mirror of
https://github.com/dolphin-emu/dolphin.git
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732 lines
32 KiB
C++
732 lines
32 KiB
C++
// Copyright 2015 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "VideoCommon/UberShaderVertex.h"
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#include "Common/EnumUtils.h"
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#include "VideoCommon/ConstantManager.h"
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#include "VideoCommon/DriverDetails.h"
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#include "VideoCommon/NativeVertexFormat.h"
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#include "VideoCommon/UberShaderCommon.h"
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#include "VideoCommon/VertexShaderGen.h"
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#include "VideoCommon/VideoCommon.h"
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#include "VideoCommon/XFMemory.h"
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namespace UberShader
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{
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VertexShaderUid GetVertexShaderUid()
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{
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VertexShaderUid out;
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vertex_ubershader_uid_data* const uid_data = out.GetUidData();
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uid_data->num_texgens = xfmem.numTexGen.numTexGens;
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return out;
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}
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static void GenVertexShaderTexGens(APIType api_type, const ShaderHostConfig& host_config,
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u32 num_texgen, ShaderCode& out);
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static void LoadVertexAttribute(ShaderCode& code, const ShaderHostConfig& host_config, u32 indent,
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std::string_view name, std::string_view shader_type,
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std::string_view stored_type, std::string_view offset_name = {});
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ShaderCode GenVertexShader(APIType api_type, const ShaderHostConfig& host_config,
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const vertex_ubershader_uid_data* uid_data)
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{
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const bool msaa = host_config.msaa;
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const bool ssaa = host_config.ssaa;
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const bool per_pixel_lighting = host_config.per_pixel_lighting;
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const bool vertex_rounding = host_config.vertex_rounding;
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const bool vertex_loader =
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host_config.backend_dynamic_vertex_loader || host_config.backend_vs_point_line_expand;
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const u32 num_texgen = uid_data->num_texgens;
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ShaderCode out;
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out.Write("// {}\n\n", *uid_data);
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out.Write("{}", s_lighting_struct);
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// uniforms
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out.Write("UBO_BINDING(std140, 2) uniform VSBlock {{\n");
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out.Write("{}", s_shader_uniforms);
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out.Write("}};\n");
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if (vertex_loader)
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{
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out.Write("UBO_BINDING(std140, 4) uniform GSBlock {{\n");
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out.Write("{}", s_geometry_shader_uniforms);
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out.Write("}};\n");
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}
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out.Write("struct VS_OUTPUT {{\n");
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GenerateVSOutputMembers(out, api_type, num_texgen, host_config, "", ShaderStage::Vertex);
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out.Write("}};\n\n");
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WriteIsNanHeader(out, api_type);
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WriteBitfieldExtractHeader(out, api_type, host_config);
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WriteLightingFunction(out);
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if (vertex_loader)
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{
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out.Write(R"(
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SSBO_BINDING(1) readonly restrict buffer Vertices {{
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uint vertex_buffer[];
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}};
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)");
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if (api_type == APIType::D3D)
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{
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// Write a function to get an offset into vertex_buffer corresponding to this vertex.
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// This must be done differently for D3D compared to OpenGL/Vulkan/Metal, as on OpenGL, etc.,
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// gl_VertexID starts counting at the base vertex specified in glDrawElementsBaseVertex,
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// while on D3D, SV_VertexID (which spirv-cross translates gl_VertexID into) starts counting
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// at 0 regardless of the BaseVertexLocation value passed to DrawIndexed. In both cases,
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// offset 0 of vertex_buffer corresponds to index 0 with basevertex set to 0, so we have to
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// manually apply the basevertex offset for D3D
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// D3D12 uses a root constant for this uniform, since it changes with every draw.
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// D3D11 doesn't currently support dynamic vertex loader, and we'll have to figure something
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// out for it if we want to support it in the future.
