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Merge 06fab7d08e into b15b5e4728

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Isaac Marovitz 2025-03-27 15:56:35 +00:00 committed by GitHub
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8 changed files with 962 additions and 191 deletions
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10
XenosRecomp/CMakeLists.txt
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@ -4,10 +4,16 @@ if (WIN32)
option(XENOS_RECOMP_DXIL "Generate DXIL shader cache" ON)
endif()
if (APPLE)
option(XENOS_RECOMP_AIR "Generate Metal AIR shader cache" ON)
endif()
set(SMOLV_SOURCE_DIR "${CMAKE_CURRENT_SOURCE_DIR}/../thirdparty/smol-v/source")
add_executable(XenosRecomp
constant_table.h
air_compiler.cpp
air_compiler.h
dxc_compiler.cpp
dxc_compiler.h
main.cpp
@ -51,3 +57,7 @@ if (XENOS_RECOMP_DXIL)
target_compile_definitions(XenosRecomp PRIVATE XENOS_RECOMP_DXIL)
target_link_libraries(XenosRecomp PRIVATE Microsoft::DXIL)
endif()
if (XENOS_RECOMP_AIR)
target_compile_definitions(XenosRecomp PRIVATE XENOS_RECOMP_AIR)
endif()

109
XenosRecomp/air_compiler.cpp Normal file
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@ -0,0 +1,109 @@
#include "air_compiler.h"
#include <iostream>
#include <spawn.h>
#include <unistd.h>
#include <sys/wait.h>
#include <cstdio>
std::vector<uint8_t> AirCompiler::compile(const std::string& shaderSource) {
// First, generate AIR from shader source
std::string inputFile = ".metal";
int tmpFD = makeTemporaryFile(inputFile);
write(tmpFD, shaderSource.data(), shaderSource.size());
close(tmpFD);
std::string irFile = ".ir";
tmpFD = makeTemporaryFile(irFile);
close(tmpFD);
pid_t pid;
char* airArgv[] = { "xcrun", "-sdk", "macosx", "metal", "-o", irFile.data(), "-c", inputFile.data(), "-D__air__", "-DUNLEASHED_RECOMP", "-Wno-unused-variable", "-frecord-sources", "-gline-tables-only", nullptr };
if (posix_spawn(&pid, "/usr/bin/xcrun", nullptr, nullptr, airArgv, nullptr) != 0) {
unlink(inputFile.data());
unlink(irFile.data());
fmt::println("Failed to spawn AIR xcrun process");
exit(1);
}
int status;
if (waitpid(pid, &status, 0) == -1) {
unlink(inputFile.data());
unlink(irFile.data());
fmt::println("Failed to wait AIR xcrun process");
exit(1);
}
if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) {
unlink(inputFile.data());
unlink(irFile.data());
fmt::println("AIR xcrun exited with code {}", WEXITSTATUS(status));
fmt::println("{}", shaderSource);
exit(1);
}
unlink(inputFile.data());
// Now we need to turn the AIR into a .metallib
std::string libFile = ".metallib";
tmpFD = makeTemporaryFile(libFile);
close(tmpFD);
char* libArgv[] = { "xcrun", "-sdk", "macosx", "metallib", "-o", libFile.data(), irFile.data(), nullptr };
if (posix_spawn(&pid, "/usr/bin/xcrun", nullptr, nullptr, libArgv, nullptr) != 0) {
unlink(irFile.data());
unlink(libFile.data());
fmt::println("Failed to spawn .metallib xcrun process");
exit(1);
}
if (waitpid(pid, &status, 0) == -1) {
unlink(irFile.data());
unlink(libFile.data());
fmt::println("Failed to wait .metallib xcrun process");
exit(1);
}
if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) {
unlink(irFile.data());
unlink(libFile.data());
fmt::println(".metallib exited with code {}", WEXITSTATUS(status));
exit(1);
}
// Read from built .metallib
FILE* file = fopen(libFile.data(), "rb");
fseek(file, 0, SEEK_END);
size_t fileSize = ftell(file);
fseek(file, 0, SEEK_SET);
auto data = std::vector<uint8_t>(fileSize);
fread(data.data(), 1, fileSize, file);
fclose(file);
// Cleanup temporary files
unlink(irFile.data());
unlink(libFile.data());
return data;
}
int AirCompiler::makeTemporaryFile(std::string &extension) {
const std::string path = "/tmp/xenos_metal_XXXXXX";
size_t size = path.size() + extension.size() + 1;
char fullTemplate[size];
snprintf(fullTemplate, size, "%s%s", path.c_str(), extension.c_str());
int tmpFD = mkstemps(fullTemplate, extension.size());
if (tmpFD == -1) {
fmt::println("Failed to open temporary file, \"{}\"!", std::string(fullTemplate));
unlink(fullTemplate);
exit(1);
}
extension = fullTemplate;
return tmpFD;
}

