61.1._____U) #
# $Z SET PremiereM=1 #
# $Z SET DerniereM=512 #
# $m4 _____include(_____xiird/.ACIS.61.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiird/ACIS.61 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ACIS_61: #
# #
# #
# qui montre un arbre binaire (a deux niveaux). #
v $xiird/ACIS.62.1
v $xiird/ACIS.62.2
v $xiird/ACIS.62.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ACIS_62: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $m4 _____include(_____xiird/.ACIS.61.1._____U) #
# $Z SET PremiereM=1 #
# $Z SET DerniereM=512 #
# $m4 _____include(_____xiird/.ACIS.61.2._____U) #
# #
# $m4 _____include(_____xiirv/.KNOT.81.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiird/ACIS.62 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ACIS_62: #
# #
# #
# qui montre un arbre binaire (a deux niveaux) avec ombres portees sur un fond... #
v $xiird/ACIS.62.1.1 p=$xiP/trou_noir.A4
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ACIS_62_1_1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesR=$xiird/ACIS.62.1 #
# #
# $Z $xci/detourage.23$Z $_____imagesR $xTV/TREE.62 10 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/TREE.62 \ #
# $Z R=$_____imagesR.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_62_1_1: #
# #
v $xiird/ACIS.81.1
v $xiird/ACIS.81.2
v $xiird/ACIS.81.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ACIS_81: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Iterations=3 #
# $Z set _____Facteur=0.80 #
# $Z set _____Zoom=0.52 #
# $m4 _____include(_____xiird/.ACIS.61.1._____U) #
# $Z SET PremiereM=1 #
# $Z SET DerniereM=512 #
# $m4 _____include(_____xiird/.ACIS.61.2._____U) #
# #
# $m4 _____include(_____xiirv/.KNOT.81.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____imagesR=$xiird/ACIS.81 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_ACIS_81: #
# #
# #
# qui montre un arbre binaire (a trois niveaux) avec ombres portees sur un fond... #
v $xiird/ACIS.81.1.1 p=$xiP/enfer.43
v $xiird/ACIS.81.1.1 p=$xiP/trou_noir.A4
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_ACIS_81_1_1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imagesR=$xiird/ACIS.81.1 #
# #
# $Z $xci/detourage.23$Z $_____imagesR $xTV/TREE.81 10 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/TREE.81 \ #
# $Z R=$_____imagesR.1 \ #
# $Z $formatI #
# #
# :Fin_listG_ACIS_81_1_1: #
# #
v $xiird/CHUR.11
# Cette image est l'accumulation par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 8 2 / 000001_000128 #
# #
# avec les parametres "maximum=VRAI attenuation=1". Il y a evidemment accumulation des #
# numeros de "Client=", mais ce n'est pas trop grave... #
v $xiird/CHUR.12
# Cette image est l'accumulation par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 8 2 / 000129_000256 #
# #
# avec les parametres "maximum=VRAI attenuation=1". Il y a evidemment accumulation des #
# numeros de "Client=", mais ce n'est pas trop grave... #
v $xiird/CHUR.21
# Cette image est l'accumulation par '$xci/accumule.01$X' de la sequence : #
# #
# xivPdf 8 2 / 000257_000384 #
# #
# avec les parametres "maximum=VRAI attenuation=1". Il y a evidemment accumulation des #
# numeros de "Client=", mais ce n'est pas trop grave... #
# #
# En ce qui concerne le mystere des clients du quatrieme quadrant ('$BE_AEEE_TL___DUR' #
# croissant et '$BE_AEEE_TL___CA' decroissant), cela peut s'expliquer en examinant le #
# premier de ce type (le 1 d'ailleurs) dans '$xwE/FT/BE/AEEE_97$vv.txt' grace aux commandes : #
# #
# FTanalyse "$xwE/FT/BE/AEEE_97$vv.txt" 1 $BE_AEEE_TL___DUR #
# FTanalyse "$xwE/FT/BE/AEEE_97$vv.txt" 1 $BE_AEEE_TL___CA #
# #
# qui donnent respectivement : #
# #
# BE_AEEE_TL___CA #
# #
# N=+0 X=+0 Y=+137345 |--------------* #
# N=+1 X=+27469 Y=+67003 |------* #
# N=+2 X=+54938 Y=+65305 |------* #
# N=+3 X=+82407 Y=+74317 |-------* #
# N=+4 X=+109876 Y=+68059 |------* #
# N=+5 X=+137345 Y=+74696 |-------* #
# #
# #
# BE_AEEE_TL___DUR #
# #
# N=+0 X=+0 Y=+129220 |---------* #
# N=+1 X=+37845 Y=+148717 |-----------* #
# N=+2 X=+75690 Y=+149710 |-----------* #
# N=+3 X=+113535 Y=+166385 |------------* #
# N=+4 X=+151380 Y=+160956 |-----------* #
# N=+5 X=+189225 Y=+189225 |--------------* #
# #
# Ainsi, la premiere mesure (N=+0) de '$BE_AEEE_TL___CA' serait peut-etre un "rattrapage" #
# alors que de N=+1 a N=+5, '$BE_AEEE_TL___CA' et '$BE_AEEE_TL___DUR' sont relativement #
# bien "en phase"... #
# #
# Le client 5, quant a lui, grace a : #
# #
# FTanalyse "$xwE/FT/BE/AEEE_97$vv.txt" 5 $BE_AEEE_TL___DUR #
# FTanalyse "$xwE/FT/BE/AEEE_97$vv.txt" 5 $BE_AEEE_TL___CA #
# #
# donne : #
# #
# BE_AEEE_TL___CA #
# #
# N=+0 X=+0 Y=+12871 |------------* #
# N=+1 X=+2825 Y=+12122 |------------* #
# N=+2 X=+5650 Y=+12748 |------------* #
# N=+3 X=+8475 Y=+14034 |-------------* #
# N=+4 X=+11300 Y=+14125 |--------------* #
# N=+5 X=+14125 Y=+11344 |-----------* #
# #
# #
# BE_AEEE_TL___DUR #
# #
# N=+0 X=+0 Y=+21781 |---------* #
# N=+1 X=+6748 Y=+21461 |--------* #
# N=+2 X=+13496 Y=+27739 |-----------* #
# N=+3 X=+20244 Y=+33355 |-------------* #
# N=+4 X=+26992 Y=+33740 |--------------* #
# N=+5 X=+33740 Y=+31340 |-------------* #
# #
# ou cette fois-ci une nette non proportionnalite entre les differentes valeurs est a noter. #
# Par exemple : #
# #
# BE_AEEE_TL___DUR = 21781 => BE_AEEE_TL___CA = 12871 #
# BE_AEEE_TL___DUR = 31340 => BE_AEEE_TL___CA = 11344 #
# #
v $xiird/CO.1.0.0063
v $xiird/CO.1.1.0063
v $xiird/CO.1.2.0063
v $xiird/CO.1.3.0063
# Ces images sont les images 0064 (et non pas 0063 car l'image 0001 donne uniquement la #
# geometrie du probleme...) des sequences : #
# #
# xivPdf 4 2 / 022588_022651 #
# xivPdf 4 2 / 022652_022715 #
# xivPdf 4 2 / 022716_022779 #
# xivPdf 4 2 / 022780_022843 #
# #
# ou les trajectoires sont visualisees toutes de facon uniforme en '$BLANC'. #
v $xiird/CO.2.0.0063
v $xiird/CO.2.1.0063
v $xiird/CO.2.2.0063
v $xiird/CO.2.3.0063
# Ces images sont les images 0064 (et non pas 0063 car l'image 0001 donne uniquement la #
# geometrie du probleme...) des sequences : #
# #
# xivPdf 4 2 / 022844_022907 #
# xivPdf 4 2 / 022908_022971 #
# xivPdf 4 2 / 022972_023035 #
# xivPdf 4 2 / 023036_023099 #
# #
# ou les trajectoires sont visualisees avec une luminance "anti-proportionnelle" (1-L) #
# a leurs longueurs (plus elles sont longues et moins elles sont lumineuses...). #
v $xiird/CO.3.0.0127
v $xiird/CO.3.1.0127
v $xiird/CO.3.2.0127
v $xiird/CO.3.3.0127
# Ces images sont les images 0128 (et non pas 0127 car l'image 0001 donne uniquement la #
# geometrie du probleme...) des sequences : #
# #
# xivPdf 4 2 / 023100_023227 #
# xivPdf 4 2 / 023228_023355 #
# xivPdf 4 2 / 023356_023483 #
# xivPdf 4 2 / 023484_023611 #
# #
# ou les trajectoires sont visualisees avec une luminance inversement proportionnelle (1/L) #
# a leurs longueurs (plus elles sont longues et moins elles sont lumineuses...). #
v $xiird/CO.4.0.0127
v $xiird/CO.4.1.0127
v $xiird/CO.4.2.0127
v $xiird/CO.4.3.0127
# Ces images sont les images 0128 (et non pas 0127 car l'image 0001 donne uniquement la #
# geometrie du probleme...) des sequences : #
# #
# xivPdf 4 2 / 023612_023739 #
# xivPdf 4 2 / 023740_023867 #
# xivPdf 4 2 / 023868_023995 #
# xivPdf 4 2 / 023996_024123 #
# #
# ou les trajectoires sont visualisees avec une luminance inversement proportionnelle #
# au rapport du nombre de reflexions a leurs longueurs. #
v $xiird/CO.5$R04.0099
# Cette image est l'image 0099 de la sequence : #
# #
# xivPdf 4 2 / 026513_026612 #
# #
# ainsi qu'un "resume"... #
v $xiird/DIST.11.1 p=$xiP/cercle.11
v $xiird/DIST.11.1 p=$xiP/dentscie.01
v $xiird/DIST.11.1 p=$xiP/dentscie.02
v $xiird/DIST.11.1 p=$xiP/dentscie.02 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.11.1 p=$xiP/dentscie.04
v $xiird/DIST.11.1 p=$xiP/dentscie.08
v $xiird/DIST.11.1 p=$xiP/fractal.11
v $xiird/DIST.11.1 p=$xiP/fractal.91 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.11.1 p=$xiP/orange.11 animation=VRAI NOIR=VRAI d=2
# Generee par : #
# #
# $Z Pal #
# #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$xT/BLANC \ #
# $Z $formatI #
# $Z $xci/random.02$X \ #
# $Z graine=1234 \ #
# $Z seuil=0.005 \ #
# $Z R=$xT/RANDOM \ #
# $Z $formatI #
# #
# $Z $xci/distance.02$X \ #
# $Z A1=$xT/BLANC \ #
# $Z A2=$xT/RANDOM \ #
# $Z points=100000 \ #
# $Z rang=1 \ #
# $Z circulaire=VRAI \ #
# $Z R=$xiird/DIST.11.1 \ #
# $Z $formatI #
# #
# #
v $xiird/DIST.21.1 p=$xiP/cercle.11
v $xiird/DIST.21.1 p=$xiP/dentscie.01
v $xiird/DIST.21.1 p=$xiP/dentscie.02
v $xiird/DIST.21.1 p=$xiP/dentscie.02 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.21.1 p=$xiP/dentscie.04
v $xiird/DIST.21.1 p=$xiP/dentscie.08
v $xiird/DIST.21.1 p=$xiP/fractal.11
v $xiird/DIST.21.1 p=$xiP/fractal.91 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.21.1 p=$xiP/orange.11 animation=VRAI NOIR=VRAI d=2
# Generee par : #
# #
# 'v $xiirf/$Fnota DIST.21.1' #
# #
v $xiird/DIST.31.1 p=$xiP/cercle.11
v $xiird/DIST.31.1 p=$xiP/dentscie.01
v $xiird/DIST.31.1 p=$xiP/dentscie.02
v $xiird/DIST.31.1 p=$xiP/dentscie.04
v $xiird/DIST.31.1 p=$xiP/dentscie.04 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.31.1 p=$xiP/dentscie.08
v $xiird/DIST.31.1 p=$xiP/fractal.11
v $xiird/DIST.31.1 p=$xiP/fractal.91 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.31.1 p=$xiP/orange.11 animation=VRAI NOIR=VRAI d=2
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_DIST_31: #
# #
# $Z set _____ImageR=$xiird/DIST.31.1 #
# $m4 _____include(_____xiird/.DIST.3.11._____U) #
# #
# :Fin_listG_DIST_31: #
# #
v $xiird/DIST.32.1 p=$xiP/altit.01$Fi
v $xiird/DIST.32.1 p=$xiP/cercle.11
v $xiird/DIST.32.1 p=$xiP/dentscie.01
v $xiird/DIST.32.1 p=$xiP/dentscie.02
v $xiird/DIST.32.1 p=$xiP/dentscie.04
v $xiird/DIST.32.1 p=$xiP/dentscie.08
v $xiird/DIST.32.1 p=$xiP/dentscie.08 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.32.1 p=$xiP/fract.02$Fi
v $xiird/DIST.32.1 p=$xiP/fract.03$Fi
v $xiird/DIST.32.1 p=$xiP/fractal.11
v $xiird/DIST.32.1 p=$xiP/fractal.91 animation=VRAI NOIR=VRAI d=2
v $xiird/DIST.32.1 p=$xiP/inter.02.12
v $xiird/DIST.32.1 p=$xiP/orange.11 animation=VRAI NOIR=VRAI d=2
# Generee (sur '$LACT14') par : #
# #
# #
# :Debut_listG_DIST_32: #
# #
# $Z set _____ImageR=$xiird/DIST.32.1 #
# $m4 _____include(_____xiird/.DIST.3.21._____U) #
# #
# :Fin_listG_DIST_32: #
# #
v $xiird/ECHEC.11
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_ECHEC_11: #
# #
# $Z Pal #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1 #
# #
# $Z $xis/echecs.11$Z \ #
# $Z $xTV/ECHEC.11. \ #
# $Z "2 8 4 6" \ #
# $Z 1 4 5 #
# #
# $Z set PaRaMeTrEs="premiere=$cDerniere derniere=$cDerniere" #
# $Z set DeRnIeRe=`$xci/nombres$X $PaRaMeTrEs A="$K_VIDE"` #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$xTV/ECHEC.11.$DeRnIeRe%s \ #
# $Z R=$xiird/ECHEC.11%s \ #
# $Z $formatI #
# #
# :Fin_listG_ECHEC_11: #
# #
# #
# Cette image fut rendue necessaire par 'v $xiMd/ArtEtMathematiques.01$m4 ECHEC.11'... #
v $xiird/ELEC.11.0018
v $xiird/ELEC.11.0064
# Ces images ont ete obtenues a partir de la sequence : #
# #
# xivPdf 4 2 / 012670_012733 #
# #
v $xiird/ELEC.21.0051
# Cette image est calculee de la meme facon que celles de la sequence : #
# #
# xivPdf 4 2 / 012670_012733 #
# #
# en prenant les parametres : #
# #
# set CboulesS=0.35 #
# set CboulesC=0.35 #
# ZOOM=1.8 #
# TRANSLATION_OY=-0.63 #
# ROTATION_OX=2.0285714285714 #
# #
# Elle visualise le potentiel a l'exterieur d'une electrode fractale. #
v $xiird/ELEC.22.0051
# Cette image est calculee de la meme facon que celles de la sequence : #
# #
# xivPdf 4 2 / 012670_012733 #
# #
# en prenant les parametres : #
# #
# set CboulesS=0.35 #
# ajuster=FAUX #
# AX=+0.013095 #
# BX=+0.500000 #
# AY=+0.013095 #
# BY=+0.500000 #
# AZ=+0.013095 #
# BZ=+0.000000 #
# ZOOM=1.8 #
# TRANSLATION_OY=-0.63 #
# ROTATION_OX=2.0285714285714 #
# #
# '$xiird/ELEC.22.0051' ne montrant que la structure... #
v $xiird/FILT.11.0
v $xiird/FILT.11.1
# Ces images ont ete obtenues a partir de la sequence : #
# #
# xivPdf 6 2 / 026764_026891 #
# #
# par mise en vraies couleurs par '$xci/vraies_C.01$X' utilisant la palette '$xiP/fractal.91' #
# puis par accumulation avec '$xci/accumule.01$X' avec un facteur "attenuation=" de 0 et de 1 #
# respectivement. #
v $xiird/FILT.12
# Ces images ont ete obtenues a partir de la sequence : #
# #
# xivPdf 6 2 / 026764_026891 #
# #
# par accumulation par '$xci/accumule.02$X' avec un "seuil=192". #
v $xiird/MORL.11.1 p=$xiP/gris.01
v $xiird/MORL.11.2 p=$xiP/fractal.11
v $xiird/MORL.11.2 p=$xiP/gris.01
v $xiird/MORL.11.2 p=$xiP/trou_noir.94
v $xiird/MORL.11.2 p=$xiP/trou_noir.C4