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out.Write("UBO_BINDING(std140, 5) uniform DX_Constants {{\n"
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" uint base_vertex;\n"
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"}};\n\n"
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"uint GetVertexBaseOffset(uint vertex_id) {{\n"
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" return (vertex_id + base_vertex) * vertex_stride;\n"
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"}}\n");
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}
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else
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{
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out.Write("uint GetVertexBaseOffset(uint vertex_id) {{\n"
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" return vertex_id * vertex_stride;\n"
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"}}\n");
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}
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out.Write(R"(
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uint4 load_input_uint4_ubyte4(uint vtx_offset, uint attr_offset) {{
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uint value = vertex_buffer[vtx_offset + attr_offset];
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return uint4(value & 0xffu, (value >> 8) & 0xffu, (value >> 16) & 0xffu, value >> 24);
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}}
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float4 load_input_float4_ubyte4(uint vtx_offset, uint attr_offset) {{
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return float4(load_input_uint4_ubyte4(vtx_offset, attr_offset)) / 255.0f;
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}}
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float3 load_input_float3_float3(uint vtx_offset, uint attr_offset) {{
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uint offset = vtx_offset + attr_offset;
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return float3(uintBitsToFloat(vertex_buffer[offset + 0]),
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uintBitsToFloat(vertex_buffer[offset + 1]),
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uintBitsToFloat(vertex_buffer[offset + 2]));
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}}
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float4 load_input_float4_rawpos(uint vtx_offset, uint attr_offset) {{
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uint components = attr_offset >> 16;
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uint offset = vtx_offset + (attr_offset & 0xffff);
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if (components < 3)
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return float4(uintBitsToFloat(vertex_buffer[offset + 0]),
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uintBitsToFloat(vertex_buffer[offset + 1]),
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0.0f, 1.0f);
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else
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return float4(uintBitsToFloat(vertex_buffer[offset + 0]),
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uintBitsToFloat(vertex_buffer[offset + 1]),
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uintBitsToFloat(vertex_buffer[offset + 2]),
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1.0f);
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}}
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float3 load_input_float3_rawtex(uint vtx_offset, uint attr_offset) {{
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uint components = attr_offset >> 16;
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uint offset = vtx_offset + (attr_offset & 0xffff);
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if (components < 2)
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return float3(uintBitsToFloat(vertex_buffer[offset + 0]), 0.0f, 0.0f);
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else if (components < 3)
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return float3(uintBitsToFloat(vertex_buffer[offset + 0]),
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uintBitsToFloat(vertex_buffer[offset + 1]),
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0.0f);
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else
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return float3(uintBitsToFloat(vertex_buffer[offset + 0]),
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uintBitsToFloat(vertex_buffer[offset + 1]),
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uintBitsToFloat(vertex_buffer[offset + 2]));
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}}
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)");
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}
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else
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{
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out.Write("ATTRIBUTE_LOCATION({:s}) in float4 rawpos;\n", ShaderAttrib::Position);
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out.Write("ATTRIBUTE_LOCATION({:s}) in uint4 posmtx;\n", ShaderAttrib::PositionMatrix);
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out.Write("ATTRIBUTE_LOCATION({:s}) in float3 rawnormal;\n", ShaderAttrib::Normal);
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out.Write("ATTRIBUTE_LOCATION({:s}) in float3 rawtangent;\n", ShaderAttrib::Tangent);
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out.Write("ATTRIBUTE_LOCATION({:s}) in float3 rawbinormal;\n", ShaderAttrib::Binormal);
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out.Write("ATTRIBUTE_LOCATION({:s}) in float4 rawcolor0;\n", ShaderAttrib::Color0);
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out.Write("ATTRIBUTE_LOCATION({:s}) in float4 rawcolor1;\n", ShaderAttrib::Color1);
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for (u32 i = 0; i < 8; ++i)
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out.Write("ATTRIBUTE_LOCATION({:s}) in float3 rawtex{};\n", ShaderAttrib::TexCoord0 + i, i);
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}
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if (host_config.backend_geometry_shaders)
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{
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out.Write("VARYING_LOCATION(0) out VertexData {{\n");
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GenerateVSOutputMembers(out, api_type, num_texgen, host_config,
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GetInterpolationQualifier(msaa, ssaa, true, false),
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ShaderStage::Vertex);
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out.Write("}} vs;\n");
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}
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else
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{
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// Let's set up attributes
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u32 counter = 0;
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out.Write("VARYING_LOCATION({}) {} out float4 colors_0;\n", counter++,
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GetInterpolationQualifier(msaa, ssaa));
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out.Write("VARYING_LOCATION({}) {} out float4 colors_1;\n", counter++,
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GetInterpolationQualifier(msaa, ssaa));
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for (u32 i = 0; i < num_texgen; ++i)
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{
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out.Write("VARYING_LOCATION({}) {} out float3 tex{};\n", counter++,
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GetInterpolationQualifier(msaa, ssaa), i);
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}
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if (!host_config.fast_depth_calc)
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{
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out.Write("VARYING_LOCATION({}) {} out float4 clipPos;\n", counter++,
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GetInterpolationQualifier(msaa, ssaa));
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}
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if (per_pixel_lighting)
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{
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out.Write("VARYING_LOCATION({}) {} out float3 Normal;\n", counter++,
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GetInterpolationQualifier(msaa, ssaa));
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out.Write("VARYING_LOCATION({}) {} out float3 WorldPos;\n", counter++,
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GetInterpolationQualifier(msaa, ssaa));
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}
