#!/bin/csh
#######################################################################################################################################
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# N O T A : #
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# Author of '$xiaf/$Fnota' : #
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# Jean-Francois COLONNA (LACTAMME, AAAAMMJJhhmmss). #
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#######################################################################################################################################
#######################################################################################################################################
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# Q U E L Q U E S E X P L I C A T I O N S : #
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#######################################################################################################################################
v $xiaf/ACCU.12$R16 p=$xiP/fractal.11
v $xiaf/ACCU.12$R64 p=$xiP/fractal.11
v $xiaf/ACCU.12$R16
v $xiaf/ACCU.14$R16 p=$xiP/fractal.11
v $xiaf/ACCU.14$R64 p=$xiP/fractal.11
v $xiaf/ACCU.12$R64
# Ces images correspondent aux sequences videos : #
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# xivPdf 7 2 / 013931_014058 #
# xivPdf 7 2 / 014059_014186 #
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v $xiaf/ACCU.12$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/ACCU.12$M$R16 p=$xiP/montagnes.91
v $xiaf/ACCU.12$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/ACCU.12$M$R64 p=$xiP/montagnes.91
v $xiaf/ACCU.12$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/ACCU.12$m$R16 p=$xiP/montagnes.91
v $xiaf/ACCU.12$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/ACCU.12$m$R64 p=$xiP/montagnes.91
# Ces images correspondent aux sequences videos : #
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# xivPdf 7 2 / 014443_014570 #
# xivPdf 7 2 / 014571_014698 #
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v $xiaf/BESF.11$MPEG
v $xiaf/BESF.11$R16
# Generee (sur '$CMAP28' -ex "porte-brancion"- puis sur '$LACT1A' pour le '$MPEG') par : #
# #
# #
# :Debut_listG_BESF_11: #
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# $Z setenv xTV $xTG #
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# $Z set _____images=$xTV/BESF #
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# $Z $DELETE $_____images.* >& $nul #
# #
# $Z set _____animation=$xiaf/BESF.11 #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.32.5.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0001%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.85.21.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0002%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.77.5.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0003%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/LYAP.J3$HauteDef.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0004%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/JULJ.U5.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0005%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/JULJ.X5.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0006%s \ #
# $Z $formatR_Pdu #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/JULK.21.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0007%s \ #
# $Z $formatR_Pdu #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/MANE.s5.5.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0008%s \ #
# $Z $formatR_Pdu #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirc/MANE.n2.5.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0009%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirv/TREE.C3.256.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0010%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirv/TREE.75.1$m%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0011%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirf/PAYU.H2$M \ #
# $Z p=$xiP/marron.06 \ #
# $Z R=$xTV/PAYU.H2$M \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/PAYU.H2$M%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0012%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/PAYU.K2$M%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0013%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pqu #
# #
# #
# $Z $xci/vraies_C$X \ #
# $Z A=$xiirf/PAYU.F5$m \ #
# $Z p=$xiP/gris.01 \ #
# $Z R=$xTV/PAYU.F5$m \ #
# $Z $formatI #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xTV/PAYU.F5$m%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0014%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirv/BROW.C2.21%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0015%s \ #
# $Z $formatR_Pdu #
# #
# $Z Shu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirv/STRU.c4%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0016%s \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z set LImAgEs=$_____images #
# $Z set LIm=`ls $LImAgEs.*$ROUGE | $SE -e "s+^$LImAgEs\.0*\(.*\)\$ROUGE"'$+\1+'` #
# $Z unset LImAgEs #
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# $Z set Premiere=$LIm[1] #
# $Z set Derniere=$LIm[16] #
# #
# $Z $xci/reduction_16$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z set Derniere=$LIm[$#LIm] #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions=`GenListe $#LIm $Seconde` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_BESF_11: #
# #
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# Un regroupement de 16 images BESt Fractales... #
v $xiaf/CIEL.11$R16
v $xiaf/CIEL.11$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 010820_010947 #
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v $xiaf/COT2.11$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.11$R16 p=$xiP/cotes.11
v $xiaf/COT2.11$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 014543_014670 #
# #
v $xiaf/COT2.11$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/COT2.11$M$R16 p=$xiP/montagnes.91
v $xiaf/COT2.11$M$R64 p=$xiP/montagnes.91
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 014671_014798 #
# #
v $xiaf/COT2.12$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.12$R16 p=$xiP/cotes.11
v $xiaf/COT2.12$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 014927_015054 #
# #
v $xiaf/COT2.13$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.13$R16 p=$xiP/cotes.11
v $xiaf/COT2.13$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015183_015310 #
# #
v $xiaf/COT2.21$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.21$R16 p=$xiP/cotes.11
v $xiaf/COT2.21$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 014799_014926 #
# #
v $xiaf/COT2.22$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.22$R16 p=$xiP/cotes.11
v $xiaf/COT2.22$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015055_015182 #
# #
v $xiaf/COT2.23$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.23$R16 p=$xiP/cotes.11
v $xiaf/COT2.23$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015311_015438 #
# #
v $xiaf/COT2.33$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.33$R16 p=$xiP/cotes.11
v $xiaf/COT2.33$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015439_015566 #
# #
v $xiaf/COT2.43$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.43$R16 p=$xiP/cotes.11
v $xiaf/COT2.43$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015567_015694 #
# #
v $xiaf/COT2.53$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.53$R16 p=$xiP/cotes.11
v $xiaf/COT2.53$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015695_015822 #
# #
v $xiaf/COT2.54$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.54$R16 p=$xiP/cotes.11
v $xiaf/COT2.54$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015823_015950 #
# #
v $xiaf/COT2.65$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.65$R16 p=$xiP/cotes.11
v $xiaf/COT2.65$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 015951_016078 #
# #
v $xiaf/COT2.71$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.71$R16 p=$xiP/cotes.11
v $xiaf/COT2.71$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016079_016206 #
# #
v $xiaf/COT2.72$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.72$R16 p=$xiP/cotes.11
v $xiaf/COT2.72$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016207_016334 #
# #
v $xiaf/COT2.73$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.73$R16 p=$xiP/cotes.11
v $xiaf/COT2.73$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016335_016462 #
# #
v $xiaf/COT2.74$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.74$R16 p=$xiP/cotes.11
v $xiaf/COT2.74$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016463_016590 #
# #
v $xiaf/COT2.75$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.75$R16 p=$xiP/cotes.11
v $xiaf/COT2.75$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016591_016718 #
# #
v $xiaf/COT2.81$M$R16
v $xiaf/COT2.81$M$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016719_016846 #
# #
v $xiaf/COT2.82$M$R16
v $xiaf/COT2.82$M$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016847_016974 #
# #
v $xiaf/COT2.83$M$R16
v $xiaf/COT2.83$M$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 016975_017102 #
# #
v $xiaf/COT2.84$M$R16
v $xiaf/COT2.84$M$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017103_017230 #
# #
v $xiaf/COT2.85$M$R16
v $xiaf/COT2.85$M$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017231_017358 #
# #
v $xiaf/COT2.91$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.91$R16 p=$xiP/cotes.11
v $xiaf/COT2.91$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017359_017486 #
# #
v $xiaf/COT2.92$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.92$R16 p=$xiP/cotes.11
v $xiaf/COT2.92$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017487_017614 #
# #
v $xiaf/COT2.93$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.93$R16 p=$xiP/cotes.11
v $xiaf/COT2.93$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017615_017742 #
# #
v $xiaf/COT2.94$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.94$R16 p=$xiP/cotes.11
v $xiaf/COT2.94$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017743_017870 #
# #
v $xiaf/COT2.95$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.95$R16 p=$xiP/cotes.11
v $xiaf/COT2.95$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017871_017998 #
# #
v $xiaf/COT2.B1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B1$R16 p=$xiP/cotes.11
v $xiaf/COT2.B1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 017999_018126 #
# #
v $xiaf/COT2.B2$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B2$R16 p=$xiP/cotes.11
v $xiaf/COT2.B2$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018127_018254 #
# #
v $xiaf/COT2.B3$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B3$R16 p=$xiP/cotes.11
v $xiaf/COT2.B3$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018255_018382 #
# #
v $xiaf/COT2.B4$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B4$R16 p=$xiP/cotes.11
v $xiaf/COT2.B4$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018383_018510 #
# #
v $xiaf/COT2.B4$HauteDef$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B4$HauteDef$R16 p=$xiP/cotes.11
v $xiaf/COT2.B4$HauteDef$R64 p=$xiP/cotes.11
v $xiaf/COT2.B4$HauteDef$MPEG
# Generee (sur '$LACT1A', puis sur '$LACT1B' le 20250117103155) par : #
# #
# #
# :Debut_listG_COT2_B4_HauteDef: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=256 #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____SeuilR=252 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=50 #
# $Z SET _____images=$xTV/COT2.B4 #
# $Z set _____Flongueur=$xTV/LONGUEUR.B4 #
# $Z set _____animation=$xiaf/COT2.B4$HauteDef #
# $Z set _____last=$xTV/COT2.B4 #
# $Z SET _____SeuilG=211 #
# #
# $m4 _____include(_____xiirf/.COT2.31.1._____U) #
# $m4 _____include(_____xiirf/.COT2.34.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.B1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z SET _____LRepetitions="$K_VIDE" #
# $Z SET _____ImageT=$_____images. #
# $Z SET _____PaletteMPEG=$xiP/cotes.11 #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# :Fin_listG_COT2_B4_HauteDef: #
# #
v $xiaf/COT2.B5$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.B5$R16 p=$xiP/cotes.11
v $xiaf/COT2.B5$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018511_018638 #
# #
v $xiaf/COT2.D1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.D1$R16 p=$xiP/cotes.11
v $xiaf/COT2.D1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018639_018766 #
# #
v $xiaf/COT2.D2$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.D2$R16 p=$xiP/cotes.11
v $xiaf/COT2.D2$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018767_018894 #
# #
v $xiaf/COT2.D3$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.D3$R16 p=$xiP/cotes.11
v $xiaf/COT2.D3$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 018895_019022 #
# #
v $xiaf/COT2.D4$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.D4$R16 p=$xiP/cotes.11
v $xiaf/COT2.D4$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019023_019150 #
# #
v $xiaf/COT2.D5$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.D5$R16 p=$xiP/cotes.11
v $xiaf/COT2.D5$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019151_019278 #
# #
v $xiaf/COT2.F1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.F1$R16 p=$xiP/cotes.11
v $xiaf/COT2.F1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019279_019406 #
# #
v $xiaf/COT2.H1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.H1$R16 p=$xiP/cotes.11
v $xiaf/COT2.H1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019407_019534 #
# #
v $xiaf/COT2.K1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.K1$R16 p=$xiP/cotes.11
v $xiaf/COT2.K1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019535_019662 #
# #
v $xiaf/COT2.M1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.M1$R16 p=$xiP/cotes.11
v $xiaf/COT2.M1$R64 p=$xiP/cotes.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 019663_019790 #
# #
v $xiaf/COT2.Q1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.Q1$R16 p=$xiP/cotes.11
v $xiaf/COT2.Q1$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_Q1: #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=50 #
# $Z set _____images=$xTV/COT2.Q1 #
# $Z set _____Flongueur=$xTV/LONGUEUR.Q1 #
# $Z set _____animation=$xiaf/COT2.Q1 #
# $Z set _____first=$xiirf/COT2.Q1 #
# $Z set _____last=$xiirf/COT2.Q1 #
# $Z SET _____SeuilG=87 #
# $m4 _____include(_____xiirf/.COT2.31.1._____U) #
# $m4 _____include(_____xiirf/.COT2.31.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.D1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_Q1: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.D1$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT2.Q2$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.Q2$R16 p=$xiP/cotes.11
v $xiaf/COT2.Q2$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_Q2: #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=50 #
# $Z set _____images=$xTV/COT2.Q2 #
# $Z set _____Flongueur=$xTV/LONGUEUR.Q2 #
# $Z set _____animation=$xiaf/COT2.Q2 #
# $Z set _____first=$xiirf/COT2.Q2 #
# $Z set _____last=$xiirf/COT2.Q2 #
# $Z SET _____SeuilG=184 #
# $m4 _____include(_____xiirf/.COT2.31.1._____U) #
# $m4 _____include(_____xiirf/.COT2.32.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.D1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_Q2: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.D2$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT2.Q3$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.Q3$R16 p=$xiP/cotes.11
v $xiaf/COT2.Q3$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_Q3: #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=50 #
# $Z set _____images=$xTV/COT2.Q3 #
# $Z set _____Flongueur=$xTV/LONGUEUR.Q3 #
# $Z set _____animation=$xiaf/COT2.Q3 #
# $Z set _____first=$xiirf/COT2.Q3 #
# $Z set _____last=$xiirf/COT2.Q3 #
# $Z SET _____SeuilG=74 #
# $m4 _____include(_____xiirf/.COT2.31.1._____U) #
# $m4 _____include(_____xiirf/.COT2.33.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.D1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_Q3: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.D3$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT2.Q4$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.Q4$R16 p=$xiP/cotes.11
v $xiaf/COT2.Q4$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_Q4: #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=50 #
# $Z set _____images=$xTV/COT2.Q4 #
# $Z set _____Flongueur=$xTV/LONGUEUR.Q4 #
# $Z set _____animation=$xiaf/COT2.Q4 #
# $Z set _____first=$xiirf/COT2.Q4 #
# $Z set _____last=$xiirf/COT2.Q4 #
# $Z SET _____SeuilG=211 #
# $m4 _____include(_____xiirf/.COT2.31.1._____U) #
# $m4 _____include(_____xiirf/.COT2.34.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.D1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_Q4: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.D4$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT2.Q5$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.Q5$R16 p=$xiP/cotes.11
v $xiaf/COT2.Q5$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_Q5: #
# #
# $Z set _____imagesA1=$xTV/COT2.Q1 #
# $Z set _____imagesA2=$xTV/COT2.Q2 #
# $Z set _____imagesA3=$xTV/COT2.Q3 #
# $Z set _____imagesA4=$xTV/COT2.Q4 #
# $Z set _____images=$xTV/COT2.Q5 #
# $Z set _____animation=$xiaf/COT2.Q5 #
# $Z set _____first=$xiirf/COT2.Q5 #
# $Z set _____last=$xiirf/COT2.Q5 #
# $m4 _____include(_____xiirf/.COT2.52.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_Q5: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.D5$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT2.R1$R16 p=$xiP/cotes.11 t=16 d=0 ralenti=16
v $xiaf/COT2.R1$R16 p=$xiP/cotes.11
v $xiaf/COT2.R1$R64 p=$xiP/cotes.11
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_COT2_R1: #
