dolphin/Source/Core/VideoCommon/ShaderGenCommon.h

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// Copyright 2012 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include <cstring>
#include <functional>
#include <iterator>
#include <string>
#include <type_traits>
#include <vector>
#include <fmt/format.h>
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#include "Common/BitField.h"
#include "Common/CommonTypes.h"
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#include "Common/EnumMap.h"
#include "Common/StringUtil.h"
#include "Common/TypeUtils.h"
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#include "VideoCommon/VideoCommon.h"
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/**
* Common interface for classes that need to go through the shader generation path
* (GenerateVertexShader, GenerateGeometryShader, GeneratePixelShader)
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* In particular, this includes the shader code generator (ShaderCode).
* A different class (ShaderUid) can be used to uniquely identify each ShaderCode object.
* More interesting things can be done with this, e.g. ShaderConstantProfile checks what shader
* constants are being used. This can be used to optimize buffer management.
* If the class does not use one or more of these methods (e.g. Uid class does not need code), the
* method will be defined as a no-op by the base class, and the call
* should be optimized out. The reason for this implementation is so that shader
* selection/generation can be done in two passes, with only a cache lookup being
* required if the shader has already been generated.
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*/
class ShaderGeneratorInterface
{
public:
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/*
* Used when the shader generator would write a piece of ShaderCode.
* Can be used like printf.
* @note In the ShaderCode implementation, this does indeed write the parameter string to an
* internal buffer. However, you're free to do whatever you like with the parameter.
*/
void Write(const char*, ...)
#ifdef __GNUC__
__attribute__((format(printf, 2, 3)))
#endif
{
}
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/*
* Tells us that a specific constant range (including last_index) is being used by the shader
*/
void SetConstantsUsed(unsigned int first_index, unsigned int last_index) {}
};
/*
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* Shader UID class used to uniquely identify the ShaderCode output written in the shader generator.
* uid_data can be any struct of parameters that uniquely identify each shader code output.
* Unless performance is not an issue, uid_data should be tightly packed to reduce memory footprint.
* Shader generators will write to specific uid_data fields; ShaderUid methods will only read raw
* u32 values from a union.
* NOTE: Because LinearDiskCache reads and writes the storage associated with a ShaderUid instance,
* ShaderUid must be trivially copyable.
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*/
template <class uid_data>
class ShaderUid : public ShaderGeneratorInterface
{
public:
static_assert(std::is_trivially_copyable_v<uid_data>,
"uid_data must be a trivially copyable type");
ShaderUid() { memset(GetUidData(), 0, GetUidDataSize()); }
bool operator==(const ShaderUid& obj) const
{
return memcmp(GetUidData(), obj.GetUidData(), GetUidDataSize()) == 0;
}
bool operator!=(const ShaderUid& obj) const { return !operator==(obj); }
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// determines the storage order inside STL containers
bool operator<(const ShaderUid& obj) const
{
return memcmp(GetUidData(), obj.GetUidData(), GetUidDataSize()) < 0;
}
// Returns a pointer to an internally stored object of the uid_data type.
uid_data* GetUidData() { return &data; }
// Returns a pointer to an internally stored object of the uid_data type.
const uid_data* GetUidData() const { return &data; }
// Returns the raw bytes that make up the shader UID.
const u8* GetUidDataRaw() const { return reinterpret_cast<const u8*>(&data); }
// Returns the size of the underlying UID data structure in bytes.
size_t GetUidDataSize() const { return sizeof(data); }
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private:
uid_data data{};
};
class ShaderCode : public ShaderGeneratorInterface
{
public:
ShaderCode() { m_buffer.reserve(16384); }
const std::string& GetBuffer() const { return m_buffer; }
// Writes format strings using fmtlib format strings.
template <typename... Args>
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void Write(fmt::format_string<Args...> format, Args&&... args)
{
fmt::format_to(std::back_inserter(m_buffer), format, std::forward<Args>(args)...);
}
protected:
std::string m_buffer;
};
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/**
* Generates a shader constant profile which can be used to query which constants are used in a
* shader
*/
class ShaderConstantProfile : public ShaderGeneratorInterface
{
public:
ShaderConstantProfile(int num_constants) { constant_usage.resize(num_constants); }
void SetConstantsUsed(unsigned int first_index, unsigned int last_index)
{
for (unsigned int i = first_index; i < last_index + 1; ++i)
constant_usage[i] = true;
}
bool ConstantIsUsed(unsigned int index) const
{
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// TODO: Not ready for usage yet
return true;
// return constant_usage[index];
}
private:
std::vector<bool> constant_usage; // TODO: Is vector<bool> appropriate here?
};
// Host config contains the settings which can influence generated shaders.