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}
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out.Write("void main()\n{{\n");
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out.Write("VS_OUTPUT o;\n"
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"\n");
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if (host_config.backend_vs_point_line_expand)
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{
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out.Write("uint vertex_id = gl_VertexID;\n"
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"if (vs_expand != 0u) {{\n"
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" vertex_id = vertex_id >> 2;\n"
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"}}\n"
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"uint vertex_base_offset = GetVertexBaseOffset(vertex_id);\n");
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}
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else if (host_config.backend_dynamic_vertex_loader)
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{
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out.Write("uint vertex_base_offset = GetVertexBaseOffset(gl_VertexID);\n");
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}
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// rawpos is always needed
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LoadVertexAttribute(out, host_config, 0, "rawpos", "float4", "rawpos");
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// Transforms
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out.Write("// Position matrix\n"
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"float4 P0;\n"
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"float4 P1;\n"
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"float4 P2;\n"
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"\n"
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"// Normal matrix\n"
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"float3 N0;\n"
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"float3 N1;\n"
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"float3 N2;\n"
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"\n"
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"if ((components & {}u) != 0u) {{ // VB_HAS_POSMTXIDX\n",
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Common::ToUnderlying(VB_HAS_POSMTXIDX));
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LoadVertexAttribute(out, host_config, 2, "posmtx", "uint4", "ubyte4");
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out.Write(" // Vertex format has a per-vertex matrix\n"
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" int posidx = int(posmtx.r);\n"
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" P0 = " I_TRANSFORMMATRICES "[posidx];\n"
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" P1 = " I_TRANSFORMMATRICES "[posidx+1];\n"
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" P2 = " I_TRANSFORMMATRICES "[posidx+2];\n"
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"\n"
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" int normidx = posidx >= 32 ? (posidx - 32) : posidx;\n"
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" N0 = " I_NORMALMATRICES "[normidx].xyz;\n"
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" N1 = " I_NORMALMATRICES "[normidx+1].xyz;\n"
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" N2 = " I_NORMALMATRICES "[normidx+2].xyz;\n"
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"}} else {{\n"
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" // One shared matrix\n"
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" P0 = " I_POSNORMALMATRIX "[0];\n"
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" P1 = " I_POSNORMALMATRIX "[1];\n"
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" P2 = " I_POSNORMALMATRIX "[2];\n"
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" N0 = " I_POSNORMALMATRIX "[3].xyz;\n"
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" N1 = " I_POSNORMALMATRIX "[4].xyz;\n"
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" N2 = " I_POSNORMALMATRIX "[5].xyz;\n"
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"}}\n"
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"\n"
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"// Multiply the position vector by the position matrix\n"
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"float4 pos = float4(dot(P0, rawpos), dot(P1, rawpos), dot(P2, rawpos), 1.0);\n"
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"o.pos = float4(dot(" I_PROJECTION "[0], pos), dot(" I_PROJECTION
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"[1], pos), dot(" I_PROJECTION "[2], pos), dot(" I_PROJECTION "[3], pos));\n"
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"\n"
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"// The scale of the transform matrix is used to control the size of the emboss map\n"
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"// effect by changing the scale of the transformed binormals (which only get used by\n"
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"// emboss map texgens). By normalising the first transformed normal (which is used\n"
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"// by lighting calculations and needs to be unit length), the same transform matrix\n"
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"// can do double duty, scaling for emboss mapping, and not scaling for lighting.\n"
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"float3 _normal = float3(0.0, 0.0, 0.0);\n"
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"if ((components & {}u) != 0u) // VB_HAS_NORMAL\n"
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"{{\n",
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Common::ToUnderlying(VB_HAS_NORMAL));
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LoadVertexAttribute(out, host_config, 2, "rawnormal", "float3", "float3");
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out.Write(" _normal = normalize(float3(dot(N0, rawnormal), dot(N1, rawnormal), dot(N2, "
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"rawnormal)));\n"
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"}}\n"
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"\n"
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"float3 _tangent = float3(0.0, 0.0, 0.0);\n"
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"if ((components & {}u) != 0u) // VB_HAS_TANGENT\n"
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"{{\n",
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Common::ToUnderlying(VB_HAS_TANGENT));
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LoadVertexAttribute(out, host_config, 2, "rawtangent", "float3", "float3");
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out.Write(" _tangent = float3(dot(N0, rawtangent), dot(N1, rawtangent), dot(N2, rawtangent));\n"
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"}}\n"
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"else\n"
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"{{\n"
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" _tangent = float3(dot(N0, " I_CACHED_TANGENT ".xyz), dot(N1, " I_CACHED_TANGENT
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".xyz), dot(N2, " I_CACHED_TANGENT ".xyz));\n"
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"}}\n"
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"\n"
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"float3 _binormal = float3(0.0, 0.0, 0.0);\n"
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"if ((components & {}u) != 0u) // VB_HAS_BINORMAL\n"
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"{{\n",
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Common::ToUnderlying(VB_HAS_BINORMAL));
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LoadVertexAttribute(out, host_config, 2, "rawbinormal", "float3", "float3");
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out.Write(" _binormal = float3(dot(N0, rawbinormal), dot(N1, rawbinormal), dot(N2, "
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"rawbinormal));\n"
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"}}\n"
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"else\n"
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"{{\n"
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" _binormal = float3(dot(N0, " I_CACHED_BINORMAL ".xyz), dot(N1, " I_CACHED_BINORMAL
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".xyz), dot(N2, " I_CACHED_BINORMAL ".xyz));\n"
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"}}\n"
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"\n");
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// Hardware Lighting
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out.Write("// xfmem.numColorChans controls the number of color channels available to TEV,\n"
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"// but we still need to generate all channels here, as it can be used in texgen.\n"