v $xiird/MORL.11.2.1 p=$xiP/CEN.12
v $xiird/MORL.11.2.1 p=$xiP/enfer.04
v $xiird/MORL.11.2.1 p=$xiP/fractal.11
v $xiird/MORL.11.2.1 p=$xiP/paysages.12
v $xiird/MORL.11.2.1 p=$xiP/roug7_jaun7
v $xiird/MORL.11.2.1 p=$xiP/trou_noir.C4
v $xiird/MORL.11.2.2
# Ces images ont ete obtenues a partir de la sequence (sur '$LACT15') : #
# #
# xivPdf 6 2 / 030365_030876 #
# #
# selon : #
# #
# #
# :Debut_listG_MORL_11: #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/MORL.1 #
# $Z set _____Seuil=210 #
# $Z set _____imageR=$xiird/MORL.11 #
# $m4 _____include(_____xiird/.MORL.1.11._____U) #
# #
# :Fin_listG_MORL_11: #
# #
v $xiird/MORL.42.2.1 p=$xiP/arc_ciel.03
v $xiird/MORL.42.2.1 p=$xiP/fractal.11
v $xiird/MORL.42.2.1 p=$xiP/gris.01
v $xiird/MORL.42.2.2 p=$xiP/arc_ciel.03
v $xiird/MORL.42.2.2 p=$xiP/fractal.11
v $xiird/MORL.42.2.2 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 032797_032924 #
# #
# selon : #
# #
# #
# :Debut_listG_MORL_42_2: #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/MORL.6 #
# $Z set _____Inverser=FAUX #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/MORL.42.2.1 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/MORL.6 #
# $Z set _____Inverser=VRAI #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/MORL.42.2.2 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# :Fin_listG_MORL_42_2: #
# #
v $xiird/MORL.43.2.1 p=$xiP/arc_ciel.03
v $xiird/MORL.43.2.1 p=$xiP/fractal.11
v $xiird/MORL.43.2.1 p=$xiP/gris.01
v $xiird/MORL.43.2.2 p=$xiP/arc_ciel.03
v $xiird/MORL.43.2.2 p=$xiP/fractal.11
v $xiird/MORL.43.2.2 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 032797_032924 #
# #
# selon : #
# #
# #
# :Debut_listG_MORL_43_2: #
# #
# $Z Std #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/move$X \ #
# $Z xR=0.5 yR=0.5 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xT/CACHE \ #
# $Z $formatR_Sdu #
# #
# $Z set _____Cache=$xT/CACHE #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/MORL.6 #
# $Z set _____Inverser=FAUX #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/MORL.43.2.1 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/MORL.6 #
# $Z set _____Inverser=VRAI #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/MORL.43.2.2 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# :Fin_listG_MORL_43_2: #
# #
v $xiird/NETW.11
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_11: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.11 #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Palette1=$xiP/cercle.35 #
# $Z set _____Palette2=$xiP/cercle.35 #
# $Z set _____Rayon=0.008 #
# $Z set _____ImageR=$xiird/NETW.11 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_11: #
# #
# #
# Il s'agit d'un test avec une matrice "triangulaire" (c'est-a-dire que le triangle #
# superieur, qui est seul utilise, ne contient que des valeurs positives ; le triangle #
# inferieur inutilise est "nul"...). #
v $xiird/NETW.11.symetrique
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_11_symetrique: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.11.symetrique #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Palette1=$xiP/cercle.35 #
# $Z set _____Palette2=$xiP/cercle.35 #
# $Z set _____Rayon=0.008 #
# $Z set _____ImageR=$xiird/NETW.11.symetrique #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_11_symetrique: #
# #
# #
# Il s'agit d'un test avec une matrice "symetrique" (c'est-a-dire que le triangle #
# superieur, qui est seul utilise, ne contient que des valeurs positives ; le triangle #
# inferieur inutilise est son anti-symetrique...). #
v $xiird/NETW.11.mixte
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_11_mixte: #
# #
# $Z Std #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.11.mixte #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Palette1=$xiP/cercle.35 #
# $Z set _____Palette2=$xiP/cercle.35 #
# $Z set _____Rayon=0.008 #
# $Z set _____ImageR=$xiird/NETW.11.mixte #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_11_mixte: #
# #
# #
# Il s'agit d'un test avec une matrice "mixte" (c'est-a-dire que le triangle superieur, #
# qui est seul utilise, contient a la fois des valeurs positives et negatives ; le triangle #
# inferieur inutilise est son anti-symetrique...). #
v $xiird/NETW.21
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_21: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.21 #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Rayon=0.006 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ImageR=$xiird/NETW.21 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_21: #
# #
# #
# Les courants sont dans [-0.050455,+0.10816]. #
v $xiird/NETW.22
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_22: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.21 #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____ZMinimum=0.4 #
# $Z set _____ZMaximum=0.6 #
# $Z set _____RotationY=0.1 #
# $Z set _____Rayon=0.006 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ImageR=$xiird/NETW.22 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_22: #
# #
# #
# Image identique a 'v $xiird/NETW.21', mais en introduisant un 'Z' aleatoire pour chaque #
# connexion, ainsi qu'une rotation par rapport a 'OY' afin de verifier la presence (qui #
# est ennuyeuse...) de connexions colineaires... #
v $xiird/NETW.31
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_31: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____ZMinimum=-1.0 #
# $Z set _____ZMaximum=+1.5 #
# $Z set _____Rayon=0.014 #
# $Z set _____Zoom=0.6 #
# $Z set _____ImageR=$xiird/NETW.31 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_31: #
# #
# #
# Les courants sont dans [-0.0713,+0.0963] et la visualisation est tridimensionnelle (la #
# coordonnee 'Z' visualise le potentiel...). #
v $xiird/NETW.32
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_32: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____ZMinimum=0 #
# $Z set _____ZMaximum=0 #
# $Z set _____RPotentiels=0.05 #
# $Z set _____PMinimum=0.2 #
# $Z set _____PMaximum=1.0 #
# $Z set _____EPotentiels=`calcul 1/2` #
# $Z set _____Grossissement=1 #
# $Z set _____Rayon=0.014 #
# $Z set _____Zoom=0.6 #
# $Z set _____ImageR=$xiird/NETW.32 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_32: #
# #
# #
# Les courants sont dans [-0.0713,+0.0963] et la visualisation est bidimensionnelle (le #
# rayon des sommets visualise le potentiel...). #
v $xiird/NETW.33
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_33: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Fond=$GRIS_2 #
# $Z set _____ZMinimum=0 #
# $Z set _____ZMaximum=0 #
# $Z set _____RPotentiels=0.05 #
# $Z set _____PMinimum=0.2 #
# $Z set _____PMaximum=1.0 #
# $Z set _____EPotentiels=`calcul 1/2` #
# $Z set _____Grossissement=1 #
# $Z set _____Rayon=0.014 #
# $Z set _____Palette1=$xiP/bleu_roug.35 #
# $Z set _____Palette2=$xiP/bleu_roug.32 #
# $Z set _____Zoom=0.6 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.33 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_33: #
# #
# #
# Les courants sont dans [-0.0713,+0.0963] et la visualisation est bidimensionnelle (le #
# rayon des sommets visualise le potentiel...). La direction du courant est donne par le #
# degrade sur chaque connexion du sombre au clair... #
v $xiird/NETW.34
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_34: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z set _____Fond=$GRIS_2 #
# $Z set _____ZMinimum=0 #
# $Z set _____ZMaximum=0 #
# $Z set _____RPotentiels=0.03 #
# $Z set _____PMinimum=0.3 #
# $Z set _____PMaximum=1.0 #
# $Z set _____EPotentiels=`calcul 1/2` #
# $Z set _____Grossissement=1.5 #
# $Z set _____Rayon=0.014 #
# $Z set _____Palette1=$xiP/bleu_roug.35 #
# $Z set _____Palette2=$xiP/bleu_roug.32 #
# #
# $Z SET _____BinfX=-1.0 #
# $Z SET _____BsupX=+1.0 #
# $Z set _____ExclusionAX=`calcul 1/(($_____BsupX)-($_____BinfX))` #
# $Z set _____ExclusionBX=$_____ExclusionAX #
# $Z SET _____BinfY=-1.0 #
# $Z SET _____BsupY=+1.0 #
# $Z set _____ExclusionAY=`calcul 1/(($_____BsupY)-($_____BinfY))` #
# $Z set _____ExclusionBY=$_____ExclusionAY #
# #
# A priori, les nombres aleatoires {dX,dY} sont dans [-1,+1] ce qui fait qu'il y en a qui #
# sont proches de 0 et donc sans interet pour faire disparaitre les colinearites qui #
# masquent certaines connexions. La manipulation qui est faite grace a ce qui a ete #
# introduit dans 'v $xiird/.NETW.11.1.$U 20180529102145' permet de ramener ces valeurs #
# aleatoires dans [-1,-1/2]U[+1/2,+1] et ainsi eviter le voisinnage de l'origine... #
# #
# $Z set _____Zoom=0.6 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.34 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_34: #
# #
# #
# Les courants sont dans [-0.0713,+0.0963] et la visualisation est bidimensionnelle (le #
# rayon des sommets visualise le potentiel...). La direction du courant est donne par le #
# degrade sur chaque connexion du sombre au clair. De plus, les connexions ne sont plus #
# lineaires, mais legerement courbees afin d'eviter les colinearites de certaines #
# d'entre-elles... #
v $xiird/NETW.41.05x05
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_05x05: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+1.02 #
# $Z set _____Zoom=0.47 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.05x05 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_05x05: #
# #
# #
# Les courants sont dans [-0.0713,+0.0963] et la visualisation est tridimensionnelle (le #
# rayon des sommets visualise le potentiel...). La direction du courant est donne par le #
# degrade sur chaque connexion du sombre au clair. Il s'agit d'une vue de cote qui permet #
# de voir la source S (en haut), le "back bone" (au milieu) et le drain D (en bas)... #
v $xiird/NETW.41.07x07
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_07x07: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.07x07 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.78 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.07x07 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_07x07: #
# #
# #
# Les courants sont dans [-0.064444,+0.033525] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.10x10
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_10x10: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.10x10 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.99 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.10x10 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_10x10: #
# #
# #
# Les courants sont dans [-0.10701,+0.16048] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.15x15
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_15x15: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.15x15 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.46 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.15x15 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_15x15: #
# #
# #
# Les courants sont dans [-0.035249,+0.0739419] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.20x20
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_20x20: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.20x20 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.20x20 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_20x20: #
# #
# #
# Les courants sont dans [-0.048773,+0.031386] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.30x30
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.30x30 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.30x30 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_30x30: #
# #
# #
# Les courants sont dans [-0.054699,+0.0633549] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.40x40
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_40x40: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.40x40 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.40x40 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_40x40: #
# #
# #
# Les courants sont dans [-0.014702,+0.017704] et la visualisation est tridimensionnelle... #
v $xiird/NETW.41.50x50
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_41_50x50: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.50x50 #
# #
# $Z SET _____ValeurAbsolueC=$NEXIST #
# $Z SET _____RayonEgalPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.41.50x50 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_41_50x50: #
# #
# #
# Les courants sont dans [-0.026215,+0.01688] et la visualisation est tridimensionnelle... #
v $xiird/NETW.42.05x05
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_05x05: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+1.02 #