# #
# $Z set _____NiveauMer=$GRIS_7 #
# $Z set _____Affaiblissement=0.005 #
# $Z set _____ACorrosite=0.5 #
# $Z set _____VoisinsA=3 #
# $Z set _____Alterner=VRAI #
# $Z set _____Simultane=VRAI #
# $Z set _____Iterations=100 #
# $Z set _____images=$xTV/COT2.R1 #
# $Z set _____Flongueur=$xTV/LONGUEUR.R1 #
# $Z set _____animation=$xiaf/COT2.R1 #
# $Z set _____first=$xiirf/COT2.R1 #
# $Z set _____last=$xiirf/COT2.R1 #
# $Z SET _____SeuilG=211 #
# $m4 _____include(_____xiirf/.COT2.11.0.1._____U) #
# $m4 _____include(_____xiirf/.COT2.D1.0.2._____U) #
# $m4 _____include(_____xiirf/.COT2.11.0.3._____U) #
# $m4 _____include(_____xiirf/.COT2.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.ITER.1.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.32._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.y.22._____U) #
# #
# :Fin_listG_COT2_R1: #
# #
# #
# ATTENTION : ces images sont calculees de la meme facon que 'v $xiaf/COT2.F1$R16', mais #
# les conditions initiales ('v $xTV/INITIAL') sont legerement differentes. Cela vient du #
# fait que le calcul precedent avait ete fait sur '$LACT14' sur lequel 'v $xci/gauss$K' #
# produit un champ gaussien legerement different des autres MACHINEs ainsi que le montre la #
# comparaison de 'v $xiit/GAUSS.LACT14' et 'v $xiit/GAUSS.LACT15' par 'v $xci/distance.01$K'. #
# Cela semble venir de 'v $xiii/mono_image$DEF ACCES_A_UN_CHAMP_3D' qui reference de facon #
# indirecte les deux procedures 'v $xiiD/definit.1$DEF _____cNORMALISE_AXES' et #
# 'v $xiif/format$DEF F__lDENORMALISE_AXES' qui ont beuacoup evolue par exemple le #
# 20041111165615 en ce qui concerne l'usage ou pas de 'LONGUEUR(...). Cela fait que les #
# arguments de 'EXPB(...)' n'etaient pas exactement les memes sur '$LACT14' (lors du calcul #
# precedent aux environs du 200201) et sur '$CMAP28' (aux environs du 200604281457 lors de #
# ce calcul...). #
v $xiaf/COT3.11$R16 p=$xiP/gris.11 t=16 d=0 ralenti=16
v $xiaf/COT3.11$R16 p=$xiP/gris.11
# Cette image donne des coupes dans le champ 'v $xiirf/COT3.11 p=$xiP/gris.11'. #
v $xiaf/COT3.12$R16 p=$xiP/gris.11 t=16 d=0 ralenti=16
v $xiaf/COT3.12$R16 p=$xiP/gris.11
# Cette image donne des coupes dans les champs 'v $xiirf/COT3.12.0 p=$xiP/gris.11' et #
# 'v $xiirf/COT3.12.1 p=$xiP/gris.11'. #
v $xiaf/COT3.21$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=16
v $xiaf/COT3.21$R16 p=$xiP/cercle.35
v $xiaf/COT3.21$R64 p=$xiP/cercle.35
# Cette image donne des coupes dans le champ 'v $xiirf/COT3.21.0 p=$xiP/gris.11' et elle #
# correspond a la sequence video : #
# #
# xivPdf 14 1 / 023054_023116 #
# #
# On notera que les points marques avec des couleurs lumineuses correspondent aux points #
# erodes a la fin de l'erosion, alors que les points marques avec des couleurs sombres #
# correspondent a ceux qui l'ont ete au debut. Enfin, la premiere image de chaque animation #
# donne la coupe qui etait a l'instant initial en contact avec la mer... #
v $xiaf/COT3.31.0$R16 p=$xiP/gris.11 t=16 d=0 ralenti=16
v $xiaf/COT3.31.0$R16 p=$xiP/gris.11
v $xiaf/COT3.31.0$R64 p=$xiP/gris.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 023629_023884 #
# #
v $xiaf/COT3.31.1$R16 p=$xiP/trou_noir.94 t=16 d=0 ralenti=16
v $xiaf/COT3.31.1$R16 p=$xiP/gris.11
v $xiaf/COT3.31.1$R16 p=$xiP/trou_noir.94
v $xiaf/COT3.31.1$R64 p=$xiP/gris.11
v $xiaf/COT3.31.1$R64 p=$xiP/trou_noir.94
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 023885_024140 #
# #
v $xiaf/COT3.32$R04
v $xiaf/COT3.32$R16
v $xiaf/COT3.32$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 024141_024652 #
# #
# En ce qui concerne la matrice 'v $xiaf/COT3.32$R04', elle ne concerne que les images #
# '0209' a '0385' de la sequence (au lieu de '0001' a '0512'). #
v $xiaf/COT3.41$R16 p=$xiP/cercle.35
v $xiaf/COT3.41$R64 p=$xiP/cercle.35
# Ces images correspondent a l'image 'v $xiirf/COT3.41'. #
v $xiaf/COT3.42$R16 p=$xiP/cercle.35
v $xiaf/COT3.42$R64 p=$xiP/cercle.35
# Ces images correspondent a l'image 'v $xiirf/COT3.42'. #
v $xiaf/COT3.43$R16 p=$xiP/cercle.35
v $xiaf/COT3.43$R64 p=$xiP/cercle.35
# Ces images correspondent a l'image 'v $xiirf/COT3.43'. #
v $xiaf/ETC2.11$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.11$R16 p=$xiP/etching.11
v $xiaf/ETC2.11$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 029774_029901 #
# #
v $xiaf/ETC2.12$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.12$R16 p=$xiP/etching.11
v $xiaf/ETC2.12$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 029902_030029 #
# #
v $xiaf/ETC2.21$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.21$R16 p=$xiP/etching.11
v $xiaf/ETC2.21$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 030030_030157 #
# #
v $xiaf/ETC2.22$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.22$R16 p=$xiP/etching.11
v $xiaf/ETC2.22$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 033996_034251 #
# #
v $xiaf/ETC2.51$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.51$R16 p=$xiP/etching.11
v $xiaf/ETC2.51$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 033356_033483 #
# #
v $xiaf/ETC2.52$R16 p=$xiP/etching.11 t=16 d=0 ralenti=16
v $xiaf/ETC2.52$R16 p=$xiP/etching.11
v $xiaf/ETC2.52$R64 p=$xiP/etching.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 033484_033995 #
# #
v $xiaf/ETC3.21$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=16
v $xiaf/ETC3.21$R16 p=$xiP/cercle.35
v $xiaf/ETC3.21$R64 p=$xiP/cercle.35
# Cette image donne des coupes dans le champ 'v $xiirf/ETC3.21.0 p=$xiP/gris.11' et elle #
# correspond a la sequence video : #
# #
# xivPdf 14 1 / 030158_030220 #
# #
v $xiaf/ETC3.22.0$R16 p=$xiP/gris.11 t=16 d=0 ralenti=16
v $xiaf/ETC3.22.0$R16 p=$xiP/gris.11
v $xiaf/ETC3.22.0$R64 p=$xiP/gris.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 030221_030476 #
# #
v $xiaf/ETC3.22.1$R16 p=$xiP/trou_noir.94 t=16 d=0 ralenti=16
v $xiaf/ETC3.22.1$R16 p=$xiP/gris.11
v $xiaf/ETC3.22.1$R16 p=$xiP/trou_noir.94
v $xiaf/ETC3.22.1$R64 p=$xiP/gris.11
v $xiaf/ETC3.22.1$R64 p=$xiP/trou_noir.94
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 030477_030732 #
# #
v $xiaf/ETC3.23$R04
v $xiaf/ETC3.23$R16
v $xiaf/ETC3.23$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 030733_031244 #
# #
# En ce qui concerne la matrice 'v $xiaf/ETC3.23$R04', elle ne concerne que les images #
# '0209' a '0385' de la sequence (au lieu de '0001' a '0512'). #
v $xiaf/ETC3.31$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=16
v $xiaf/ETC3.31$R16 p=$xiP/cercle.35
v $xiaf/ETC3.31$R64 p=$xiP/cercle.35
# Cette image donne des coupes dans le champ 'v $xiirf/ETC3.31.0 p=$xiP/gris.11' et elle #
# correspond a la sequence video : #
# #
# xivPdf 14 1 / 031245_031307 #
# #
v $xiaf/ETC3.32.0$R16 p=$xiP/gris.11 t=16 d=0 ralenti=16
v $xiaf/ETC3.32.0$R16 p=$xiP/gris.11
v $xiaf/ETC3.32.0$R64 p=$xiP/gris.11
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 031308_031563 #
# #
v $xiaf/ETC3.32.1$R16 p=$xiP/trou_noir.94 t=16 d=0 ralenti=16
v $xiaf/ETC3.32.1$R16 p=$xiP/gris.11
v $xiaf/ETC3.32.1$R16 p=$xiP/trou_noir.94
v $xiaf/ETC3.32.1$R64 p=$xiP/gris.11
v $xiaf/ETC3.32.1$R64 p=$xiP/trou_noir.94
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 031564_031819 #
# #
v $xiaf/ETC3.33$R04
v $xiaf/ETC3.33$R16
v $xiaf/ETC3.33$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 031820_032331 #
# #
# En ce qui concerne la matrice 'v $xiaf/ETC3.33$R04', elle ne concerne que les images #
# '0209' a '0385' de la sequence (au lieu de '0001' a '0512'). #
v $xiaf/ETC3.34$R04
v $xiaf/ETC3.34$R16
v $xiaf/ETC3.34$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 032332_032843 #
# #
# En ce qui concerne la matrice 'v $xiaf/ETC3.34$R04', elle ne concerne que les images #
# '0209' a '0385' de la sequence (au lieu de '0001' a '0512'). #
v $xiaf/ETC3.35$R04
v $xiaf/ETC3.35$R16
v $xiaf/ETC3.35$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 14 1 / 032844_033355 #
# #
# En ce qui concerne la matrice 'v $xiaf/ETC3.35$R04', elle ne concerne que les images #
# '0209' a '0385' de la sequence (au lieu de '0001' a '0512'). #
v $xiaf/FRA2.11$R16 p=$xiP/cercle.34 t=16 d=0 ralenti=16
v $xiaf/FRA2.11$R16 p=$xiP/cercle.34
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 002950_002965 #
# #
v $xiaf/FRA2.11$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.11$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.11$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.11$m$R16 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 002966_002981 #
# xivPdf 7 2 / 002982_002997 #
# #
v $xiaf/FRA2.21$R16 p=$xiP/cercle.34
v $xiaf/FRA2.21$R64 p=$xiP/cercle.34 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$R64 p=$xiP/fractal.91 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$R64 p=$xiP/nuages.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$R64 p=$xiP/cercle.34
v $xiaf/FRA2.21$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.21$M$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$M$R64 p=$xiP/montagnes.01
v $xiaf/FRA2.21$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.21$m$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.21$m$R64 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 003827_003954 #
# xivPdf 7 2 / 004339_004466 #
# xivPdf 7 2 / 004467_004594 #
# #
v $xiaf/FRA2.31$R16 p=$xiP/cercle.34
v $xiaf/FRA2.31$R16 p=$xiP/cercle.34 t=16 d=0 ralenti=16
v $xiaf/FRA2.31$R16 p=$xiP/fractal.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.31$R16 p=$xiP/nuages.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.31$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.31$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.31$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.31$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.31$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 003875_003890 #
# xivPdf 7 2 / 003923_003938 #
# xivPdf 7 2 / 003939_003954 #
# #
v $xiaf/FRA2.41$R16 p=$xiP/cercle.34
v $xiaf/FRA2.41$R64 p=$xiP/cercle.34 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$R64 p=$xiP/fractal.91 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$R64 p=$xiP/nuages.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$R64 p=$xiP/cercle.34
v $xiaf/FRA2.41$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.41$M$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$M$R64 p=$xiP/montagnes.01
v $xiaf/FRA2.41$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.41$m$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.41$m$R64 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 003955_004082 #
# xivPdf 7 2 / 004467_004594 #
# xivPdf 7 2 / 004595_004722 #
# #
v $xiaf/FRA2.51$R16 p=$xiP/cercle.34
v $xiaf/FRA2.51$R64 p=$xiP/cercle.34 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$R64 p=$xiP/fractal.91 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$R64 p=$xiP/nuages.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$R64 p=$xiP/cercle.34
v $xiaf/FRA2.51$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.51$M$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$M$R64 p=$xiP/montagnes.01
v $xiaf/FRA2.51$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.51$m$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.51$m$R64 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 004723_004850 #
# xivPdf 7 2 / 005235_005362 #
# xivPdf 7 2 / 005363_005490 #
# #
v $xiaf/FRA2.61$R16 p=$xiP/nuages.02
v $xiaf/FRA2.61$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=16
v $xiaf/FRA2.61$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.61$M$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.61$M$R64 p=$xiP/montagnes.01
v $xiaf/FRA2.61$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.61$m$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.61$m$R64 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 005619_005746 #
# xivPdf 7 2 / 005747_005874 #
# xivPdf 7 2 / 005875_006002 #
# #
v $xiaf/FRA2.71$R16 p=$xiP/nuages.02
v $xiaf/FRA2.71$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=16
v $xiaf/FRA2.71$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.71$M$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.71$M$R64 p=$xiP/montagnes.01
v $xiaf/FRA2.71$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.71$m$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=16
v $xiaf/FRA2.71$m$R64 p=$xiP/montagnes.01
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006131_006258 #
# xivPdf 7 2 / 006259_006386 #
# xivPdf 7 2 / 006387_006514 #
# #
v $xiaf/FRA2.81$R16 p=$xiP/nuages.02
v $xiaf/FRA2.81$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.81$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.81$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.81$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.81$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006566_006582 #
# xivPdf 7 2 / 006583_006599 #
# xivPdf 7 2 / 006600_006616 #
# #
v $xiaf/FRA2.82$R16 p=$xiP/nuages.02
v $xiaf/FRA2.82$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.82$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.82$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.82$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.82$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006668_006684 #
# xivPdf 7 2 / 006685_006701 #
# xivPdf 7 2 / 006617_006633 #
# #
v $xiaf/FRA2.83$R16 p=$xiP/nuages.02
v $xiaf/FRA2.83$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.83$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.83$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.83$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.83$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007025_007041 #
# xivPdf 7 2 / 007042_007058 #
# xivPdf 7 2 / 007059_007075 #
# #
v $xiaf/FRA2.84$R16 p=$xiP/nuages.02
v $xiaf/FRA2.84$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.84$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.84$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.84$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.84$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007229_007245 #
# xivPdf 7 2 / 007246_007262 #
# xivPdf 7 2 / 007263_007279 #
# #
# Voir aussi la sequence '$xiff/NUAG.2.????'. #
v $xiaf/FRA2.91$R16 p=$xiP/fractal.11
v $xiaf/FRA2.91$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=16
v $xiaf/FRA2.91$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.91$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.91$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.91$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.92$R16 p=$xiP/fractal.11
v $xiaf/FRA2.92$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=16
v $xiaf/FRA2.92$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.92$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.92$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.92$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.94$R16 p=$xiP/fractal.11
v $xiaf/FRA2.94$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=16
v $xiaf/FRA2.94$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.94$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.94$m$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.94$m$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 11 1 / 014337_014592 #
# xivPdf 11 1 / 014593_014848 #
# xivPdf 11 1 / 014849_015104 #
# #
# en prenant respectivement les 64 ('FRA2.94'), 128 ('FRA2.92') et 256 ('FRA2.91') premieres #
# images de ces sequences. #
v $xiaf/FRA2.A1$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.A1$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.A2$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.A2$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.A4$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.A4$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent a la sequence video : #
# #
# xivPdf 11 1 / 015105_015360 #
# #
# en prenant respectivement les 64 ('FRA2.A4'), 128 ('FRA2.A2') et 256 ('FRA2.A1') premieres #
# images de ces sequences. On notera que ces images sont identiques a '$xiaf/FRA2.9?$M*' a #
# la difference pres suivante : elles ont ete recalculees apres que l'option "interpoler=" #
# ait ete introduite dans '$xci/montagne.01$K'. #
v $xiaf/FRA2.B1$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.B1$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.B2$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.B2$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/FRA2.B4$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.B4$M$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
# Ces images correspondent a la sequence video : #
# #
# xivPdf 11 1 / 015105_015360 #
# #
# en prenant respectivement les 64 ('FRA2.B4'), 128 ('FRA2.B2') et 256 ('FRA2.B1') premieres #
# images de ces sequences. On notera que ces images sont identiques a '$xiaf/FRA2.A?$M*' a #
# la difference pres suivante : elles ont ete recalculees avec l'option "zero=FAUX" dans #
# '$xci/montagne.01$K'. #
v $xiaf/FRA2.C1$R16 p=$xiP/cercle.34
v $xiaf/FRA2.C1$R16 p=$xiP/cercle.34 t=16 d=0 ralenti=16
v $xiaf/FRA2.C1$R16 p=$xiP/fractal.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.C1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA2.C1$M$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.C1$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.C1$m$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.C1$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 019305_019320 #
# xivPdf 7 2 / 019321_019336 #
# xivPdf 7 2 / 019337_019352 #
# #
v $xiaf/FRA2.D1$M$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.D1$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.D1$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/FRA2.D1$m$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.D1$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.D1$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 023982_024109 #
# xivPdf 7 2 / 024110_024237 #
# #
v $xiaf/FRA2.D2$M$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.D2$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.D2$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/FRA2.D2$m$R16 p=$xiP/montagnes.91
v $xiaf/FRA2.D2$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/FRA2.D2$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 024238_024365 #
# xivPdf 7 2 / 024366_024493 #
# #
v $xiaf/F2.E2$M$R16
v $xiaf/F2.E2$M$R64
v $xiaf/F2.E2$m$R16
v $xiaf/F2.E2$m$R64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 024500_024621 #
# xivPdf 7 2 / 023193_023320 #
# #
v $xiaf/F2.G2$M$R04 p=$xiP/montagnes.91
v $xiaf/F2.G2$M$R04
v $xiaf/F2.G2$m$R04 p=$xiP/montagnes.91
v $xiaf/F2.G2$m$R04
v $xiaf/F2.G2$M$R16 p=$xiP/montagnes.91
v $xiaf/F2.G2$M$R16
v $xiaf/F2.G2$m$R16 p=$xiP/montagnes.91
v $xiaf/F2.G2$m$R16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 024910_024925 #
# xivPdf 7 2 / 024942_024957 #
# xivPdf 7 2 / 024926_024941 #
# xivPdf 7 2 / 024958_024973 #
# #
v $xiaf/F2.H1$M$R16 p=$xiP/montagnes.91
v $xiaf/F2.H1$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.H1$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/F2.H1$m$R16 p=$xiP/montagnes.91
v $xiaf/F2.H1$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.H1$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 024974_025101 #
# xivPdf 7 2 / 025102_025229 #
# #
v $xiaf/F2.H2$M$R16 p=$xiP/montagnes.91
v $xiaf/F2.H2$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.H2$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/F2.H2$m$R16 p=$xiP/montagnes.91
v $xiaf/F2.H2$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.H2$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 025230_025357 #