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"// Cel-damage is an example of this.\n"
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"float4 vertex_color_0, vertex_color_1;\n"
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"\n");
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out.Write("// To use color 1, the vertex descriptor must have color 0 and 1.\n"
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"// If color 1 is present but not color 0, it is used for lighting channel 0.\n"
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"bool use_color_1 = ((components & {0}u) == {0}u); // VB_HAS_COL0 | VB_HAS_COL1\n",
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static_cast<u32>(VB_HAS_COL0 | VB_HAS_COL1));
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out.Write("if ((components & {0}u) == {0}u) // VB_HAS_COL0 | VB_HAS_COL1\n"
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"{{\n",
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static_cast<u32>(VB_HAS_COL0 | VB_HAS_COL1));
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LoadVertexAttribute(out, host_config, 2, "rawcolor0", "float4", "ubyte4");
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LoadVertexAttribute(out, host_config, 2, "rawcolor1", "float4", "ubyte4");
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out.Write(" vertex_color_0 = rawcolor0;\n"
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" vertex_color_1 = rawcolor1;\n"
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"}}\n"
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"else if ((components & {}u) != 0u) // VB_HAS_COL0\n"
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"{{\n",
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Common::ToUnderlying(VB_HAS_COL0));
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LoadVertexAttribute(out, host_config, 2, "rawcolor0", "float4", "ubyte4");
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out.Write(" vertex_color_0 = rawcolor0;\n"
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" vertex_color_1 = rawcolor0;\n"
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"}}\n"
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"else if ((components & {}u) != 0u) // VB_HAS_COL1\n"
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"{{\n",
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Common::ToUnderlying(VB_HAS_COL1));
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LoadVertexAttribute(out, host_config, 2, "rawcolor1", "float4", "ubyte4");
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out.Write(" vertex_color_0 = rawcolor1;\n"
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" vertex_color_1 = rawcolor1;\n"
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"}}\n"
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"else\n"
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"{{\n"
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" vertex_color_0 = missing_color_value;\n"
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" vertex_color_1 = missing_color_value;\n"
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"}}\n");
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WriteVertexLighting(out, api_type, "pos.xyz", "_normal", "vertex_color_0", "vertex_color_1",
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"o.colors_0", "o.colors_1");
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// Texture Coordinates
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if (num_texgen > 0)
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GenVertexShaderTexGens(api_type, host_config, num_texgen, out);
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if (host_config.backend_vs_point_line_expand)
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{
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out.Write("if (vs_expand == {}u) {{ // Line\n", Common::ToUnderlying(VSExpand::Line));
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out.Write(" bool is_bottom = (gl_VertexID & 2) != 0;\n"
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" bool is_right = (gl_VertexID & 1) != 0;\n"
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" uint other_base_offset = vertex_base_offset;\n"
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" if (is_bottom) {{\n"
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" other_base_offset -= vertex_stride;\n"
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" }} else {{\n"
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" other_base_offset += vertex_stride;\n"
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" }}\n"
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" float4 other_rawpos = load_input_float4_rawpos(other_base_offset, "
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"vertex_offset_rawpos);\n"
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" float4 other_p0 = P0;\n"
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" float4 other_p1 = P1;\n"
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" float4 other_p2 = P2;\n"
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" if ((components & {}u) != 0u) {{ // VB_HAS_POSMTXIDX\n",
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Common::ToUnderlying(VB_HAS_POSMTXIDX));
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out.Write(" uint other_posidx = load_input_uint4_ubyte4(other_base_offset, "
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"vertex_offset_posmtx).r;\n"
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" other_p0 = " I_TRANSFORMMATRICES "[other_posidx];\n"
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" other_p1 = " I_TRANSFORMMATRICES "[other_posidx+1];\n"
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" other_p2 = " I_TRANSFORMMATRICES "[other_posidx+2];\n"
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" }}\n"
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" float4 other_pos = float4(dot(other_p0, other_rawpos), "
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"dot(other_p1, other_rawpos), dot(other_p2, other_rawpos), 1.0);\n");
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GenerateVSLineExpansion(out, " ", num_texgen);
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out.Write("}} else if (vs_expand == {}u) {{ // Point\n", Common::ToUnderlying(VSExpand::Point));
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out.Write(" bool is_bottom = (gl_VertexID & 2) != 0;\n"
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" bool is_right = (gl_VertexID & 1) != 0;\n");
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GenerateVSPointExpansion(out, " ", num_texgen);
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out.Write("}}\n");
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}
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if (per_pixel_lighting)
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{
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out.Write("// When per-pixel lighting is enabled, the vertex colors are passed through\n"
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"// unmodified so we can evaluate the lighting in the pixel shader.\n"
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"// Lighting is also still computed in the vertex shader since it can be used to\n"
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"// generate texture coordinates. We generated them above, so now the colors can\n"
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"// be reverted to their previous stage.\n"
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"o.colors_0 = vertex_color_0;\n"
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"o.colors_1 = vertex_color_1;\n"
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"// Note that the numColorChans logic should be (but currently isn't)\n"
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"// performed in the pixel shader.\n");
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}
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else
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{
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out.Write("// The number of colors available to TEV is determined by numColorChans.\n"
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|
"// We have to provide the fields to match the interface, so set to zero\n"
|
|
"// if it's not enabled.\n"
|
|
"if (xfmem_numColorChans == 0u)\n"
|
|
" o.colors_0 = float4(0.0, 0.0, 0.0, 0.0);\n"
|
|
"if (xfmem_numColorChans <= 1u)\n"
|
|
" o.colors_1 = float4(0.0, 0.0, 0.0, 0.0);\n");
|
|
}
|
|
|
|
if (!host_config.fast_depth_calc)
|
|
{
|
|
// clipPos/w needs to be done in pixel shader, not here
|
|
out.Write("o.clipPos = o.pos;\n");
|
|
}
|
|
|
|
if (per_pixel_lighting)
|
|
{
|
|
out.Write("o.Normal = _normal;\n"
|
|
"o.WorldPos = pos.xyz;\n");
|
|
}
|
|
|
|
// If we can disable the incorrect depth clipping planes using depth clamping, then we can do
|
|
// our own depth clipping and calculate the depth range before the perspective divide if
|
|
// necessary.
