home
***
CD-ROM
|
disk
|
FTP
|
other
***
search
/
Chip 2007 January, February, March & April
/
Chip-Cover-CD-2007-02.iso
/
Pakiet multimedia
/
Animacje, filmy i prezentacje
/
Odtwarzacze filmow
/
Media Player Classic 6.4.9 9xme
/
mplayerc.exe
/
FILE
/
709
< prev
next >
Wrap
Text File
|
2006-03-20
|
1KB
|
61 lines
sampler s0 : register(s0);
float4 p0 : register(c0);
float4 p1 : register(c1);
#define width (p0[0])
#define height (p0[1])
#define counter (p0[2])
#define clock (p0[3])
#define one_over_width (p1[0])
#define one_over_height (p1[1])
#define PI acos(-1)
float4 main(float2 tex : TEXCOORD0) : COLOR
{
// - this is a very simple raytracer, one sphere only
// - no reflection or refraction, yet (my ati 9800 has a 64 + 32 instruction limit...)
float3 pl = float3(3,-3,-4); // light pos
float4 cl = 0.4; // light color
float3 pc = float3(0,0,-1); // cam pos
float3 ps = float3(0,0,0.5); // sphere pos
float r = 0.65; // sphere radius
float3 pd = normalize(float3(tex.x-0.5, tex.y-0.5, 0) - pc);
float A = 1;
float B = 2*dot(pd, pc - ps);
float C = dot(pc - ps, pc - ps) - r*r;
float D = B*B - 4*A*C;
float4 c0 = 0;
if(D >= 0)
{
// t2 is the smaller, obviously...
// float t1 = (-B + sqrt(D)) / (2*A);
// float t2 = (-B - sqrt(D)) / (2*A);
// float t = min(t1, t2);
float t = (-B - sqrt(D)) / (2*A);
// intersection data
float3 p = pc + pd*t;
float3 n = normalize(p - ps);
float3 l = normalize(pl - p);
// mapping the image onto the sphere
tex = acos(-n)/PI;
// rotate it
tex.x = frac(tex.x + frac(clock/10));
// diffuse + specular
c0 = tex2D(s0, tex) * dot(n, l) + cl * pow(max(dot(l, reflect(pd, n)), 0), 50);
}
return c0;
}