# xivPdf 7 2 / 025358_025485 #
# #
v $xiaf/F2.J1$M$R16 p=$xiP/montagnes.91
v $xiaf/F2.J1$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.J1$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/F2.J1$m$R16 p=$xiP/montagnes.91
v $xiaf/F2.J1$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.J1$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 025486_025613 #
# xivPdf 7 2 / 025614_025741 #
# #
v $xiaf/F2.J2$M$R16 p=$xiP/montagnes.91
v $xiaf/F2.J2$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.J2$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/F2.J2$m$R16 p=$xiP/montagnes.91
v $xiaf/F2.J2$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/F2.J2$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 025742_025869 #
# xivPdf 7 2 / 025870_025997 #
# #
v $xiaf/FRA3.11.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.11.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.11.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.11.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.12$R16 p=$xiP/gris.01
v $xiaf/FRA3.12$R16 p=$xiP/gris.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006719_006735 #
# xivPdf 7 2 / 006736_006752 #
# xivPdf 7 2 / 006753_006769 #
# #
v $xiaf/FRA3.21.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.21.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.21.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.21.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.22$R16 p=$xiP/gris.01
v $xiaf/FRA3.22$R16 p=$xiP/gris.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006804_006820 #
# xivPdf 7 2 / 006838_006854 #
# xivPdf 7 2 / 006804_006820 #
# #
# ATTENTION, la coordonnee 'Zf' n'etait pas recentree dans 'Ifractal_3D_precises(...)'. #
v $xiaf/FRA3.31.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.31.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.31.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.31.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.32$R16 p=$xiP/gris.01
v $xiaf/FRA3.32$R16 p=$xiP/gris.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 006889_006905 #
# xivPdf 7 2 / 006923_006939 #
# xivPdf 7 2 / 006957_006973 #
# #
v $xiaf/FRA3.41.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.41.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.41.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.41.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/FRA3.42$R16 p=$xiP/fractal.11
v $xiaf/FRA3.42$R16 p=$xiP/gris.01
v $xiaf/FRA3.42$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=16
v $xiaf/FRA3.42$R16 p=$xiP/gris.01 t=16 d=0 ralenti=16
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007076_007092 #
# xivPdf 7 2 / 007110_007126 #
# xivPdf 7 2 / 007161_007177 #
# xivPdf 7 2 / 007144_007160 #
# #
v $xiaf/FRA3.51.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.51.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=64
v $xiaf/FRA3.51.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.51.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=64
v $xiaf/FRA3.52$R16 p=$xiP/fractal.11
v $xiaf/FRA3.52$R16 p=$xiP/gris.01
v $xiaf/FRA3.52$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=64
v $xiaf/FRA3.52$R16 p=$xiP/gris.01 t=16 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007280_007296 #
# xivPdf 7 2 / 007314_007330 #
# xivPdf 7 2 / 007348_007364 #
# xivPdf 7 2 / 007365_007381 #
# #
v $xiaf/FRA3.53.0$R16 p=$xiP/gris.11
v $xiaf/FRA3.53.0$R16 p=$xiP/gris.11 t=16 d=0 ralenti=64
v $xiaf/FRA3.53.1$R16 p=$xiP/gris.11
v $xiaf/FRA3.53.1$R16 p=$xiP/gris.11 t=16 d=0 ralenti=64
Suq ; $xci/sequence$X A=$xiff/FRA3.G. premiere=1 derniere=17 p=$xiP/gris.11 $formatI D=-1
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007382_007398 #
# xivPdf 7 2 / 007416_007432 #
# #
v $xiaf/FRA3.61.0$R16 p=$xiP/nuages.02
v $xiaf/FRA3.61.0$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=64
v $xiaf/FRA3.61.1$R16 p=$xiP/nuages.02
v $xiaf/FRA3.61.1$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=64
v $xiaf/FRA3.62$R16 p=$xiP/fractal.11
v $xiaf/FRA3.62$R16 p=$xiP/gris.01
v $xiaf/FRA3.62$R16 p=$xiP/fractal.11 t=16 d=0 ralenti=64
v $xiaf/FRA3.62$R16 p=$xiP/gris.01 t=16 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007450_007466 #
# xivPdf 7 2 / 007484_007500 #
# xivPdf 7 2 / 007518_007534 #
# xivPdf 7 2 / 007535_007551 #
# #
v $xiaf/FRA3.63.0$R16 p=$xiP/gris.11
v $xiaf/FRA3.63.0$R16 p=$xiP/gris.11 t=16 d=0 ralenti=64
v $xiaf/FRA3.63.1$R16 p=$xiP/gris.11
v $xiaf/FRA3.63.1$R16 p=$xiP/gris.11 t=16 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 007552_007568 #
# xivPdf 7 2 / 007586_007602 #
# #
v $xiaf/FRA3.71$R16 p=$xiP/cercle.35
v $xiaf/FRA3.71$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=64
v $xiaf/FRA3.71$R64 p=$xiP/cercle.35 t=64 d=0 ralenti=64
v $xiaf/FRA3.72$R16 p=$xiP/gris.01
v $xiaf/FRA3.72$R16 p=$xiP/gris.01 t=16 d=0 ralenti=64
v $xiaf/FRA3.72$R64 p=$xiP/gris.01 t=64 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 019353_019480 #
# xivPdf 7 2 / 019481_019608 #
# #
v $xiaf/FRA3.91$R16
v $xiaf/FRA3.91$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 019609_019736 #
# #
v $xiaf/FRA3.92$R16
v $xiaf/FRA3.92$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 019737_019864 #
# #
v $xiaf/FRA3.93$R16
v $xiaf/FRA3.93$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 019865_019992 #
# #
v $xiaf/FRA3.94$R16
v $xiaf/FRA3.94$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 020121_020248 #
# #
v $xiaf/FRA3.A1$R16 p=$xiP/cercle.35
v $xiaf/FRA3.A1$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=64
v $xiaf/FRA3.A1$R64 p=$xiP/cercle.35 t=64 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 019993_020120 #
# #
v $xiaf/FRA3.B1$R16
v $xiaf/FRA3.B1$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 020249_020376 #
# #
v $xiaf/FRA3.B2$R16
v $xiaf/FRA3.B2$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 020377_020504 #
# #
v $xiaf/FRA3.C2$R16
v $xiaf/FRA3.C2$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 020505_020632 #
# #
v $xiaf/FRA3.D2$R16
v $xiaf/FRA3.D2$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 020889_021016 #
# #
v $xiaf/FRA3.D3$R16
v $xiaf/FRA3.D3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021017_021144 #
# #
v $xiaf/FRA3.E1$R16 p=$xiP/cercle.35
v $xiaf/FRA3.E1$R16 p=$xiP/cercle.35 t=16 d=0 ralenti=64
v $xiaf/FRA3.E1$R64 p=$xiP/cercle.35 t=64 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 021145_021272 #
# #
v $xiaf/FRA3.E2$R16 p=$xiP/trou_noir.74
v $xiaf/FRA3.E2$R16 p=$xiP/trou_noir.74 t=16 d=0 ralenti=64
v $xiaf/FRA3.E2$R64 p=$xiP/trou_noir.74 t=64 d=0 ralenti=64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 021273_021400 #
# #
v $xiaf/FRA3.E3$R16
v $xiaf/FRA3.E3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021401_021528 #
# #
v $xiaf/FRA3.F3$R16
v $xiaf/FRA3.F3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021529_021656 #
# #
v $xiaf/FRA3.G3$R16
v $xiaf/FRA3.G3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021657_021784 #
# #
v $xiaf/FRA3.H3$R16
v $xiaf/FRA3.H3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021785_021912 #
# #
v $xiaf/FRA3.I3$R16
v $xiaf/FRA3.I3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 021913_022040 #
# #
v $xiaf/FRA3.J3$R16
v $xiaf/FRA3.J3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 022041_022168 #
# #
v $xiaf/FRA3.K3$R16
v $xiaf/FRA3.K3$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 022169_022296 #
# #
v $xiaf/FRA3.L1$R16
v $xiaf/FRA3.L1$R64
v $xiaf/FRA3.L2$R16
v $xiaf/FRA3.L2$R64
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 022297_022424 #
# xivPdf 7 2 / 022425_022552 #
# #
v $xiaf/FRA3.M1$R16
# Generee (sur '$CMAP28') par : #
# #
# #
# :Debut_listG_FRA3_M1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=128 #
# #
# $Z setenv _____imagesS $xTV/SECTIONS #
# $Z setenv _____imagesC $xTV/TEXTURE #
# #
# $Z set _____imagesF3D=$xTV/FRACTAL_3D #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 Premiere #
# $c #define N Derniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c R=$_____imagesS.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.2 my=0.2 mz=0.2 #
# $c Z=%.16f #
# $c profondeur=1 #
# $c $formatI | #
# $c $xci/vraies_C$X #
# $c p=$xiP/trou_noir.74 #
# $c RVB=VRAI #
# $c R=$_____imagesC.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $Z @ Zmin = $Premiere - $Premiere #
# $Z @ Zmax = $Derniere - $Premiere #
# $Z @ tailleZ = $Zmax - $Zmin #
# $Z @ tailleZ = $tailleZ + 1 #
# $Z setenv dimZ $tailleZ #
# #
# $Z set fracZ = `$xcg/DIVZ.01$X a=1 b=$dimZ signe="$K_VIDE"` #
# $Z set fracZ = `$xcg/MUL2.01$X a=0.5 b=$fracZ signe="$K_VIDE"` #
# #
# $Z $DELETE $xTV/COORDONNEES$COORD_X #
# $Z $DELETE $xTV/COORDONNEES$COORD_Y #
# $Z $DELETE $xTV/COORDONNEES$COORD_Z #
# $Z $DELETE $xTV/COORDONNEES.r #
# $Z $DELETE $xTV/COULEURS$ROUGE #
# $Z $DELETE $xTV/COULEURS$VERTE #
# $Z $DELETE $xTV/COULEURS$BLEUE #
# #
# $c #define N0 Premiere #
# $c #define N Derniere #
# $c #
# $c #define SEUIL 0.050 #
# $c #define GRAINE 7 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$DELETE $xTV/COORDO.%04d$COORD_X\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDO.%04d$COORD_Y\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDT.%04d$COORD_Z\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDO.%04d$COORD_Z\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDO.%04d.p\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$DELETE $xTV/COULEUR.%04d$ROUGE\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COULEUR.%04d$VERTE\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COULEUR.%04d$BLEUE\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/passe_bande$X #
# $c A=$_____imagesS.%04d #
# $c inf=121 sup=127 #
# $c $formatI | #
# $c $xci/seuil$X #
# $c seuil=$GRIS_1 #
# $c R=$xTV/COUPE #
# $c $formatI\n" #
# $c ,n #
# $c ); #
# $c printf("$xci/random.02$X #
# $c graine=%d #
# $c seuil=%f #
# $c $formatI | #
# $c $xci/and$X #
# $c A2=$xTV/COUPE #
# $c R=$xTV/COUPE #
# $c $formatI\n" #
# $c ,(n*GRAINE) #
# $c ,SEUIL #
# $c ); #
# $c #
# $c printf("$xci/liste_points$X #
# $c A=$xTV/COUPE #
# $c rectangulaire=FAUX #
# $c grand_carre=FAUX #
# $c centrer=VRAI #
# $c Cdenormaliser=FAUX #
# $c eX=VRAI #
# $c eY=FAUX #
# $c eNIVEAU=FAUX #
# $c points=FAUX #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COORDO.%04d$COORD_X\n" #
# $c ,n #
# $c ); #
# $c printf("$xci/liste_points$X #
# $c A=$xTV/COUPE #
# $c rectangulaire=FAUX #
# $c grand_carre=FAUX #
# $c centrer=VRAI #
# $c Cdenormaliser=FAUX #
# $c eX=FAUX #
# $c eY=VRAI #
# $c eNIVEAU=FAUX #
# $c points=FAUX #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COORDO.%04d$COORD_Y\n" #
# $c ,n #
# $c ); #
# $c printf("$xci/liste_points$X #
# $c A=$xTV/COUPE #
# $c rectangulaire=FAUX #
# $c grand_carre=FAUX #
# $c centrer=VRAI #
# $c Cdenormaliser=FAUX #
# $c eX=FAUX #
# $c eY=FAUX #
# $c eNIVEAU=FAUX #
# $c points=VRAI #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COORDO.%04d.p\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("set Npoints=`$CA $xTV/COORDO.%04d.p`\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/valeurs_alea$X #
# $c premiere=1 #
# $c derniere=$Npoints #
# $c inf=-$fracZ #
# $c sup=+$fracZ #
# $c graine=%d #
# $c > $xTV/COORDT.%04d$COORD_Z\n" #
# $c ,(n*GRAINE) #
# $c ,n #
# $c ); #
# $c printf("@ CoordZ = %d - %d\n" #
# $c ,n,N0 #
# $c ); #
# $c printf("set CoordZ=`$xci/coordonnees$X #
# $c abscisse=FAUX #
# $c ordonnee=FAUX #
# $c profondeur=VRAI #
# $c Z=$CoordZ #
# $c denormaliser=FAUX #
# $c Zmin=$Zmin Zmax=$Zmax`\n" #
# $c ); #
# $c printf("$xrv/ADD2.11$X #
# $c ne=$Npoints #
# $c fichier1=$CoordZ #
# $c fichier2=$xTV/COORDT.%04d$COORD_Z #
# $c > $xTV/COORDO.%04d$COORD_Z\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDT.%04d$COORD_Z\n" #
# $c ,n #
# $c ); #
# $c printf("$DELETE $xTV/COORDO.%04d.p\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$CA $xTV/COORDO.%04d$COORD_X #
# $c >>! $xTV/COORDONNEES$COORD_X\n" #
# $c ,n #
# $c ); #
# $c printf("$CA $xTV/COORDO.%04d$COORD_Y #
# $c >>! $xTV/COORDONNEES$COORD_Y\n" #
# $c ,n #
# $c ); #
# $c printf("$CA $xTV/COORDO.%04d$COORD_Z #
# $c >>! $xTV/COORDONNEES$COORD_Z\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/and$X #
# $c A1=$_____imagesC.%04d$ROUGE #
# $c A2=$xTV/COUPE #
# $c $formatI | #
# $c $xci/liste_points$X #
# $c eX=FAUX #
# $c eY=FAUX #
# $c eNIVEAU=VRAI #
# $c points=FAUX #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COULEUR.%04d$ROUGE\n" #
# $c ,n,n #
# $c ); #
# $c printf("$xci/and$X #
# $c A1=$_____imagesC.%04d$VERTE #
# $c A2=$xTV/COUPE #
# $c $formatI | #
# $c $xci/liste_points$X #
# $c eX=FAUX #
# $c eY=FAUX #
# $c eNIVEAU=VRAI #
# $c points=FAUX #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COULEUR.%04d$VERTE\n" #
# $c ,n,n #
# $c ); #
# $c printf("$xci/and$X #
# $c A1=$_____imagesC.%04d$BLEUE #
# $c A2=$xTV/COUPE #
# $c $formatI | #
# $c $xci/liste_points$X #
# $c eX=FAUX #
# $c eY=FAUX #
# $c eNIVEAU=VRAI #
# $c points=FAUX #
# $c $formatI #
# $c | $SE -e 's/^.*=//' #
# $c > $xTV/COULEUR.%04d$BLEUE\n" #
# $c ,n,n #
# $c ); #
# $c #
# $c printf("$CA $xTV/COULEUR.%04d$ROUGE #
# $c >>! $xTV/COULEURS$ROUGE\n" #
# $c ,n #
# $c ); #
# $c printf("$CA $xTV/COULEUR.%04d$VERTE #
# $c >>! $xTV/COULEURS$VERTE\n" #
# $c ,n #
# $c ); #
# $c printf("$CA $xTV/COULEUR.%04d$BLEUE #
# $c >>! $xTV/COULEURS$BLEUE\n" #
# $c ,n #
# $c ); #
# $c } #
# $c #
# $c } #
# #
# $Z set NpointsX=`$WC $xTV/COORDONNEES$COORD_X` #
# $Z set NpointsX=$NpointsX[$WC1] #
# $Z set NpointsY=`$WC $xTV/COORDONNEES$COORD_Y` #
# $Z set NpointsY=$NpointsY[$WC1] #
# $Z set NpointsZ=`$WC $xTV/COORDONNEES$COORD_Z` #
# $Z set NpointsZ=$NpointsZ[$WC1] #
# #
# $Z set NpointsXY=`$xcg/MIN2.01$X n1=$NpointsX n2=$NpointsY` #
# $Z set NpointsXYZ=`$xcg/MIN2.01$X n1=$NpointsXY n2=$NpointsZ` #
# #
# $Z set Part0=1 #
# $Z set PartN=$NpointsXYZ #
# #
# $Z $xci/valeurs_alea$X \ #
# $Z premiere=$Part0 derniere=$PartN \ #
# $Z inf=0.010 \ #
# $Z sup=0.010 \ #
# $Z graine=9999 \ #
# $Z > $xTV/COORDONNEES.r #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z @ Nimages = $Derniere - $Premiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/ROTATION$COORD_Y #
# $Z $xci/valeurs_inte$X p=$Premiere d=$Derniere \ #
# $Z vD=+0.2 vA=-0.2 cubique=VRAI \ #
# $Z > $xTV/ROTATION$COORD_Y #
# #
# $Z $xrv/particule.10$X \ #
# $Z np=$Nimages \ #
# $Z iterations=$NpointsXYZ \ #
# $Z LISTE_X=$xTV/COORDONNEES$COORD_X \ #
# $Z LISTE_Y=$xTV/COORDONNEES$COORD_Y \ #
# $Z LISTE_Z=$xTV/COORDONNEES$COORD_Z \ #
# $Z LISTE_ROUGE=$xTV/COULEURS$ROUGE \ #
# $Z LISTE_VERTE=$xTV/COULEURS$VERTE \ #
# $Z LISTE_BLEUE=$xTV/COULEURS$BLEUE \ #
# $Z LISTE_RAYON=$xTV/COORDONNEES.r \ #
# $Z zoom_automatique=FAUX ZOOM=0.7 \ #
# $Z ROTATION_OY=$xTV/ROTATION$COORD_Y \ #
# $Z coordonnees_dans_0_1=VRAI \ #
# $Z brume=FAUX \ #
# $Z Lz=1000 \ #
# $Z ZminimumT=0.4 ZmaximumT=1.0 \ #
# $Z Zminimum=0.4 Zmaximum=1.0 \ #
# $Z N_au_carre=FAUX \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z R=$_____imagesF3D. \ #
# $Z $formatI #
# #
# $Z set _____images=$_____imagesF3D #
# $Z set _____animation=$xiaf/FRA3.M1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRA3_M1: #
# #
# #
# Cette image donne 4x3 stereogrammes d'une structure fractale tridimensionnelle de type #
# "eponge" ('v $xiirf/FRA3.D3.0029'). #
# #
# On notera l'utilisation de la palette '$xiP/trou_noir.74' qui contrairement aux autres #
# de meme type ne possede aucune entree a 'NOIR' ce qui permet ci-dessus de recuperer le #
# meme nombre de points par '$xci/liste_points$X' dans chacune des trois composantes... #
v $xiaf/FRA3.Q1$R16
v $xiaf/FRA3.Q1.1$R16
v $xiaf/FRA3.Q1.2$R16
v $xiaf/FRA3.Q1.2.1$R16
v $xiirf/FRA3.Q1.2.0001
v $xiirf/FRA3.Q1.2.0002
v $xiirf/FRA3.Q1.2.0003
v $xiirf/FRA3.Q1.2.0004
v $xiirf/FRA3.Q1.2.0005
v $xiirf/FRA3.Q1.2.0006
v $xiirf/FRA3.Q1.2.0007
v $xiirf/FRA3.Q1.2.0008
v $xiirf/FRA3.Q1.2.0009
v $xiirf/FRA3.Q1.2.0010
v $xiirf/FRA3.Q1.2.0011
v $xiirf/FRA3.Q1.2.0012
v $xiirf/FRA3.Q1.2.0013
v $xiirf/FRA3.Q1.2.0014
v $xiirf/FRA3.Q1.2.0015
v $xiirf/FRA3.Q1.2.0016
Pal ; anim3 A=$xiirf/FRA3.Q1.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "robespierre"-) par : #
# #
# #
# :Debut_listG_FRA3_Q1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=128 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# #
# $Z FilSTmpB FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# $c #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mx=0.5 my=0.5 mz=0.5 #
# $c Z=%.16f #
# $c standard=VRAI #
# $c R=$_____ImageT2.%04d #
# $c $formatI%c #
# $c >> $FFrAcTaL\n" #
# $c ,'\'' #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FFrAcTaL #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FFrAcTaL" p14=FAUX #
# #
# $Z FilSTmpE FFrAcTaL #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/passe_bande$X #
# $c A=$_____ImageT2.%04d #
# $c forcer_niveau_intermediaire=VRAI #
# $c niveau_intermediaire=$BLANC #
# $c seuil_inferieur=`calcul $GRIS_4-5` #
# $c seuil_superieur=`calcul $GRIS_4+5` #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.1%s $_____ImageT1.1.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2.1%s $_____ImageT1.2.1.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRA3.Q1.2.$NImAgE%s \ #
# $Z $formatI #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1 #
# $Z set _____animation=$xiaf/FRA3.Q1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.1 #
# $Z set _____animation=$xiaf/FRA3.Q1.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRA3.Q1.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2.1 #
# $Z set _____animation=$xiaf/FRA3.Q1.2.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRA3_Q1: #
# #
# #
# Cette animation propose une rotation autour de l'axe 'OY' de 'v $xiirf/FRA3.P2.2' et #
# donne donc 4x3 stereogrammes de cette image. #
# #
# ATTENTION : l'ombrage par 'v $xiirc/.MANE.41.3.$U .xci.ombrage.11.X' n'est pas fait a #
# l'interieur de la boucle 'while(...)', mais une seule fois au prealable et a l'exterieur, #
# ce qui est en fait incorrect car, en effet pour que les ombres semblent fixes sur l'objet, #
# alors que ce dernier tourne, il faut que la source lumineuse tourne aussi... #
v $xiaf/FRA3.W1$R16
v $xiaf/FRA3.W1.1$R16
v $xiaf/FRA3.W1.2$R16
v $xiaf/FRA3.W1.2.1$R16
v $xiirf/FRA3.W1.2.0001
v $xiirf/FRA3.W1.2.0002
v $xiirf/FRA3.W1.2.0003
v $xiirf/FRA3.W1.2.0004
v $xiirf/FRA3.W1.2.0005
v $xiirf/FRA3.W1.2.0006
v $xiirf/FRA3.W1.2.0007
v $xiirf/FRA3.W1.2.0008
v $xiirf/FRA3.W1.2.0009
v $xiirf/FRA3.W1.2.0010
v $xiirf/FRA3.W1.2.0011
v $xiirf/FRA3.W1.2.0012
v $xiirf/FRA3.W1.2.0013
v $xiirf/FRA3.W1.2.0014
v $xiirf/FRA3.W1.2.0015
v $xiirf/FRA3.W1.2.0016