9
XenosRecomp/air_compiler.h Normal file
View file

@ -0,0 +1,9 @@
#pragma once
struct AirCompiler
{
static std::vector<uint8_t> compile(const std::string& shaderSource);
private:
static int makeTemporaryFile(std::string& extension);
};

5
XenosRecomp/dxc_compiler.cpp
View file

@ -34,6 +34,11 @@ IDxcBlob* DxcCompiler::compile(const std::string& shaderSource, bool compilePixe
target = L"-T vs_6_0";
}
if (!compileLibrary)
{
args[argCount++] = L"-E shaderMain";
}
args[argCount++] = target;
args[argCount++] = L"-HV 2021";
args[argCount++] = L"-all-resources-bound";

32
XenosRecomp/main.cpp
View file

@ -1,6 +1,7 @@
#include "shader.h"
#include "shader_recompiler.h"
#include "dxc_compiler.h"
#include "air_compiler.h"
static std::unique_ptr<uint8_t[]> readAllBytes(const char* filePath, size_t& fileSize)
{
@ -26,6 +27,7 @@ struct RecompiledShader
uint8_t* data = nullptr;
IDxcBlob* dxil = nullptr;
std::vector<uint8_t> spirv;
std::vector<uint8_t> air;
uint32_t specConstantsMask = 0;
};
@ -133,6 +135,10 @@ int main(int argc, char** argv)
assert(*(reinterpret_cast<uint32_t *>(shader.dxil->GetBufferPointer()) + 1) != 0 && "DXIL was not signed properly!");
#endif
#ifdef XENOS_RECOMP_AIR
shader.air = AirCompiler::compile(recompiler.out);
#endif
IDxcBlob* spirv = dxcCompiler.compile(recompiler.out, recompiler.isPixelShader, false, true);
assert(spirv != nullptr);
@ -154,11 +160,13 @@ int main(int argc, char** argv)
std::vector<uint8_t> dxil;
std::vector<uint8_t> spirv;
std::vector<uint8_t> air;
for (auto& [hash, shader] : shaders)
{
f.println("\t{{ 0x{:X}, {}, {}, {}, {}, {} }},",
hash, dxil.size(), (shader.dxil != nullptr) ? shader.dxil->GetBufferSize() : 0, spirv.size(), shader.spirv.size(), shader.specConstantsMask);
f.println("\t{{ 0x{:X}, {}, {}, {}, {}, {}, {}, {} }},",
hash, dxil.size(), (shader.dxil != nullptr) ? shader.dxil->GetBufferSize() : 0,
spirv.size(), shader.spirv.size(), air.size(), shader.air.size(), shader.specConstantsMask);
if (shader.dxil != nullptr)
{
@ -166,6 +174,10 @@ int main(int argc, char** argv)
reinterpret_cast<uint8_t *>(shader.dxil->GetBufferPointer()) + shader.dxil->GetBufferSize());
}
#ifdef XENOS_RECOMP_AIR
air.insert(air.end(), shader.air.begin(), shader.air.end());
#endif
spirv.insert(spirv.end(), shader.spirv.begin(), shader.spirv.end());
}
@ -189,6 +201,22 @@ int main(int argc, char** argv)
f.println("const size_t g_dxilCacheDecompressedSize = {};", dxil.size());
#endif
#ifdef XENOS_RECOMP_AIR
fmt::println("Compressing AIR cache...");
std::vector<uint8_t> airCompressed(ZSTD_compressBound(air.size()));
airCompressed.resize(ZSTD_compress(airCompressed.data(), airCompressed.size(), air.data(), air.size(), level));
f.print("const uint8_t g_compressedAirCache[] = {{");
for (auto data : airCompressed)
f.print("{},", data);
f.println("}};");
f.println("const size_t g_airCacheCompressedSize = {};", airCompressed.size());
f.println("const size_t g_airCacheDecompressedSize = {};", air.size());
#endif
fmt::println("Compressing SPIRV cache...");
std::vector<uint8_t> spirvCompressed(ZSTD_compressBound(spirv.size()));

