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https://github.com/RetroDECK/Duckstation.git
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GPU/HW: Use upscaled texture coordinates for non-paletted textures
Fixes games which use render-to-texture effects not being upscaled.
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@ -519,7 +519,8 @@ std::string GPU_HW_ShaderGen::GenerateBatchVertexShader(bool textured)
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#if TEXTURED
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// Fudge the texture coordinates by half a pixel in screen-space.
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// This fixes the rounding/interpolation error on NVIDIA GPUs with shared edges between triangles.
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v_tex0 = float2(float(a_texcoord & 0xFFFFu) + EPSILON, float(a_texcoord >> 16) + EPSILON);
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v_tex0 = float2(float((a_texcoord & 0xFFFFu) * RESOLUTION_SCALE) + EPSILON,
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float((a_texcoord >> 16) * RESOLUTION_SCALE) + EPSILON);
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// base_x,base_y,palette_x,palette_y
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v_texpage.x = (a_texpage & 15u) * 64u * RESOLUTION_SCALE;
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@ -610,11 +611,30 @@ uint2 ApplyTextureWindow(uint2 coords)
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return uint2(x, y);
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}
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float4 SampleFromVRAM(uint4 texpage, uint2 icoord)
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uint2 ApplyUpscaledTextureWindow(uint2 coords)
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{
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icoord = ApplyTextureWindow(icoord);
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uint x = (uint(coords.x) & ~(u_texture_window_mask.x * 8u * RESOLUTION_SCALE)) | ((u_texture_window_offset.x & u_texture_window_mask.x) * 8u * RESOLUTION_SCALE);
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uint y = (uint(coords.y) & ~(u_texture_window_mask.y * 8u * RESOLUTION_SCALE)) | ((u_texture_window_offset.y & u_texture_window_mask.y) * 8u * RESOLUTION_SCALE);
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return uint2(x, y);
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}
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uint2 FloatToIntegerCoords(float2 coords)
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{
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// With the vertex offset applied at 1x resolution scale, we want to round the texture coordinates.
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// Floor them otherwise, as it currently breaks when upscaling as the vertex offset is not applied.
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return uint2((RESOLUTION_SCALE == 1u) ? roundEven(coords) : floor(coords));
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}
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float4 SampleFromVRAM(uint4 texpage, float2 coords)
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{
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#if PALETTE
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// We can't currently use upscaled coordinate for palettes because of how they're packed.
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// Not that it would be any benefit anyway, render-to-texture effects don't use palettes.
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#if !TEXTURE_FILTERING
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coords /= float2(RESOLUTION_SCALE, RESOLUTION_SCALE);
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#endif
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uint2 icoord = ApplyTextureWindow(FloatToIntegerCoords(coords));
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// adjust for tightly packed palette formats
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uint2 index_coord = icoord;
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#if PALETTE_4_BIT
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index_coord.x /= 4u;
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@ -626,24 +646,27 @@ float4 SampleFromVRAM(uint4 texpage, uint2 icoord)
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uint2 vicoord = uint2(texpage.x + index_coord.x * RESOLUTION_SCALE, fixYCoord(texpage.y + index_coord.y * RESOLUTION_SCALE));
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// load colour/palette
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float4 color = LOAD_TEXTURE(samp0, int2(vicoord), 0);
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float4 texel = LOAD_TEXTURE(samp0, int2(vicoord), 0);
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uint vram_value = RGBA8ToRGBA5551(texel);
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// apply palette
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#if PALETTE
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#if PALETTE_4_BIT
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uint subpixel = icoord.x & 3u;
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uint vram_value = RGBA8ToRGBA5551(color);
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uint palette_index = (vram_value >> (subpixel * 4u)) & 0x0Fu;
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#elif PALETTE_8_BIT
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uint subpixel = icoord.x & 1u;
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uint vram_value = RGBA8ToRGBA5551(color);
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uint palette_index = (vram_value >> (subpixel * 8u)) & 0xFFu;
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#endif
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uint2 palette_icoord = uint2(texpage.z + (palette_index * RESOLUTION_SCALE), fixYCoord(texpage.w));
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color = LOAD_TEXTURE(samp0, int2(palette_icoord), 0);
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#endif
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return color;
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// sample palette
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uint2 palette_icoord = uint2(texpage.z + (palette_index * RESOLUTION_SCALE), fixYCoord(texpage.w));
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return LOAD_TEXTURE(samp0, int2(palette_icoord), 0);
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#else
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// Direct texturing. Render-to-texture effects. Use upscaled coordinates.