Pal ; anim3 A=$xiirf/FRA3.W1.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_FRA3_W1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $m4 _____include(_____xiirf/.FRA3.S2.1._____U) #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.1%s $_____ImageT1.1.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2.1%s $_____ImageT1.2.1.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRA3.W1.2.$NImAgE%s \ #
# $Z $formatI #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1 #
# $Z set _____animation=$xiaf/FRA3.W1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.1 #
# $Z set _____animation=$xiaf/FRA3.W1.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRA3.W1.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2.1 #
# $Z set _____animation=$xiaf/FRA3.W1.2.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRA3_W1: #
# #
# #
# Cette animation propose une rotation autour de l'axe 'OY' de 'v $xiirf/FRA3.V2.2' et #
# donne donc 4x3 stereogrammes de cette image. #
v $xiaf/FRA3.X1$R16
v $xiaf/FRA3.X1.1$R16
v $xiaf/FRA3.X1.2$R16
v $xiaf/FRA3.X1.2.1$R16
v $xiirf/FRA3.X1.2.0001
v $xiirf/FRA3.X1.2.0002
v $xiirf/FRA3.X1.2.0003
v $xiirf/FRA3.X1.2.0004
v $xiirf/FRA3.X1.2.0005
v $xiirf/FRA3.X1.2.0006
v $xiirf/FRA3.X1.2.0007
v $xiirf/FRA3.X1.2.0008
v $xiirf/FRA3.X1.2.0009
v $xiirf/FRA3.X1.2.0010
v $xiirf/FRA3.X1.2.0011
v $xiirf/FRA3.X1.2.0012
v $xiirf/FRA3.X1.2.0013
v $xiirf/FRA3.X1.2.0014
v $xiirf/FRA3.X1.2.0015
v $xiirf/FRA3.X1.2.0016
Pal ; anim3 A=$xiirf/FRA3.X1.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses"-) par : #
# #
# #
# :Debut_listG_FRA3_X1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z set _____SeuilInferieur=`calcul $GRIS_4-15` #
# $Z set _____SeuilSuperieur=`calcul $GRIS_4+15` #
# $m4 _____include(_____xiirf/.FRA3.S2.1._____U) #
# $Z set _____Palette=$xiP/gris.A6 #
# $Z set _____Complementaire="deux_interpolations=VRAI pADD2=0 pMAX2=1" #
# $Z set _____Points=9 #
# $Z set _____RotationX=+0.3 #
# $m4 _____include(_____xiirf/.FRA3.S2.2._____U) #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.1%s $_____ImageT1.1.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2.1%s $_____ImageT1.2.1.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRA3.X1.2.$NImAgE%s \ #
# $Z $formatI #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1 #
# $Z set _____animation=$xiaf/FRA3.X1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.1 #
# $Z set _____animation=$xiaf/FRA3.X1.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRA3.X1.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____images=$_____ImageT1.2.1 #
# $Z set _____animation=$xiaf/FRA3.X1.2.1 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRA3_X1: #
# #
# #
# Cette animation propose une rotation autour de l'axe 'OY' de 'v $xiirf/FRA3.V3.2' et #
# donne donc 4x3 stereogrammes de cette image. #
v $xiaf/FRB3.32.2$R16 p=$xiP/nuages.02
v $xiaf/FRB3.32.2$R64 p=$xiP/nuages.02
# Montre successivement les couches de la structure calculee par 'v $xiir/.FRB3.32.2.1.$u'. #
v $xiaf/FRB3.32.2$R16
v $xiirf/FRB3.32.2.0001
v $xiirf/FRB3.32.2.0002
v $xiirf/FRB3.32.2.0003
v $xiirf/FRB3.32.2.0004
v $xiirf/FRB3.32.2.0005
v $xiirf/FRB3.32.2.0006
v $xiirf/FRB3.32.2.0007
v $xiirf/FRB3.32.2.0008
v $xiirf/FRB3.32.2.0009
v $xiirf/FRB3.32.2.0010
v $xiirf/FRB3.32.2.0011
v $xiirf/FRB3.32.2.0012
v $xiirf/FRB3.32.2.0013
v $xiirf/FRB3.32.2.0014
v $xiirf/FRB3.32.2.0015
v $xiirf/FRB3.32.2.0016
Pdu ; anim3 A=$xiirf/FRB3.32.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_32: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c #define ES 30 #
# $c #define OS 250 #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c int seuil=((ES*(n-N0))+(OS*(N-n)))/(N-N0); #
# $c #
# $c printf("$xci/passe_bande$X #
# $c A=$_____ImageT2.%04d #
# $c forcer_niveau_intermediaire=VRAI #
# $c niveau_intermediaire=$BLANC #
# $c seuil_inferieur=%d #
# $c seuil_superieur=$GRIS_8 #
# $c R=$_____ImageT1.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,seuil #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.32.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.32.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_32: #
# #
v $xiaf/FRB3.E4.2$R16
v $xiirf/FRB3.E4.2.0001
v $xiirf/FRB3.E4.2.0002
v $xiirf/FRB3.E4.2.0003
v $xiirf/FRB3.E4.2.0004
v $xiirf/FRB3.E4.2.0005
v $xiirf/FRB3.E4.2.0006
v $xiirf/FRB3.E4.2.0007
v $xiirf/FRB3.E4.2.0008
v $xiirf/FRB3.E4.2.0009
v $xiirf/FRB3.E4.2.0010
v $xiirf/FRB3.E4.2.0011
v $xiirf/FRB3.E4.2.0012
v $xiirf/FRB3.E4.2.0013
v $xiirf/FRB3.E4.2.0014
v $xiirf/FRB3.E4.2.0015
v $xiirf/FRB3.E4.2.0016
Pdu ; anim3 A=$xiirf/FRB3.E4.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_E4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $xrs/Mobius2D.11$X \ #
# $Z COORDONNEES_____compatibilite_20090929=VRAI \ #
# $Z np=1 \ #
# $Z pu=0.06283185307179587 pv=0.015625 \ #
# $Z eu=20 ev=8 \ #
# $Z dpu=10 dpv=1 \ #
# $Z ZOOM=1.70 \ #
# $Z ROTATION_OX=1.0 \ #
# $Z Lz=100 \ #
# $Z rayon_de_visualisation=0.01 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z chiffres=0 \ #
# $Z R=$xTV/MOB2.11 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=20 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.E4.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.E4.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_E4: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirs/MOB2.11' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.F4.2$R16
v $xiirf/FRB3.F4.2.0001
v $xiirf/FRB3.F4.2.0002
v $xiirf/FRB3.F4.2.0003
v $xiirf/FRB3.F4.2.0004
v $xiirf/FRB3.F4.2.0005
v $xiirf/FRB3.F4.2.0006
v $xiirf/FRB3.F4.2.0007
v $xiirf/FRB3.F4.2.0008
v $xiirf/FRB3.F4.2.0009
v $xiirf/FRB3.F4.2.0010
v $xiirf/FRB3.F4.2.0011
v $xiirf/FRB3.F4.2.0012
v $xiirf/FRB3.F4.2.0013
v $xiirf/FRB3.F4.2.0014
v $xiirf/FRB3.F4.2.0015
v $xiirf/FRB3.F4.2.0016
Pdu ; anim3 A=$xiirf/FRB3.F4.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "robespierre" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_F4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $xrs/bKlein.41$X \ #
# $Z np=1 brume=VRAI \ #
# $Z pu=0.06283185307179585 pv=0.06283185307179587 \ #
# $Z eu=20 ev=40 \ #
# $Z dpu=10 dpv=10 \ #
# $Z ZOOM=1.10 \ #
# $Z ROTATION_OX=0.8 \ #
# $Z ROTATION_OZ=-0.3 \ #
# $Z TRANSLATION_OX=+3.95 \ #
# $Z TRANSLATION_OY=+1.40 \ #
# $Z Lz=100 \ #
# $Z rayon_de_visualisation=0.05 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z editer_extrema_hors=FAUX \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z R=$xTV/BKLN.43. \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=20 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.F4.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.F4.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_F4: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirs/BKLN.43' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.G4.2$R16
v $xiirf/FRB3.G4.2.0001
v $xiirf/FRB3.G4.2.0002
v $xiirf/FRB3.G4.2.0003
v $xiirf/FRB3.G4.2.0004
v $xiirf/FRB3.G4.2.0005
v $xiirf/FRB3.G4.2.0006
v $xiirf/FRB3.G4.2.0007
v $xiirf/FRB3.G4.2.0008
v $xiirf/FRB3.G4.2.0009
v $xiirf/FRB3.G4.2.0010
v $xiirf/FRB3.G4.2.0011
v $xiirf/FRB3.G4.2.0012
v $xiirf/FRB3.G4.2.0013
v $xiirf/FRB3.G4.2.0014
v $xiirf/FRB3.G4.2.0015
v $xiirf/FRB3.G4.2.0016
Pdu ; anim3 A=$xiirf/FRB3.G4.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_G4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $xrs/sphere.11$X np=1 brume=FAUX \ #
# $Z pu=0.2356194 pv=0.2356194 \ #
# $Z eu=40 ev=40 \ #
# $Z dpu=40 dpv=40 \ #
# $Z r=0.010 \ #
# $Z ZOOM=1.55 \ #
# $Z ROTATION_OX=0.9 \ #
# $Z normale=FAUX \ #
# $Z Lz=1000 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z R=$xTV/SPHE.51 \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=20 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.G4.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.G4.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_G4: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirs/SPHE.51' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.I2.2$R16
v $xiirf/FRB3.I2.2.0001
v $xiirf/FRB3.I2.2.0002
v $xiirf/FRB3.I2.2.0003
v $xiirf/FRB3.I2.2.0004
v $xiirf/FRB3.I2.2.0005
v $xiirf/FRB3.I2.2.0006
v $xiirf/FRB3.I2.2.0007
v $xiirf/FRB3.I2.2.0008
v $xiirf/FRB3.I2.2.0009
v $xiirf/FRB3.I2.2.0010
v $xiirf/FRB3.I2.2.0011
v $xiirf/FRB3.I2.2.0012
v $xiirf/FRB3.I2.2.0013
v $xiirf/FRB3.I2.2.0014
v $xiirf/FRB3.I2.2.0015
v $xiirf/FRB3.I2.2.0016
Pdu ; anim3 A=$xiirf/FRB3.I2.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_I2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set _____ElargissementX=`calculNS (($dimX/$dimY)-1)/2` #
# #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FLiStEP" #
# #
# $Z set _____ImageR=$xTV/FRB3.I2.7 #
# #
# $Z set _____Argument="$K_VIDE" #
# $Z set _____Argument="$_____Argument lister_les_points=VRAI" #
# $Z set _____Argument="$_____Argument lister_les_points_apres=VRAI" #
# $Z set _____Argument="$_____Argument N_AU_CARRE=FAUX" #
# $Z set _____Argument="$_____Argument chiffres=0" #
# $Z set _____Argument="$_____Argument R=$_____ImageR" #
# #
# $Z set _____Zoom=0.70 #
# #
# $Z set _____Cubique="VRAI" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dX=2" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dY=2" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dZ=2" #
# $Z set _____Chainage="ajuster_points=VRAI nombreR=8 points=128" #
# $m4 _____include(_____xiirv/.PART.4.11._____U) #
# $m4 _____include(_____xiirv/.PART.4.14._____U) #
# $m4 _____include(_____xiirv/.PART.4.15._____U) #
# $m4 _____include(_____xiirv/.PART.4.13._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=20 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT2.%04d #
# $c $formatI | #
# $c $xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-16` #
# $Z set GrIs_SuP=`calcul $GRIS_4+16` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.I2.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.I2.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_I2: #
# #
# #
# Cette image utilise la structure sous-jacente 'v $xiirv/PART.B1' et presente une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes... #
v $xiaf/FRB3.I3.2$R16
v $xiirf/FRB3.I3.2.0001
v $xiirf/FRB3.I3.2.0002
v $xiirf/FRB3.I3.2.0003
v $xiirf/FRB3.I3.2.0004
v $xiirf/FRB3.I3.2.0005
v $xiirf/FRB3.I3.2.0006
v $xiirf/FRB3.I3.2.0007
v $xiirf/FRB3.I3.2.0008
v $xiirf/FRB3.I3.2.0009
v $xiirf/FRB3.I3.2.0010
v $xiirf/FRB3.I3.2.0011
v $xiirf/FRB3.I3.2.0012
v $xiirf/FRB3.I3.2.0013
v $xiirf/FRB3.I3.2.0014
v $xiirf/FRB3.I3.2.0015
v $xiirf/FRB3.I3.2.0016
Pdu ; anim3 A=$xiirf/FRB3.I3.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "picpus" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_I3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set _____ElargissementX=`calculNS (($dimX/$dimY)-1)/2` #
# #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FLiStEP" #
# #
# $Z set _____ImageR=$xTV/FRB3.I3.7 #
# #
# $Z set _____Argument="$K_VIDE" #
# $Z set _____Argument="$_____Argument lister_les_points=VRAI" #
# $Z set _____Argument="$_____Argument lister_les_points_apres=VRAI" #
# $Z set _____Argument="$_____Argument N_AU_CARRE=FAUX" #
# $Z set _____Argument="$_____Argument chiffres=0" #
# $Z set _____Argument="$_____Argument R=$_____ImageR" #
# #
# $Z set _____Zoom=0.70 #
# #
# $Z set _____Cubique="VRAI" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dX=2" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dY=2" #
# $Z set _____Cubique="$_____Cubique ""LISTE_dZ=2" #
# $Z set _____Chainage="ajuster_points=VRAI nombreR=8 points=128" #
# $m4 _____include(_____xiirv/.PART.4.11._____U) #
# $m4 _____include(_____xiirv/.PART.4.14._____U) #
# $m4 _____include(_____xiirv/.PART.4.15._____U) #
# $m4 _____include(_____xiirv/.PART.4.13._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=40 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/tapisserie$X #
# $c A=$_____ImageT2.%04d #
# $c $formatI | #
# $c $xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-16` #
# $Z set GrIs_SuP=`calcul $GRIS_4+16` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.I3.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.I3.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_I3: #
# #
# #
# Cette image utilise la structure sous-jacente 'v $xiirv/PART.B1' et presente une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes... #
v $xiaf/FRB3.J4.2$R16
v $xiirf/FRB3.J4.2.0001
v $xiirf/FRB3.J4.2.0002
v $xiirf/FRB3.J4.2.0003
v $xiirf/FRB3.J4.2.0004
v $xiirf/FRB3.J4.2.0005
v $xiirf/FRB3.J4.2.0006
v $xiirf/FRB3.J4.2.0007
v $xiirf/FRB3.J4.2.0008
v $xiirf/FRB3.J4.2.0009
v $xiirf/FRB3.J4.2.0010
v $xiirf/FRB3.J4.2.0011
v $xiirf/FRB3.J4.2.0012
v $xiirf/FRB3.J4.2.0013
v $xiirf/FRB3.J4.2.0014
v $xiirf/FRB3.J4.2.0015
v $xiirf/FRB3.J4.2.0016
Pdu ; anim3 A=$xiirf/FRB3.J4.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-brancion" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_J4: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z $xrs/tore.11$X np=1 brume=FAUX \ #
# $Z pu=0.2356194 pv=0.2356194 \ #
# $Z eu=40 ev=40 \ #
# $Z dpu=40 dpv=40 \ #
# $Z r=0.010 \ #
# $Z ZOOM=1.40 \ #
# $Z ROTATION_OX=1.1 \ #
# $Z normale=FAUX \ #
# $Z Lz=1000 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z R=$xTV/TORE.11 \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=10 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.J4.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.J4.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_J4: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirs/TORE.11' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.K5.24.2$R16
v $xiirf/FRB3.K5.24.2.0001
v $xiirf/FRB3.K5.24.2.0002
v $xiirf/FRB3.K5.24.2.0003
v $xiirf/FRB3.K5.24.2.0004
v $xiirf/FRB3.K5.24.2.0005
v $xiirf/FRB3.K5.24.2.0006
v $xiirf/FRB3.K5.24.2.0007
v $xiirf/FRB3.K5.24.2.0008
v $xiirf/FRB3.K5.24.2.0009
v $xiirf/FRB3.K5.24.2.0010
v $xiirf/FRB3.K5.24.2.0011
v $xiirf/FRB3.K5.24.2.0012
v $xiirf/FRB3.K5.24.2.0013
v $xiirf/FRB3.K5.24.2.0014
v $xiirf/FRB3.K5.24.2.0015
v $xiirf/FRB3.K5.24.2.0016
Pal ; anim3 A=$xiirf/FRB3.K5.24.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_K5_24: #
# #
# $Z ext Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set _____NPoints=24 #
# $Z set _____NVoisins=5 #
# $Z set _____DepthCueing=0.6 #
# $Z set _____Argument="$K_VIDE" #
# $Z set _____Argument="$_____Argument ZOOM=0.95" #
# $Z set _____Argument="$_____Argument lister_les_points=VRAI" #
# $Z set _____Argument="$_____Argument lister_les_points_apres=VRAI" #
# $Z set _____Argument="$_____Argument N_AU_CARRE=FAUX" #
# #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FLiStEP" #
# $Z set _____imagesR=$xTV/FRB3.K5.24.7 #
# #
# $m4 _____include(_____xiirs/.PSPH.11.1._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=20 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.K5.24.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.K5.24.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_K5_24: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirs/PSPH.11.24' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.L4.3.2$R16
v $xiirf/FRB3.L4.3.2.0001
v $xiirf/FRB3.L4.3.2.0002
v $xiirf/FRB3.L4.3.2.0003
v $xiirf/FRB3.L4.3.2.0004
v $xiirf/FRB3.L4.3.2.0005
v $xiirf/FRB3.L4.3.2.0006
v $xiirf/FRB3.L4.3.2.0007
v $xiirf/FRB3.L4.3.2.0008
v $xiirf/FRB3.L4.3.2.0009
v $xiirf/FRB3.L4.3.2.0010
v $xiirf/FRB3.L4.3.2.0011
v $xiirf/FRB3.L4.3.2.0012
v $xiirf/FRB3.L4.3.2.0013
v $xiirf/FRB3.L4.3.2.0014
v $xiirf/FRB3.L4.3.2.0015
v $xiirf/FRB3.L4.3.2.0016
Pal ; anim3 A=$xiirf/FRB3.L4.3.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-de-versailles" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_L4_3: #
# #
# $Z ext Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set Q_pi=`calcul 2*$dpi` #
# $Z set PaS_uv1=`calcul $Q_pi/20` #
# $Z set PaS_uv2=`calcul $Q_pi/40` #
# $Z set _____Aduv=+1 #
# $Z set _____Bduv=`calcul -3/2` #
# $Z set _____Cduv=0 #
# $Z set _____SurfaceParam12="PARAMETRE_R2=0.5" #
# $Z set _____SurfaceParam1="pu=$PaS_uv1 pv=$PaS_uv1" #
# $Z set _____SurfaceParam2="Mu=$Q_pi Mv=$Q_pi pu=$PaS_uv2 pv=$PaS_uv2" #
# #
# $Z $xrs/tore.11$X np=1 brume=FAUX \ #
# $Z eu=40 ev=40 \ #
# $Z dpu=80 dpv=80 \ #
# $Z maillage_uv=FAUX droite_uv=VRAI \ #
# $Z compatibilite_20170130=VRAI \ #
# $Z Aduv=$_____Aduv Bduv=$_____Bduv Cduv=$_____Cduv \ #
# $Z ZOOM=1.1 \ #
# $Z ROTATION_OX=0.0 \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z TZliste=0.5 \ #
# $Z carree=VRAI petit_carre=FAUX \ #
# $Z RVB=VRAI \ #
# $Z Lz=1000 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z edc=VRAI \ #
# $Z extrema_hors=FAUX \ #
# $Z $_____SurfaceParam2 \ #
# $Z $_____SurfaceParam12 \ #
# $Z R=$xTV/TORE.11 \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=`calculINS 60*sqrt($taille_Pal/$taille_Pdu)` #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.L4.3.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.L4.3.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_L4_3: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirv/KNOT.11.3.1' avec une #
# rotation de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
# Il repose sur 'v $xiirf/FRB3.L4.3.2' mais au format 'Pal' (au lieu de 'Pdu' et ce afin #
# d'aller plus vite), d'ou le 'calculINS' dans la definition de '$_____DemiPave'... #
v $xiaf/FRB3.L4.5.2$R16
v $xiirf/FRB3.L4.5.2.0001
v $xiirf/FRB3.L4.5.2.0002
v $xiirf/FRB3.L4.5.2.0003
v $xiirf/FRB3.L4.5.2.0004
v $xiirf/FRB3.L4.5.2.0005
v $xiirf/FRB3.L4.5.2.0006
v $xiirf/FRB3.L4.5.2.0007
v $xiirf/FRB3.L4.5.2.0008
v $xiirf/FRB3.L4.5.2.0009
v $xiirf/FRB3.L4.5.2.0010
v $xiirf/FRB3.L4.5.2.0011
v $xiirf/FRB3.L4.5.2.0012
v $xiirf/FRB3.L4.5.2.0013
v $xiirf/FRB3.L4.5.2.0014
v $xiirf/FRB3.L4.5.2.0015
v $xiirf/FRB3.L4.5.2.0016
Pal ; anim3 A=$xiirf/FRB3.L4.5.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-de-versailles" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_L4_5: #
# #
# $Z ext Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set Q_pi=`calcul 2*$dpi` #
# $Z set PaS_uv1=`calcul $Q_pi/20` #
# $Z set PaS_uv2=`calcul $Q_pi/40` #
# $Z set _____Aduv=+1 #
# $Z set _____Bduv=`calcul -5/2` #
# $Z set _____Cduv=0 #
# $Z set _____SurfaceParam12="PARAMETRE_R2=0.5" #
# $Z set _____SurfaceParam1="pu=$PaS_uv1 pv=$PaS_uv1" #
# $Z set _____SurfaceParam2="Mu=$Q_pi Mv=$Q_pi pu=$PaS_uv2 pv=$PaS_uv2" #
# #
# $Z $xrs/tore.11$X np=1 brume=FAUX \ #
# $Z eu=40 ev=40 \ #
# $Z dpu=80 dpv=80 \ #
# $Z maillage_uv=FAUX droite_uv=VRAI \ #
# $Z compatibilite_20170130=VRAI \ #
# $Z Aduv=$_____Aduv Bduv=$_____Bduv Cduv=$_____Cduv \ #
# $Z ZOOM=1.1 \ #
# $Z ROTATION_OX=0.0 \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z TZliste=0.5 \ #
# $Z carree=VRAI petit_carre=FAUX \ #
# $Z RVB=VRAI \ #
# $Z Lz=1000 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z edc=VRAI \ #
# $Z extrema_hors=FAUX \ #
# $Z $_____SurfaceParam2 \ #
# $Z $_____SurfaceParam12 \ #
# $Z R=$xTV/TORE.11 \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=`calculINS 60*sqrt($taille_Pal/$taille_Pdu)` #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.L4.5.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.L4.5.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_L4_5: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirv/KNOT.11.5.1' avec une #
# rotation de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
# Il repose sur 'v $xiirf/FRB3.L4.5.2' mais au format 'Pal' (au lieu de 'Pdu' et ce afin #
# d'aller plus vite), d'ou le 'calculINS' dans la definition de '$_____DemiPave'... #
v $xiaf/FRB3.L4.7.2$R16