|
|
if (host_config.backend_depth_clamp)
|
|
{
|
|
// Since we're adjusting z for the depth range before the perspective divide, we have to do our
|
|
// own clipping. We want to clip so that -w <= z <= 0, which matches the console -1..0 range.
|
|
// We adjust our depth value for clipping purposes to match the perspective projection in the
|
|
// software backend, which is a hack to fix Sonic Adventure and Unleashed games.
|
|
out.Write("float clipDepth = o.pos.z * (1.0 - 1e-7);\n"
|
|
"float clipDist0 = clipDepth + o.pos.w;\n" // Near: z < -w
|
|
"float clipDist1 = -clipDepth;\n"); // Far: z > 0
|
|
if (host_config.backend_geometry_shaders)
|
|
{
|
|
out.Write("o.clipDist0 = clipDist0;\n"
|
|
"o.clipDist1 = clipDist1;\n");
|
|
}
|
|
}
|
|
|
|
// Write the true depth value. If the game uses depth textures, then the pixel shader will
|
|
// override it with the correct values if not then early z culling will improve speed.
|
|
// There are two different ways to do this, when the depth range is oversized, we process
|
|
// the depth range in the vertex shader, if not we let the host driver handle it.
|
|
//
|
|
// Adjust z for the depth range. We're using an equation which incorperates a depth inversion,
|
|
// so we can map the console -1..0 range to the 0..1 range used in the depth buffer.
|
|
// We have to handle the depth range in the vertex shader instead of after the perspective
|
|
// divide, because some games will use a depth range larger than what is allowed by the
|
|
// graphics API. These large depth ranges will still be clipped to the 0..1 range, so these
|
|
// games effectively add a depth bias to the values written to the depth buffer.
|
|
out.Write("o.pos.z = o.pos.w * " I_PIXELCENTERCORRECTION ".w - "
|
|
"o.pos.z * " I_PIXELCENTERCORRECTION ".z;\n");
|
|
|
|
if (!host_config.backend_clip_control)
|
|
{
|
|
// If the graphics API doesn't support a depth range of 0..1, then we need to map z to
|
|
// the -1..1 range. Unfortunately we have to use a substraction, which is a lossy floating-point
|
|
// operation that can introduce a round-trip error.
|
|
out.Write("o.pos.z = o.pos.z * 2.0 - o.pos.w;\n");
|
|
}
|
|
|
|
// Correct for negative viewports by mirroring all vertices. We need to negate the height here,
|
|
// since the viewport height is already negated by the render backend.
|
|
out.Write("o.pos.xy *= sign(" I_PIXELCENTERCORRECTION ".xy * float2(1.0, -1.0));\n");
|
|
|
|
// The console GPU places the pixel center at 7/12 in screen space unless
|
|
// antialiasing is enabled, while D3D and OpenGL place it at 0.5. This results
|
|
// in some primitives being placed one pixel too far to the bottom-right,
|
|
// which in turn can be critical if it happens for clear quads.
|
|
// Hence, we compensate for this pixel center difference so that primitives
|
|
// get rasterized correctly.
|
|
out.Write("o.pos.xy = o.pos.xy - o.pos.w * " I_PIXELCENTERCORRECTION ".xy;\n");
|
|
|
|
if (vertex_rounding)
|
|
{
|
|
// By now our position is in clip space. However, higher resolutions than the Wii outputs
|
|
// cause an additional pixel offset. Due to a higher pixel density we need to correct this
|
|
// by converting our clip-space position into the Wii's screen-space.
|
|
// Acquire the right pixel and then convert it back.
|
|
out.Write("if (o.pos.w == 1.0f)\n"
|
|
"{{\n");
|
|
|
|
out.Write("\tfloat ss_pixel_x = ((o.pos.x + 1.0f) * (" I_VIEWPORT_SIZE ".x * 0.5f));\n"
|
|
"\tfloat ss_pixel_y = ((o.pos.y + 1.0f) * (" I_VIEWPORT_SIZE ".y * 0.5f));\n");
|
|
|
|
out.Write("\tss_pixel_x = round(ss_pixel_x);\n"
|
|
"\tss_pixel_y = round(ss_pixel_y);\n");
|
|
|
|
out.Write("\to.pos.x = ((ss_pixel_x / (" I_VIEWPORT_SIZE ".x * 0.5f)) - 1.0f);\n"
|
|
"\to.pos.y = ((ss_pixel_y / (" I_VIEWPORT_SIZE ".y * 0.5f)) - 1.0f);\n"
|
|
"}}\n");
|
|
}
|
|
|
|
if (host_config.backend_geometry_shaders)
|
|
{
|
|
AssignVSOutputMembers(out, "vs", "o", num_texgen, host_config);
|
|
}
|
|
else
|
|
{
|
|
// TODO: Pass interface blocks between shader stages even if geometry shaders
|
|
// are not supported, however that will require at least OpenGL 3.2 support.