232
XenosRecomp/shader_common.h
View file

@ -10,10 +10,12 @@
#define SPEC_CONSTANT_REVERSE_Z (1 << 4)
#endif
#if !defined(__cplusplus) || defined(__INTELLISENSE__)
#if defined(__air__) || !defined(__cplusplus) || defined(__INTELLISENSE__)
#ifndef __air__
#define FLT_MIN asfloat(0xff7fffff)
#define FLT_MAX asfloat(0x7f7fffff)
#endif
#ifdef __spirv__
@ -34,6 +36,30 @@ struct PushConstants
#define g_SpecConstants() g_SpecConstants
#elif __air__
#include <metal_stdlib>
using namespace metal;
constant uint G_SPEC_CONSTANT [[function_constant(0)]];
uint g_SpecConstants()
{
return G_SPEC_CONSTANT;
}
struct PushConstants
{
ulong VertexShaderConstants;
ulong PixelShaderConstants;
ulong SharedConstants;
};
#define g_Booleans (*(reinterpret_cast<device uint*>(g_PushConstants.SharedConstants + 256)))
#define g_SwappedTexcoords (*(reinterpret_cast<device uint*>(g_PushConstants.SharedConstants + 260)))
#define g_AlphaThreshold (*(reinterpret_cast<device float*>(g_PushConstants.SharedConstants + 264)))
#else
#define DEFINE_SHARED_CONSTANTS() \
@ -45,6 +71,56 @@ uint g_SpecConstants();
#endif
#ifdef __air__
struct Texture2DDescriptorHeap
{
array<texture2d<float>, 1> g [[id(0)]];
};
struct Texture3DDescriptorHeap
{
array<texture3d<float>, 1> g [[id(0)]];
};
struct TextureCubeDescriptorHeap
{
array<texturecube<float>, 1> g [[id(0)]];
};
struct SamplerDescriptorHeap
{
array<sampler, 1> g [[id(0)]];
};
uint2 getTexture2DDimensions(texture2d<float> texture)
{
return uint2(texture.get_width(), texture.get_height());
}
float4 tfetch2D(constant Texture2DDescriptorHeap& textureHeap,
constant SamplerDescriptorHeap& samplerHeap,
uint resourceDescriptorIndex,
uint samplerDescriptorIndex,
float2 texCoord, float2 offset)
{
texture2d<float> texture = textureHeap.g[resourceDescriptorIndex];
sampler sampler = samplerHeap.g[samplerDescriptorIndex];
return texture.sample(sampler, texCoord + offset / (float2)getTexture2DDimensions(texture));
}
float2 getWeights2D(constant Texture2DDescriptorHeap& textureHeap,
constant SamplerDescriptorHeap& samplerHeap,
uint resourceDescriptorIndex,
uint samplerDescriptorIndex,
float2 texCoord, float2 offset)
{
texture2d<float> texture = textureHeap.g[resourceDescriptorIndex];
return select(fract(texCoord * (float2)getTexture2DDimensions(texture) + offset - 0.5), 0.0, isnan(texCoord));
}
#else
Texture2D<float4> g_Texture2DDescriptorHeap[] : register(t0, space0);
Texture3D<float4> g_Texture3DDescriptorHeap[] : register(t0, space1);
TextureCube<float4> g_TextureCubeDescriptorHeap[] : register(t0, space2);
@ -69,6 +145,46 @@ float2 getWeights2D(uint resourceDescriptorIndex, uint samplerDescriptorIndex, f
return select(isnan(texCoord), 0.0, frac(texCoord * getTexture2DDimensions(texture) + offset - 0.5));
}
#endif
#ifdef __air__
#define selectWrapper(a, b, c) select(c, b, a)