v $xiirf/FRB3.L4.7.2.0001
v $xiirf/FRB3.L4.7.2.0002
v $xiirf/FRB3.L4.7.2.0003
v $xiirf/FRB3.L4.7.2.0004
v $xiirf/FRB3.L4.7.2.0005
v $xiirf/FRB3.L4.7.2.0006
v $xiirf/FRB3.L4.7.2.0007
v $xiirf/FRB3.L4.7.2.0008
v $xiirf/FRB3.L4.7.2.0009
v $xiirf/FRB3.L4.7.2.0010
v $xiirf/FRB3.L4.7.2.0011
v $xiirf/FRB3.L4.7.2.0012
v $xiirf/FRB3.L4.7.2.0013
v $xiirf/FRB3.L4.7.2.0014
v $xiirf/FRB3.L4.7.2.0015
v $xiirf/FRB3.L4.7.2.0016
Pal ; anim3 A=$xiirf/FRB3.L4.7.2. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-de-versailles" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_L4_7: #
# #
# $Z ext Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set Q_pi=`calcul 2*$dpi` #
# $Z set PaS_uv1=`calcul $Q_pi/20` #
# $Z set PaS_uv2=`calcul $Q_pi/40` #
# $Z set _____Aduv=+1 #
# $Z set _____Bduv=`calcul -7/2` #
# $Z set _____Cduv=0 #
# $Z set _____SurfaceParam12="PARAMETRE_R2=0.5" #
# $Z set _____SurfaceParam1="pu=$PaS_uv1 pv=$PaS_uv1" #
# $Z set _____SurfaceParam2="Mu=$Q_pi Mv=$Q_pi pu=$PaS_uv2 pv=$PaS_uv2" #
# #
# $Z $xrs/tore.11$X np=1 brume=FAUX \ #
# $Z eu=40 ev=40 \ #
# $Z dpu=80 dpv=80 \ #
# $Z maillage_uv=FAUX droite_uv=VRAI \ #
# $Z compatibilite_20170130=VRAI \ #
# $Z Aduv=$_____Aduv Bduv=$_____Bduv Cduv=$_____Cduv \ #
# $Z ZOOM=1.1 \ #
# $Z ROTATION_OX=0.0 \ #
# $Z lister_les_points=VRAI \ #
# $Z lister_les_points_apres=VRAI \ #
# $Z TZliste=0.5 \ #
# $Z carree=VRAI petit_carre=FAUX \ #
# $Z RVB=VRAI \ #
# $Z Lz=1000 \ #
# $Z N_AU_CARRE=FAUX \ #
# $Z edc=VRAI \ #
# $Z extrema_hors=FAUX \ #
# $Z $_____SurfaceParam2 \ #
# $Z $_____SurfaceParam12 \ #
# $Z R=$xTV/TORE.11 \ #
# $Z chiffres=0 \ #
# $Z $formatI \ #
# $Z >> $FLiStEP #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=`calculINS 60*sqrt($taille_Pal/$taille_Pdu)` #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.2%s $_____ImageT1.2.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.2.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.L4.7.2.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$_____ImageT1.2 #
# $Z set _____animation=$xiaf/FRB3.L4.7.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_L4_7: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirv/KNOT.11.7.1' avec une #
# rotation de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
# Il repose sur 'v $xiirf/FRB3.L4.7.2' mais au format 'Pal' (au lieu de 'Pdu' et ce afin #
# d'aller plus vite), d'ou le 'calculINS' dans la definition de '$_____DemiPave'... #
v $xiaf/FRB3.c5.21$R16
v $xiirf/FRB3.c5.21.0001
v $xiirf/FRB3.c5.21.0002
v $xiirf/FRB3.c5.21.0003
v $xiirf/FRB3.c5.21.0004
v $xiirf/FRB3.c5.21.0005
v $xiirf/FRB3.c5.21.0006
v $xiirf/FRB3.c5.21.0007
v $xiirf/FRB3.c5.21.0008
v $xiirf/FRB3.c5.21.0009
v $xiirf/FRB3.c5.21.0010
v $xiirf/FRB3.c5.21.0011
v $xiirf/FRB3.c5.21.0012
v $xiirf/FRB3.c5.21.0013
v $xiirf/FRB3.c5.21.0014
v $xiirf/FRB3.c5.21.0015
v $xiirf/FRB3.c5.21.0016
Pdu ; anim3 A=$xiirf/FRB3.c5.21. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "abbesses" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_c5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set _____Argument="$K_VIDE" #
# $Z set _____Argument="$_____Argument"" ZOOM=1.45" #
# $Z set _____Argument="$_____Argument"" ROTATION_OX=0.3" #
# $Z set _____Argument="$_____Argument"" ROTATION_OY=0.5" #
# $Z set _____Argument="$_____Argument"" lister_les_points=VRAI" #
# $Z set _____Argument="$_____Argument"" lister_les_points_apres=VRAI" #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FLiStEP" #
# $Z set _____ImageR=$xTV/HCUB.11 #
# $m4 _____include(_____xiirv/.HCUB.11.1._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=40 #
# $Z set _____InverserZStructure=VRAI #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.21%s $_____ImageT1.21.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.21.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.c5.21.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$xiirf/FRB3.c5.21 #
# $Z set _____animation=$xiaf/FRB3.c5.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_c5: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirv/HCUB.11' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.g5.21$R16
v $xiirf/FRB3.g5.21.0001
v $xiirf/FRB3.g5.21.0002
v $xiirf/FRB3.g5.21.0003
v $xiirf/FRB3.g5.21.0004
v $xiirf/FRB3.g5.21.0005
v $xiirf/FRB3.g5.21.0006
v $xiirf/FRB3.g5.21.0007
v $xiirf/FRB3.g5.21.0008
v $xiirf/FRB3.g5.21.0009
v $xiirf/FRB3.g5.21.0010
v $xiirf/FRB3.g5.21.0011
v $xiirf/FRB3.g5.21.0012
v $xiirf/FRB3.g5.21.0013
v $xiirf/FRB3.g5.21.0014
v $xiirf/FRB3.g5.21.0015
v $xiirf/FRB3.g5.21.0016
Pdu ; anim3 A=$xiirf/FRB3.g5.21. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-brancion" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion" et termine sur "porte-pouchet" #
# en ce qui concerne les images '0015' et '0016'-) par : #
# #
# #
# :Debut_listG_FRB3_g5: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z FilSTmpB FLiStEP #
# #
# $Z set _____BIBranches=-2 #
# $Z set _____BSBranches=+2 #
# $Z set _____BIRho=-0.1 #
# $Z set _____BSRho=+0.1 #
# $Z set _____BITheta=-0.2 #
# $Z set _____BSTheta=+0.2 #
# $Z set _____BIZ=-0.3 #
# $Z set _____BSZ=+0.3 #
# $Z set _____Zoom=0.45 #
# $Z set _____TranslationY=-1.00 #
# $Z set _____Palette=$xiP/arc_ciel.C1 #
# #
# $Z set _____ParticulePara1="$K_VIDE" #
# $Z set _____ParticulePara1="$_____ParticulePara1 lister_les_points=VRAI" #
# $Z set _____ParticulePara1="$_____ParticulePara1 lister_les_points_apres=VRAI" #
# #
# $Z set _____Redirection="$K_VIDE" #
# $Z set _____Redirection="$_____Redirection >> $FLiStEP" #
# #
# $Z set _____ImageR=$xTV/TREE.33 #
# #
# $m4 _____include(_____xiirv/.TREE.11._____U) #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set _____DemiPave=30 #
# $m4 _____include(_____xiirv/.NDIM.43.1._____U) #
# #
# $Z FilSTmpE FLiStEP #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.21%s $_____ImageT1.21.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.21.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.g5.21.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$xiirf/FRB3.g5.21 #
# $Z set _____animation=$xiaf/FRB3.g5.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_g5: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et 'v $xiirv/TREE.34' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.h1.21$R16
v $xiirf/FRB3.h1.21.0001
v $xiirf/FRB3.h1.21.0002
v $xiirf/FRB3.h1.21.0003
v $xiirf/FRB3.h1.21.0004
v $xiirf/FRB3.h1.21.0005
v $xiirf/FRB3.h1.21.0006
v $xiirf/FRB3.h1.21.0007
v $xiirf/FRB3.h1.21.0008
v $xiirf/FRB3.h1.21.0009
v $xiirf/FRB3.h1.21.0010
v $xiirf/FRB3.h1.21.0011
v $xiirf/FRB3.h1.21.0012
v $xiirf/FRB3.h1.21.0013
v $xiirf/FRB3.h1.21.0014
v $xiirf/FRB3.h1.21.0015
v $xiirf/FRB3.h1.21.0016
Pdu ; anim3 A=$xiirf/FRB3.h1.21. premiere=1 derniere=16
# Generee (sur '$CMAP28' -ex "porte-pouchet" en utilisant la generation fractale #
# de '$xci/fract_2D.01$X' faite sur "porte-brancion"-) par : #
# #
# #
# :Debut_listG_FRB3_h1: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z @ Nimages = $cDerniere - $cPremiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z setenv _____ImageT1 $xTV/MANE.O1 #
# #
# $Z XYmaxNe 1279 959 #
# #
# $Z setenv xTV $xTG #
# #
# $Z set _____imageR=$xTV/NOTRE_DAME_DE_LA_GARDE.02 #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xiit/NOTRE_DAME_DE_LA_GARDE_MARSEILLE.01 \ #
# $Z R=$xTV/NOTRE_DAME_DE_LA_GARDE.01 \ #
# $Z $formatI #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xTV/NOTRE_DAME_DE_LA_GARDE.01 \ #
# $Z $formatI \ #
# $Z mode=2 \ #
# $Z R=$_____imageR \ #
# $Z $formatR_Pdu #
# #
# $Z Pdu #
# #
# $Z SET MargeNiveau1=7 #
# $Z SET MargeNiveau2=8 #
# $Z set _____ImageT1=$xTV/FRB3.h1 #
# #
# $m4 _____include(_____xiirf/.FRB3.U1.1._____U) #
# $Z setenv _____ImageT3 $_____ImageT1 #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# $Z setenv _____ImageT4 $xTV/SECTIONS.9 #
# #
# $m4 _____include(_____xiirf/.FRB3.32.2.1._____U) #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 cPremiere #
# $c #define N cDerniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/and$X #
# $c A1=$_____ImageT3.%04d #
# $c A2=$_____ImageT2.%04d #
# $c R=$_____ImageT4.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z setenv _____ImageT2 $_____ImageT4 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-5` #
# $Z set GrIs_SuP=`calcul $GRIS_4+5` #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $m4 _____include(_____xiirc/.MANE.41.1._____U) #
# $m4 _____include(_____xiirc/.MANE.41.2._____U) #
# $Z set _____SourceZ=0.75 #
# $Z set _____AttenuationOmbre=0.5 #
# $Z set _____ImageTT=$_____ImageTo #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z set AnGlE0=`calcul -$dpi/16` #
# $Z set AnGlEN=`calcul +$dpi/16` #
# $Z set LAnGlEs="p=$Premiere d=$Derniere vD=$AnGlE0 vA=$AnGlEN" #
# $Z set LAnGlEs=`$xci/valeurs_inte$X lineaire=VRAI $LAnGlEs` #
# #
# $Z set ImAgE=$Premiere #
# #
# $Z while ($ImAgE <= $Derniere) #
# $Z set _____RotationX=0 #
# $Z set _____RotationY=$LAnGlEs[$ImAgE] #
# $Z set _____RotationZ=0 #
# #
# $Z set _____ORotationX=$_____RotationX #
# $Z set _____ORotationY=$_____RotationY #
# $Z set _____ORotationZ=$_____RotationZ #
# $m4 _____include(_____xiirc/.MANE.41.3._____U) #
# #
# $Z set NImAgE=`$xci/nombres$X p=$ImAgE d=$ImAgE A="$K_VIDE"` #
# $Z set _____imagesR=$_____ImageT1.$NImAgE #
# $m4 _____include(_____xiirc/.MANE.41.4._____U) #
# #
# $Z execRVB $MV $_____ImageT1.$NImAgE.21%s $_____ImageT1.21.$NImAgE%s #
# #
# $Z execRVB $xci/neutre$X \ #
# $Z A=$_____ImageT1.21.$NImAgE%s \ #
# $Z R=$xiirf/FRB3.h1.21.$NImAgE%s \ #
# $Z $formatI #
# #
# $Z @ ImAgE = $ImAgE + 1 #
# $Z end #
# #
# $Z set _____images=$xiirf/FRB3.h1.21 #
# $Z set _____animation=$xiaf/FRB3.h1.21 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_FRB3_h1: #
# #
# #
# Ceci est un "melange" entre 'v $xiirf/FRB3.52.2' et #
# 'v $xiHi/NOTRE_DAME_DE_LA_GARDE_MARSEILLE.01$JPEG' avec une rotation #
# de l'axe 'OY' qui donne donc 4x3 stereogrammes de ce "melange"... #
v $xiaf/FRB3.y4.5$R16 p=$xiP/gris.01
v $xiaf/FRB3.y4.5$R64 p=$xiP/gris.01
# Montrent des coupes verticales successives dans 'v $xiirc/FRB3.y4.5.21'... #
v $xiaf/FRB3.z4.5$R16 p=$xiP/gris.01
v $xiaf/FRB3.z4.5$R64 p=$xiP/gris.01
# Montrent des coupes verticales successives dans 'v $xiirf/FRB3.z4.5.21'... #
v $xiaf/FRB3.z4.9.Trouees$R16 p=$xiP/gris.01
# Montrent des coupes verticales successives dans le champ d'ombre de #
# 'v $xiirc/FRB3.z4.9.Trouees.21'... #
v $xiaf/FRB3.z4.9.NonTrouees$R16 p=$xiP/gris.01
# Montrent des coupes verticales successives dans le champ d'ombre de #
# 'v $xiirc/FRB3.z4.9.NonTrouees.21'... #
v $xiaf/FRC3.A2$R16 p=$xiP/cercle.35
v $xiaf/FRC3.A2$R64 p=$xiP/cercle.35
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_FRC3_A2: #
# #
# $Z Pdu #
# #
# $Z set _____images=$xiff/FRB3.32.0125x0125x0125$D/SECTIONS.1 #
# $Z set _____animation=$xiaf/FRC3.A2 #
# #
# $Z set Premiere=1 #
# $Z set Derniere=512 #
# #
# $Z $xci/reduction_16$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# :Fin_listG_FRC3_A2: #
# #
v $xiaf/FRC3.A3$R16 p=$xiP/cercle.35
v $xiaf/FRC3.A3$R64 p=$xiP/cercle.35
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_FRC3_A3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____ImageT2=$xiff/FRB3.32.0125x0125x0125$D/SECTIONS.1 #
# $Z set _____ImageT1=$xTV/SECTIONS.1 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set GrIs_InF=`calcul $GRIS_5-5` #
# $Z set GrIs_SuP=`calcul $GRIS_5+5` #
# #
# On utilise les parametres utilises dans 'v $xiirf/$Fnota Debut_listG_FRB3_52' pour generer #
# la structures 'v $xiirf/FRB3.52.2'... #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $Z set _____images=$_____ImageT1 #
# $Z set _____animation=$xiaf/FRC3.A3 #
# #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# #
# $Z $xci/reduction_16$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# :Fin_listG_FRC3_A3: #
# #
v $xiaf/FRC3.B2$R16 p=$xiP/cercle.35
v $xiaf/FRC3.B2$R64 p=$xiP/cercle.35
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_FRC3_B2: #
# #
# $Z Pdu #
# #
# $Z set _____images=$xiff/FRB3.32.0400x0400x0400$D/SECTIONS.1 #
# $Z set _____animation=$xiaf/FRC3.B2 #
# #
# $Z set Premiere=1 #
# $Z set Derniere=512 #
# #
# $Z $xci/reduction_16$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# :Fin_listG_FRC3_B2: #
# #
v $xiaf/FRC3.B3$R16 p=$xiP/cercle.35
v $xiaf/FRC3.B3$R64 p=$xiP/cercle.35
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_FRC3_B3: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____ImageT2=$xiff/FRB3.32.0400x0400x0400$D/SECTIONS.1 #
# $Z set _____ImageT1=$xTV/SECTIONS.1 #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=512 #
# #
# $Z set GrIs_InF=`calcul $GRIS_4-3` #
# $Z set GrIs_SuP=`calcul $GRIS_4+3` #
# #
# On utilise les parametres utilises dans 'v $xiirf/$Fnota Debut_listG_FRB3_u2' pour generer #
# la structures 'v $xiirf/FRB3.u2.21'... #
# #
# $m4 _____include(_____xiirf/.FRB3.42.2.1._____U) #
# #
# $Z set _____images=$_____ImageT1 #
# $Z set _____animation=$xiaf/FRC3.B3 #
# #
# $Z set Premiere=$cPremiere #
# $Z set Derniere=$cDerniere #
# #
# $Z $xci/reduction_16$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images. premiere=$Premiere calculer=VRAI \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# :Fin_listG_FRC3_B3: #
# #
v $xiaf/FRC3.F1$m$MPEG
v $xiaf/FRC3.F1$m$R16
v $xiaf/FRC3.F1$m$R64
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_FRC3_F1_m: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____imagesA1=$xiff/FRB3.32.0125x0125x0125$D/SECTIONS.1 #
# $Z set _____imagesA2=$xiff/FRB3.32.0400x0400x0400$D/SECTIONS.1 #
# $Z set _____images=$xTV/FRC3.F1 #
# $Z set _____animation=$xiaf/FRC3.F1$m #
# #
# $Z set _____Palette=$xiP/rouge_orang.33 #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=512 #
# #
# $Z @ Nimages = $Derniere - $Premiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $c #include <stdio.h> #
# $c #
# $c #define N0 Premiere #
# $c #define N Derniere #
# $c #
# $c int main() #
# $c { #
# $c int n; #
# $c #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c printf("$xci/acces$X #
# $c A=$_____imagesA1.%04d #
# $c convertir=VRAI #
# $c $formatI | #
# $c $xci/lissage$X #
# $c standard=FAUX #
# $c navap=VRAI #
# $c passes=10 #
# $c R=$xTV/SURFACE #
# $c $formatI\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/vraies_C$X #
# $c A=$_____imagesA2.%04d #
# $c p=$_____Palette #
# $c R=$xTV/TEXTURE #
# $c $formatI\n" #
# $c ,n #
# $c ); #
# $c #
# $c printf("execRVB $xci/montagne.01$X #
# $c A=$xTV/SURFACE #
# $c standard=FAUX zero=FAUX #
# $c T=$xTV/TEXTURE%%s #
# $c avion=VRAI #
# $c R=$_____images.%04d%%s #
# $c $formatI\n" #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z $xci/reduction_16$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z $xci/reduction_64$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions="$K_VIDE" #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# #
# On notera les incidents suivants dans '$CONVERT' suivants lors du 'v $xci/Gen_MPEG$vv$Z' : #
# #
# improper image header `2528.0241.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0241.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# improper image header `2528.0242.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0242.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# improper image header `2528.0268.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0268.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# improper image header `2528.0271.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0271.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# improper image header `2528.0272.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0272.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# improper image header `2528.0273.rgba' @ error/pcx.c/ReadPCXImage/372. #
# no images defined `JPEG:2528.0273.jpg' @ error/convert.c/ConvertImageCommand/3210. #
# #
# :Fin_listG_FRC3_F1_m: #
# #
v $xiaf/ICEB.11$R16
v $xiaf/ICEB.11$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 008644_008899 #
# #
v $xiaf/INTE.12$M$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/INTE.12$M$R16 p=$xiP/montagnes.91
v $xiaf/INTE.12$M$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/INTE.12$M$R64 p=$xiP/montagnes.91
v $xiaf/INTE.12$m$R16 p=$xiP/montagnes.91 t=16 d=0 ralenti=16
v $xiaf/INTE.12$m$R16 p=$xiP/montagnes.91
v $xiaf/INTE.12$m$R64 p=$xiP/montagnes.91 t=64 d=0 ralenti=16
v $xiaf/INTE.12$m$R64 p=$xiP/montagnes.91
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 014955_015082 #
# xivPdf 7 2 / 015083_015210 #
# #
v $xiaf/MENG.21$MPEG
v $xiaf/MENG.21$R04
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_MENG_21: #
# #
# $Z set _____images=$xTV/MENG #
# #
# $Z $DELETE $_____images.* >& $nul #
# #
# $Z set _____animation=$xiaf/MENG.21 #
# #
# $Z Std #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.21.1.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0001%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.21.2.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0002%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.21.3.1%s \ #
# $Z R=$_____images.0003%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.21.4.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0004%s \ #
# $Z $formatR_Sdu #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.5.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0005%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set LImAgEs=$_____images #
# $Z set LIm=`ls $LImAgEs.*$ROUGE | $SE -e "s+^$LImAgEs\.0*\(.*\)\$ROUGE"'$+\1+'` #
# $Z unset LImAgEs #
# #
# $Z set Premiere=$LIm[1] #
# $Z set Derniere=$LIm[4] #
# #
# $Z $xci/reduction_04$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z set Derniere=$LIm[$#LIm] #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions=`GenListe $#LIm $Seconde` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_MENG_21: #
# #
v $xiaf/MENG.22$MPEG
v $xiaf/MENG.22$R04
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_MENG_22: #