# $Z set _____Zoom=0.47 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.05x05 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_05x05: #
# #
v $xiird/NETW.42.07x07
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_07x07: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.07x07 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.78 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.07x07 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_07x07: #
# #
v $xiird/NETW.42.10x10
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_10x10: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.10x10 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.99 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.10x10 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_10x10: #
# #
v $xiird/NETW.42.15x15
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_15x15: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.15x15 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.46 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.15x15 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_15x15: #
# #
v $xiird/NETW.42.20x20
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_20x20: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.20x20 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.20x20 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_20x20: #
# #
v $xiird/NETW.42.30x30
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.30x30 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.30x30 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_30x30: #
# #
v $xiird/NETW.42.40x40
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_40x40: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.40x40 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.40x40 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_40x40: #
# #
v $xiird/NETW.42.50x50
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_42_50x50: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.50x50 #
# #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.42.50x50 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_42_50x50: #
# #
v $xiird/NETW.43.05x05
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_05x05: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.05x05 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+1.02 #
# $Z set _____Zoom=0.47 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.05x05 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_05x05: #
# #
v $xiird/NETW.43.07x07
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_07x07: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.07x07 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.78 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.07x07 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_07x07: #
# #
v $xiird/NETW.43.10x10
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_10x10: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.10x10 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.99 #
# $Z set _____Zoom=0.43 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.10x10 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_10x10: #
# #
v $xiird/NETW.43.15x15
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_15x15: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.15x15 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.46 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.15x15 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_15x15: #
# #
v $xiird/NETW.43.15x15.1.1
v $xiird/NETW.43.15x15.1.2
v $xiird/NETW.43.15x15.1.21
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_15x15_1: #
# #
# $Z Sdu #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=1024 #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.15x15 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.46 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z FileTmpB LiStEPoInTs #
# #
# $Z set _____ParticulePara1="$_____ParticulePara1"" centrer_coordonnees=VRAI" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" centre_des_spheres=VRAI" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" lister_les_points=VRAI" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" lister_les_points_apres=VRAI" #
# #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >>! $LiStEPoInTs" #
# #
# $Z set _____ImageR=$xTV/NETW.43.15x15.1 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____DemiPaveX=8 #
# $Z set _____DemiPaveY=8 #
# $Z set _____DemiPaveZ=8 #
# $Z set _____PCubique=FAUX #
# $Z set _____ImageT1=$xTV/CARB.91 #
# $m4 _____include(_____xiirv/.CARB.91.2._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirf/.MENG.22.2._____U) #
# #
# $Z set _____SourceZ=10 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# $Z set _____RotationX=+0.4 #
# $Z set _____RotationY=+0.4 #
# $Z set _____imagesR=$xiird/NETW.43.15x15.1 #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# :Fin_listG_NETW_43_15x15_1: #
# #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xci/ombrage.11$X : 00:08:06 #
# #
# $xci/accumule.42$X : 00:08:06 #
# #
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/bleu_roug.11
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/enfer.43
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/random.A5
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/random.B7$Fi
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/trou_noir.94
v $xiird/NETW.43.15x15.1.21$Fi p=$xiP/vert_orange
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_43_15x15_1_21_Fi: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____ImageA=$xiird/NETW.43.15x15.1.21 #
# $Z set _____ImageR=$_____ImageA$Fi #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$_____ImageA \ #
# $Z R=$xTV/LUMINANCE \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/filtre.01$X \ #
# $Z A=$xTV/LUMINANCE \ #
# $Z N=$xTV/GAUSS \ #
# $Z seuil=240 \ #
# $Z R=$_____ImageR \ #
# $Z $formatI #
# #
# :Fin_listG_NETW_43_15x15_1_21_Fi: #
# #
v $xiird/NETW.43.20x20
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_20x20: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.20x20 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.20x20 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_20x20: #
# #
v $xiird/NETW.43.30x30
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.30x30 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.30x30 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_30x30: #
# #
v $xiird/NETW.43.40x40
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_40x40: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.40x40 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.40x40 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_40x40: #
# #
v $xiird/NETW.43.50x50
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_43_50x50: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.50x50 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.43.50x50 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_43_50x50: #
# #
v $xiird/NETW.51.05x05.0001
v $xiird/NETW.51.05x05.0002
v $xiird/NETW.51.05x05.0003
v $xiird/NETW.51.05x05.0004
v $xiird/NETW.51.05x05.0005
v $xiird/NETW.51.05x05.0006
v $xiird/NETW.51.05x05.0007
v $xiird/NETW.51.05x05.0008
v $xiird/NETW.51.05x05.0009
v $xiird/NETW.51.05x05.0010
# Generee (sur '$CMAP28' -ex "porte-de-la-chapelle"-) par : #
# #
# #
# :Debut_listG_NETW_51_05x05: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=4 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=4 #
# #
# Les extrema {0,4} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (05x05 : 4=5-1)... #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0001 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0001 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0002 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0002 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0003 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0003 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0004 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0004 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0005 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0005 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0006 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0006 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0007 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0007 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0008 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0008 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0009 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0009 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# $Z set _____Fdescription=$xie/Network.51.05x05.0010 #
# $Z set _____ImageR=$xiird/NETW.51.05x05.0010 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_51_05x05: #
# #
v $xiird/NETW.51.10x10.0001
v $xiird/NETW.51.10x10.0002
v $xiird/NETW.51.10x10.0003
v $xiird/NETW.51.10x10.0004
v $xiird/NETW.51.10x10.0005
v $xiird/NETW.51.10x10.0006
v $xiird/NETW.51.10x10.0007
v $xiird/NETW.51.10x10.0008
v $xiird/NETW.51.10x10.0009
v $xiird/NETW.51.10x10.0010
v $xiird/NETW.51.10x10.0011
v $xiird/NETW.51.10x10.0012
v $xiird/NETW.51.10x10.0013
v $xiird/NETW.51.10x10.0014
v $xiird/NETW.51.10x10.0015
v $xiird/NETW.51.10x10.0016
v $xiird/NETW.51.10x10.0017
v $xiird/NETW.51.10x10.0018
v $xiird/NETW.51.10x10.0019
v $xiird/NETW.51.10x10.0020
v $xiird/NETW.51.10x10.0021
v $xiird/NETW.51.10x10.0022
v $xiird/NETW.51.10x10.0023
v $xiird/NETW.51.10x10.0024
v $xiird/NETW.51.10x10.0025
v $xiird/NETW.51.10x10.0026
v $xiird/NETW.51.10x10.0027
v $xiird/NETW.51.10x10.0028
v $xiird/NETW.51.10x10.0029
v $xiird/NETW.51.10x10.0030
v $xiird/NETW.51.10x10.0031
v $xiird/NETW.51.10x10.0032
v $xiird/NETW.51.10x10.0033
v $xiird/NETW.51.10x10.0034
v $xiird/NETW.51.10x10.0035
v $xiird/NETW.51.10x10.0036
v $xiird/NETW.51.10x10.0037
v $xiird/NETW.51.10x10.0038
v $xiird/NETW.51.10x10.0039
v $xiird/NETW.51.10x10.0040
v $xiird/NETW.51.10x10.0041
v $xiird/NETW.51.10x10.0042
v $xiird/NETW.51.10x10.0043
v $xiird/NETW.51.10x10.0044
v $xiird/NETW.51.10x10.0045
v $xiird/NETW.51.10x10.0046
v $xiird/NETW.51.10x10.0047
v $xiird/NETW.51.10x10.0048
v $xiird/NETW.51.10x10.0049
v $xiird/NETW.51.10x10.0050
v $xiird/NETW.51.10x10.0051
v $xiird/NETW.51.10x10.0052
v $xiird/NETW.51.10x10.0053
v $xiird/NETW.51.10x10.0054
v $xiird/NETW.51.10x10.0055
v $xiird/NETW.51.10x10.0056
v $xiird/NETW.51.10x10.0057
v $xiird/NETW.51.10x10.0058
v $xiird/NETW.51.10x10.0059
v $xiird/NETW.51.10x10.0060
v $xiird/NETW.51.10x10.0061
v $xiird/NETW.51.10x10.0062
v $xiird/NETW.51.10x10$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_51_10x10: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=9 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=9 #
# #
# Les extrema {0,9} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (10x10 : 9=10-1)... #
# #
# $Z set RaCiNe=$xie/Network.51.10x10 #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xiird/NETW.51.10x10 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$_____images #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_NETW_51_10x10: #
# #
# #
# Cette sequence est AVEC dilatation du "BackBone"... #
v $xiird/NETW.52.10x10.0001
v $xiird/NETW.52.10x10.0002
v $xiird/NETW.52.10x10.0003
v $xiird/NETW.52.10x10.0004
v $xiird/NETW.52.10x10.0005
v $xiird/NETW.52.10x10.0006
v $xiird/NETW.52.10x10.0007
v $xiird/NETW.52.10x10.0008
v $xiird/NETW.52.10x10.0009
v $xiird/NETW.52.10x10.0010
v $xiird/NETW.52.10x10.0011
v $xiird/NETW.52.10x10.0012
v $xiird/NETW.52.10x10.0013
v $xiird/NETW.52.10x10.0014
v $xiird/NETW.52.10x10.0015
v $xiird/NETW.52.10x10.0016
v $xiird/NETW.52.10x10.0017
v $xiird/NETW.52.10x10.0018
v $xiird/NETW.52.10x10.0019
v $xiird/NETW.52.10x10.0020
v $xiird/NETW.52.10x10.0021
v $xiird/NETW.52.10x10.0022
v $xiird/NETW.52.10x10.0023
v $xiird/NETW.52.10x10.0024
v $xiird/NETW.52.10x10.0025
v $xiird/NETW.52.10x10.0026
v $xiird/NETW.52.10x10.0027
v $xiird/NETW.52.10x10.0028
v $xiird/NETW.52.10x10.0029
v $xiird/NETW.52.10x10.0030
v $xiird/NETW.52.10x10.0031
v $xiird/NETW.52.10x10.0032
v $xiird/NETW.52.10x10.0033
v $xiird/NETW.52.10x10.0034
v $xiird/NETW.52.10x10.0035
v $xiird/NETW.52.10x10.0036
v $xiird/NETW.52.10x10.0037
v $xiird/NETW.52.10x10.0038
v $xiird/NETW.52.10x10.0039
v $xiird/NETW.52.10x10.0040
v $xiird/NETW.52.10x10.0041
v $xiird/NETW.52.10x10.0042
v $xiird/NETW.52.10x10.0043
v $xiird/NETW.52.10x10.0044
v $xiird/NETW.52.10x10.0045