|
|
for (u32 i = 0; i < num_texgen; ++i)
|
|
out.Write("tex{}.xyz = o.tex{};\n", i, i);
|
|
if (!host_config.fast_depth_calc)
|
|
out.Write("clipPos = o.clipPos;\n");
|
|
if (per_pixel_lighting)
|
|
{
|
|
out.Write("Normal = o.Normal;\n"
|
|
"WorldPos = o.WorldPos;\n");
|
|
}
|
|
out.Write("colors_0 = o.colors_0;\n"
|
|
"colors_1 = o.colors_1;\n");
|
|
}
|
|
|
|
if (host_config.backend_depth_clamp)
|
|
{
|
|
out.Write("gl_ClipDistance[0] = clipDist0;\n"
|
|
"gl_ClipDistance[1] = clipDist1;\n");
|
|
}
|
|
|
|
// Vulkan NDC space has Y pointing down (right-handed NDC space).
|
|
if (api_type == APIType::Vulkan)
|
|
out.Write("gl_Position = float4(o.pos.x, -o.pos.y, o.pos.z, o.pos.w);\n");
|
|
else
|
|
out.Write("gl_Position = o.pos;\n");
|
|
out.Write("}}\n");
|
|
|
|
return out;
|
|
}
|
|
|
|
static void GenVertexShaderTexGens(APIType api_type, const ShaderHostConfig& host_config,
|
|
u32 num_texgen, ShaderCode& out)
|
|
{
|
|
// The HLSL compiler complains that the output texture coordinates are uninitialized when trying
|
|
// to dynamically index them.
|
|
for (u32 i = 0; i < num_texgen; i++)
|
|
out.Write("o.tex{} = float3(0.0, 0.0, 0.0);\n", i);
|
|
|
|
out.Write("// Texture coordinate generation\n");
|
|
if (num_texgen == 1)
|
|
{
|
|
out.Write("{{ const uint texgen = 0u;\n");
|
|
}
|
|
else
|
|
{
|
|
out.Write("for (uint texgen = 0u; texgen < {}u; texgen++) {{\n", num_texgen);
|
|
}
|
|
|
|
out.Write(" // Texcoord transforms\n");
|
|
out.Write(" float4 coord = float4(0.0, 0.0, 1.0, 1.0);\n"
|
|
" uint texMtxInfo = xfmem_texMtxInfo(texgen);\n");
|
|
out.Write(" switch ({}) {{\n", BitfieldExtract<&TexMtxInfo::sourcerow>("texMtxInfo"));
|
|
out.Write(" case {:s}:\n", SourceRow::Geom);
|
|
out.Write(" coord.xyz = rawpos.xyz;\n");
|
|
out.Write(" break;\n\n");
|
|
out.Write(" case {:s}:\n", SourceRow::Normal);
|
|
out.Write(" if ((components & {}u) != 0u) // VB_HAS_NORMAL\n"
|
|
" {{\n",
|
|
Common::ToUnderlying(VB_HAS_NORMAL));
|
|
LoadVertexAttribute(out, host_config, 6, "rawnormal", "float3", "float3");
|
|
out.Write(" coord.xyz = rawnormal.xyz;\n"
|
|
" }}\n"
|
|
" break;\n\n");
|
|
out.Write(" case {:s}:\n", SourceRow::BinormalT);
|
|
out.Write(" if ((components & {}u) != 0u) // VB_HAS_TANGENT\n"
|
|
" {{\n",
|
|
Common::ToUnderlying(VB_HAS_TANGENT));
|
|
LoadVertexAttribute(out, host_config, 6, "rawtangent", "float3", "float3");
|
|
out.Write(" coord.xyz = rawtangent.xyz;\n"
|
|
" }}\n"
|
|
" break;\n\n");
|
|
out.Write(" case {:s}:\n", SourceRow::BinormalB);
|
|
out.Write(" if ((components & {}u) != 0u) // VB_HAS_BINORMAL\n"
|
|
" {{\n",
|
|
Common::ToUnderlying(VB_HAS_BINORMAL));
|
|
LoadVertexAttribute(out, host_config, 6, "rawbinormal", "float3", "float3");
|
|
out.Write(" coord.xyz = rawbinormal.xyz;\n"
|
|
" }}\n"
|
|
" break;\n\n");
|
|
for (u32 i = 0; i < 8; i++)
|
|
{
|
|
out.Write(" case {:s}:\n", static_cast<SourceRow>(Common::ToUnderlying(SourceRow::Tex0) + i));
|
|
out.Write(" if ((components & {}u) != 0u) // VB_HAS_UV{}\n"
|
|
" {{\n",
|
|
VB_HAS_UV0 << i, i);
|
|
LoadVertexAttribute(out, host_config, 6, fmt::format("rawtex{}", i), "float3", "rawtex",
|
|
fmt::format("rawtex[{}][{}]", i / 4, i % 4));
|
|
out.Write(" coord = float4(rawtex{}.x, rawtex{}.y, 1.0f, 1.0f);\n"