# #
# $Z set _____images=$xTV/MENG #
# #
# $Z $DELETE $_____images.* >& $nul #
# #
# $Z set _____animation=$xiaf/MENG.22 #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.1.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0001%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.2.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0002%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.3.1%s \ #
# $Z R=$_____images.0003%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.4.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0004%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.22.5.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0005%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set LImAgEs=$_____images #
# $Z set LIm=`ls $LImAgEs.*$ROUGE | $SE -e "s+^$LImAgEs\.0*\(.*\)\$ROUGE"'$+\1+'` #
# $Z unset LImAgEs #
# #
# $Z set Premiere=$LIm[1] #
# $Z set Derniere=$LIm[4] #
# #
# $Z $xci/reduction_04$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z set Derniere=$LIm[$#LIm] #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions=`GenListe $#LIm $Seconde` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_MENG_22: #
# #
v $xiaf/MENG.23$MPEG
v $xiaf/MENG.23$R04
# Generee (sur '$CMAP28' -ex "porte-brancion"- puis sur '$LACT1A' pour le '$MPEG') par : #
# #
# #
# :Debut_listG_MENG_23: #
# #
# $Z set _____images=$xTV/MENG #
# #
# $Z $DELETE $_____images.* >& $nul #
# #
# $Z set _____animation=$xiaf/MENG.23 #
# #
# $Z Squ #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.23.1.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0001%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.23.2.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0002%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.23.3.1%s \ #
# $Z R=$_____images.0003%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.23.4.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0004%s \ #
# $Z $formatR_Sdu #
# #
# $Z execRVB $xci/format.01$X \ #
# $Z A=$xiirf/MENG.23.5.1%s \ #
# $Z $formatI \ #
# $Z R=$_____images.0005%s \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set LImAgEs=$_____images #
# $Z set LIm=`ls $LImAgEs.*$ROUGE | $SE -e "s+^$LImAgEs\.0*\(.*\)\$ROUGE"'$+\1+'` #
# $Z unset LImAgEs #
# #
# $Z set Premiere=$LIm[1] #
# $Z set Derniere=$LIm[4] #
# #
# $Z $xci/reduction_04$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z set Derniere=$LIm[$#LIm] #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions=`GenListe $#LIm $Seconde` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_MENG_23: #
# #
v $xiaf/MENH.91.2$MP4
v $xiaf/MENH.91.2$R16
v $xiaf/MENH.91.2$R64
# Generee (sur '$LACT1B') : #
# #
# #
# :Debut_listG_MENH_91_2: #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z set _____MinimumR=0.8 #
# $Z set _____MaximumR=0.8 #
# $Z set _____MinimumM=1 #
# $Z set _____MaximumM=1 #
# $Z set _____MinimumV=1 #
# $Z set _____MaximumV=1 #
# $Z set _____MinimumK=1 #
# $Z set _____MaximumK=1 #
# $Z set _____FacteurPsI=0.95 #
# $Z set _____Finter=1 #
# $Z set _____RayonsP=0.050 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.11.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.31._____U) #
# #
# $Z Sus #
# #
# $Z SET cPremiere=1 #
# $Z SET cDerniere=32 #
# $Z SET _____XYmax=29 #
# #
# $Z setenv _____ImageT2 $xTV/SECTIONS.1 #
# $Z setenv _____ImageT1 $xTV/SECTIONS.2 #
# #
# $Z set _____MIterations=3 #
# #
# $Z SET _____CoteCube=0.7 #
# $m4 _____include(_____xiirf/.MENG.21.1._____U) #
# #
# $Z set Zmin_1=`calculINS $cPremiere-1` #
# $Z set Zmax_1=`calculINS $cDerniere-1` #
# #
# $Z set Zmin_Zmax_1="Zmin=$Zmin_1 Zmax=$Zmax_1" #
# #
# $Z $DELETE $xTV/COORDONNEES$COORD_X #
# $Z $DELETE $xTV/COORDONNEES$COORD_Y #
# $Z $DELETE $xTV/COORDONNEES$COORD_Z #
# #
# $Z $xrv/liste_album$X premiere=1 \ #
# $Z A=$_____ImageT2. \ #
# $Z pX=1 pY=0 pZ=0 \ #
# $Z $formatI \ #
# $Z $Zmin_Zmax_1 | \ #
# $Z $xrv/normalise.01$X ne=0 \ #
# $Z fichier== \ #
# $Z minimum=$UMinX maximum=$UMaxX \ #
# $Z > $xTV/COORDONNEES$COORD_X #
# #
# $Z $xrv/liste_album$X premiere=1 \ #
# $Z A=$_____ImageT2. \ #
# $Z pX=0 pY=1 pZ=0 \ #
# $Z $formatI \ #
# $Z $Zmin_Zmax_1 | \ #
# $Z $xrv/normalise.01$X ne=0 \ #
# $Z fichier== \ #
# $Z minimum=$UMinY maximum=$UMaxY \ #
# $Z > $xTV/COORDONNEES$COORD_Y #
# #
# $Z $xrv/liste_album$X premiere=1 \ #
# $Z A=$_____ImageT2. \ #
# $Z pX=0 pY=0 pZ=1 \ #
# $Z $formatI \ #
# $Z $Zmin_Zmax_1 | \ #
# $Z $xrv/normalise.01$X ne=0 \ #
# $Z fichier== \ #
# $Z minimum=$UMinZ maximum=$UMaxZ \ #
# $Z > $xTV/COORDONNEES$COORD_Z #
# #
# $Z set NPoIn_X=`$CA $xTV/COORDONNEES$COORD_X | $WCl` #
# $Z set NPoIn_Y=`$CA $xTV/COORDONNEES$COORD_Y | $WCl` #
# $Z set NPoIn_Z=`$CA $xTV/COORDONNEES$COORD_Z | $WCl` #
# $Z set PartN=`$xcg/MIN3.01$X x=$NPoIn_X y=$NPoIn_Y z=$NPoIn_Z signe="$K_VIDE"` #
# #
# $Z Pal #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.71._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.71.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.71.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.86._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.q.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.1._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.53.2._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.61._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.81._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.r.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.62._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.t.84._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.72._____U) #
# #
# $Z set _____Milieu=VRAI #
# $Z set _____Periodiser=FAUX #
# $Z set _____Prolonger=FAUX #
# $Z set _____Dct=0.002 #
# $Z set _____Nombre=40 #
# $Z set _____DepthCueing=0.6 #
# $Z set _____Couronne=2 #
# $Z set _____Attenuation=0.25 #
# $Z set _____Zoom=0.7 #
# $Z set _____ZoomAuto=FAUX #
# $Z SET _____images=$xTV/REFL.W #
# $Z set _____animation=$xiaf/MENH.91.2 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.12._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.m.82._____U) #
# $m4 _____include(_____xivPdf_09_2/.REFL.f.14._____U) #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.13._____U) #
# #
# $Z SET _____ImageT=$_____images. #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# :Fin_listG_MENH_91_2: #
# #
# #
# Montre un billard tridimensionnel initialise avec 'v $xiirf/MENH.91.2' et utilisant #
# 8384 particules... #
Pal ; $xci/sequence$X A=$xiff/NUAG.2. premiere=1 derniere=17 p=$xiP/nuages.02 $formatI D=-1
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 007178_007194 #
# #
# et aux images '$xiaf/FRA2.84$R16' et '$xiaf/FRA2.84$R64'. #
v $xiaf/NUAG.11$R16 p=$xiP/nuages.02
v $xiaf/NUAG.11$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/NUAG.11$R64 p=$xiP/nuages.02
v $xiaf/NUAG.11$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 010308_010435 #
# #
v $xiaf/NUAG.21$R16 p=$xiP/nuages.02
v $xiaf/NUAG.21$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/NUAG.21$R64 p=$xiP/nuages.02
v $xiaf/NUAG.21$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 010436_010563 #
# #
v $xiaf/NUAG.31$R16
v $xiaf/NUAG.31$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 010948_011075 #
# #
v $xiaf/NUAG.33$R16
v $xiaf/NUAG.33$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 011204_011331 #
# #
v $xiaf/NUAG.41$R16
v $xiaf/NUAG.41$R64
v $xiaf/NUAG.42$R16
v $xiaf/NUAG.42$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 011076_011203 #
# #
# Enfin, '$xiaf/NUAG.42.??' est obtenue en rehaussant la luminance a l'aide de la commande #
# '$xci/substitue$Z' avec la palette '$xiP/gris.11'. #
v $xiaf/NUAG.51$R16 p=$xiP/cercle.35
v $xiaf/NUAG.51$R16 p=$xiP/nuages.02
v $xiaf/NUAG.51$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/NUAG.51$R64 p=$xiP/cercle.35
v $xiaf/NUAG.51$R64 p=$xiP/nuages.02
v $xiaf/NUAG.51$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 013163_013290 #
# xivPdf 7 2 / 013291_013418 #
# #
v $xiaf/NUAG.52$R16 p=$xiP/cercle.35
v $xiaf/NUAG.52$R16 p=$xiP/nuages.02
v $xiaf/NUAG.52$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/NUAG.52$R64 p=$xiP/cercle.35
v $xiaf/NUAG.52$R64 p=$xiP/nuages.02
v $xiaf/NUAG.52$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 013419_013546 #
# xivPdf 7 2 / 013547_013674 #
# #
v $xiaf/NUAG.61$R16 p=$xiP/cercle.35
v $xiaf/NUAG.61$R16 p=$xiP/nuages.02
v $xiaf/NUAG.61$R16 p=$xiP/nuages.02 t=16 d=0 ralenti=16
v $xiaf/NUAG.61$R64 p=$xiP/cercle.35
v $xiaf/NUAG.61$R64 p=$xiP/nuages.02
v $xiaf/NUAG.61$R64 p=$xiP/nuages.02 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 016491_016618 #
# xivPdf 7 2 / 016619_016746 #
# #
v $xiaf/NUAG.71$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.71$m$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.71$m$R64 p=$xiP/montagnes.91
v $xiaf/NUAG.71$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.71$M$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.71$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 016747_016874 #
# xivPdf 7 2 / 016875_017002 #
# #
v $xiaf/NUAG.81$R16 p=$xiP/cercle.35 t=16 d=4 ralenti=16
v $xiaf/NUAG.81$R16 p=$xiP/nuages.02 t=16 d=4 ralenti=16
v $xiaf/NUAG.81$R16 p=$xiP/cercle.35
v $xiaf/NUAG.81$R16 p=$xiP/nuages.02
v $xiaf/NUAG.81$R64 p=$xiP/cercle.35
v $xiaf/NUAG.81$R64 p=$xiP/nuages.02
v $xiaf/NUAG.81$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.81$m$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.81$m$R64 p=$xiP/montagnes.91
v $xiaf/NUAG.81$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.81$M$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.81$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 018027_018154 #
# xivPdf 7 2 / 018155_018282 #
# xivPdf 7 2 / 018283_018410 #
# xivPdf 7 2 / 018411_018538 #
# #
v $xiaf/NUAG.91$R16 p=$xiP/cercle.35 t=16 d=4 ralenti=16
v $xiaf/NUAG.91$R16 p=$xiP/nuages.02 t=16 d=4 ralenti=16
v $xiaf/NUAG.91$R16 p=$xiP/cercle.35
v $xiaf/NUAG.91$R16 p=$xiP/nuages.02
v $xiaf/NUAG.91$R64 p=$xiP/cercle.35
v $xiaf/NUAG.91$R64 p=$xiP/nuages.02
v $xiaf/NUAG.91$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.91$m$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.91$m$R64 p=$xiP/montagnes.91
v $xiaf/NUAG.91$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/NUAG.91$M$R16 p=$xiP/montagnes.91
v $xiaf/NUAG.91$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 018539_018666 #
# xivPdf 7 2 / 018667_018794 #
# xivPdf 7 2 / 018795_018922 #
# xivPdf 7 2 / 018923_019050 #
# #
v $xiaf/NUAG.D1$MPEG
v $xiaf/NUAG.D1$R16 p=$xiP/nuages.02
v $xiaf/NUAG.D1$R64 p=$xiP/nuages.02
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NUAG_D1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv _____images $xTV/NUAG.1 #
# $Z set _____animation=$xiaf/NUAG.D1 #
# #
# $Z FilSTmpB FNuAgEs #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=128 #
# #
# $c #define N0 Premiere #
# $c #define N Derniere #
# #
# $c #define OX 0.0 #
# $c #define EX 4.0 #
# #
# $c #define OY 0.0 #
# $c #define EY 8.0 #
# #
# $c #define OZ 0.0 #
# $c #define EZ 1.0 #
# #
# $c #define mailleX 0.50 #
# $c #define mailleY 0.25 #
# $c #define mailleZ 0.50 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double trX=((EX*(n-N0))+(OX*(N-n)))/(N-N0); #
# $c double Z=((EZ*(n-N0))+(OZ*(N-n)))/(N-N0); #
# #
# $c printf("echo %c$xci/fract_3D.01$X #
# $c mX=%.16f OX=%.16f EX=%.16f #
# $c mY=%.16f OY=%.16f EY=%.16f #
# $c mZ=%.16f OZ=%.16f EZ=%.16f #
# $c trX=%.16f #
# $c Z=%.16f #
# $c R=$_____images.%04d #
# $c $formatI%c #
# $c >> $FNuAgEs\n" #
# $c ,'\'' #
# $c ,mailleX,OX,EX #
# $c ,mailleY,OY,EY #
# $c ,mailleZ,OZ,EZ #
# $c ,trX #
# $c ,Z #
# $c ,n #
# $c ,'\'' #
# $c ); #
# $c } #
# $c } #
# #
# $Z ro $FNuAgEs #
# $Z $xcg/parallele.1N$X commande="$xcs/Linda$vv$Z $FNuAgEs" p14=FAUX #
# #
# $Z FilSTmpE FNuAgEs #
# #
# $Z $xci/reduction_16$X A=$_____images. premiere=$Premiere pas=8 \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images. premiere=$Premiere pas=2 \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=$xiP/nuages.02 #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_NUAG_D1: #
# #
v $xiaf/NUAG.E1$R16 p=$xiP/nuages.02
v $xiaf/NUAG.E1$R64 p=$xiP/nuages.02
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NUAG_E1: #
# #
# $Z Std #
# #
# $Z setenv _____images $xiff/NUAGES.N.1 #
# $Z set _____animation=$xiaf/NUAG.E1 #
# #
# $Z set Premiere=0 #
# $Z set Derniere=127 #
# #
# $Z $xci/reduction_16$X A=$_____images premiere=$Premiere pas=8 \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images premiere=$Premiere pas=2 \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# On notera que l'on ne peut pas generer le '$MPEG' a acuse du fait que '$_____images' n'est #
# pas termine par un point ('v $xivP_d06_f2/.TUR2.1.11.$U Gen_MPEG.vv.Z'). #
# #
# :Fin_listG_NUAG_E1: #
# #
v $xiaf/NUAG.E3$R16 p=$xiP/nuages.02
v $xiaf/NUAG.E3$R64 p=$xiP/nuages.02
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NUAG_E3: #
# #
# $Z Std #
# #
# $Z setenv _____images $xiff/NUAGES.N.3 #
# $Z set _____animation=$xiaf/NUAG.E3 #
# #
# $Z set Premiere=0 #
# $Z set Derniere=127 #
# #
# $Z $xci/reduction_16$X A=$_____images premiere=$Premiere pas=8 \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images premiere=$Premiere pas=2 \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# On notera que l'on ne peut pas generer le '$MPEG' a acuse du fait que '$_____images' n'est #
# pas termine par un point ('v $xivP_d06_f2/.TUR2.1.11.$U Gen_MPEG.vv.Z'). #
# #
# :Fin_listG_NUAG_E3: #
# #
v $xiaf/NUAG.E4$R16 p=$xiP/nuages.02
v $xiaf/NUAG.E4$R64 p=$xiP/nuages.02
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_NUAG_E4: #
# #
# $Z Std #
# #
# $Z setenv _____images $xiff/NUAGES.N.4 #
# $Z set _____animation=$xiaf/NUAG.E4 #
# #
# $Z set Premiere=0 #
# $Z set Derniere=127 #
# #
# $Z $xci/reduction_16$X A=$_____images premiere=$Premiere pas=8 \ #
# $Z R=$_____animation$R16 \ #
# $Z $formatI #
# $Z $xci/reduction_64$X A=$_____images premiere=$Premiere pas=2 \ #
# $Z R=$_____animation$R64 \ #
# $Z $formatI #
# #
# On notera que l'on ne peut pas generer le '$MPEG' a acuse du fait que '$_____images' n'est #
# pas termine par un point ('v $xivP_d06_f2/.TUR2.1.11.$U Gen_MPEG.vv.Z'). #
# #
# :Fin_listG_NUAG_E4: #
# #
v $xiaf/PAYS.11$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.11$R16 p=$xiP/montagnes.01 t=16 d=0 ralenti=16
v $xiaf/PAYS.11$R64 p=$xiP/montagnes.01
v $xiaf/PAYS.11$R64 p=$xiP/montagnes.01 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 2 / 005504_005631 #
# #
v $xiaf/PAYS.21$R16
v $xiaf/PAYS.21$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 000001_000128 #
# #
v $xiaf/PAYS.22$R16
v $xiaf/PAYS.22$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 000258_000386 #
# #
v $xiaf/PAYS.23$R16
v $xiaf/PAYS.23$R16$VERTE p=$xiP/orange.01 t=16 d=0 ralenti=16
v $xiaf/PAYS.23$R64
v $xiaf/PAYS.23$R64$ROUGE p=$xiP/orange.01 t=64 d=0 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 000902_001029 #
# #
v $xiaf/PAYS.24$R16
v $xiaf/PAYS.24$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 001158_001285 #
# #
v $xiaf/PAYS.25$R16
v $xiaf/PAYS.25$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 7 2 / 002182_002309 #
# #
v $xiaf/PAYS.31$R16 p=$xiP/cercle.11
v $xiaf/PAYS.31$R16 p=$xiP/orange.11
v $xiaf/PAYS.31$R64 p=$xiP/cercle.11
v $xiaf/PAYS.31$R64 p=$xiP/orange.11
# Ces images correspondent aux sequences videos : #
# #
# xivPdf 7 2 / 000644_000772 #
# xivPdf 7 2 / 000773_000901 #
# #
v $xiaf/PAYSAGE.4$R16
v $xiaf/PAYSAGE.4$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 001926_002053 #
# #
# avec un pas de 8 et de 2 respectivement... #
v $xiaf/PAYS.51$R16
v $xiaf/PAYS.51$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 002822_002949 #
# #
# avec un pas de 8 et de 2 respectivement... #
v $xiaf/PAYS.61$m$R16 p=$xiP/fractal.91
v $xiaf/PAYS.61$m$R16 p=$xiP/gris.01
v $xiaf/PAYS.61$m$R16 p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.61$m$R64 p=$xiP/fractal.91
v $xiaf/PAYS.61$m$R64 p=$xiP/gris.01
v $xiaf/PAYS.61$m$R64 p=$xiP/gris.01 t=64 d=4 ralenti=64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 008900_009027 #
# xivPdf 7 2 / 009028_009155 #
# #
v $xiaf/PAYS.61$M$R16
v $xiaf/PAYS.61$M$R16$ROUGE p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.61$M$R16$ROUGE p=$xiP/gris.01
v $xiaf/PAYS.61$M$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 009156_009283 #
# #
v $xiaf/PAYS.62$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.62$m$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.62$m$R64 p=$xiP/montagnes.01
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 009284_009411 #
# #
v $xiaf/PAYS.62$M$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.62$M$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.62$M$R64 p=$xiP/montagnes.01
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 009924_010051 #
# #
v $xiaf/PAYS.62$m$R16
v $xiaf/PAYS.62$m$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 010052_010179 #
# #
v $xiaf/PAYS.62$M$R16
v $xiaf/PAYS.62$M$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 010180_010307 #
# #
v $xiaf/PAYS.63$M$MPEG
v $xiaf/PAYS.63$M$R16
v $xiaf/PAYS.63$M$R64
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_PAYS_63_M: #
# #
# $Z ext Pdu #
# #
# Cet 'ext' est rendu necessaire par le fait que les images '$xiff/NUAG.1.*' sont en #
# format 'Pal'... #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=128 #
# $Z set _____images=$xTV/PAYSAGE #
# #
# $m4 _____include(_____xiaf/.PAYS.63.11._____U) #
# #
# $Z set _____animation=$xiaf/PAYS.63$M #
# #
# $Z $xci/reduction_16$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z $xci/reduction_64$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=RVB #
# $Z set _____LRepetitions="$K_VIDE" #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_PAYS_63_M: #
# #
# #
# Version de meilleure qualite de 'v $xiaf/PAYS.51$R16'... #
v $xiaf/PAYS.72$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.72$m$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.72$m$R64 p=$xiP/montagnes.01
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 010564_010691 #
# #
v $xiaf/PAYS.72$M$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.72$M$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.72$M$R64 p=$xiP/montagnes.01
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 010692_010819 #
# #
v $xiaf/PAYS.81$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.81$m$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.81$m$R64 p=$xiP/montagnes.01
v $xiaf/PAYS.82$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.82$m$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.82$m$R64 p=$xiP/montagnes.01
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 011361_011488 #
# #
# pour l'ensemble des images ('$xiaf/PAYS.81$m') puis la premiere moitie ('$xiaf/PAYS.82$m'). #
v $xiaf/PAYS.83$m$R16
