mirror of
https://github.com/Xaymar/obs-StreamFX
synced 2024-12-04 17:17:25 +00:00
fdcecf25c9
Converts 'https://www.shadertoy.com/view/3l23Rh' into a Shader usable by StreamFX's Shader Source.
219 lines
6.1 KiB
Text
219 lines
6.1 KiB
Text
// Protean clouds by nimitz (twitter: @stormoid)
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// https://www.shadertoy.com/view/3l23Rh
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// License Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License
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// Contact the author for other licensing options
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#define vec2 float2
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#define vec3 float3
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#define vec4 float4
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#define ivec2 int2
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#define ivec3 int3
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#define ivec4 int4
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#define mat2 float2x2
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#define mat3 float3x3
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#define mat4 float4x4
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#define fract frac
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#define mix lerp
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#define iTime Time.x
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#define iResolution ViewSize
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uniform float2 mouse<
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string name = "Virtual Mouse Coordinates";
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string field_type = "slider";
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float2 minimum = {0, 0};
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float2 maximum = {100., 100.};
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float2 scale = {.01, .01};
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float2 step = {.01, .01};
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> = {0., 0.};
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uniform float4x4 ViewProj<
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bool automatic = true;
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>;
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uniform float4 Time<
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bool automatic = true;
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>;
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uniform float4 ViewSize<
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bool automatic = true;
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>;
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int2 iMouse() {
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return int2(mouse.x * ViewSize.x, mouse.y * ViewSize.y);
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}
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/*
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Technical details:
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The main volume noise is generated from a deformed periodic grid, which can produce
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a large range of noise-like patterns at very cheap evalutation cost. Allowing for multiple
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fetches of volume gradient computation for improved lighting.
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To further accelerate marching, since the volume is smooth, more than half the the density
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information isn't used to rendering or shading but only as an underlying volume distance to
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determine dynamic step size, by carefully selecting an equation (polynomial for speed) to
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step as a function of overall density (not necessarialy rendered) the visual results can be
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the same as a naive implementation with ~40% increase in rendering performance.
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Since the dynamic marching step size is even less uniform due to steps not being rendered at all
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the fog is evaluated as the difference of the fog integral at each rendered step.
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*/
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mat2 rot(in float a) {
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float c = cos(a), s = sin(a);
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return mat2(c,-s,s,c);
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}
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float mag2(vec2 p) {
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return dot(p,p);
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}
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float linstep(in float mn, in float mx, in float x) {
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return clamp((x - mn)/(mx - mn), 0., 1.);
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}
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// ToDo: obs parser doesn't like static - ensure that these move into functions
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//float prm1;
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//vec2 bsMo;
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vec2 disp(float t) {
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return vec2(sin(t*0.22)*1., cos(t*0.175)*1.) * 2.;
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}
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vec2 map(vec3 p, inout float prm1, inout vec2 bsMo) {
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const mat3 m3 = mat3(0.33338, 0.56034, -0.71817, -0.87887, 0.32651, -0.15323, 0.15162, 0.69596, 0.61339)*1.93;
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vec3 p2 = p;
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p2.xy -= disp(p.z).xy;
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p.xy = mul(p.xy, rot(sin(p.z+iTime)*(0.1 + prm1*0.05) + iTime*0.09));
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float cl = mag2(p2.xy);
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float d = 0.;
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p *= .61;
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float z = 1.;
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float trk = 1.;
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float dspAmp = 0.1 + prm1*0.2;
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for(int i = 0; i < 5; i++) {
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p += sin(p.zxy*0.75*trk + iTime*trk*.8)*dspAmp;
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d -= abs(dot(cos(p), sin(p.yzx))*z);
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z *= 0.57;
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trk *= 1.4;
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p = mul(p, m3);
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}
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d = abs(d + prm1*3.)+ prm1*.3 - 2.5 + bsMo.y;
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return vec2(d + cl*.2 + 0.25, cl);
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}
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vec4 render( in vec3 ro, in vec3 rd, float time, inout float prm1, inout vec2 bsMo) {
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vec4 rez = vec4(0, 0, 0, 0);
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const float ldst = 8.;