v $xiird/NETW.52.10x10.0046
v $xiird/NETW.52.10x10.0047
v $xiird/NETW.52.10x10.0048
v $xiird/NETW.52.10x10.0049
v $xiird/NETW.52.10x10.0050
v $xiird/NETW.52.10x10.0051
v $xiird/NETW.52.10x10.0052
v $xiird/NETW.52.10x10.0053
v $xiird/NETW.52.10x10.0054
v $xiird/NETW.52.10x10.0055
v $xiird/NETW.52.10x10.0056
v $xiird/NETW.52.10x10.0057
v $xiird/NETW.52.10x10.0058
v $xiird/NETW.52.10x10.0059
v $xiird/NETW.52.10x10.0060
v $xiird/NETW.52.10x10.0061
v $xiird/NETW.52.10x10.0062
v $xiird/NETW.52.10x10$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_52_10x10: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$NEXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=9 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=9 #
# #
# Les extrema {0,9} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (10x10 : 9=10-1)... #
# #
# $Z set RaCiNe=$xie/Network.51.10x10 #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xiird/NETW.52.10x10 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$_____images #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_NETW_52_10x10: #
# #
# #
# Cette sequence est SANS dilatation du "BackBone"... #
# #
# Voici un rappel des conventions de visualisation : #
# #
# RayonNoeud = NombreConnexionsInOutNoeud #
# LuminanceNoeud = PotentielNoeud #
# RayonArcConnexion = |Courant| #
# CouleurArcConnexion = fonction(|Courant|) #
# CoordonneeVerticaleZ = PotentielNoeud #
# #
# ou 'fonction' est une fonction telle que la luminance est une fonction croissante de #
# 'Courant'. #
v $xiird/NETW.51.20x20$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_51_20x20: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=19 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=19 #
# #
# Les extrema {0,19} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (20x20 : 19=20-1)... #
# #
# $Z xTV #
# #
# $Z set _____Fdescription=$xie/Network.51.20x20 #
# #
# $Z set RaCiNe=`GetLeaf $_____Fdescription` #
# #
# $Z $DELETE $RaCiNe.* >& $nul #
# $Z $bUNZIP $_____Fdescription$CoNnExIoNs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$CoUrAnTs__$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$PoTeNtIeLs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_X$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_Y$bZIP >& $nul #
# #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xTV/NETW.51.20x20 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$xTV/$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$xiird/`GetLeaf $_____images` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z $DELETE $xTV/$RaCiNe.* #
# $Z $DELETE $_____images.* #
# #
# :Fin_listG_NETW_51_20x20: #
# #
# #
# Cette sequence est AVEC dilatation du "BackBone"... #
v $xiird/NETW.52.20x20$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_52_20x20: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$NEXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=19 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=19 #
# #
# Les extrema {0,19} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (20x20 : 19=20-1)... #
# #
# $Z xTV #
# #
# $Z set _____Fdescription=$xie/Network.51.20x20 #
# #
# $Z set RaCiNe=`GetLeaf $_____Fdescription` #
# #
# $Z $DELETE $RaCiNe.* >& $nul #
# $Z $bUNZIP $_____Fdescription$CoNnExIoNs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$CoUrAnTs__$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$PoTeNtIeLs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_X$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_Y$bZIP >& $nul #
# #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xTV/NETW.52.20x20 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$xTV/$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$xiird/`GetLeaf $_____images` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z $DELETE $xTV/$RaCiNe.* #
# $Z $DELETE $_____images.* #
# #
# :Fin_listG_NETW_52_20x20: #
# #
# #
# Cette sequence est SANS dilatation du "BackBone"... #
v $xiird/NETW.51.30x30$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_51_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=29 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=29 #
# #
# Les extrema {0,29} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (30x30 : 29=30-1)... #
# #
# $Z xTV #
# #
# $Z set _____Fdescription=$xie/Network.51.30x30 #
# #
# $Z set RaCiNe=`GetLeaf $_____Fdescription` #
# #
# $Z $DELETE $RaCiNe.* >& $nul #
# $Z $bUNZIP $_____Fdescription$CoNnExIoNs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$CoUrAnTs__$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$PoTeNtIeLs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_X$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_Y$bZIP >& $nul #
# #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xTV/NETW.51.30x30 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$xTV/$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$xiird/`GetLeaf $_____images` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z $DELETE $xTV/$RaCiNe.* #
# $Z $DELETE $_____images.* #
# #
# :Fin_listG_NETW_51_30x30: #
# #
# #
# Cette sequence est AVEC dilatation du "BackBone"... #
v $xiird/NETW.52.30x30$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_52_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$NEXIST #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=29 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=29 #
# #
# Les extrema {0,29} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (30x30 : 29=30-1)... #
# #
# $Z xTV #
# #
# $Z set _____Fdescription=$xie/Network.51.30x30 #
# #
# $Z set RaCiNe=`GetLeaf $_____Fdescription` #
# #
# $Z $DELETE $RaCiNe.* >& $nul #
# $Z $bUNZIP $_____Fdescription$CoNnExIoNs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$CoUrAnTs__$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$PoTeNtIeLs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_X$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_Y$bZIP >& $nul #
# #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xTV/NETW.52.30x30 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$xTV/$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$xiird/`GetLeaf $_____images` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z $DELETE $xTV/$RaCiNe.* #
# $Z $DELETE $_____images.* #
# #
# :Fin_listG_NETW_52_30x30: #
# #
# #
# Cette sequence est SANS dilatation du "BackBone", avec un fond gris... #
v $xiird/NETW.53.30x30$MPEG
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NETW_53_30x30: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET _____DilaterPotentiel=$NEXIST #
# $Z set _____Fond=$GRIS_8 #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# #
# $Z set _____ForcerXMinimum=VRAI #
# $Z set _____FXMinimum=0 #
# $Z set _____FXMaximum=29 #
# #
# $Z set _____ForcerYMinimum=VRAI #
# $Z set _____FYMinimum=0 #
# $Z set _____FYMaximum=29 #
# #
# Les extrema {0,29} de 'X' et de 'Y' dans les fichiers de '$_____Fdescription' sont #
# directement lies au format du reseau (30x30 : 29=30-1)... #
# #
# $Z xTV #
# #
# $Z set _____Fdescription=$xie/Network.51.30x30 #
# #
# $Z set RaCiNe=`GetLeaf $_____Fdescription` #
# #
# $Z $DELETE $RaCiNe.* >& $nul #
# $Z $bUNZIP $_____Fdescription$CoNnExIoNs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$CoUrAnTs__$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$PoTeNtIeLs$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_X$bZIP >& $nul #
# $Z $bUNZIP $_____Fdescription$COORD_Y$bZIP >& $nul #
# #
# $Z set LiStE=`ls $RaCiNe.* | $SE -e 's/\.[^.]*$//' -e 's/^.*\(....\)$/\1/' | $SOR -u` #
# #
# $Z set _____images=$xTV/NETW.53.30x30 #
# #
# $Z set Premiere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $HEA -1` #
# $Z set Derniere=`echo $LiStE | $R "$K_BLANC" "$K_NL" | $TAI -1` #
# #
# $Z foreach DeScRiPtIoN ($LiStE) #
# $Z set _____Fdescription=$xTV/$RaCiNe.$DeScRiPtIoN #
# $Z set _____ImageR=$_____images.$DeScRiPtIoN #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# $Z end #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG="RVB" #
# $Z set _____animation=$xiird/`GetLeaf $_____images` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# $Z $DELETE $xTV/$RaCiNe.* #
# $Z $DELETE $_____images.* #
# #
# :Fin_listG_NETW_53_30x30: #
# #
# #
# Cette sequence est SANS dilatation du "BackBone", avec un fond blanc... #
# #
# Pour information, voici les durees intermediaires : #
# #
# $xrv/particule.10$X : 05:59:46 (approximatif...) #
# #
v $xiird/NETW.62.40x40
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_62_40x40: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.40x40 #
# #
# $Z SET _____DilaterPotentiel=$NEXIST #
# $Z set _____Fond=$GRIS_8 #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# #
# $Z set _____RougeMinimum=$GRIS_8 #
# $Z set _____RougeMaximum=$GRIS_8 #
# $Z set _____VerteMinimum=$GRIS_8 #
# $Z set _____VerteMaximum=$GRIS_8 #
# $Z set _____BleueMinimum=$GRIS_8 #
# $Z set _____BleueMaximum=$GRIS_8 #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.62.40x40 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_62_40x40: #
# #
# #
# Image identique a 'v $xiird/NETW.42.40x40' mais ou la "couleur" des noeuds est la meme #
# pour tous (alors que dans cette derniere image, elle codait le potentiel qui etait aussi #
# represente avec l'altitude 'Z', d'ou une confusion possible lors de la lecture de cette #
# image -'v $Dcourrier_in/20181214105342 such.coloring.may.even.be.disturbing'-). #
v $xiird/NETW.63.40x40
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_63_40x40: #
# #
# $Z Sdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____Fdescription=$xie/Network.41.40x40 #
# #
# $Z SET _____DilaterPotentiel=$EXIST #
# $Z set _____Fond=$GRIS_8 #
# $m4 _____include(_____xiird/.NETW.41.1._____U) #
# $Z set _____Palette1=$xiP/bleu_rouge_orang.33 #
# $Z set _____Palette2=$xiP/bleu_rouge_orang.33 #
# #
# $Z set _____RougeMinimum=$GRIS_8 #
# $Z set _____RougeMaximum=$GRIS_8 #
# $Z set _____VerteMinimum=$GRIS_8 #
# $Z set _____VerteMaximum=$GRIS_8 #
# $Z set _____BleueMinimum=$GRIS_8 #
# $Z set _____BleueMaximum=$GRIS_8 #
# $Z SET _____RayonConnexionCourant=$EXIST #
# $Z set _____TranslationY=+0.92 #
# $Z set _____Zoom=0.42 #
# $Z set _____NAuCarre=FAUX #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" mml=4" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fl=+20 tl=-10" #
# $Z set _____ParticulePara1="$_____ParticulePara1"" fml=+0.5 tml=+0.5" #
# $Z set _____ImageR=$xiird/NETW.63.40x40 #
# $m4 _____include(_____xiird/.NETW.11.1._____U) #
# #
# :Fin_listG_NETW_63_40x40: #
# #
# #
# Image identique a 'v $xiird/NETW.43.40x40' mais ou la "couleur" des noeuds est la meme #
# pour tous (alors que dans cette derniere image, elle codait le potentiel qui etait aussi #
# represente avec l'altitude 'Z', d'ou une confusion possible lors de la lecture de cette #
# image -'v $Dcourrier_in/20181214105342 such.coloring.may.even.be.disturbing'-). #
v $xiird/NETW.43_63.courants
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_NETW_43_63_courants: #
# #
# $Z Std #
# #
# $Z set _____Palette=$xiP/bleu_rouge_orang.33 #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiio/MIRE \ #
# $Z p=$_____Palette \ #
# $Z R=$xiird/NETW.43_63.courants \ #
# $Z $formatI #
# #
# :Fin_listG_NETW_43_63_courants: #
# #
v $xiird/PARA.31 p=$xiP/gris.01
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_PARA_31: #
# #
# $Z set _____ImageR=$xiird/PARA.31 #
# $m4 _____include(_____xiird/.PARA.3.11._____U) #
# #
# :Fin_listG_PARA_31: #
# #
# #
# Cette image montre le phenomene du "contraste simultane" avec 'v $xiird/PARA.32'. #
v $xiird/PARA.31$IdM p=$xiP/gris.01
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_PARA_31_IdM: #
# #
# $Z TvB #
# #
# $Z set _____Format1="$formatR_Pud" #
# $Z set _____Format2="$format_Pud" #
# $Z set _____ImageR=$xiird/PARA.31$IdM #
# $m4 _____include(_____xiird/.PARA.3.11._____U) #
# #
# :Fin_listG_PARA_31_IdM: #
# #
# #
# Cette image montre le phenomene du "contraste simultane" avec 'v $xiird/PARA.32'. #
v $xiird/PARA.32 p=$xiP/gris.01
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_PARA_32: #
# #
# $Z set _____hMire=0 #
# $Z set _____ImageR=$xiird/PARA.32 #
# $m4 _____include(_____xiird/.PARA.3.11._____U) #
# #
# :Fin_listG_PARA_32: #
# #
# #
# Cette image montre le phenomene du "contraste simultane" avec 'v $xiird/PARA.31'. #
v $xiird/PARA.41 p=$xiP/gris.01