v $xiaf/PAYS.83$m$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 011489_011616 #
# #
# ou la texture n'est pas fonction de l'altitude des points. #
v $xiaf/PAYS.84$m$R16
v $xiaf/PAYS.84$m$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 011627_011754 #
# #
# ou la texture est fonction de l'altitude des points. #
v $xiaf/PAYS.85$M$R16
v $xiaf/PAYS.85$M$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 011755_011882 #
# #
v $xiaf/PAYS.91$m$R16
v $xiaf/PAYS.91$m$R64
v $xiaf/PAYS.91$M$R16
v $xiaf/PAYS.91$M$R64
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 011883_012010 #
# xivPdf 7 2 / 012011_012138 #
# #
v $xiaf/PAYS.A1$m$R16
v $xiaf/PAYS.A1$m$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 012139_012266 #
# #
v $xiaf/PAYS.A2$M$R16
v $xiaf/PAYS.A2$M$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 012267_012394 #
# #
v $xiaf/PAYS.B1$m$R16
v $xiaf/PAYS.B1$m$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 012395_012522 #
# #
v $xiaf/PAYS.B2$M$R16
v $xiaf/PAYS.B2$M$R64
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 012523_012650 #
# #
v $xiaf/PAYS.C1$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.C1$m$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.C1$m$R64 p=$xiP/montagnes.01
v $xiaf/PAYS.C1$M$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.C1$M$R16 p=$xiP/montagnes.01
v $xiaf/PAYS.C1$M$R64 p=$xiP/montagnes.01
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 012651_012778 #
# xivPdf 7 2 / 012779_012906 #
# #
v $xiaf/PAYS.D1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.D1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.D1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.D1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.D1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.D1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 012907_013034 #
# xivPdf 7 2 / 013035_013162 #
# #
v $xiaf/PAYS.E1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.E1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.E1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.E1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.E1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.E1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 013675_013802 #
# xivPdf 7 2 / 013803_013930 #
# #
v $xiaf/PAYS.F1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.F1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.F1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.F1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.F1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.F1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 014699_014826 #
# xivPdf 7 2 / 014827_014954 #
# #
v $xiaf/PAYS.G1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.G1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.G1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.G1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.G1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.G1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 015211_015338 #
# xivPdf 7 2 / 015339_015466 #
# #
v $xiaf/PAYS.H1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.H1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.H1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.H1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.H1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.H1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 015467_015594 #
# xivPdf 7 2 / 015595_015722 #
# #
v $xiaf/PAYS.I1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.I1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.I1$m$R64 p=$xiP/montagnes.91
v $xiaf/PAYS.I1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.I1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.I1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 015723_015850 #
# xivPdf 7 2 / 015851_015978 #
# #
v $xiaf/PAYS.J1$m$R16 p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.J1$m$R16 p=$xiP/gris.01
v $xiaf/PAYS.J1$m$R64 p=$xiP/gris.01
v $xiaf/PAYS.J1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.J1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.J1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 015979_016106 #
# xivPdf 7 2 / 016107_016234 #
# #
v $xiaf/PAYS.K1$m$R16 p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/PAYS.K1$m$R16 p=$xiP/gris.01
v $xiaf/PAYS.K1$m$R64 p=$xiP/gris.01
v $xiaf/PAYS.K1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYS.K1$M$R16 p=$xiP/montagnes.91
v $xiaf/PAYS.K1$M$R64 p=$xiP/montagnes.91
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 016235_016362 #
# xivPdf 7 2 / 016363_016490 #
# #
v $xiaf/PAYS.L1$m$R16
v $xiaf/PAYS.L1$m$R64
v $xiaf/PAYS.L1$M$R16
v $xiaf/PAYS.L1$M$R64
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 017003_017130 #
# xivPdf 7 2 / 017131_017258 #
# #
v $xiaf/PAYS.M1$m$R16
v $xiaf/PAYS.M1$m$R64
v $xiaf/PAYS.M1$M$R16
v $xiaf/PAYS.M1$M$R64
v $xiaf/PAYS.M2$M$R16
v $xiaf/PAYS.M2$M$R64
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 017259_017386 #
# xivPdf 7 2 / 017387_017514 #
# xivPdf 7 2 / 017515_017642 #
# #
v $xiaf/PAYS.N1$m$R16
v $xiaf/PAYS.N1$m$R64
v $xiaf/PAYS.N1$M$R16
v $xiaf/PAYS.N1$M$R64
v $xiaf/PAYS.N2$M$R16
v $xiaf/PAYS.N2$M$R64
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 017643_017770 #
# xivPdf 7 2 / 017771_017898 #
# xivPdf 7 2 / 017899_018026 #
# #
v $xiaf/PAYS.u9$Fi$R16
v $xiaf/PAYS.u9$Fi$R64
# Correspond aux sequences d'images suivantes : #
# #
# xivPdf 7 2 / 019051_019304 #
# #
v $xiaf/PAYT.71$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYT.71$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYT.71$m$R64 p=$xiP/montagnes.91
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 025998_026125 #
# #
v $xiaf/PAYT.F1$m$MPEG
v $xiaf/PAYT.F1$m$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYT.F1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYT.F1$m$R64 p=$xiP/montagnes.91
# Correspond a la sequence d'images suivantes : #
# #
# xivPdf 7 2 / 026126_026253 #
# #
# ATTENTION : le fichier 'v $xiaf/PAYT.F1$m$MPEG' a ete calcule sur '$LACT15' a cause du #
# probleme 'v $xci/Gen_MPEG$vv$Z 20040302140553' qui n'avait pas encore trouve de solution. #
# On notera que recalcule sur '$LACT16' apres cela il a une taille inferieure (55296616 #
# octets), cela etant du certainement a la disparition de l'option '-sampling-factor 2x1'... #
v $xiaf/PAYT.R1$M$R16 p=$xiP/montagnes.91 t=16 d=4 ralenti=16
v $xiaf/PAYT.R1$M$R16 p=$xiP/montagnes.91
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_PAYT_R1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET SPremiere=1 #
# $Z SET SDerniere=16 #
# #
# $Z setenv _____images_D $xTV/DEFORMATION #
# $Z setenv _____images_F $xTV/FRACTAL.1 #
# $Z setenv _____images_FD $xTV/FRACTAL.2 #
# $Z setenv _____images_3 $xTV/MONTAGNE #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$_____images_F \ #
# $Z $formatI #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=1 \ #
# $Z renormaliser=VRAI \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_D$COORD_Y \ #
# $Z $formatI #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 SPremiere #
# $c #define N SDerniere #
# #
# $c #define B0 +0.4 #
# $c #define BN -0.4 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double b = B0 + (((BN-B0)*(n-N0))/(N-N0)); #
# #
# $c printf("$xci/lineaire$X #
# $c A=1 B=%f #
# $c renormaliser=FAUX #
# $c standard=FAUX #
# $c R=$_____images_D$COORD_X #
# $c $formatI\n" #
# $c ,b #
# $c ); #
# $c #
# $c printf("$xci/deformi.01$X #
# $c A=$_____images_F #
# $c DX=$_____images_D$COORD_X #
# $c DY=$_____images_D$COORD_Y #
# $c bilineaire=VRAI #
# $c R=$_____images_FD #
# $c $formatI\n" #
# $c ); #
# $c #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c standard=FAUX zero=FAUX #
# $c renormaliser=FAUX #
# $c T=$BLANC #
# $c depth=VRAI minimum=0.4 #
# $c avion=FAUX #
# $c Ty=0.6 #
# $c R=$_____images_3.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set Premiere=$SPremiere #
# $Z set Derniere=$SDerniere #
# $Z set _____images=$_____images_3 #
# $Z set _____animation=$xiaf/PAYT.R1$M #
# #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_PAYT_R1: #
# #
# #
# Cette image donne 4x3 stereogrammes d'une montagne. #
v $xiaf/PAYT.T1$M$R16
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_PAYT_T1_M: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET SPremiere=1 #
# $Z SET SDerniere=16 #
# #
# $Z setenv _____images_D $xTV/DEFORMATION #
# $Z setenv _____images_G $xTV/GAUSS #
# $Z setenv _____images_F $xTV/FRACTAL.1 #
# $Z setenv _____images_FG $xTV/FRACTAL_GAUSS #
# $Z setenv _____images_FD $xTV/FRACTAL.2 #
# $Z setenv _____images_3 $xTV/MONTAGNE #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_F \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z c=8 \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_G \ #
# $Z $formatI #
# #
# $Z $xci/interpole.02$X \ #
# $Z A1=$_____images_F \ #
# $Z A2=$_____images_G \ #
# $Z P=$_____images_G \ #
# $Z standard=FAUX \ #
# $Z $formatI | \ #
# $Z $xci/substitue$X \ #
# $Z standard=FAUX \ #
# $Z p=$xiP/universel.11 \ #
# $Z lissage=VRAI \ #
# $Z passes=256 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$_____images_FG \ #
# $Z $formatI #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=1 \ #
# $Z amplificateur=1 translateur=0.5 \ #
# $Z carre_X_CHAMP_3D=FAUX \ #
# $Z carre_Y_CHAMP_3D=FAUX \ #
# $Z renormaliser=VRAI \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_D$COORD_Y \ #
# $Z $formatI #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 SPremiere #
# $c #define N SDerniere #
# #
# $c #define B0 +0.4 #
# $c #define BN -0.4 #
# #
# $c #define PERSPECT 0.30 #
# $c #define TY 0.95 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double b = B0 + (((BN-B0)*(n-N0))/(N-N0)); #
# #
# $c printf("$xci/lineaire$X #
# $c A=1.0 B=%f #
# $c amplificateur=1 translateur=0.5 #
# $c carre_X_CHAMP_3D=FAUX #
# $c carre_Y_CHAMP_3D=FAUX #
# $c renormaliser=FAUX #
# $c standard=FAUX #
# $c R=$_____images_D$COORD_X #
# $c $formatI\n" #
# $c ,b #
# $c ); #
# $c #
# $c printf("$xci/deformi.01$X #
# $c A=$_____images_FG #
# $c DX=$_____images_D$COORD_X #
# $c DY=$_____images_D$COORD_Y #
# $c bilineaire=VRAI #
# $c R=$_____images_FD #
# $c $formatI\n" #
# $c ); #
# $c #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c standard=FAUX zero=FAUX #
# $c renormaliser=FAUX #
# $c T=$BLANC #
# $c avion=VRAI #
# $c Z-Buffer=VRAI #
# $c R=$xTV/MONTAGNE #
# $c $formatI | #
# $c $xci/complement$X #
# $c $formatI | #
# $c $xci/vraies_C$X #
# $c p=$xiP/random.03 #
# $c RVB=VRAI #
# $c R=$xTV/COTE #
# $c $formatI\n" #
# $c ); #
# #
# $c printf("execRVB %c$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c standard=FAUX zero=FAUX #
# $c renormaliser=FAUX #
# $c T=$xTV/COTE%%s #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c R=$xTV/TOUR%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,TY #
# $c ,PERSPECT #
# $c ,'"' #
# $c ); #
# #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c standard=FAUX zero=FAUX #
# $c renormaliser=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c Z-Buffer=VRAI #
# $c R=$xTV/MONTAGNE #
# $c $formatI | #
# $c $xci/complement$X #
# $c R=$xTV/BRUME #
# $c $formatI\n" #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("execRVB %c$xci/brume.11$X #
# $c A=$xTV/TOUR%%s #
# $c B=$xTV/BRUME #
# $c R=$xTV/TOUR_BRUME%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# $c printf("execRVB %c$xci/pt_isole.01$X #
# $c A=$xTV/TOUR_BRUME%%s #
# $c points=9 #
# $c seuil=0.05 #
# $c R=$_____images_3.%04d%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,n #
# $c ,'"' #
# $c ); #
# $c } #
# $c } #
# #
# $Z set Premiere=$SPremiere #
# $Z set Derniere=$SDerniere #
# $Z set _____images=$_____images_3 #
# $Z set _____animation=$xiaf/PAYT.T1$M #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYT_T1_M: #
# #
# #
# Cette image donne 4x3 stereogrammes de "quelques" tours de Babel ("quelques" car, en effet, #
# les differentes images ne sont pas obtenues par une rotation du champ fractal initial #
# '$_____images_F', mais par un cisaillement a droite puis progressivement a gauche. Les #
# differents champs obtenus ne sont donc pas identiques a une rotation pres et les tours #
# de Babel obtenues sont donc differentes... #
v $xiaf/PAYT.U1$M$R16
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_PAYT_U1_M: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET SPremiere=1 #
# $Z SET SDerniere=16 #
# #
# $Z setenv _____images_D $xTV/DEFORMATION #
# $Z setenv _____images_G $xTV/GAUSS #
# $Z setenv _____images_F $xTV/FRACTAL.1 #
# $Z setenv _____images_FG $xTV/FRACTAL_MV #
# $Z setenv _____images_FD $xTV/FRACTAL.2 #
# $Z setenv _____images_3 $xTV/MONTAGNE #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z graine=7 \ #
# $Z standard=FAUX \ #
# $Z OX=0 EX=1 mX=0.25 \ #
# $Z OY=0 EY=1 mY=0.50 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/FRACTAL.01 \ #
# $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 $xci/substitue$X \ #
# $Z A=$xTV/FRACTAL.01 \ #
# $Z standard=FAUX \ #
# $Z p=$xiP/gris.54 \ #
# $Z lissage=VRAI \ #
# $Z passes=256 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$_____images_FG \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0.45 \ #
# $Z R=$xTV/SOLEIL \ #
# $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 $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=1 \ #
# $Z amplificateur=1 translateur=0.5 \ #
# $Z carre_X_CHAMP_3D=FAUX \ #
# $Z carre_Y_CHAMP_3D=FAUX \ #
# $Z renormaliser=VRAI \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_D$COORD_Y \ #
# $Z $formatI #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 SPremiere #
# $c #define N SDerniere #
# #
# $c #define B0 +0.4 #
# $c #define BN -0.4 #
# #
# $c #define ECHELLE 1.3 #
# $c #define PERSPECT 0.50 #
# $c #define TY 0.87 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double b = B0 + (((BN-B0)*(n-N0))/(N-N0)); #
# #
# $c printf("$xci/lineaire$X #
# $c A=1.0 B=%f #
# $c amplificateur=1 translateur=0.5 #
# $c carre_X_CHAMP_3D=FAUX #
# $c carre_Y_CHAMP_3D=FAUX #
# $c renormaliser=FAUX #
# $c standard=FAUX #
# $c R=$_____images_D$COORD_X #
# $c $formatI\n" #
# $c ,b #
# $c ); #
# $c #
# $c printf("$xci/deformi.01$X #
# $c A=$_____images_FG #
# $c DX=$_____images_D$COORD_X #
# $c DY=$_____images_D$COORD_Y #
# $c bilineaire=VRAI #
# $c R=$_____images_FD #
# $c $formatI\n" #
# $c ); #
# $c #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c Z-Buffer=VRAI #
# $c Z=$xTV/BRUME #
# $c R=$xTV/MONTAGNE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=-1 #
# $c depthT=$BLANC #
# $c R=$xTV/LEVER.3 #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.5 #
# $c depthT=$GRIS_2 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$ROUGE #
# $c R=$xTV/LEVER.4$ROUGE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.25 #
# $c depthT=$GRIS_2 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$VERTE #
# $c R=$xTV/LEVER.4$VERTE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.125 #
# $c depthT=$GRIS_0 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$BLEUE #
# $c R=$xTV/LEVER.4$BLEUE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/vitre.53$Z #
# $c $xTV/SOLEIL #
# $c $xTV/LEVER.4 #
# $c $xT/PAYS.u8$M\n" #
# $c ); #
# #
# $c printf("$xci/acces$X #
# $c A=$xTV/FRACTAL.01 #
# $c standard=FAUX #
# $c zero=FAUX #
# $c $formatI | #
# $c $xci/vraies_C$X #
# $c p=$xiP/MonValley.13 #
# $c RVB=VRAI #
# $c R=$xTV/FRACTAL.01 #
# $c $formatI\n" #
# $c ); #
# #
# $c printf("execRVB %c$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$xTV/FRACTAL.01%%s #
# $c Nminimum=0.4 #
# $c attenuation=0.20 #
# $c avion=FAUX #
# $c fond=VRAI #
# $c F=$xTV/NUAGES.01%%s #
# $c Ty=%f #
# $c perspective=%f #
# $c R=$xTV/MONTAGNE%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ,'"' #
# $c ); #
# #
# $c printf("$xci/complement$X #
# $c A=$xTV/BRUME #
# $c $formatI | #
# $c $xci/scale$X #
# $c a=0.6 #
# $c R=$xTV/BRUME #
# $c $formatI\n" #
# $c ); #
# #
# $c printf("execRVB %c$xci/brume.11$X #
# $c A=$xTV/MONTAGNE%%s #
# $c B=$xTV/BRUME #
# $c R=$xT/PAYS.u2$M%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# #
# $c printf("execRVB %c$xci/interpole.02$X #
# $c A1=$xT/PAYS.u2$M%%s #
# $c A2=$xT/PAYS.u8$M%%s #
# $c P=$xTV/GAUSS #
# $c R=$xTV/LEVER.5%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# #
# $c printf("$xci/vitre.53$Z #
# $c $xTV/SOLEIL #
# $c $xTV/LEVER.5 #
# $c $_____images_3.%04d\n" #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set Premiere=$SPremiere #
# $Z set Derniere=$SDerniere #
# $Z set _____images=$_____images_3 #
# $Z set _____animation=$xiaf/PAYT.U1$M #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYT_U1_M: #
# #
# #
# Cette image donne 4x3 stereogrammes de "quelques" Monument Valleys ("quelques" car, en #
# effet, les differentes images ne sont pas obtenues par une rotation du champ fractal #
# initial '$_____images_F', mais par un cisaillement a droite puis progressivement a gauche. #
# differents champs obtenus ne sont donc pas identiques a une rotation pres et les Monument #
# Valleys obtenues sont donc differentes... #
v $xiaf/PAYT.U2$M$R16
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_PAYT_U2_M: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET SPremiere=1 #
