mirror of
https://github.com/Xaymar/obs-StreamFX
synced 2024-11-11 14:25:05 +00:00
c59ec2511b
This refactors the SDF Effects to use a normal blend function instead of doing the blend in the effect itself, improving quality and reducing problematic sampling issues. In addition to this, the effect files have been cleaned up slightly and renamed to their proper names. Glow and Stroke are now supported, which solves both #2 and #4 in one go. The caching optimization has also now been implemented, reducing the number of renders for this filter to 1 for each tick.
227 lines
5.4 KiB
Text
227 lines
5.4 KiB
Text
// 2D Signed Distance Field Generator
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//
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// This will produce an approximated Signed Distance Field on the fly.
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// Version 1.0:
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// - Inputs:
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// - _image: Source Image
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// - _size: Size of SDF Frame
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// - _sdf: Last SDF Frame
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// - _threshold: Alpha Threshold
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// - Output:
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// - float4
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// - R: If outside, distance to nearest wall, otherwise 0.
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// - G: If inside, distance to nearest wall, otherwise 0.
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// - BA: UV coordinates of nearest wall.
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//
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// Version 1.1:
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// - See Version 1.0
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// - Adjusted R, G to be 0..1 range, multiply by 65536.0 to get proper results.
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// -------------------------------------------------------------------------------- //
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// Defines
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#define MAX_DISTANCE 65536.0
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#define NEAR_INFINITE 18446744073709551616.0
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#define RANGE 4
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// -------------------------------------------------------------------------------- //
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// OBS Default
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uniform float4x4 ViewProj;
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// Inputs
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uniform texture2d _image;
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uniform float2 _size;
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uniform texture2d _sdf; // in, out - swap rendering
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uniform float _threshold;
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sampler_state sdfSampler {
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Filter = Point;
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AddressU = Clamp;
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AddressV = Clamp;
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};
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sampler_state sdfSampler1_1 {
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Filter = Linear;
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AddressU = Border;
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AddressV = Border;
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BorderColor = FFFFFFFF;
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};
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sampler_state imageSampler {
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Filter = Point;
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AddressU = Clamp;
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AddressV = Clamp;
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};
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struct VertDataIn {
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float4 pos : POSITION;
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float2 uv : TEXCOORD0;
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};
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struct VertDataOut {
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float4 pos : POSITION;
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float2 uv : TEXCOORD0;
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};
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VertDataOut VSDefault(VertDataIn v_in)
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{
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VertDataOut vert_out;
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vert_out.pos = mul(float4(v_in.pos.xyz, 1.0), ViewProj);
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vert_out.uv = v_in.uv;
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return vert_out;
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}
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float4 PS_SDFGenerator_v1(VertDataOut v_in) : TARGET
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{
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float4 outval = float4(0.0, 0.0, v_in.uv.x, v_in.uv.y);
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// utility values
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float2 uv_step = 1.0 / _size;
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float lowest = NEAR_INFINITE;
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float2 lowest_source = float2(NEAR_INFINITE, NEAR_INFINITE);
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float2 lowest_origin = float2(NEAR_INFINITE, NEAR_INFINITE);
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// inputs
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float imageA = _image.Sample(imageSampler, v_in.uv).a;
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// sdf contains 4 values: R = Positive Distance, G = Negative Distance, BA = UV of nearest edge.
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if (imageA > _threshold) {
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// Inside
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// TODO: Optimize to be O(n*n) instead of (2n*2n)
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for (int x = -RANGE; x < RANGE; x++) {
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for (int y = -RANGE; y < RANGE; y++) {
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if ((x == 0) && (y == 0)) {
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continue;
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}
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float2 dtr = float2(x, y);
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float2 dt = uv_step * dtr;
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float4 here = _sdf.Sample(sdfSampler, v_in.uv + dt);
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float dst = abs(distance(float2(0., 0.), dtr));
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if (lowest > (here.g + dst)) {
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lowest = here.g + dst;
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lowest_source = v_in.uv + dt;
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lowest_origin = here.ba;
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}
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}
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}
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if (lowest < NEAR_INFINITE) {
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outval.g = lowest;
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outval.ba = lowest_origin;
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}
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} else {
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// Outside
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// TODO: Optimize to be O(n*n) instead of (2n*2n)
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for (int x = -RANGE; x < RANGE; x++) {
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for (int y = -RANGE; y < RANGE; y++) {
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if ((x == 0) && (y == 0)) {
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continue;
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}
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float2 dtr = float2(x, y);
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float2 dt = uv_step * dtr;
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float4 here = _sdf.Sample(sdfSampler, v_in.uv + dt);
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float dst = abs(distance(float2(0., 0.), dtr));
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if (lowest > (here.r + dst)) {
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lowest = here.r + dst;
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lowest_source = v_in.uv + dt;
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lowest_origin = here.ba;
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}
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}
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}
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if (lowest < NEAR_INFINITE) {
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outval.r = lowest;
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outval.ba = lowest_origin;
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}
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}
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return outval;
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}
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float4 PS_SDFGenerator_v1_1(VertDataOut v_in) : TARGET
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{
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const float step = 1.0 / MAX_DISTANCE;
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float4 outval = float4(0.0, 0.0, v_in.uv.x, v_in.uv.y);
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// utility values
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float2 uv_step = 1.0 / _size;
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float lowest = NEAR_INFINITE;
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float2 lowest_source = float2(NEAR_INFINITE, NEAR_INFINITE);
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float2 lowest_origin = float2(NEAR_INFINITE, NEAR_INFINITE);
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// inputs
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float imageA = _image.Sample(imageSampler, v_in.uv).a;
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float4 self = _sdf.Sample(sdfSampler1_1, v_in.uv);
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if (imageA > _threshold) {
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// Inside
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// TODO: Optimize to be O(n*n) instead of (2n*2n)
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for (int x = -RANGE; x < RANGE; x++) {
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for (int y = -RANGE; y < RANGE; y++) {
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if ((x == 0) && (y == 0)) {
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continue;
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}
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float2 dtr = float2(x, y);
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float2 dt = uv_step * dtr;
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float4 here = _sdf.Sample(sdfSampler1_1, v_in.uv + dt);
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float dst = abs(distance(float2(0., 0.), dtr)) * step;
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if (lowest > (here.g + dst)) {
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lowest = here.g + dst;
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lowest_source = v_in.uv + dt;
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lowest_origin = here.ba;
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}
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}
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}
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if (lowest < NEAR_INFINITE) {
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outval.g = lowest;
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outval.ba = lowest_origin;
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} else {
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outval.g = self.g + step;
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}
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} else {
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// Outside
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// TODO: Optimize to be O(n*n) instead of (2n*2n)
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for (int x = -RANGE; x < RANGE; x++) {
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for (int y = -RANGE; y < RANGE; y++) {
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if ((x == 0) && (y == 0)) {
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continue;
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}
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float2 dtr = float2(x, y);
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float2 dt = uv_step * dtr;
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float4 here = _sdf.Sample(sdfSampler1_1, v_in.uv + dt);
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float dst = abs(distance(float2(0., 0.), dtr)) * step;
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if (lowest > (here.r + dst)) {
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lowest = here.r + dst;
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lowest_source = v_in.uv + dt;
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lowest_origin = here.ba;
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}
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}
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}
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if (lowest < NEAR_INFINITE) {
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outval.r = lowest;
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outval.ba = lowest_origin;
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} else {
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outval.r = self.r + step;
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}
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}
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return outval;
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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(v_in);
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pixel_shader = PS_SDFGenerator_v1_1(v_in);
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}
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}
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