|
|
" }}\n",
|
|
i, i);
|
|
out.Write(" break;\n\n");
|
|
}
|
|
out.Write(" }}\n"
|
|
"\n");
|
|
|
|
out.Write(" // Input form of AB11 sets z element to 1.0\n");
|
|
out.Write(" if ({} == {:s}) // inputform == AB11\n",
|
|
BitfieldExtract<&TexMtxInfo::inputform>("texMtxInfo"), TexInputForm::AB11);
|
|
out.Write(" coord.z = 1.0f;\n"
|
|
"\n");
|
|
|
|
// Convert NaNs to 1 - needed to fix eyelids in Shadow the Hedgehog during cutscenes
|
|
// See https://bugs.dolphin-emu.org/issues/11458
|
|
out.Write(" // Convert NaN to 1\n");
|
|
out.Write(" if (dolphin_isnan(coord.x)) coord.x = 1.0;\n");
|
|
out.Write(" if (dolphin_isnan(coord.y)) coord.y = 1.0;\n");
|
|
out.Write(" if (dolphin_isnan(coord.z)) coord.z = 1.0;\n");
|
|
|
|
out.Write(" // first transformation\n");
|
|
out.Write(" uint texgentype = {};\n", BitfieldExtract<&TexMtxInfo::texgentype>("texMtxInfo"));
|
|
out.Write(" float3 output_tex;\n"
|
|
" switch (texgentype)\n"
|
|
" {{\n");
|
|
out.Write(" case {:s}:\n", TexGenType::EmbossMap);
|
|
out.Write(" {{\n");
|
|
out.Write(" uint light = {};\n",
|
|
BitfieldExtract<&TexMtxInfo::embosslightshift>("texMtxInfo"));
|
|
out.Write(" uint source = {};\n",
|
|
BitfieldExtract<&TexMtxInfo::embosssourceshift>("texMtxInfo"));
|
|
out.Write(" switch (source) {{\n");
|
|
for (u32 i = 0; i < num_texgen; i++)
|
|
out.Write(" case {}u: output_tex.xyz = o.tex{}; break;\n", i, i);
|
|
out.Write(" default: output_tex.xyz = float3(0.0, 0.0, 0.0); break;\n"
|
|
" }}\n"
|
|
" float3 ldir = normalize(" I_LIGHTS "[light].pos.xyz - pos.xyz);\n"
|
|
" output_tex.xyz += float3(dot(ldir, _tangent), dot(ldir, _binormal), 0.0);\n"
|
|
" }}\n"
|
|
" break;\n\n");
|
|
out.Write(" case {:s}:\n", TexGenType::Color0);
|
|
out.Write(" output_tex.xyz = float3(o.colors_0.x, o.colors_0.y, 1.0);\n"
|
|
" break;\n\n");
|
|
out.Write(" case {:s}:\n", TexGenType::Color1);
|
|
out.Write(" output_tex.xyz = float3(o.colors_1.x, o.colors_1.y, 1.0);\n"
|
|
" break;\n\n");
|
|
out.Write(" case {:s}:\n", TexGenType::Regular);
|
|
out.Write(" default:\n"
|
|
" {{\n");
|
|
out.Write(" if ((components & ({}u /* VB_HAS_TEXMTXIDX0 */ << texgen)) != 0u) {{\n",
|
|
Common::ToUnderlying(VB_HAS_TEXMTXIDX0));
|
|
if (host_config.backend_dynamic_vertex_loader || host_config.backend_vs_point_line_expand)
|
|
{
|
|
out.Write(" int tmp = int(load_input_float3_rawtex(vertex_base_offset, "
|
|
"vertex_offset_rawtex[texgen / 4][texgen % 4]).z);\n"
|
|
"\n");
|
|
}
|
|
else
|
|
{
|
|
out.Write(
|
|
" // This is messy, due to dynamic indexing of the input texture coordinates.\n"
|
|
" // Hopefully the compiler will unroll this whole loop anyway and the switch.\n"
|
|
" int tmp = 0;\n"
|
|
" switch (texgen) {{\n");
|
|
for (u32 i = 0; i < num_texgen; i++)
|
|
out.Write(" case {}u: tmp = int(rawtex{}.z); break;\n", i, i);
|
|
out.Write(" }}\n"
|
|
"\n");
|
|
}
|
|
out.Write(" if ({} == {:s}) {{\n", BitfieldExtract<&TexMtxInfo::projection>("texMtxInfo"),
|
|
TexSize::STQ);
|
|
out.Write(" output_tex.xyz = float3(dot(coord, " I_TRANSFORMMATRICES "[tmp]),\n"
|
|
" dot(coord, " I_TRANSFORMMATRICES "[tmp + 1]),\n"
|
|
" dot(coord, " I_TRANSFORMMATRICES "[tmp + 2]));\n"
|
|
" }} else {{\n"
|
|