# $Z SET SDerniere=16 #
# #
# $Z setenv _____images_D $xTV/DEFORMATION #
# $Z setenv _____images_G $xTV/GAUSS #
# $Z setenv _____images_F $xTV/FRACTAL.1 #
# $Z setenv _____images_FG $xTV/FRACTAL_MV #
# $Z setenv _____images_FD $xTV/FRACTAL.2 #
# $Z setenv _____images_3 $xTV/MONTAGNE #
# #
# $Z $xci/fract_2D.01$X \ #
# $Z graine=11111 \ #
# $Z standard=FAUX \ #
# $Z OX=0 EX=1 mX=0.50 \ #
# $Z OY=0 EY=1 mY=0.50 \ #
# $Z trX=0.2 \ #
# $Z $formatI | \ #
# $Z $xci/normalise.01$X \ #
# $Z R=$xTV/FRACTAL.01 \ #
# $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 $xci/substitue$X \ #
# $Z A=$xTV/FRACTAL.01 \ #
# $Z standard=FAUX \ #
# $Z p=$xiP/gris.54 \ #
# $Z lissage=VRAI \ #
# $Z passes=256 \ #
# $Z substitution=L_SUBSTITUTION_ROUGE \ #
# $Z R=$_____images_FG \ #
# $Z $formatI #
# #
# $Z $xci/gauss$X \ #
# $Z Ty=0.45 \ #
# $Z R=$xTV/SOLEIL \ #
# $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 $xci/gauss$X \ #
# $Z R=$xTV/GAUSS \ #
# $Z $formatI #
# #
# $Z $xci/lineaire$X \ #
# $Z A=0 B=1 \ #
# $Z amplificateur=1 translateur=0.5 \ #
# $Z carre_X_CHAMP_3D=FAUX \ #
# $Z carre_Y_CHAMP_3D=FAUX \ #
# $Z renormaliser=VRAI \ #
# $Z standard=FAUX \ #
# $Z R=$_____images_D$COORD_Y \ #
# $Z $formatI #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 SPremiere #
# $c #define N SDerniere #
# #
# $c #define B0 +0.4 #
# $c #define BN -0.4 #
# #
# $c #define ECHELLE 1.6 #
# $c #define PERSPECT 0.40 #
# $c #define TY 0.91 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double b = B0 + (((BN-B0)*(n-N0))/(N-N0)); #
# #
# $c printf("$xci/lineaire$X #
# $c A=1.0 B=%f #
# $c amplificateur=1 translateur=0.5 #
# $c carre_X_CHAMP_3D=FAUX #
# $c carre_Y_CHAMP_3D=FAUX #
# $c renormaliser=FAUX #
# $c standard=FAUX #
# $c R=$_____images_D$COORD_X #
# $c $formatI\n" #
# $c ,b #
# $c ); #
# $c #
# $c printf("$xci/deformi.01$X #
# $c A=$_____images_FG #
# $c DX=$_____images_D$COORD_X #
# $c DY=$_____images_D$COORD_Y #
# $c bilineaire=VRAI #
# $c R=$_____images_FD #
# $c $formatI\n" #
# $c ); #
# $c #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c Z-Buffer=VRAI #
# $c Z=$xTV/BRUME #
# $c R=$xTV/MONTAGNE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=-1 #
# $c depthT=$BLANC #
# $c R=$xTV/LEVER.3 #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.5 #
# $c depthT=$GRIS_2 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$ROUGE #
# $c R=$xTV/LEVER.4$ROUGE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.25 #
# $c depthT=$GRIS_2 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$VERTE #
# $c R=$xTV/LEVER.4$VERTE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c Ty=%f #
# $c perspective=%f #
# $c depthN=0 #
# $c depthX=0 #
# $c depthY=+0.125 #
# $c depthT=$GRIS_0 #
# $c fond=VRAI #
# $c F=$xiirf/CIEL.11.0017$BLEUE #
# $c R=$xTV/LEVER.4$BLEUE #
# $c $formatI\n" #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ); #
# #
# $c printf("$xci/vitre.53$Z #
# $c $xTV/SOLEIL #
# $c $xTV/LEVER.4 #
# $c $xT/PAYS.u8$M\n" #
# $c ); #
# #
# $c printf("$xci/acces$X #
# $c A=$xTV/FRACTAL.01 #
# $c standard=FAUX #
# $c zero=FAUX #
# $c $formatI | #
# $c $xci/vraies_C$X #
# $c p=$xiP/MonValley.13 #
# $c RVB=VRAI #
# $c R=$xTV/FRACTAL.01 #
# $c $formatI\n" #
# $c ); #
# #
# $c printf("execRVB %c$xci/montagne.01$X #
# $c A=$_____images_FD #
# $c echelle=%f #
# $c standard=FAUX #
# $c zero=FAUX #
# $c T=$xTV/FRACTAL.01%%s #
# $c Nminimum=0.4 #
# $c attenuation=0.20 #
# $c avion=FAUX #
# $c fond=VRAI #
# $c F=$xTV/NUAGES.01%%s #
# $c Ty=%f #
# $c perspective=%f #
# $c R=$xTV/MONTAGNE%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,ECHELLE #
# $c ,TY #
# $c ,PERSPECT #
# $c ,'"' #
# $c ); #
# #
# $c printf("$xci/complement$X #
# $c A=$xTV/BRUME #
# $c $formatI | #
# $c $xci/scale$X #
# $c a=0.6 #
# $c R=$xTV/BRUME #
# $c $formatI\n" #
# $c ); #
# #
# $c printf("execRVB %c$xci/brume.11$X #
# $c A=$xTV/MONTAGNE%%s #
# $c B=$xTV/BRUME #
# $c R=$xT/PAYS.u2$M%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# #
# $c printf("execRVB %c$xci/interpole.02$X #
# $c A1=$xT/PAYS.u2$M%%s #
# $c A2=$xT/PAYS.u8$M%%s #
# $c P=$xTV/GAUSS #
# $c R=$xTV/LEVER.5%%s #
# $c $formatI%c\n" #
# $c ,'"' #
# $c ,'"' #
# $c ); #
# #
# $c printf("$xci/vitre.53$Z #
# $c $xTV/SOLEIL #
# $c $xTV/LEVER.5 #
# $c $_____images_3.%04d\n" #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set Premiere=$SPremiere #
# $Z set Derniere=$SDerniere #
# $Z set _____images=$_____images_3 #
# $Z set _____animation=$xiaf/PAYT.U2$M #
# #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYT_U2_M: #
# #
# #
# Cette image donne 4x3 stereogrammes de "quelques" Monument Valleys ("quelques" car, en #
# effet, les differentes images ne sont pas obtenues par une rotation du champ fractal #
# initial '$_____images_F', mais par un cisaillement a droite puis progressivement a gauche. #
# differents champs obtenus ne sont donc pas identiques a une rotation pres et les Monument #
# Valleys obtenues sont donc differentes... #
v $xiaf/PAYT.Y1$R16 p=$xiP/cercle.35
v $xiaf/PAYT.Y1$m$R16 p=$xiP/montagnes.91
v $xiaf/PAYT.Y1$M$R16 p=$xiP/montagnes.91
# Generee (sur '$LACT18') par : #
# #
# #
# :Debut_listG_PAYT_Y1: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# $Z setenv LONGUEUR_NOMS $xLONGUEUR_NOMS #
# #
# $Z SET SPremiere=1 #
# $Z SET SDerniere=16 #
# #
# $Z setenv _____images_F $xTV/FRACTAL #
# $Z setenv _____images_Fs $xTV/FRACTAL.s #
# $Z setenv _____images_m $xTV/FRACTAL$m #
# $Z setenv _____images_M $xTV/FRACTAL$M #
# #
# $c #include <stdio.h> #
# #
# $c #define N0 SPremiere #
# $c #define N SDerniere #
# #
# $c #define S0 0.06 #
# $c #define SN 0.02 #
# #
# $c int main() #
# $c { #
# $c int n; #
# #
# $c for (n=N0 ; n<=N ; n++) #
# $c { #
# $c double sigma = S0 + (((SN-S0)*(n-N0))/(N-N0)); #
# #
# $c printf("$xci/fract_2D.01$X #
# $c standard=FAUX #
# $c NEUT=0 GAUS=1 #
# $c GAUS_ecart_type=%f #
# $c GAUS_esperance=0.5 #
# $c R=$_____images_F.%04d #
# $c $formatI\n" #
# $c ,sigma #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_F.%04d #
# $c standard=FAUX zero=FAUX #
# $c T=$BLANC #
# $c avion=VRAI #
# $c R=$_____images_m.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c printf("$xci/montagne.01$X #
# $c A=$_____images_F.%04d #
# $c standard=FAUX zero=FAUX #
# $c T=$BLANC #
# $c avion=FAUX #
# $c R=$_____images_M.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c #
# $c printf("$xci/acces$X #
# $c A=$_____images_F.%04d #
# $c standard=FAUX zero=FAUX #
# $c R=$_____images_Fs.%04d #
# $c $formatI\n" #
# $c ,n #
# $c ,n #
# $c ); #
# $c } #
# $c } #
# #
# $Z set Premiere=$SPremiere #
# $Z set Derniere=$SDerniere #
# #
# $Z set _____images=$_____images_Fs #
# $Z set _____animation=$xiaf/PAYT.Y1 #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# $Z set _____images=$_____images_m #
# $Z set _____animation=$xiaf/PAYT.Y1$m #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# $Z set _____images=$_____images_M #
# $Z set _____animation=$xiaf/PAYT.Y1$M #
# $m4 _____include(_____xivPdf_09_2/.LYAP.1.12._____U) #
# #
# :Fin_listG_PAYT_Y1: #
# #
# #
# Cette animation montre une montagne dont l'ecart-type varie... #
v $xiaf/PAYU.22$M$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_PAYU_22: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z setenv _____ImageR $xTV/PAYU.22$M #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $Premiere $Derniere \ #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirf/PAYU.22$M%%s \ #
# $Z iterations=%d \ #
# $Z R=$_____ImageR.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.22$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYU_22: #
# #
v $xiaf/PAYU.23$M$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_PAYU_23: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z setenv _____ImageR $xTV/PAYU.23$M #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $Premiere $Derniere \ #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirf/PAYU.23$M%%s \ #
# $Z iterations=%d \ #
# $Z R=$_____ImageR.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.23$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYU_23: #
# #
v $xiaf/PAYU.32$M$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_PAYU_32: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z setenv _____ImageR $xTV/PAYU.32$M #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $Premiere $Derniere \ #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirf/PAYU.32$M%%s \ #
# $Z iterations=%d \ #
# $Z R=$_____ImageR.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.32$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYU_32: #
# #
v $xiaf/PAYU.33$M$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_PAYU_33: #
# #
# $Z Pqu #
# #
# $Z setenv xTV $xTG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z setenv _____ImageR $xTV/PAYU.33$M #
# #
# $Z set execALBUM_Para=FAUX #
# $Z execALBUM $Premiere $Derniere \ #
# $Z execRVB $xci/jeu_vie.01$X \ #
# $Z A=$xiirf/PAYU.33$M%%s \ #
# $Z iterations=%d \ #
# $Z R=$_____ImageR.%04d%%s \ #
# $Z $formatI #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.33$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_PAYU_33: #
# #
v $xiaf/PAYU.N1$M$MP4
v $xiaf/PAYU.N1$M$R16
# Generee (sur '$LACT19') par : #
# #
# #
# :Debut_listG_PAYU_N1_M: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z setenv _____ImageR $xTV/PAYU.N1$M #
# #
# $Z set _____Deformation=$xiP/gris.E4 #
# $Z set _____Ty=0.94 #
# #
# $m4 _____include(_____xiirf/.PAYU.N1.1._____U) #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.N1$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____ImageT=$_____ImageR. #
# $Z set _____Animation=$xiaf/PAYU.N1$M #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# :Fin_listG_PAYU_N1_M: #
# #
v $xiaf/PAYU.N2$M$MP4
v $xiaf/PAYU.N2$M$R16
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_PAYU_N2_M: #
# #
# $Z Pal #
# #
# $Z setenv xTV $xTG #
# #
# $Z setenv _____ImageR $xTV/PAYU.N2$M #
# #
# $Z set _____Deformation=$xiP/gris.E4 #
# $Z set _____PNuages1=$xiP/enfer.72 #
# $Z set _____Ty=0.94 #
# $Z set _____Ty=0.94 #
# #
# $m4 _____include(_____xiirf/.PAYU.N1.1._____U) #
# #
# $Z set _____images=$_____ImageR #
# $Z set _____animation=$xiaf/PAYU.N2$M #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# $Z set _____ImageT=$_____ImageR. #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# :Fin_listG_PAYU_N2_M: #
# #
v $xiaf/RECU.21$R16 p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/RECU.21$R16 p=$xiP/gris.01
v $xiaf/RECU.21$R64 p=$xiP/gris.01 t=64 d=4 ralenti=64
v $xiaf/RECU.21$R64 p=$xiP/gris.01
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 014255_014382 #
# #
v $xiaf/RECU.31$R16 p=$xiP/gris.01 t=16 d=4 ralenti=16
v $xiaf/RECU.31$R16 p=$xiP/gris.01
v $xiaf/RECU.31$R64 p=$xiP/gris.01 t=64 d=4 ralenti=64
v $xiaf/RECU.31$R64 p=$xiP/gris.01
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 014383_014510 #
# #
v $xiaf/RECU.32$R16
v $xiaf/RECU.32$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 014511_014638 #
# #
v $xiaf/RECU.42$R16
v $xiaf/RECU.42$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 014639_014766 #
# #
# qui correspond donc a la sequence : #
# #
# xivPdf 2 1 / 014511_014638 #
# #
# dans la brume... #
# #
# ATTENTION, cette image (ainsi que les precedentes) a ete realisee avec une valeur un #
# peu faible pour 'dZmax_ESPACE' ; cette constante etait definie par : #
# #
# #define dZmax_ESPACE \ #
# 2.05 #
# #
v $xiaf/RECU.52$R16$DROITE
v $xiaf/RECU.52$R16$GAUCHE
v $xiaf/RECU.52$R16$STEREO
# Ces images correspondent aux sequences video : #
# #
# xivPdf 2 1 / 014767_014782 #
# xivPdf 2 1 / 014783_014798 #
# #
# ATTENTION, cette image (ainsi que les precedentes) a ete realisee alors que l'objet (en #
# ce qui concerne la coordonnee 'Z') n'etait pas centre a l'origine... #
# #
v $xiaf/RECU.53$R16$DROITE
v $xiaf/RECU.53$R16$GAUCHE
v $xiaf/RECU.53$R16$STEREO
# Ces images correspondent aux sequences video : #
# #
# xivPdf 2 1 / 014799_014814 #
# xivPdf 2 1 / 014815_014830 #
# #
v $xiaf/RECU.62$R16
v $xiaf/RECU.62$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 014831_014958 #
# #
v $xiaf/RECU.71$R16
v $xiaf/RECU.71$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015151_015278 #
# #
v $xiaf/RECU.72$R16
v $xiaf/RECU.72$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015364_015491 #
# #
v $xiaf/RECU.73$R04
v $xiaf/RECU.73$R16
v $xiaf/RECU.73$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015492_015619 #
# #
v $xiaf/RECU.74$R04
v $xiaf/RECU.74$R16
v $xiaf/RECU.74$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015748_015875 #
# #
v $xiaf/RECU.74$R16 p=$xiP/random.03 t=16 d=4 ralenti=16
v $xiaf/RECU.74$R64 p=$xiP/random.06 t=64 d=4 ralenti=64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 016010_016137 #
# #
v $xiaf/RECU.74$m$R04 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/RECU.74$m$R04 p=$xiP/montagnes.01
v $xiaf/RECU.74$m$R16 p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/RECU.74$m$R16 p=$xiP/montagnes.01
v $xiaf/RECU.74$m$R64 p=$xiP/montagnes.01 t=64 d=4 ralenti=64
v $xiaf/RECU.74$m$R64 p=$xiP/montagnes.01
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015882_016009 #
# #
v $xiaf/RECU.75$m$R04
v $xiaf/RECU.75$m$R16$ROUGE p=$xiP/montagnes.01 t=16 d=4 ralenti=16
v $xiaf/RECU.75$m$R16
v $xiaf/RECU.75$m$R64$ROUGE p=$xiP/montagnes.01 t=64 d=4 ralenti=64
v $xiaf/RECU.75$m$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 016138_016265 #
# #
v $xiaf/RECU.76$R04
v $xiaf/RECU.76$R04$ROUGE p=$xiP/fractal.11
v $xiaf/RECU.76$R16
v $xiaf/RECU.76$R16$ROUGE p=$xiP/fractal.11 t=16 d=4 ralenti=64
v $xiaf/RECU.76$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 016667_016794 #
# #
v $xiaf/RECU.76$m$R04
v $xiaf/RECU.76$m$R16
v $xiaf/RECU.76$m$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 017051_017178 #
# #
v $xiaf/RECU.81$R16
v $xiaf/RECU.81$R64
# Ces images correspondent a la sequence video : #
# #
# xivPdf 2 1 / 015300_015363 #
# #
v $xiaf/RECU.F2$MPEG
v $xiaf/RECU.F2$R16
v $xiaf/RECU.F2$R64
v $xiirf/RECU.F2$m
# Generee (sur '$LACT1B') par : #
# #
# #
# :Debut_listG_RECU_F2: #
# #
# $Z Pdu #
# #
# $Z setenv xTV $DStemporairesUG #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=256 #
# $Z set Nimages=`calculINS $Derniere-$Premiere+1` #
# $Z SET _____images=$xTV/RECURSIF #
# #
# $Z $DELETE $xTV/param11 #
# $Z $DELETE $xTV/param21 #
# $Z $DELETE $xTV/param31 #
# #
# $Z $xci/valeurs_inte$X cubique=VRAI \ #
# $Z p=$Premiere d=$Derniere \ #
# $Z vD=0 vA=$dpi \ #
# $Z > $xTV/param11 #
# $Z #
# #
# $Z $xci/valeurs_inte$X cubique=VRAI \ #
# $Z p=$Premiere d=$Derniere \ #
# $Z vD=0.1 vA=4.0 \ #
# $Z > $xTV/param21 #
# #
# $Z set S_ZoOm=0.73 #
# #
# Si 256 images sont generees, les objets les plus grands verticalement aparaissent entre #
# les images 183 et 189 (d'ou : 187/256=0.73...). #
# #
# $Z set MiLiEu1=`calculINS ($S_ZoOm*($Derniere-$Premiere))+$Premiere` #
# $Z set MiLiEu2=`calculINS $MiLiEu1+1` #
# #
# $Z $xci/valeurs_inte$X cubique=FAUX \ #
# $Z p=$Premiere d=$MiLiEu1 \ #
# $Z vD=1.20 vA=0.30 \ #
# $Z >>! $xTV/param31 #
# #
# $Z $xci/valeurs_inte$X cubique=FAUX \ #
# $Z p=$MiLiEu2 d=$Derniere \ #
# $Z vD=0.30 vA=1.20 \ #
# $Z >>! $xTV/param31 #
# #
# Ce zoom "dynamique" permet de compenser les variations importantes de la taille des #
# objets au cours du temps... #
# #
# $Z $xrf/recursif.11$X np=$Nimages \ #
# $Z r=0.12 \ #
# $Z PARAMETRE_dTHETA=$xTV/param21 \ #
# $Z ROTATION_OX=$xTV/param11 \ #
# $Z ZOOM=$xTV/param31 \ #
# $Z Lz=100 \ #
# $Z extrema_hors=FAUX \ #
# $Z RVB=VRAI \ #
# $Z R=$_____images. \ #
# $Z $formatI #
# #
# $Z set _____animation=$xiaf/RECU.F2 #
# #
# $Z execRVB $xci/accumule.01$X \ #
# $Z A=$_____images. \ #
# $Z premiere=$Premiere derniere=$Derniere \ #
# $Z postfixe=%s \ #
# $Z R=$xTV/ACCUMULATION%s \ #
# $Z $formatI #
# #
# $Z $xci/luminance.01$X \ #
# $Z A=$xTV/ACCUMULATION \ #
# $Z R=$xTV/LUMINANCE \ #
# $Z $formatI #
# #
# $Z execRVB $xci/montagne.01$X \ #
# $Z A=$xTV/LUMINANCE \ #
# $Z T=$xTV/ACCUMULATION%s \ #
# $Z avion=VRAI \ #
# $Z R=$xiirf/`GetLeaf $_____animation`$m%s \ #
# $Z $formatI #
# #
# $Z $xci/reduction_16$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z $xci/reduction_64$Z $_____images. \ #
# $Z $_____animation \ #
# $Z $Premiere $Derniere \ #
# $Z VRAI FAUX FAUX #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z SET _____PaletteMPEG=RVB #
# $Z SET _____LRepetitions="$K_VIDE" #
# $Z SET _____ImageT=$_____images. #
# $Z set _____Animation=$_____animation #
# $m4 _____include(_____xiirs/.MOBI.13.1._____U) #
# #
# :Fin_listG_RECU_F2: #
# #
# #
# Version de meilleure qualite de 'v $xiaf/RECU.32$R16'... #
v $xiaf/YOU3.11$R16
# Generee (sur '$LACT17') par : #
# #
# #
# :Debut_listG_YOU3_11: #
# #
# $Z Pal #
# #
# $Z SET Premiere=1 #
# $Z SET Derniere=16 #
# #
# $Z @ Nimages = $Derniere - $Premiere #
# $Z @ Nimages = $Nimages + 1 #
# #
# $Z $DELETE $xTV/ROTATION$COORD_Y #
# $Z $xci/valeurs_inte$X \ #
# $Z p=$Premiere d=$Derniere \ #
# $Z vD=`calcul +$dpi/32` vA=`calcul -$dpi/32` \ #
# $Z cubique=FAUX \ #
# $Z > $xTV/ROTATION$COORD_Y #
# #
# $Z $xrf/recursif.22$X \ #
# $Z np=$Nimages \ #
# $Z recursivite=4 \ #
# $Z fr=1.05 \ #
# $Z ROTATION_OX=0 \ #
# $Z ROTATION_OY=$xTV/ROTATION$COORD_Y \ #
# $Z ROTATION_OZ=0 \ #
# $Z Lz=100 \ #
# $Z R=$xTV/YOU3.11. \ #
# $Z $formatI #
# #
# #
# $Z set _____images=$xTV/YOU3.11 #
# $Z set _____animation=$xiaf/YOU3.11 #
# $m4 _____include(_____xivPdf_09_2/.REFL.c.14._____U) #
# #
# :Fin_listG_YOU3_11: #
# #
# #
# Cette image peut etre regardee comme la rotation, en cours de generation, d'une structure #
# recursive autour de l'axe 'OY' mais aussi comme un stereogramme (contenant 4x3 vues #
# tridimensionnelles). #
v $xiaf/SIER.61$MPEG
v $xiaf/SIER.61$R04 p=$xiP/gris.01
# Generee (sur '$LACT1A') par : #
# #
# #
# :Debut_listG_SIER_61: #
# #
# $Z set _____images=$xTV/SIER #
# #
# $Z $DELETE $_____images.* >& $nul #
# #
# $Z set _____animation=$xiaf/SIER.61 #
# #
# $Z Sdu #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirf/SIER.61.1 \ #
# $Z $formatI \ #
# $Z R=$_____images.0001 \ #
# $Z $formatR_Sdu #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirf/SIER.61.2 \ #
# $Z $formatI \ #
# $Z R=$_____images.0002 \ #
# $Z $formatR_Sdu #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirf/SIER.61.3 \ #
# $Z $formatI \ #
# $Z R=$_____images.0003 \ #
# $Z $formatR_Sdu #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirf/SIER.61.4 \ #
# $Z $formatI \ #
# $Z R=$_____images.0004 \ #
# $Z $formatR_Sdu #
# #
# $Z $xci/format.01$X \ #
# $Z A=$xiirf/SIER.51.5 \ #
# $Z $formatI \ #
# $Z R=$_____images.0005 \ #
# $Z $formatR_Sdu #
# #
# $Z Sdu #
# #
# $Z set LImAgEs=$_____images #
# $Z set LIm=`ls $LImAgEs.* | $SE -e "s+^$LImAgEs\.0*\(.*\)"'$+\1+'` #
# $Z unset LImAgEs #
# #
# $Z set Premiere=$LIm[1] #
# $Z set Derniere=$LIm[4] #
# #
# $Z $xci/reduction_04$X A=$_____images. \ #
# $Z premiere=$Premiere derniere=$Derniere \ #
# $Z pas=1 \ #
# $Z moyenne=VRAI \ #
# $Z R=$_____animation$R04 \ #
# $Z $formatI #
# #
# $Z set Derniere=$LIm[$#LIm] #
# #
# $Z SET _____InverserMPEG=$NEXIST #
# $Z set _____PaletteMPEG=$xiP/gris.01 #
# $Z set _____LRepetitions=`GenListe $#LIm $Seconde` #
# $m4 _____include(_____xivPdf_06_2/.TUR2.1.11._____U) #
# #
# :Fin_listG_SIER_61: #
# #
#######################################################################################################################################
# #
# 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 $xiaf/FRA2.84$R16 p=$xiP/nuages.02
v $xiaf/FRA2.84$M$R16 p=$xiP/montagnes.01
v $xiaf/FRA2.84$m$R16 p=$xiP/montagnes.01
# Zoom autosimilaire sur un fractal bidimensionnel. #
v $xiaf/FRA2.B4$M$R16 p=$xiP/montagnes.01
# Erosion, tremblement de terre... #
v $xiaf/FRA3.53.1$R16 p=$xiP/gris.11
# Zoom autosimilaire sur un fractal tridimensionnel. #
v $xiaf/FRA3.94$R16
# Fractal tridimensionnel filamentaire. #
v $xiaf/PAYS.23$R16
v $xiaf/PAYS.24$R16
v $xiaf/PAYS.25$R16
# Lever de soleil avec les nuages qui passent, les merveilleux nuages... #
v $xiaf/PAYS.51$R16
# Les nuages qui passent, les merveilleux nuages... #
v $xiaf/RECU.32$R16
v $xiaf/RECU.42$R16
# Le chou-fleur... #
v $xiaf/RECU.76$R16
v $xiaf/RECU.76$m$R16
# Alien... #