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float2 dispt = disp(time + ldst) * 0.5;
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vec3 lpos = vec3(dispt.x, dispt.y, time + ldst);
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float t = 1.5;
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float fogT = 0.;
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for(int i=0; i<130; i++) {
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if(rez.a > 0.99)break;
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vec3 pos = ro + t*rd;
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vec2 mpv = map(pos, prm1, bsMo);
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float den = clamp(mpv.x-0.3,0.,1.)*1.12;
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float dn = clamp((mpv.x + 2.),0.,3.);
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vec4 col = vec4(0, 0, 0, 0);
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if (mpv.x > 0.6) {
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col = vec4(sin(vec3(5.,0.4,0.2) + mpv.y*0.1 +sin(pos.z*0.4)*0.5 + 1.8)*0.5 + 0.5,0.08);
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col *= den*den*den;
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col.rgb *= linstep(4.,-2.5, mpv.x)*2.3;
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float dif = clamp((den - map(pos+.8, prm1, bsMo).x)/9., 0.001, 1. );
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dif += clamp((den - map(pos+.35, prm1, bsMo).x)/2.5, 0.001, 1. );
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col.xyz *= den*(vec3(0.005,.045,.075) + 1.5*vec3(0.033,0.07,0.03)*dif);
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}
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float fogC = exp(t*0.2 - 2.2);
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col.rgba += vec4(0.06,0.11,0.11, 0.1)*clamp(fogC-fogT, 0., 1.);
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fogT = fogC;
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rez = rez + col*(1. - rez.a);
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t += clamp(0.5 - dn*dn*.05, 0.09, 0.3);
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}
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return clamp(rez, 0.0, 1.0);
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}
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float getsat(vec3 c) {
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float mi = min(min(c.x, c.y), c.z);
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float ma = max(max(c.x, c.y), c.z);
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return (ma - mi)/(ma+ 1e-7);
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return 0;
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}
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//from my "Will it blend" shader (https://www.shadertoy.com/view/lsdGzN)
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vec3 iLerp(in vec3 a, in vec3 b, in float x) {
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vec3 ic = mix(a, b, x) + vec3(1e-6,0.,0.);
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float sd = abs(getsat(ic) - mix(getsat(a), getsat(b), x));
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vec3 dir = normalize(vec3(2.*ic.x - ic.y - ic.z, 2.*ic.y - ic.x - ic.z, 2.*ic.z - ic.y - ic.x));
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float lgt = dot(vec3(1.0, 1.0, 1.0), ic);
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float ff = dot(dir, normalize(ic));
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ic += 1.5*dir*sd*ff*lgt;
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return clamp(ic,0.,1.);
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}
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void mainImage( out vec4 fragColor, in vec2 fragCoord ) {
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float prm1 = 0.;
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vec2 bsMo = {0., 0.};
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vec2 q = fragCoord.xy/iResolution.xy;
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vec2 p = (fragCoord.xy - 0.5*iResolution.xy)/iResolution.y;
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bsMo = (iMouse().xy - 0.5*iResolution.xy)/iResolution.y;
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float time = iTime*3.;
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vec3 ro = vec3(0,0,time);
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ro += vec3(sin(iTime)*0.5,sin(iTime*1.)*0.,0);
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float dspAmp = .85;
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ro.xy += disp(ro.z)*dspAmp;
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float tgtDst = 3.5;
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vec3 target = normalize(ro - vec3(disp(time + tgtDst)*dspAmp, time + tgtDst));
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ro.x -= bsMo.x*2.;
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vec3 rightdir = normalize(cross(target, vec3(0,1,0)));
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vec3 updir = normalize(cross(rightdir, target));
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rightdir = normalize(cross(updir, target));
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vec3 rd = normalize((p.x*rightdir + p.y*updir)*1. - target);
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rd.xy = mul(rd.xy, rot(-disp(time + 3.5).x*0.2 + bsMo.x));
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prm1 = smoothstep(-0.4, 0.4,sin(iTime*0.3));
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vec4 scn = render(ro, rd, time, prm1, bsMo);
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vec3 col = scn.rgb;
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col = iLerp(col.bgr, col.rgb, clamp(1.-prm1,0.05,1.));
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col = pow(col, vec3(.55,0.65,0.6))*vec3(1.,.97,.9);
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col *= pow( 16.0*q.x*q.y*(1.0-q.x)*(1.0-q.y), 0.12)*0.7+0.3; //Vign
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fragColor = vec4( col, 1.0 );
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}
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struct VertFragData {
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float4 pos : POSITION;
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float2 uv : TEXCOORD0;
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};
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VertFragData VSDefault(VertFragData vtx) {
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vtx.pos = mul(float4(vtx.pos.xyz, 1.0), ViewProj);
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return vtx;
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}
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float4 PSDefault(VertFragData vtx) : TARGET {
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float4 col = float4(1., 1., 1., 1.);
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mainImage(col, vtx.uv * ViewSize.xy);
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return col;
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}
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technique Draw
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{
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pass
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{
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vertex_shader = VSDefault(vtx);
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pixel_shader = PSDefault(vtx);
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}
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}
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