# Generee (sur '$LACT29') par : #
# #
# #
# :Debut_listG_PARA_41: #
# #
# $Z SET _____SMire=$EXIST #
# $Z set _____ImageR=$xiird/PARA.41 #
# $m4 _____include(_____xiird/.PARA.3.11._____U) #
# #
# :Fin_listG_PARA_41: #
# #
# #
# Cette image ne montre pas le phenomene du "contraste simultane" avec 'v $xiird/PARA.32' #
# contrairement a ce que l'on pourrait attendre et que l'on obtient avec le fond "progressif" #
# ('v $xiird/PARA.31 p=$xiP/gris.01'). #
v $xiird/PEA3.11
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_PEA3_11: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/cercle.35 #
# $Z set _____ImageR=$xiird/PEA3.11 #
# $m4 _____include(_____xiird/.PEA3.1.11._____U) #
# #
# :Fin_listG_PEA3_11: #
# #
v $xiird/PEA3.12
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_PEA3_12: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/arc_ciel.B1 #
# $Z set _____ImageR=$xiird/PEA3.12 #
# $m4 _____include(_____xiird/.PEA3.1.11._____U) #
# #
# :Fin_listG_PEA3_12: #
# #
v $xiird/PEA3.21
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_21: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/cercle.F2 #
# $Z set _____ImageR=$xiird/PEA3.21 #
# $m4 _____include(_____xiird/.PEA3.1.11._____U) #
# #
# :Fin_listG_PEA3_21: #
# #
v $xiird/PEA3.22
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_22: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/arc_ciel.B2 #
# $Z set _____ImageR=$xiird/PEA3.22 #
# $m4 _____include(_____xiird/.PEA3.1.11._____U) #
# #
# :Fin_listG_PEA3_22: #
# #
v $xiird/PEA3.31
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_31: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/PEA3.31 #
# $Z set _____ImageR=$xiird/PEA3.31 #
# $m4 _____include(_____xiird/.PEA3.3.11._____U) #
# #
# :Fin_listG_PEA3_31: #
# #
v $xiird/PEA3.32
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_32: #
# #
# $Z Pal #
# #
# $Z set _____Palette=$xiP/PEA3.31 #
# $Z set _____Rayon_2=0.0045 #
# $Z set _____Zminimum=0.2 #
# $Z set _____Lx=-100 #
# $Z set _____ImageR=$xiird/PEA3.32 #
# $m4 _____include(_____xiird/.PEA3.3.11._____U) #
# #
# :Fin_listG_PEA3_32: #
# #
v $xiird/PEA3.34
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_34: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/init$X \\\ #
# $Z niveau=$GRIS_2 \\\ #
# $Z R=$xTV/FOND%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z set _____Palette=$xiP/PEA3.34 #
# $Z set _____Rayon_2=0.0045 #
# $Z set _____Zminimum=0.5 #
# $Z set _____Lx=-100 #
# $Z set _____Fond="fond=VRAI F=$xTV/FOND" #
# $Z set _____ImageR=$xiird/PEA3.34 #
# $m4 _____include(_____xiird/.PEA3.3.11._____U) #
# #
# :Fin_listG_PEA3_34: #
# #
v $xiird/PEA3.35
# Generee (sur '$LACT16') par : #
# #
# #
# :Debut_listG_PEA3_35: #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/init$X \\\ #
# $Z niveau=$GRIS_7 \\\ #
# $Z R=$xTV/FOND%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z set _____Palette=$xiP/PEA3.35 #
# $Z set _____Rayon_2=0.0040 #
# $Z set _____Zminimum=0.5 #
# $Z set _____Lx=-100 #
# $Z set _____Couronne_2=1 #
# $Z set _____Fond="fond=VRAI F=$xTV/FOND" #
# $Z set _____ImageR=$xiird/PEA3.35 #
# $m4 _____include(_____xiird/.PEA3.3.11._____U) #
# #
# :Fin_listG_PEA3_35: #
# #
Std ; @ YmaxENV = $Ymax + $dimXSuh ; XYmaxNe $Xmax $YmaxENV ; v $xiird/PIANO.1.1000
# Image '1000' de la sequence : #
# #
# xivPdf 5 1 / 010088_010412 #
# #
v $xiird/RAND.15.0 p=$xiP/fractal.11
v $xiird/RAND.15.0 p=$xiP/cercle.11 d=2 animation=VRAI increment=2
v $xiird/RAND.15.0 p=$xiP/fractal.91 d=2 animation=VRAI increment=2
v $xiird/RAND.15.0 p=$xiP/orange.11 d=2 animation=VRAI increment=2
# Cette image correspond a l'accumulation par : #
# #
# Std #
# $xci/accumule.02$X ... binariser=FAUX $formatI #
# #
# de la sequence : #
# #
# xivPdf 6 1 / 023244_023371 #
# #
v $xiird/RAND.15.0$m
# Cette image a ete obtenue par : #
# #
# Std #
# #
# $xci/vraies_C$X A=$xiird/RAND.15.0 \ #
# p=$xiP/fractal.11 \ #
# RVB=VRAI \ #
# R=$xT/RAND \ #
# $formatI #
# #
# $xci/substitue$X A=$xT/RAND.? \ #
# substitution=L_SUBSTITUTION_02 \ #
# $formatI | #
# $xci/montagne.01$X A=$xiird/RAND.15.0 \ #
# avion=VRAI \ #
# R=$xiird/RAND.15.0$m.? \ #
# $formatI #
# #
v $xiird/RA.22.0128
# Cette image est l'image '0128' de la sequence : #
# #
# xivPdf 6 1 / 023884_024011 #
# #
v $xiird/RA.22$m.0128
# Cette image est l'image '0128' de la sequence : #
# #
# xivPdf 6 1 / 024012_024139 #
# #
v $xiird/RAND.31.0 p=$xiP/fractal.11
v $xiird/RAND.31.1 p=$xiP/fractal.11
# Cette image est obtenue par accumulation de la sequence : #
# #
# xivPdf 6 1 / 029597_029724 #
# #
# a l'aide de : #
# #
# $xci/accumule.01$X \ #
# A=$xiim/RAND.2. \ #
# premiere=1 derniere=128 \ #
# inverser=xxxx \ #
# lineaire=VRAI \ #
# R=$xiird/RAND.31.n \ #
# $formatI #
# #
# ou 'n' vaut 0 ou 1 suivant que 'xxxx' vaut 'VRAI' ou 'FAUX' respectivement. #
v $xiird/RAND.32.0032 p=$xiP/fractal.11
v $xiird/RAND.32.0064 p=$xiP/fractal.11
v $xiird/RAND.32.0096 p=$xiP/fractal.11
v $xiird/RAND.32.0128 p=$xiP/fractal.11
v $xiird/RAND.32.0160 p=$xiP/fractal.11
v $xiird/RAND.32.0192 p=$xiP/fractal.11
v $xiird/RAND.32.0224 p=$xiP/fractal.11
# Ces images sont obtenues par accumulation de la sequence : #
# #
# xivPdf 6 1 / 029597_029724 #
# #
# a l'aide de : #
# #
# $xci/accumule.02$X \ #
# A=$xiim/RAND.2. \ #
# premiere=1 derniere=128 \ #
# inverser=VRAI \ #
# trx=0 try=0 \ #
# binariser=FAUX \ #
# seuil=nnn \ #
# R=$xiird/RAND.32.0nnn \ #
# $formatI #
# #
# ou 'nnn' est le numero "final" de l'image... #
v $xiird/SLAB.11.0026
v $xiird/SLAB.11.0076
# Quelques images de la sequence : #
# #
# xivPdf 4 2 / 013757_013856 #
# #
v $xiird/SLAB.12.0026
v $xiird/SLAB.12.0076
# Quelques images de la sequence : #
# #
# xivPdf 4 2 / 020329_020428 #
# #
v $xiird/SLAB.21.0026
v $xiird/SLAB.21.0076
# Quelques images de la sequence : #
# #
# xivPdf 4 2 / 024124_024223 #
# #
# Ces images sont identiques a '$xiird/SLAB.11.*' a la permutation de '$ROUGE' et de #
# '$BLEUE' pres... #
v $xiird/TAMB.4.l1$R16
v $xiird/TAMB.4.l2$R16
v $xiird/TAMB.4.r1$R16
v $xiird/TAMB.4.r2$R16
v $xiird/TAMB.4.z1$R16
v $xiird/TAMB.4.z2$R16
v $xiird/TAMB.4.z3$R16
# Ces images presentent les 16 premiers modes {1,2,...,16} de tambours a contours fractal #
# pour les cas suivants : #
# #
# l : condition de Neumann (bors libres), tambour entier, #
# r : condition de Neumann (bors libres), quart de tambour, #
# z : condition de Dirichlet (bors fixes), tambour entier. #
# #
# Quant au chiffre {1,2,3} suivant les lettres {l,r,z}, il donne le niveau de recursivite de #
# generation du contour fractal du tambour. #
# #
# A titre d'information, les images precedentes correspondent aux codes "internes" suivants : #
# #
# $xiird/TAMB.4.l1$R16 : l128g1 #
# $xiird/TAMB.4.l2$R16 : l128g2cut #
# $xiird/TAMB.4.r1$R16 : lr128g1 #
# $xiird/TAMB.4.r2$R16 : zr106g2 #
# $xiird/TAMB.4.z1$R16 : z128g1 #
# $xiird/TAMB.4.z2$R16 : z128g2 #
# $xiird/TAMB.4.z3$R16 : z256g3 #
# #
XYmaxNe 848 848 ; v $xiird/TAMB.51$M$R16
# Ces 16 "sous-images" donnent les huit modes de vibration {1,2,...,8} d'un tambour fractal #
# a bords fixes (conditions de Dirichlet) en bas, et d'un tambour fractal a bords libres #
# (conditions de Neumann) en haut. #
XYmaxNe 848 848 ; v $xiird/TAMB.52$M$R16
# Ces 16 "sous-images" donnent les huit modes de vibration {1,2,...,8} d'un tambour fractal #
# a bords fixes (conditions de Dirichlet) en bas, et d'un tambour fractal a bords libres #
# (conditions de Neumann) en haut, le tout etant dans la brume... #
XYmaxNe 848 848 ; v $xiird/TAMB.52$M.0002
XYmaxNe 848 848 ; v $xiird/TAMB.53$M$R16
# Ces 16 "sous-images" donnent les huit modes de vibration {1,2,...,8} d'un tambour fractal #
# a bords fixes (conditions de Dirichlet) en bas, et d'un tambour fractal a bords libres #
# (conditions de Neumann) en haut, le tout etant avec "depth-cueing"... #
XYmaxNe 848 848 ; v $xiird/TAMB.53$M.0002
XYmaxNe 848 848 ; v $xiird/TAMB.5A$M$R16
# Ces 16 "sous-images" donnent les huit modes de vibration {1,2,...,8} d'un tambour fractal #
# a bords fixes (conditions de Dirichlet) en bas, et d'un tambour fractal a bords libres #
# (conditions de Neumann) en haut, le tout avec l'amplitude mappee en couleurs sur les #
# surfaces... #
XYmaxNe 848 848 ; v $xiird/TAMB.5A$M.0002
XYmaxNe 999 999 ; v $xiird/TAMB.62$M.0002
XYmaxNe 210 210 ; $xci/display$X A=$xiird/TAMB.71.0011 p=$xiP/cercle.35 $formatI
v $xiird/TAMB.72.0011 p=$xiP/gris.01
v $xiird/TAMB.73.0011 p=$xiP/gris.01
v $xiird/TAMB.74.0011 p=$xiP/gris.01
XYmaxNe 210 210 ; $xci/display$X A=$xiird/TAMB.71.0014 p=$xiP/cercle.35 $formatI
v $xiird/TAMB.72.0014 p=$xiP/gris.01
v $xiird/TAMB.73.0014 p=$xiP/gris.01
v $xiird/TAMB.74.0014 p=$xiP/gris.01
# Mode propre de vibration d'un quart de tambour fractal. #
XYmaxNe 848 848 ; v $xiird/TAMB.81$M$R04
XYmaxNe 848 848 ; v $xiird/TAMB.81.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.81.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.81.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.81.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.81.t3$M
# Mode 1 d'un tambour fractal (amplitude ".a", gradient ".g" et temperature ".tx") calcule #
# a l'aide des deux programmes 'v $xu/Russ.S/drfvek.12$f' et 'v $xu/Russ.S/rplot.13$f' #
# ('v $xiird/TAMB.91$M$R04' pour plus de precisions sur les parametres du calcul). #
XYmaxNe 848 848 ; v $xiird/TAMB.82$M$R04
XYmaxNe 848 848 ; v $xiird/TAMB.82.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.82.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.82.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.82.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.82.t3$M
# Mode 2 d'un tambour fractal (amplitude ".a", gradient ".g" et temperature ".tx") calcule #
# a l'aide des deux programmes 'v $xu/Russ.S/drfvek.12$f' et 'v $xu/Russ.S/rplot.13$f' #
# ('v $xiird/TAMB.91$M$R04' pour plus de precisions sur les parametres du calcul). #
XYmaxNe 848 848 ; v $xiird/TAMB.83$M$R04
XYmaxNe 848 848 ; v $xiird/TAMB.83.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.83.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.83.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.83.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.83.t3$M
# Mode 3 d'un tambour fractal (amplitude ".a", gradient ".g" et temperature ".tx") calcule #
# a l'aide des deux programmes 'v $xu/Russ.S/drfvek.12$f' et 'v $xu/Russ.S/rplot.13$f' #
# ('v $xiird/TAMB.91$M$R04' pour plus de precisions sur les parametres du calcul). #
XYmaxNe 848 848 ; v $xiird/TAMB.84$M$R04
XYmaxNe 848 848 ; v $xiird/TAMB.84.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.84.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.84.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.84.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.84.t3$M
# Mode 4 d'un tambour fractal (amplitude ".a", gradient ".g" et temperature ".tx") calcule #
# a l'aide des deux programmes 'v $xu/Russ.S/drfvek.12$f' et 'v $xu/Russ.S/rplot.13$f' #
# ('v $xiird/TAMB.91$M$R04' pour plus de precisions sur les parametres du calcul). #
XYmaxNe 848 848 ; v $xiird/TAMB.91$M$R04