#else
#define selectWrapper(a, b, c) select(a, b, c)
#endif
#ifdef __air__
#define frac(X) fract(X)
template<typename T>
void clip(T a)
{
if (a < 0.0) {
discard_fragment();
}
}
template<typename T>
float rcp(T a)
{
return 1.0 / a;
}
template<typename T>
float4x4 mul(T a, T b)
{
return a * b;
}
#endif
#ifdef __air__
#define UNROLL
#define BRANCH
#else
#define UNROLL [unroll]
#define BRANCH [branch]
#endif
float w0(float a)
{
return (1.0f / 6.0f) * (a * (a * (-a + 3.0f) - 3.0f) + 1.0f);
@ -109,6 +225,74 @@ float h1(float a)
return 1.0f + w3(a) / (w2(a) + w3(a)) + 0.5f;
}
struct CubeMapData
{
float3 cubeMapDirections[2];
uint cubeMapIndex;
};
#ifdef __air__
float4 tfetch2DBicubic(constant Texture2DDescriptorHeap& textureHeap,
constant SamplerDescriptorHeap& samplerHeap,
uint resourceDescriptorIndex,
uint samplerDescriptorIndex,
float2 texCoord, float2 offset)
{
texture2d<float> texture = textureHeap.g[resourceDescriptorIndex];
sampler sampler = samplerHeap.g[samplerDescriptorIndex];
uint2 dimensions = getTexture2DDimensions(texture);
float x = texCoord.x * dimensions.x + offset.x;
float y = texCoord.y * dimensions.y + offset.y;
x -= 0.5f;
y -= 0.5f;
float px = floor(x);
float py = floor(y);
float fx = x - px;
float fy = y - py;
float g0x = g0(fx);
float g1x = g1(fx);
float h0x = h0(fx);
float h1x = h1(fx);
float h0y = h0(fy);
float h1y = h1(fy);
float4 r =
g0(fy) * (g0x * texture.sample(sampler, float2(px + h0x, py + h0y) / float2(dimensions)) +
g1x * texture.sample(sampler, float2(px + h1x, py + h0y) / float2(dimensions))) +
g1(fy) * (g0x * texture.sample(sampler, float2(px + h0x, py + h1y) / float2(dimensions)) +
g1x * texture.sample(sampler, float2(px + h1x, py + h1y) / float2(dimensions)));
return r;
}
float4 tfetch3D(constant Texture3DDescriptorHeap& textureHeap,
constant SamplerDescriptorHeap& samplerHeap,
uint resourceDescriptorIndex,
uint samplerDescriptorIndex,
float3 texCoord)
{
texture3d<float> texture = textureHeap.g[resourceDescriptorIndex];
sampler sampler = samplerHeap.g[samplerDescriptorIndex];
return texture.sample(sampler, texCoord);
}
float4 tfetchCube(constant TextureCubeDescriptorHeap& textureHeap,
constant SamplerDescriptorHeap& samplerHeap,
uint resourceDescriptorIndex,
uint samplerDescriptorIndex,
float3 texCoord, thread CubeMapData* cubeMapData)
{
texturecube<float> texture = textureHeap.g[resourceDescriptorIndex];
sampler sampler = samplerHeap.g[samplerDescriptorIndex];
return texture.sample(sampler, cubeMapData->cubeMapDirections[(uint)texCoord.z]);
}
#else
float4 tfetch2DBicubic(uint resourceDescriptorIndex, uint samplerDescriptorIndex, float2 texCoord, float2 offset)
{
Texture2D<float4> texture = g_Texture2DDescriptorHeap[resourceDescriptorIndex];
@ -146,17 +330,13 @@ float4 tfetch3D(uint resourceDescriptorIndex, uint samplerDescriptorIndex, float