" output_tex.xyz = float3(dot(coord, " I_TRANSFORMMATRICES "[tmp]),\n"
|
|
" dot(coord, " I_TRANSFORMMATRICES "[tmp + 1]),\n"
|
|
" 1.0);\n"
|
|
" }}\n"
|
|
" }} else {{\n");
|
|
out.Write(" if ({} == {:s}) {{\n", BitfieldExtract<&TexMtxInfo::projection>("texMtxInfo"),
|
|
TexSize::STQ);
|
|
out.Write(" output_tex.xyz = float3(dot(coord, " I_TEXMATRICES "[3u * texgen]),\n"
|
|
" dot(coord, " I_TEXMATRICES "[3u * texgen + 1u]),\n"
|
|
" dot(coord, " I_TEXMATRICES "[3u * texgen + 2u]));\n"
|
|
" }} else {{\n"
|
|
" output_tex.xyz = float3(dot(coord, " I_TEXMATRICES "[3u * texgen]),\n"
|
|
" dot(coord, " I_TEXMATRICES "[3u * texgen + 1u]),\n"
|
|
" 1.0);\n"
|
|
" }}\n"
|
|
" }}\n"
|
|
" }}\n"
|
|
" break;\n\n"
|
|
" }}\n"
|
|
"\n");
|
|
|
|
out.Write(" if (xfmem_dualTexInfo != 0u) {{\n");
|
|
out.Write(" uint postMtxInfo = xfmem_postMtxInfo(texgen);");
|
|
out.Write(" uint base_index = {};\n", BitfieldExtract<&PostMtxInfo::index>("postMtxInfo"));
|
|
out.Write(" float4 P0 = " I_POSTTRANSFORMMATRICES "[base_index & 0x3fu];\n"
|
|
" float4 P1 = " I_POSTTRANSFORMMATRICES "[(base_index + 1u) & 0x3fu];\n"
|
|
" float4 P2 = " I_POSTTRANSFORMMATRICES "[(base_index + 2u) & 0x3fu];\n"
|
|
"\n");
|
|
out.Write(" if ({} != 0u)\n", BitfieldExtract<&PostMtxInfo::normalize>("postMtxInfo"));
|
|
out.Write(" output_tex.xyz = normalize(output_tex.xyz);\n"
|
|
"\n"
|
|
" // multiply by postmatrix\n"
|
|
" output_tex.xyz = float3(dot(P0.xyz, output_tex.xyz) + P0.w,\n"
|
|
" dot(P1.xyz, output_tex.xyz) + P1.w,\n"
|
|
" dot(P2.xyz, output_tex.xyz) + P2.w);\n"
|
|
" }}\n\n");
|
|
|
|
// When q is 0, the GameCube appears to have a special case
|
|
// This can be seen in devkitPro's neheGX Lesson08 example for Wii
|
|
// Makes differences in Rogue Squadron 3 (Hoth sky) and The Last Story (shadow culling)
|
|
out.Write(" if (texgentype == {:s} && output_tex.z == 0.0)\n", TexGenType::Regular);
|
|
out.Write(
|
|
" output_tex.xy = clamp(output_tex.xy / 2.0f, float2(-1.0f,-1.0f), float2(1.0f,1.0f));\n"
|
|
"\n");
|
|
|
|
out.Write(" // Hopefully GPUs that can support dynamic indexing will optimize this.\n");
|
|
out.Write(" switch (texgen) {{\n");
|
|
for (u32 i = 0; i < num_texgen; i++)
|
|
out.Write(" case {}u: o.tex{} = output_tex; break;\n", i, i);
|
|
out.Write(" }}\n"
|
|
"}}\n");
|
|
}
|
|
|
|
static void LoadVertexAttribute(ShaderCode& code, const ShaderHostConfig& host_config, u32 indent,
|
|
std::string_view name, std::string_view shader_type,
|
|
std::string_view stored_type, std::string_view offset_name)
|
|
{
|
|
if (host_config.backend_dynamic_vertex_loader || host_config.backend_vs_point_line_expand)
|
|
{
|
|
code.Write("{:{}}{} {} = load_input_{}_{}(vertex_base_offset, vertex_offset_{});\n", "", indent,
|
|
shader_type, name, shader_type, stored_type,
|
|
offset_name.empty() ? name : offset_name);
|
|
}
|
|
// else inputs are always available
|
|
}
|
|
|
|
void EnumerateVertexShaderUids(const std::function<void(const VertexShaderUid&)>& callback)
|
|
{
|
|
VertexShaderUid uid;
|
|
|
|
for (u32 texgens = 0; texgens <= 8; texgens++)
|
|
{
|
|
vertex_ubershader_uid_data* const vuid = uid.GetUidData();
|
|
vuid->num_texgens = texgens;
|
|
callback(uid);
|
|
}
|
|
}
|
|
} // namespace UberShader
|