# Regroupement des quatre familles d'images '$xiird/TAMB.8?.*' montrant ainsi les quatre #
# premiers modes propres d'un tambour fractal (amplitude ".a", gradient ".g" et temperature #
# ".tx") calcules a l'aide des deux programmes 'v $xu/Russ.S/drfvek.12$f' avec : #
# #
# precis=0.5d-4 #
# #
# et 'v $xu/Russ.S/rplot.13$f', puis par : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.EXTE standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/gradient.02$X A=$xw1/xxxx.pmc/DIRI.1.\!* \\ #
# $Z R=$xw1/xxxx.pmc/DIRI.2.\!* $formatI' #
# $Z genere 0001 ; genere 0002 ; genere 0003 ; genere 0004 #
# #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=1 R=$xTV/TAMB.21$ROUGE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=+0.8066666666666666 R=$xTV/TAMB.21$VERTE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=+0.5533333333333333 R=$xTV/TAMB.21$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/init$X n=$NOIR R=$xTV/TAMB.22$ROUGE \ #
# $Z $formatI #
# $Z $xci/complement$X A=$xTV/TAMB.21 \ #
# $Z $formatI | \ #
# $Z $xci/scale$X a=0.5 R=$xTV/TAMB.22$VERTE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.22$VERTE a=0.5 R=$xTV/TAMB.22$BLEUE \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/or_02$X A1=$xTV/TAMB.21.\!* A2=$xTV/TAMB.22.\!* \\ #
# $Z R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z set Param="standard=FAUX zero=VRAI echelle=2 Ty=0.5 perspective=0.2 $formatI" #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0001.0001.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0001.0002.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0002.0001.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0002.0002.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0003.0001.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0003.0002.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0004.0001.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0004.0002.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.0001 standard=FAUX zero=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0001.0003.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.2.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0001.0004.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.0002 standard=FAUX zero=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0002.0003.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.2.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0002.0004.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.0003 standard=FAUX zero=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0003.0003.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.2.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0003.0004.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.0004 standard=FAUX zero=VRAI \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0004.0003.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.2.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/cercle.35 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xw1/xxxx.pmc/D.0004.0004.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/reduction_04$Z $xw1/xxxx.pmc/D.0001. $xw1/xxxx.pmc/D.0001 1 4 #
# $Z $xci/reduction_04$Z $xw1/xxxx.pmc/D.0002. $xw1/xxxx.pmc/D.0002 1 4 #
# $Z $xci/reduction_04$Z $xw1/xxxx.pmc/D.0003. $xw1/xxxx.pmc/D.0003 1 4 #
# $Z $xci/reduction_04$Z $xw1/xxxx.pmc/D.0004. $xw1/xxxx.pmc/D.0004 1 4 #
# #
# $Z alias genere '$MV $xw1/xxxx.pmc/D.0001$R04.\!* $xw1/xxxx.pmc/D.0001.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$MV $xw1/xxxx.pmc/D.0002$R04.\!* $xw1/xxxx.pmc/D.0002.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$MV $xw1/xxxx.pmc/D.0003$R04.\!* $xw1/xxxx.pmc/D.0003.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$MV $xw1/xxxx.pmc/D.0004$R04.\!* $xw1/xxxx.pmc/D.0004.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/reduction_04$Z $xw1/xxxx.pmc/D. $xw1/xxxx.pmc/D 1 4 #
# #
# $Z alias genere '$CP $xw1/xxxx.pmc/D.0001.\!* $xiird/TAMB.81$M$R04.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$CP $xw1/xxxx.pmc/D.0002.\!* $xiird/TAMB.82$M$R04.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$CP $xw1/xxxx.pmc/D.0003.\!* $xiird/TAMB.83$M$R04.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$CP $xw1/xxxx.pmc/D.0004.\!* $xiird/TAMB.84$M$R04.\!*' #
# $Z genere R ; genere V ; genere B #
# $Z alias genere '$CP $xw1/xxxx.pmc/D$R04.\!* $xiird/TAMB.91$M$R04.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/init$X niveau=$NOIR \ #
# $Z $formatI | \ #
# $Z $xci/cadre$X niveau=$GRIS_4 R=$xTV/TAMB.31 \ #
# $Z $formatI #
# $Z $xci/reduction_04$X A=$xTV/TAMB.31 chiffres=0 \ #
# $Z R=$xTV/TAMB.32 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X \\ #
# $Z A=$xiird/TAMB.91$M$R04.\!* M=$xTV/TAMB.32 \\ #
# $Z R=$xiird/TAMB.91$M$R04.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.81.t1$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.82.t1$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.83.t1$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.84.t1$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.81.t2$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.82.t2$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.83.t2$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.84.t2$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0001 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.81.t3$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0002 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.82.t3$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0003 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.83.t3$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21.\!* R=$xTV/TAMB.23.\!* $formatI' #
# $Z genere R ; genere V ; genere B #
# #
# $Z alias genere '$xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0004 T=$xTV/TAMB.23.\!* $Param \\ #
# $Z R=$xiird/TAMB.84.t3$M.\!*' #
# $Z genere R ; genere V ; genere B #
# #
# $Z $xci/substitue$Z $xiird/TAMB.81.t1$M $xiP/gris.11 $xiird/TAMB.81.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.81.t2$M $xiP/gris.11 $xiird/TAMB.81.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.81.t3$M $xiP/gris.11 $xiird/TAMB.81.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.82.t1$M $xiP/gris.11 $xiird/TAMB.82.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.82.t2$M $xiP/gris.11 $xiird/TAMB.82.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.82.t3$M $xiP/gris.11 $xiird/TAMB.82.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.83.t1$M $xiP/gris.11 $xiird/TAMB.83.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.83.t2$M $xiP/gris.11 $xiird/TAMB.83.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.83.t3$M $xiP/gris.11 $xiird/TAMB.83.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.84.t1$M $xiP/gris.11 $xiird/TAMB.84.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.84.t2$M $xiP/gris.11 $xiird/TAMB.84.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.84.t3$M $xiP/gris.11 $xiird/TAMB.84.t3$M #
# #
# On notera que pour chacun des quatre etats propres (de 1 a 4), on trouve dans les images #
# de type '$R04' la structure a quatre images suivante : #
# #
# 1 : l'amplitude, #
# 2 : le gradient, #
# 3 : l'amplitude mappee sur le gradient, #
# 4 : le gradient mappe sur l'amplitude. #
# #
# Les images de manoeuvre sont : #
# #
# DIRI.1. = amplitude, #
# DIRI.2. = gradient, #
# DIRI.3. = amplitude*gradient, #
# DIRI.4. = amplitude*gradient*gradient, #
# DIRI.5. = amplitude*gradient*gradient*gradient. #
# #
# Quelques manipulations additionnelles : #
# #
# $CP $xw1/xxxx.pmc/D.000?.0001.? $xiird/TAMB.8?.a$M.? #
# $CP $xw1/xxxx.pmc/D.000?.0002.? $xiird/TAMB.8?.g$M.? #
# #
XYmaxNe 848 848 ; v $xiird/TAMB.A1.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.A1.l$M
XYmaxNe 848 848 ; v $xiird/TAMB.A1.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.A1.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.A1.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.A1.t3$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.l$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.A2.t3$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.l$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.A3.t3$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.a$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.l$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.g$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.t1$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.t2$M
XYmaxNe 848 848 ; v $xiird/TAMB.A4.t3$M
# Quatre premiers modes propres d'un tambour fractal (amplitude ".a", logarithme de #
# l'amplitude seuillee ".l", gradient ".g" et temperature ".tx") calcule a l'aide des #
# deux programmes 'v $xu/Russ.S/drfvek.12$f' avec : #
# #
# precis=0.5d-6 #
# #
# et 'v $xu/Russ.S/rplot.13$f', puis par : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z @ dimXY = $dimX * $dimY #
# $Z @ dimXY = $dimXY * 4 #
# #
# $Z alias genere '$DELETE $xw1/xxxx.pmc/DIRI.1.\!* ; \\ #
# $Z $CA $xw1/xxxx.pmc/DIRI.\!* \\ #
# $Z | $xcg/extract$X eliminer=4 conserver=$dimXY \\ #
# $Z | $xcg/float_Float$X $formatI \\ #
# $Z > $xw1/xxxx.pmc/DIRI.1.\!*' #
# $Z genere EXTE #
# $Z genere 0001 ; genere 0002 ; genere 0003 ; genere 0004 #
# #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.1.EXTE standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/seuil$X R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere '$xci/gradient.02$X A=$xw1/xxxx.pmc/DIRI.1.\!* \\ #
# $Z R=$xw1/xxxx.pmc/DIRI.2.\!* $formatI' #
# $Z genere 0001 ; genere 0002 ; genere 0003 ; genere 0004 #
# #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=1 R=$xTV/TAMB.21$ROUGE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=+0.8066666666666666 R=$xTV/TAMB.21$VERTE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.21 a=+0.5533333333333333 R=$xTV/TAMB.21$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/init$X n=$NOIR R=$xTV/TAMB.22$ROUGE \ #
# $Z $formatI #
# $Z $xci/complement$X A=$xTV/TAMB.21 \ #
# $Z $formatI | \ #
# $Z $xci/scale$X a=0.5 R=$xTV/TAMB.22$VERTE \ #
# $Z $formatI #
# $Z $xci/scale$X A=$xTV/TAMB.22$VERTE a=0.5 R=$xTV/TAMB.22$BLEUE \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/or_02$X A1=$xTV/TAMB.21$CoL A2=$xTV/TAMB.22$CoL \\ #
# $Z R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z set Param="standard=FAUX zero=VRAI echelle=2 Ty=0.5 perspective=0.2 $formatI" #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0001 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A1.a$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0001 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A1.g$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0002 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A2.a$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0002 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A2.g$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0003 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A3.a$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0003 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A3.g$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.1.0004 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A4.a$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.2.0004 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A4.g$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z set Paral="standard=FAUX zero=VRAI echelle=2 Ty=0.5 perspective=0.2 $formatI" #
# #
# $Z $xci/passe_bande$X A=$xw1/xxxx.pmc/DIRI.1.0001 standard=FAUX \ #
# $Z Finf=0.00001 Fvaleur_inferieure=0.00001 \ #
# $Z Fsup=1.0 Fvaleur_superieure=1.0 \ #
# $Z $formatI | \ #
# $Z $xci/decibel.01$X \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xw1/xxxx.pmc/DIRI.6.0001 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.6.0001 T=$xTV/TAMB.23$CoL $Paral \\ #
# $Z R=$xiird/TAMB.A1.l$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/passe_bande$X A=$xw1/xxxx.pmc/DIRI.1.0002 standard=FAUX \ #
# $Z Finf=0.00001 Fvaleur_inferieure=0.00001 \ #
# $Z Fsup=1.0 Fvaleur_superieure=1.0 \ #
# $Z $formatI | \ #
# $Z $xci/decibel.01$X \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xw1/xxxx.pmc/DIRI.6.0002 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.6.0002 T=$xTV/TAMB.23$CoL $Paral \\ #
# $Z R=$xiird/TAMB.A2.l$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/passe_bande$X A=$xw1/xxxx.pmc/DIRI.1.0003 standard=FAUX \ #
# $Z Finf=0.00001 Fvaleur_inferieure=0.00001 \ #
# $Z Fsup=1.0 Fvaleur_superieure=1.0 \ #
# $Z $formatI | \ #
# $Z $xci/decibel.01$X \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xw1/xxxx.pmc/DIRI.6.0003 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.6.0003 T=$xTV/TAMB.23$CoL $Paral \\ #
# $Z R=$xiird/TAMB.A3.l$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/passe_bande$X A=$xw1/xxxx.pmc/DIRI.1.0004 standard=FAUX \ #
# $Z Finf=0.00001 Fvaleur_inferieure=0.00001 \ #
# $Z Fsup=1.0 Fvaleur_superieure=1.0 \ #
# $Z $formatI | \ #
# $Z $xci/decibel.01$X \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xw1/xxxx.pmc/DIRI.6.0004 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.6.0004 T=$xTV/TAMB.23$CoL $Paral \\ #
# $Z R=$xiird/TAMB.A4.l$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0001 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A1.t1$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0002 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A2.t1$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0003 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A3.t1$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.1.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.3.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.3.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.3.0004 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A4.t1$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0001 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A1.t2$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0002 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A2.t2$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0003 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A3.t2$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.3.