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/***************************************************************************
ball.pov - script for rendering Kolor Lines graphics
-------------------
begin : Fri May 19 2000
copyright : (C) 2000 by Roman Razilov
email : Roman.Razilov@gmx.de
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#version 3.0
// Objectname = Main View
// Objecttype = view
// This camera is build for ratio 451:277
#include "colors.inc"
#include "textures.inc"
#declare BallColor = Green
#include "clr.inc"
#declare CELLSIZE = 32
#declare PIXTIME = 10
#declare BALLDOWN = 3
#declare BALLSPACE = 4
#warning concat("XXXX clock:",str(clock,5,2),"\n")
#switch (clock)
// --------------------burning ball-------------------
#range (0,1.001)
#declare explosion = 1
#declare jump = 0
#declare n = 0
#declare t0 = 0
#declare t1 = 0.2
#declare t2 = 0.5
#declare t3 = 0.8
#declare t4 = 1
#declare tt = clock
#if ( tt = t0 )
//turbulence
#declare tur = 0
#declare trb = 0
#declare trf = 0
#declare pf = 0
#end
#if ( tt > t0 & tt <= t1 )
#declare tl = (tt - t0)/(t1-t0)
#declare tur = 3+(0.2-3)*tl
#declare trb = 0+(0-0)*tl
#declare trf = 1+(3-1)*tl
#declare pf = 0+(0.3-0)*t1
#end
#if ( tt > t1 & tt <= t2 )
#declare tl = (tt - t1)/(t2-t1)
#declare tur = 0.2+(0.5-0.1)*tl
#declare trb = 0+(1-0)*tl
#declare trf = 3+(1-3)*tl
#declare pf = 0.3+(0.2-0.3)*t1
#end
#if ( tt > t2 & tt <= t3 )
#declare tl = (tt - t2)/(t3-t2)
#declare tur = 0.5+(2-0.5)*tl
#declare trb = 1+(1-1)*tl
#declare trf = 1+(1-1)*tl
#declare pf = 0.2-(0.0-0.2)*t1
#end
#if ( tt > t3 )
#declare tl = (tt - t3)/(t4-t3)
#declare tur = 2+(5-2)*tl
#declare trb = 1+(1-1)*tl
#declare trf = 1+(0-1)*tl
#declare pf = 0.0-(0.0-0.0)*t1
#end
// ball position / size
#declare by = 0
#declare bh = CELLSIZE-2-BALLSPACE
#declare bw = CELLSIZE-2-BALLSPACE
#break
// ----------------borning ball----------------------
#range (5,6.001)
#declare explosion = 0
#declare jump = 0
// fire turbulence
#declare tur = 0
// trancperancy ball
#declare trb = 0
// trancperancy fire
#declare trf = 0
// lambda
#declare pf = 0
// relative clock
#declare tt = clock - 5
// y position
#declare by = 0
#declare r=sqrt(tt)
#declare bh = (CELLSIZE-2-BALLSPACE)*r
#declare bw = (CELLSIZE-2-BALLSPACE)*r
// normal
#declare n = (1-tt)*r*2
#break
// -------------jumping ball----------------------
#range (10,11.001)
#declare explosion = 0
#declare jump = 1
#declare tur = 0
#declare trb = 0
#declare trf = 0
#declare pf = 0
#declare n = 0
#declare tt = clock - 10
// ball free fall: y = -(g * t^2)/2
// ball jums on X*sin( sqrt(k)*(t0 - t1 + t ) )
// t whole motion time
// g - gravity acceleration
// A - frei movement amplitude
// BB way with deflation
#declare A = BALLDOWN
#declare B = BALLSPACE
#declare ta = PIXTIME
#declare k = (pi + 2*sqrt( B*(A+B))/A - acos( A/(A+2*B)) )/ta
#declare k = k*k
#warning concat("XXXX k:",str(k,5,2),"\n")
#declare g = k*A*A/(2*(A+B))
#warning concat("XXXX g:",str(g,5,2),"\n")
#declare t1 = sqrt(2*B/g)
#warning concat("XXXX t1:",str(t1,5,2),"\n")
#declare X = A*(A+2*B)/(2*(A+B))
#warning concat("XXXX X:",str(X,5,2),"\n")
#declare tc = PIXTIME - tt*PIXTIME
#warning concat("XXXX tc:",str(tc,5,2),"\n")
// ball position
#if (tc < t1)
#declare by = B/2 - g*tc*tc/2
#else
#declare by = -B/2 - g/k - X*cos( sqrt(k)*(ta-tc))
#end
#if ( by < -2 )
#declare bh=CELLSIZE-2+2*by
#declare bw = CELLSIZE-2-BALLSPACE+(-by-2)
#else
#declare bh = CELLSIZE-2-BALLSPACE
#declare bw = CELLSIZE-2-BALLSPACE
#end
#break
#else
#warning " ERROR, clock out of range !!! \n"
#end
#warning concat("XXXX clock:",str(clock,5,2),"\n")
#warning concat("XXXX tt:",str(tt,5,2),"\n")
camera
{
orthographic
location <0,0,-100>
look_at <0,0,0>
up (CELLSIZE-2)*y
right (CELLSIZE)*x
}
// Global settings
global_settings
{
ambient_light rgb<0.5,0.5,0.5>
}
light_source
{
<-400, 600, -600>
color White
cylinder
radius 200
falloff 1000
tightness 1
point_at <0,0,0>
}
// Background
background
{
color rgb<.5,.5,.5>
}
// fire
#if (explosion = 1)
sphere { 0, 1
pigment { color rgbt<0,0,0,1>
}
halo {
emitting
spherical_mapping
poly
max_value 40
exponent 0.1
linear
turbulence tur
// phase pf
lambda 2-pf
frequency 1
octaves 6
color_map {
[ 0 color rgbt <1, 0, 0, 1> ]
[ 0.2 color rgbt <1, 0, 0, 1-1*trf> ]
[ 0.5 color rgbt <1, 0, 0, 1-3*trf> ]
[ 0.9 color rgbt <1, 1, 0, 1-4*trf> ]
[ 1 color rgbt <1, 1, 0.5, 1-6*trf> ]
}
samples 30
}
hollow
scale<15,15,15>
translate <-0.5,-0.5,0>
}
#end
// Ball
#if ( trb < 1 & bh > 0 )
sphere
{
<0,0,0>,1
pigment {
wood
// agate_turb 0.5
turbulence .1
frequency 2
// lambda
rotate <30,10,15>
color_map {
[0.5 BallColor transmit trb]
[0.3 BallColor*0.95 transmit trb]
[0.2 BallColor*0.9 transmit trb]
}
}
no_shadow
#if ( n > 0 )
normal
{
//wood 0.5
//frequency 2
//turbulence .1
//rotate <30,10,15>
bumps n
scale 0.3
}
#end
finish {
ambient 0.3
diffuse 0.8
specular 1
roughness 0.001
reflection .1
phong 0.9 * ( 1-trb)
phong_size 60
}
#if (trb > 0)
hollow
#end
scale <bw/2,bh/2,bw/2>
translate <-0.5,by - 0.5,0>
#warning concat("XXXX by:",str(by,5,2),"\n")
#warning concat("XXXX bh:",str(bh,5,2),"\n")
#warning concat("XXXX bw:",str(bw,5,2),"\n")
}
#end
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