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uint2 icoord = ApplyUpscaledTextureWindow(FloatToIntegerCoords(coords));
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uint2 direct_icoord = uint2(texpage.x + icoord.x, fixYCoord(texpage.y + icoord.y));
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return LOAD_TEXTURE(samp0, int2(direct_icoord), 0);
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#endif
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}
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#endif
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)";
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@ -676,16 +699,20 @@ float4 SampleFromVRAM(uint4 texpage, uint2 icoord)
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#if TEXTURE_FILTERING
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// Compute the coordinates of the four texels we will be interpolating between.
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// TODO: Find some way to clamp this to the triangle texture coordinates?
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float2 texel_top_left = frac(v_tex0) - float2(0.5, 0.5);
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float2 downscaled_coords = v_tex0;
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#if PALETTE
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downscaled_coords /= float2(RESOLUTION_SCALE, RESOLUTION_SCALE);
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#endif
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float2 texel_top_left = frac(downscaled_coords) - float2(0.5, 0.5);
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float2 texel_offset = sign(texel_top_left);
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float4 fcoords = max(v_tex0.xyxy + float4(0.0, 0.0, texel_offset.x, texel_offset.y),
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float4 fcoords = max(downscaled_coords.xyxy + float4(0.0, 0.0, texel_offset.x, texel_offset.y),
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float4(0.0, 0.0, 0.0, 0.0));
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// Load four texels.
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float4 s00 = SampleFromVRAM(v_texpage, uint2(fcoords.xy));
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float4 s10 = SampleFromVRAM(v_texpage, uint2(fcoords.zy));
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float4 s01 = SampleFromVRAM(v_texpage, uint2(fcoords.xw));
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float4 s11 = SampleFromVRAM(v_texpage, uint2(fcoords.zw));
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float4 s00 = SampleFromVRAM(v_texpage, fcoords.xy);
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float4 s10 = SampleFromVRAM(v_texpage, fcoords.zy);
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float4 s01 = SampleFromVRAM(v_texpage, fcoords.xw);
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float4 s11 = SampleFromVRAM(v_texpage, fcoords.zw);
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// Compute alpha from how many texels aren't pixel color 0000h.
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float a00 = float(VECTOR_NEQ(s00, TRANSPARENT_PIXEL_COLOR));
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@ -703,9 +730,7 @@ float4 SampleFromVRAM(uint4 texpage, uint2 icoord)
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texcol.rgb /= float3(ialpha, ialpha, ialpha);
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semitransparent = (texcol.a != 0.0);
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#else
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// With the vertex offset applied at 1x resolution scale, we want to round the texture coordinates.
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// Floor them otherwise, as it currently breaks when upscaling as the vertex offset is not applied.
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float4 texcol = SampleFromVRAM(v_texpage, uint2((RESOLUTION_SCALE == 1u) ? roundEven(v_tex0) : floor(v_tex0)));
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float4 texcol = SampleFromVRAM(v_texpage, v_tex0);
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if (VECTOR_EQ(texcol, TRANSPARENT_PIXEL_COLOR))
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discard;
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@ -1008,7 +1033,8 @@ std::string GPU_HW_ShaderGen::GenerateCopyFragmentShader()
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return ss.str();
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}
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std::string GPU_HW_ShaderGen::GenerateDisplayFragmentShader(bool depth_24bit, GPU_HW::InterlacedRenderMode interlace_mode)
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std::string GPU_HW_ShaderGen::GenerateDisplayFragmentShader(bool depth_24bit,
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GPU_HW::InterlacedRenderMode interlace_mode)
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{
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std::stringstream ss;
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WriteHeader(ss);
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