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.4.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.4.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.4.0004 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A4.t2$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0001 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0001 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0001 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0001 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0001 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A1.t3$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0002 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0002 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0002 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0002 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0002 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A2.t3$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0003 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0003 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0003 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0003 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0003 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A3.t3$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/multi_02.01$X A1=$xw1/xxxx.pmc/DIRI.4.0004 \ #
# $Z A2=$xw1/xxxx.pmc/DIRI.2.0004 \ #
# $Z standard=FAUX \ #
# $Z R=$xw1/xxxx.pmc/DIRI.5.0004 \ #
# $Z $formatI #
# $Z $xci/acces$X A=$xw1/xxxx.pmc/DIRI.5.0004 standard=FAUX zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X RVB=VRAI p=$xiP/bleu_roug.01 R=$xTV/TAMB.21 \ #
# $Z $formatI #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/cache$X M=$xTV/TAMB.22$VERTE \\ #
# $Z A=$xTV/TAMB.21$CoL R=$xTV/TAMB.23$CoL $formatI ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z alias genere 'set CoL=\!* ; \\ #
# $Z $xci/montagne.01$X \\ #
# $Z A=$xw1/xxxx.pmc/DIRI.5.0004 T=$xTV/TAMB.23$CoL $Param \\ #
# $Z R=$xiird/TAMB.A4.t3$M$CoL ; unset CoL' #
# $Z genere $ROUGE ; genere $VERTE ; genere $BLEUE #
# #
# $Z $xci/substitue$Z $xiird/TAMB.A1.t1$M $xiP/gris.11 $xiird/TAMB.A1.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.A1.t2$M $xiP/gris.11 $xiird/TAMB.A1.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.A1.t3$M $xiP/gris.11 $xiird/TAMB.A1.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.A2.t1$M $xiP/gris.11 $xiird/TAMB.A2.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.A2.t2$M $xiP/gris.11 $xiird/TAMB.A2.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.A2.t3$M $xiP/gris.11 $xiird/TAMB.A2.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.A3.t1$M $xiP/gris.11 $xiird/TAMB.A3.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.A3.t2$M $xiP/gris.11 $xiird/TAMB.A3.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.A3.t3$M $xiP/gris.11 $xiird/TAMB.A3.t3$M #
# #
# $Z $xci/substitue$Z $xiird/TAMB.A4.t1$M $xiP/gris.11 $xiird/TAMB.A4.t1$M #
# $Z $xci/substitue$Z $xiird/TAMB.A4.t2$M $xiP/gris.11 $xiird/TAMB.A4.t2$M #
# $Z $xci/substitue$Z $xiird/TAMB.A4.t3$M $xiP/gris.11 $xiird/TAMB.A4.t3$M #
# #
# #
# Les images de manoeuvre sont : #
# #
# DIRI.1. = amplitude, #
# DIRI.2. = gradient, #
# DIRI.3. = amplitude*gradient, #
# DIRI.4. = amplitude*gradient*gradient, #
# DIRI.5. = amplitude*gradient*gradient*gradient, #
# DIRI.6. = Log(Seuil(amplitude)). #
# #
v $xiird/TAMB.A.a$M
v $xiird/TAMB.A.g$M
v $xiird/TAMB.A.l$M
v $xiird/TAMB.A.t$M
# Amplitude, gradient, logarithme et temperature des quatre premiers modes propres d'un #
# tambour fractal, avec en haut et a gauche l'etat fondamental (n=1) et en bas et a droite #
# l'etat 4 (n=4). On notera que ce n'est pas l'ordre habituel de 'v $xci/reduction_04$K' : #
# #
# ------------------- #
# | | | #
# | n=1 | n=2 | #
# | | | #
# |---------+---------| #
# | | | #
# | n=3 | n=4 | #
# | | | #
# ------------------- #
# #
# Ceci a ete genere par : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z S #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.a.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.a.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.a.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.a.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.g.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.g.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.g.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.g.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.l.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.l.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.l.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.l.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.t.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.t.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.t.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/TAMB.t.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/TAMB.a. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TAMB.A.a$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/TAMB.g. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TAMB.A.g$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/TAMB.l. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TAMB.A.l$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/TAMB.t. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TAMB.A.t$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiird/TA.A1.aglt$M
v $xiird/TA.A2.aglt$M
v $xiird/TA.A3.aglt$M
v $xiird/TA.A4.aglt$M
# Amplitude, gradient, logarithme et temperature des quatre premiers modes propres d'un #
# tambour fractal dans l'ordre : #
# #
# ------------------- #
# | | | #
# | A | G | #
# | | | #
# |---------+---------| #
# | | | #
# | L | T | #
# | | | #
# ------------------- #
# #
# Ceci a ete genere par : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z S #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T1.aglt.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T1.aglt.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T1.aglt.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T1.aglt.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T2.aglt.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T2.aglt.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T2.aglt.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T2.aglt.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T3.aglt.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T3.aglt.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T3.aglt.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A3.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T3.aglt.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T4.aglt.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T4.aglt.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T4.aglt.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A4.t1$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T4.aglt.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T1.aglt. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A1.aglt$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T2.aglt. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A2.aglt$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T3.aglt. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A3.aglt$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T4.aglt. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A4.aglt$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiird/TA.A12.ag$M
v $xiird/TA.A12.al$M
# Amplitude, gradient, puis amplitude, logarithme des deux premiers modes propres d'un #
# tambour fractal dans l'ordre : #
# #
# ------------------- #
# | | | #
# | A | A | #
# | n=1 | n=2 | #
# | | | #
# |---------+---------| #
# | | | #
# | L | L | #
# | n=1 | n=2 | #
# | | | #
# ------------------- #
# #
# Ceci a ete genere par : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z S #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.ag.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.ag.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.ag.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.g$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.ag.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.al.0003%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.a$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.al.0004%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A1.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.al.0001%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xiird/TAMB.A2.l$M%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T12.al.0002%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pal #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T12.ag. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A12.ag$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/reduction_04$X \\\ #
# $Z A=$xTV/T12.al. \\\ #
# $Z postfixe=%s \\\ #
# $Z premiere=1 derniere=4 calculer=VRAI \\\ #
# $Z R=$xiird/TA.A12.al$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiird/TAMB.A.u2$M
v $xiird/TAMB.A.u8$M
v $xiird/TAMB.A.u9$M
# Variation artistique sur le premier mode propre du tambour fractal : #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z S #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xw1/xxxx.pmc/DIRI.6.0001 \ #
# $Z standard=FAUX \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$xTV/FRACTAL.01 \ #
# $Z $formatR_Pal #
# #
# $Z Pal #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z R=$xTV/TEXTURE \ #
# $Z $formatI #
# #
# $Z $xci/init$X \ #
# $Z niveau=$GRIS_6 \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/nuages.02 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/NUAGES.01 \ #
# $Z $formatI #
# #
# $Z $xci/normalise.01$X \ #
# $Z A=$xTV/FRACTAL.01 \ #
# $Z R=$xTV/FRACTAL.03 \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/FRACTAL.03 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z perspective=0.60 \ #
# $Z Z-Buffer=VRAI \ #
# $Z Z=$xTV/BRUME \ #
# $Z R=$xTV/MONTAGNE \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0.7 \ #
# $Z R=$xTV/SOLEIL \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/FRACTAL.03 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z perspective=0.60 \ #
# $Z depthN=0 depthX=0 depthY=-1 depthT=$BLANC \ #
# $Z R=$xTV/LEVER.3 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xTV/SOLEIL \ #
# $Z p=$xiP/orange.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/SOLEIL \ #
# $Z $formatI #
# #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/FRACTAL.03 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z perspective=0.60 \ #
# $Z depthN=0 depthX=0 depthY=+0.5 depthT=$GRIS_2 \ #
# $Z fond=VRAI \ #
# $Z F=$xiirf/CIEL.11.0017$ROUGE \ #
# $Z R=$xTV/LEVER.4$ROUGE \ #
# $Z $formatI #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/FRACTAL.03 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z perspective=0.60 \ #
# $Z depthN=0 depthX=0 depthY=+0.25 depthT=$GRIS_2 \ #
# $Z fond=VRAI \ #
# $Z F=$xiirf/CIEL.11.0017$VERTE \ #
# $Z R=$xTV/LEVER.4$VERTE \ #
# $Z $formatI #
# $Z $xci/montagne.01$X \ #
# $Z A=$xTV/FRACTAL.03 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z T=$xTV/TEXTURE \ #
# $Z avion=FAUX \ #
# $Z Ty=0.95 \ #
# $Z perspective=0.60 \ #
# $Z depthN=0 depthX=0 depthY=+0.125 depthT=$GRIS_0 \ #
# $Z fond=VRAI \ #
# $Z F=$xiirf/CIEL.11.0017$BLEUE \ #
# $Z R=$xTV/LEVER.4$BLEUE \ #
# $Z $formatI #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/SOLEIL \ #
# $Z $xTV/LEVER.4 \ #
# $Z $xiird/TAMB.A.u8$M #
# #
# $Z $xci/acces$X \ #
# $Z A=$xTV/FRACTAL.01 \ #
# $Z standard=FAUX \ #
# $Z zero=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/vraies_C$X \ #
# $Z p=$xiP/MonValley.12 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/FRACTAL.01 \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/montagne.01$X \\\ #
# $Z A=$xTV/FRACTAL.03 \\\ #
# $Z standard=FAUX \\\ #
# $Z zero=FAUX \\\ #
# $Z T=$xTV/FRACTAL.01%s \\\ #
# $Z Nminimum=0.4 \\\ #
# $Z attenuation=0.20 \\\ #
# $Z avion=FAUX \\\ #
# $Z fond=VRAI \\\ #
# $Z F=$xTV/NUAGES.01%s \\\ #
# $Z Ty=0.95 \\\ #
# $Z perspective=0.60 \\\ #
# $Z R=$xTV/MONTAGNE%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/complement$X \ #
# $Z A=$xTV/BRUME \ #
# $Z $formatI | \ #
# $Z $xci/scale$X \ #
# $Z a=0.6 \ #
# $Z R=$xTV/BRUME \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/brume.11$X \\\ #
# $Z A=$xTV/MONTAGNE%s \\\ #
# $Z B=$xTV/BRUME \\\ #
# $Z R=$xiird/TAMB.A.u2$M%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/interpole.02$X \\\ #
# $Z A1=$xiird/TAMB.A.u2$M%s \\\ #
# $Z A2=$xiird/TAMB.A.u8$M%s \\\ #
# $Z P=$xTV/GAUSS \\\ #
# $Z R=$xTV/LEVER.5%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z $xci/vitre.53$Z \ #
# $Z $xTV/SOLEIL \ #
# $Z $xTV/LEVER.5 \ #
# $Z $xiird/TAMB.A.u9$M #
# #
# #
v $xiird/TAMB.A1
