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wip du 2024/01/14

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Tonton Th 2025-01-14 00:38:40 +01:00
parent 8c30830837
commit 8d438d5885
1 changed files with 59 additions and 16 deletions
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75
essai.pov
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@ -7,30 +7,65 @@
#include "globals.inc" #include "globals.inc"
#declare NormClock = clock / 360.0;
#include "contexte.inc" #include "contexte.inc"
#include "elements.inc" #include "elements.inc"
#include "hexabenz.inc" #include "hexabenz.inc"
// ======================================================= // =======================================================
#macro GyroPhare_mat ()
cylinder {
0, y*H_gyro, R_gyro
#if (rand(Rng1) < 0.5)
texture { T_Stone25 scale 1+rand(Rng1) }
#else
texture { T_Stone6 }
#end
}
#end // macro
#macro GyroPhare_lampe ()
union {
difference {
cylinder { 0, y*0.20, R_gyro }
cylinder { y*0.01, y*0.19, R_gyro*0.97 }
#local WB = 0.015;
box { <-1, 0.03, -WB>, <1, 0.18, WB> }
box { <-WB, 0.03, -1>, <WB, 0.18, 1> }
#undef WB
pigment { color White }
rotate y*(0.5-rand(Rng1))*clock
}
light_source { y*0.10 rgb <0.8, 0.9, 0.999999999> }
}
#end // macro
#macro GyroPhare ()
union {
object { GyroPhare_mat () }
object { GyroPhare_lampe ()
// rotate y*rand(Rng1)*clock
translate y*(H_gyro+0.02) }
}
#end // macro
// =======================================================
#macro Bubble () #macro Bubble ()
sphere { sphere {
0, 0.10 0, 0.06
#if ( rand(Rng1) < 0.333 ) #if ( rand(Rng1) < 0.333 )
texture { Ruby_Glass } texture { Ruby_Glass }
#elseif ( rand(Rng1) < 0.666 ) #elseif ( rand(Rng1) < 0.666 )
tus texture { Orange_Glass } texture { Orange_Glass }
#else #else
texture { Gold_Nugget scale 0.56 } texture { Gold_Nugget }
#end #end
} }
#end #end
#macro Un_Machin () #macro Un_Machin ()
union { union {
#for (Y, -8, 8, 2) #for (Y, 1, 8, 1)
object { Bubble() translate y*Y*0.1 } object { Bubble() translate y*Y*0.1 }
#end #end
} }
@ -39,28 +74,36 @@ union {
#declare Les_Machins = object #declare Les_Machins = object
{ {
union { union {
#for (Xp, -10, 10) #local Rk = 4.15;
#if ( rand(Rng1) < 0.5 ) #for (foo, 0, 360, 15)
object { HexaCone_radar_A translate x*Xp*0.6 } #local Xpos = Rk * sin(radians(foo));
#local Zpos = Rk * cos(radians(foo));
#if ( rand(Rng1) < 0.40 )
object { GyroPhare () translate <Xpos, 0, Zpos> }
#else #else
object { Un_Machin () translate x*Xp*0.6 } object { Un_Machin () translate <Xpos, 0.33, Zpos> }
#end #end
#end #end
#undef Rk
} }
} }
object { Les_Machins } object { Les_Machins translate y*0.01}
object { Le_Sol }
// object { Repere } // object { Repere }
// ======================================================= // =======================================================
light_source { <-8, 7, -9>, rgb <0.81, 0.65, NormClock> } // light_source { <-8, 7, -9>, rgb <0.81, 0.65, NormClock> }
light_source { < 11, 7, 4>, rgb <1-NormClock, 0.28, 0.80> } // light_source { < 11, 7, 4>, rgb <1-NormClock, 0.28, 0.80> }
#local CamX = -12.7 + (4.8*NormClock);
#local CamY = 8.81 + (11*sqrt(NormClock));
camera { camera {
location <-10.7+4*NormClock, 2.81, 8.09> location <CamX, CamY, 9.99>
look_at <0.0, 0.0, 0> look_at <0, 0, 0>
angle 44 angle 42
} }