return g_Texture3DDescriptorHeap[resourceDescriptorIndex].Sample(g_SamplerDescriptorHeap[samplerDescriptorIndex], texCoord);
}
struct CubeMapData
{
float3 cubeMapDirections[2];
uint cubeMapIndex;
};
float4 tfetchCube(uint resourceDescriptorIndex, uint samplerDescriptorIndex, float3 texCoord, inout CubeMapData cubeMapData)
{
return g_TextureCubeDescriptorHeap[resourceDescriptorIndex].Sample(g_SamplerDescriptorHeap[samplerDescriptorIndex], cubeMapData.cubeMapDirections[texCoord.z]);
}
#endif
float4 tfetchR11G11B10(uint4 value)
{
if (g_SpecConstants() & SPEC_CONSTANT_R11G11B10_NORMAL)
@ -169,7 +349,11 @@ float4 tfetchR11G11B10(uint4 value)
}
else
{
#ifdef __air__
return as_type<float4>(value);
#else
return asfloat(value);
#endif
}
}
@ -178,6 +362,19 @@ float4 tfetchTexcoord(uint swappedTexcoords, float4 value, uint semanticIndex)
return (swappedTexcoords & (1ull << semanticIndex)) != 0 ? value.yxwz : value;
}
#ifdef __air__
float4 cube(float4 value, thread CubeMapData* cubeMapData)
{
uint index = cubeMapData->cubeMapIndex;
cubeMapData->cubeMapDirections[index] = value.xyz;
++cubeMapData->cubeMapIndex;
return float4(0.0, 0.0, 0.0, index);
}
#else
float4 cube(float4 value, inout CubeMapData cubeMapData)
{
uint index = cubeMapData.cubeMapIndex;
@ -187,6 +384,8 @@ float4 cube(float4 value, inout CubeMapData cubeMapData)
return float4(0.0, 0.0, 0.0, index);
}
#endif
float4 dst(float4 src0, float4 src1)
{
float4 dest;
@ -202,15 +401,34 @@ float4 max4(float4 src0)
return max(max(src0.x, src0.y), max(src0.z, src0.w));
}
#ifdef __air__
float2 getPixelCoord(constant Texture2DDescriptorHeap& textureHeap,
uint resourceDescriptorIndex,
float2 texCoord)
{
texture2d<float> texture = textureHeap.g[resourceDescriptorIndex];
return (float2)getTexture2DDimensions(texture) * texCoord;
}
#else
float2 getPixelCoord(uint resourceDescriptorIndex, float2 texCoord)
{
return getTexture2DDimensions(g_Texture2DDescriptorHeap[resourceDescriptorIndex]) * texCoord;
}
#endif
float computeMipLevel(float2 pixelCoord)
{
#ifdef __air__
float2 dx = dfdx(pixelCoord);
float2 dy = dfdy(pixelCoord);
#else
float2 dx = ddx(pixelCoord);
float2 dy = ddy(pixelCoord);
#endif
float deltaMaxSqr = max(dot(dx, dx), dot(dy, dy));
return max(0.0, 0.5 * log2(deltaMaxSqr));
}

718
XenosRecomp/shader_recompiler.cpp
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File diff suppressed because it is too large Load diff

2
XenosRecomp/shader_recompiler.h
View file

@ -45,7 +45,7 @@ struct ShaderRecompiler : StringBuffer
out += '\t';
}
void printDstSwizzle(uint32_t dstSwizzle, bool operand);
uint32_t printDstSwizzle(uint32_t dstSwizzle, bool operand);
void printDstSwizzle01(uint32_t dstRegister, uint32_t dstSwizzle);
void recompile(const VertexFetchInstruction& instr, uint32_t address);