v $xiird/TAMB.A2
v $xiird/TAMB.A3
v $xiird/TAMB.A4
# Amplitude, gradient, logarithme et temperatures (t1, t2, t3) des quatre premiers modes #
# propres d'un tambour fractal avec dans l'ordre : #
# #
# ----------------------------- #
# | | | | #
# | A | G | L | #
# | | | | #
# |---------+---------+---------| #
# | | | | #
# | AxG | AxGxG | AxGxGxG | #
# | | | | #
# ----------------------------- #
# #
# Ceci a ete genere par : #
# #
# #
# $Z S #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.t1$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0001%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.t2$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0002%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.t3$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0003%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.a$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0004%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.g$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0005%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A1.l$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A1.0006%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pud #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/regroupe.01$X \\\ #
# $Z A=$xTV/T.A1. \\\ #
# $Z premiere=1 derniere=6 \\\ #
# $Z postfixe=%s \\\ #
# $Z horizontale=3 verticale=2 \\\ #
# $Z R=$xTV/T.A1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z @ RdimX = $dimX + $dimX + $dimX #
# $Z @ RXmax = $RdimX - 1 #
# $Z setenv Xmax $RXmax #
# #
# $Z @ RdimY = $dimY + $dimY #
# $Z @ RYmax = $RdimY - 1 #
# $Z setenv Ymax $RYmax #
# #
# $Z XYmaxNe $Xmax $Ymax #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xTV/T.A1%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xiird/TAMB.A1%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.t1$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0001%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.t2$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0002%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.t3$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0003%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.a$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0004%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.g$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0005%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A2.l$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A2.0006%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pud #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/regroupe.01$X \\\ #
# $Z A=$xTV/T.A2. \\\ #
# $Z premiere=1 derniere=6 \\\ #
# $Z postfixe=%s \\\ #
# $Z horizontale=3 verticale=2 \\\ #
# $Z R=$xTV/T.A2%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z @ RdimX = $dimX + $dimX + $dimX #
# $Z @ RXmax = $RdimX - 1 #
# $Z setenv Xmax $RXmax #
# #
# $Z @ RdimY = $dimY + $dimY #
# $Z @ RYmax = $RdimY - 1 #
# $Z setenv Ymax $RYmax #
# #
# $Z XYmaxNe $Xmax $Ymax #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xTV/T.A2%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xiird/TAMB.A2%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.t1$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0001%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.t2$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0002%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.t3$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0003%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.a$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0004%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.g$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0005%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A3.l$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A3.0006%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pud #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/regroupe.01$X \\\ #
# $Z A=$xTV/T.A3. \\\ #
# $Z premiere=1 derniere=6 \\\ #
# $Z postfixe=%s \\\ #
# $Z horizontale=3 verticale=2 \\\ #
# $Z R=$xTV/T.A3%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z @ RdimX = $dimX + $dimX + $dimX #
# $Z @ RXmax = $RdimX - 1 #
# $Z setenv Xmax $RXmax #
# #
# $Z @ RdimY = $dimY + $dimY #
# $Z @ RYmax = $RdimY - 1 #
# $Z setenv Ymax $RYmax #
# #
# $Z XYmaxNe $Xmax $Ymax #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xTV/T.A3%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xiird/TAMB.A3%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# #
# $Z XYmaxNe 848 848 #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.t1$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0001%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.t2$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0002%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.t3$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0003%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.a$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0004%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.g$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0005%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/cadre$X \\\ #
# $Z A=$xiird/TAMB.A4.l$M%s \\\ #
# $Z niveau=$GRIS_4 \\\ #
# $Z $formatI | \\\ #
# $Z $xci/format.01$X \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xTV/T.A4.0006%s \\\ #
# $Z $formatR_Pud)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z Pud #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/regroupe.01$X \\\ #
# $Z A=$xTV/T.A4. \\\ #
# $Z premiere=1 derniere=6 \\\ #
# $Z postfixe=%s \\\ #
# $Z horizontale=3 verticale=2 \\\ #
# $Z R=$xTV/T.A4%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# $Z @ RdimX = $dimX + $dimX + $dimX #
# $Z @ RXmax = $RdimX - 1 #
# $Z setenv Xmax $RXmax #
# #
# $Z @ RdimY = $dimY + $dimY #
# $Z @ RYmax = $RdimY - 1 #
# $Z setenv Ymax $RYmax #
# #
# $Z XYmaxNe $Xmax $Ymax #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/format.01$X \\\ #
# $Z A=$xTV/T.A4%s \\\ #
# $Z $formatI \\\ #
# $Z mode=2 \\\ #
# $Z R=$xiird/TAMB.A4%s \\\ #
# $Z $formatR_Pal)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
v $xiird/TREF.32.1 p=$xiP/dentscie.04
v $xiird/TREF.32.1 p=$xiP/gris.01
v $xiird/TREF.32.2 p=$xiP/fractal.11
v $xiird/TREF.32.2 p=$xiP/gris.01
v $xiird/TREF.32.2 p=$xiP/trou_noir.C6
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 033565_033692 #
# #
# selon : #
# #
# #
# :Debut_listG_TREF_32: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/TREF.2. \ #
# $Z premiere=1 derniere=128 \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI \ #
# $Z R=$xiird/TREF.32.1 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/TREF.2. \ #
# $Z premiere=1 derniere=128 \ #
# $Z R=$xiird/TREF.32.2 \ #
# $Z $formatI #
# #
# :Fin_listG_TREF_32: #
# #
v $xiird/TREF.41.1 p=$xiP/abso.21
v $xiird/TREF.41.1 p=$xiP/dentscie.04
v $xiird/TREF.41.1 p=$xiP/gris.01
v $xiird/TREF.41.1
v $xiird/TREF.41.2 p=$xiP/fractal.11
v $xiird/TREF.41.2 p=$xiP/gris.01
v $xiird/TREF.41.2 p=$xiP/trou_noir.C6
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 033693_033820 #
# #
# selon : #
# #
# #
# :Debut_listG_TREF_41: #
# #
# $Z Pal #
# #
# $Z $xci/accumule.01$X \ #
# $Z A=$xiim/TREF.3. \ #
# $Z premiere=1 derniere=128 \ #
# $Z maximum=VRAI \ #
# $Z lineaire=VRAI \ #
# $Z R=$xiird/TREF.41.1 \ #
# $Z $formatI #
# $Z $xci/accumule.02$X \ #
# $Z A=$xiim/TREF.3. \ #
# $Z premiere=1 derniere=128 \ #
# $Z seuil=$GRIS_7 \ #
# $Z R=$xiird/TREF.41.2 \ #
# $Z $formatI #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiird/TREF.41.1 \ #
# $Z p=$xiP/abso.21 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/TREFLE.1 \ #
# $Z $formatI #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiird/TREF.41.1 \ #
# $Z p=$xiP/orange.01 \ #
# $Z RVB=VRAI \ #
# $Z R=$xTV/TREFLE.2 \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=4 \ #
# $Z R=$xTV/PONDERATEUR \ #
# $Z $formatI #
# #
# $Z eval `$xci/genere$X \\\ #
# $Z commande='($xci/interpole.02$X \\\ #
# $Z A1=$xTV/TREFLE.2%s \\\ #
# $Z A2=$xTV/TREFLE.1%s \\\ #
# $Z P=$xTV/PONDERATEUR \\\ #
# $Z R=$xiird/TREF.41.1%s \\\ #
# $Z $formatI)' \\\ #
# $Z en_tete=FAUX RVB=VRAI separateur=VRAI` #
# #
# :Fin_listG_TREF_41: #
# #
v $xiird/TUR2.41 p=$xiP/turbul.04
# Generee (sur '$LACT15') par : #
# #
# #
# :Debut_listG_TUR2_41: #
# #
# $Z Std #
# #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z $xci/acces$X \ #
# $Z A=$xie/TUR2.BAL512_Kexc3_Kdef2.320 \ #
# $Z standard=FAUX \ #
# $Z zero=VRAI \ #
# $Z R=$xiird/TUR2.41 \ #
# $Z $formatI #
# #
# :Fin_listG_TUR2_41: #
# #
v $xiird/TUR2.42.2.1 p=$xiP/arc_ciel.03
v $xiird/TUR2.42.2.1 p=$xiP/fractal.11
v $xiird/TUR2.42.2.1 p=$xiP/gris.01
v $xiird/TUR2.42.2.2 p=$xiP/arc_ciel.03
v $xiird/TUR2.42.2.2 p=$xiP/fractal.11
v $xiird/TUR2.42.2.2 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 032925_033052 #
# #
# selon : #
# #
# #
# :Debut_listG_TUR2_42_2: #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/TUR2.1 #
# $Z set _____Inverser=FAUX #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/TUR2.42.2.1 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/TUR2.1 #
# $Z set _____Inverser=VRAI #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/TUR2.42.2.2 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# :Fin_listG_TUR2_42_2: #
# #
v $xiird/TUR2.43.2.1 p=$xiP/arc_ciel.03
v $xiird/TUR2.43.2.1 p=$xiP/fractal.11
v $xiird/TUR2.43.2.1 p=$xiP/gris.01
v $xiird/TUR2.43.2.2 p=$xiP/arc_ciel.03
v $xiird/TUR2.43.2.2 p=$xiP/fractal.11
v $xiird/TUR2.43.2.2 p=$xiP/gris.01
# Montre deux accumulations de la sequence : #
# #
# xivPdf 6 2 / 032925_033052 #
# #
# selon : #
# #
# #
# :Debut_listG_TUR2_43_2: #
# #
# $Z Std #
# #
# $Z $xci/init$X \ #
# $Z niveau=$BLANC \ #
# $Z $formatI | \ #
# $Z $xci/move$X \ #
# $Z xR=0.5 yR=0.5 \ #
# $Z $formatI | \ #
# $Z $xci/complement$X \ #
# $Z $formatI | \ #
# $Z $xci/format.01$X \ #
# $Z $formatI \ #
# $Z mode=0 \ #
# $Z R=$xT/CACHE \ #
# $Z $formatR_Sdu #
# #
# $Z set _____Cache=$xT/CACHE #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/TUR2.1 #
# $Z set _____Inverser=FAUX #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/TUR2.43.2.1 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# $Z Std #
# #
# $Z set _____imageA=$xiim/TUR2.1 #
# $Z set _____Inverser=VRAI #
# $Z set _____Inferieur=68 #
# $Z set _____Superieur=188 #
# $Z set _____imageR=$xiird/TUR2.43.2.2 #
# $m4 _____include(_____xiird/.MORL.42.2.11._____U) #
# $Z unset _____Inverser #
# $Z unset _____Inferieur #
# $Z unset _____Superieur #
# #
# :Fin_listG_TUR2_43_2: #
# #
v $xiird/TUR3.11.0072
# Cette image est l'image 0072 de la sequence : #
# #
# xivPdf 4 1 / 000786_000913 #
# #
v $xiird/TUR3.12.0072
# Cette image est l'image 0072 de la sequence : #
# #
# xivPdf 4 1 / 000914_001041 #
# #
v $xiird/TUR3.13.0072
# Cette image est l'image 0072 de la sequence : #
# #
# xivPdf 4 1 / 001042_001169 #
# #
v $xiird/TUR3.22.0072
# Cette image est l'image 0072 de la sequence : #
# #
# xivPdf 4 1 / 001170_001297 #
# #
v $xiird/TUR3.32.0072
# Cette image est l'image 0072 de la sequence : #
# #
# xivPdf 4 1 / 001298_001425 #
# #
v $xiird/VERH.21.0008$m p=$xiP/montagnes.01
v $xiird/VERH.21.0063$m p=$xiP/montagnes.01
# Correspond aux images '0008' et '0063' de la sequence d'images suivante : #
# #
# xivPdf 6 2 / 026508_026635 #
# #
#######################################################################################################################################
# #
# I M A G E S L E S P L U S P E R T I N E N T E S : #
# #
#######################################################################################################################################
v $xiird/ELEC.22.0051
v $xiird/ELEC.21.0051
# Potentiel electrique autour d'une electrode fractale. #
v $xiird/TAMB.A1
v $xiird/TAMB.A2
v $xiird/TAMB.A3
v $xiird/TAMB.A4
# Amplitude, gradient, logarithme et temperatures (t1, t2, t3) des quatre premiers modes #
# propres d'un tambour fractal. #
v $xiic/champ.30001$D/MORL.120615$D/pro$Mo$Ph$D/$M
v $xiic/ONDE.11
# Quelques transformees en ondelettes de vorticite bi-dimensionnelle. #
v $xiird/TUR3.13.0072
# Vorticite tri-dimensionnelle. #