union ShaderHostConfig
{
u32 bits;
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BitField<0, 1, bool, u32> msaa;
BitField<1, 1, bool, u32> ssaa;
BitField<2, 1, bool, u32> stereo;
BitField<3, 1, bool, u32> wireframe;
BitField<4, 1, bool, u32> per_pixel_lighting;
BitField<5, 1, bool, u32> vertex_rounding;
BitField<6, 1, bool, u32> fast_depth_calc;
BitField<7, 1, bool, u32> bounding_box;
BitField<8, 1, bool, u32> backend_dual_source_blend;
BitField<9, 1, bool, u32> backend_geometry_shaders;
BitField<10, 1, bool, u32> backend_early_z;
BitField<11, 1, bool, u32> backend_bbox;
BitField<12, 1, bool, u32> backend_gs_instancing;
BitField<13, 1, bool, u32> backend_clip_control;
BitField<14, 1, bool, u32> backend_ssaa;
BitField<15, 1, bool, u32> backend_atomics;
BitField<16, 1, bool, u32> backend_depth_clamp;
BitField<17, 1, bool, u32> backend_reversed_depth_range;
BitField<18, 1, bool, u32> backend_bitfield;
BitField<19, 1, bool, u32> backend_dynamic_sampler_indexing;
BitField<20, 1, bool, u32> backend_shader_framebuffer_fetch;
BitField<21, 1, bool, u32> backend_logic_op;
BitField<22, 1, bool, u32> backend_palette_conversion;
BitField<23, 1, bool, u32> enable_validation_layer;
BitField<24, 1, bool, u32> manual_texture_sampling;
BitField<25, 1, bool, u32> manual_texture_sampling_custom_texture_sizes;
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BitField<26, 1, bool, u32> backend_sampler_lod_bias;
static ShaderHostConfig GetCurrent();
};
// Gets the filename of the specified type of cache object (e.g. vertex shader, pipeline).
std::string GetDiskShaderCacheFileName(APIType api_type, const char* type, bool include_gameid,
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bool include_host_config, bool include_api = true);
void WriteIsNanHeader(ShaderCode& out, APIType api_type);
void WriteBitfieldExtractHeader(ShaderCode& out, APIType api_type,
const ShaderHostConfig& host_config);
void GenerateVSOutputMembers(ShaderCode& object, APIType api_type, u32 texgens,
const ShaderHostConfig& host_config, std::string_view qualifier);
void AssignVSOutputMembers(ShaderCode& object, std::string_view a, std::string_view b, u32 texgens,
const ShaderHostConfig& host_config);
// We use the flag "centroid" to fix some MSAA rendering bugs. With MSAA, the
// pixel shader will be executed for each pixel which has at least one passed sample.
// So there may be rendered pixels where the center of the pixel isn't in the primitive.
// As the pixel shader usually renders at the center of the pixel, this position may be
// outside the primitive. This will lead to sampling outside the texture, sign changes, ...
// As a workaround, we interpolate at the centroid of the coveraged pixel, which
// is always inside the primitive.
// Without MSAA, this flag is defined to have no effect.
const char* GetInterpolationQualifier(bool msaa, bool ssaa, bool in_glsl_interface_block = false,
bool in = false);
// bitfieldExtract generator for BitField types
template <auto ptr_to_bitfield_member>
std::string BitfieldExtract(std::string_view source)
{
using BitFieldT = Common::MemberType<ptr_to_bitfield_member>;
return fmt::format("bitfieldExtract({}({}), {}, {})", BitFieldT::IsSigned() ? "int" : "uint",
source, static_cast<u32>(BitFieldT::StartBit()),
static_cast<u32>(BitFieldT::NumBits()));
}
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template <auto last_member, typename = decltype(last_member)>
void WriteSwitch(ShaderCode& out, APIType ApiType, std::string_view variable,
const Common::EnumMap<std::string_view, last_member>& values, int indent,
bool break_)
{
const bool make_switch = (ApiType == APIType::D3D);
// The second template argument is needed to avoid compile errors from ambiguity with multiple
// enums with the same number of members in GCC prior to 8. See https://godbolt.org/z/xcKaW1seW
// and https://godbolt.org/z/hz7Yqq1P5
using enum_type = decltype(last_member);
// {:{}} is used to indent by formatting an empty string with a variable width
if (make_switch)
{
out.Write("{:{}}switch ({}) {{\n", "", indent, variable);
for (u32 i = 0; i <= static_cast<u32>(last_member); i++)
{
const enum_type key = static_cast<enum_type>(i);
// Assumes existence of an EnumFormatter
out.Write("{:{}}case {:s}:\n", "", indent, key);
// Note that this indentation behaves poorly for multi-line code
if (!values[key].empty())
out.Write("{:{}} {}\n", "", indent, values[key]);
if (break_)
out.Write("{:{}} break;\n", "", indent);
}
out.Write("{:{}}}}\n", "", indent);
}
else
{
// Generate a tree of if statements recursively
// std::function must be used because auto won't capture before initialization and thus can't be
// used recursively
std::function<void(u32, u32, u32)> BuildTree = [&](u32 cur_indent, u32 low, u32 high) {
// Each generated statement is for low <= x < high
if (high == low + 1)
{
// Down to 1 case (low <= x < low + 1 means x == low)
const enum_type key = static_cast<enum_type>(low);
// Note that this indentation behaves poorly for multi-line code
out.Write("{:{}}{} // {}\n", "", cur_indent, values[key], key);
}
else
{
u32 mid = low + ((high - low) / 2);
out.Write("{:{}}if ({} < {}u) {{\n", "", cur_indent, variable, mid);
BuildTree(cur_indent + 2, low, mid);
out.Write("{:{}}}} else {{\n", "", cur_indent);
BuildTree(cur_indent + 2, mid, high);
out.Write("{:{}}}}\n", "", cur_indent);
}
};
BuildTree(indent, 0, static_cast<u32>(last_member) + 1);
}
}
// Constant variable names
#define I_COLORS "color"
#define I_KCOLORS "k"
#define I_ALPHA "alphaRef"
#define I_TEXDIMS "texdim"
#define I_ZBIAS "czbias"
#define I_INDTEXSCALE "cindscale"
#define I_INDTEXMTX "cindmtx"
#define I_FOGCOLOR "cfogcolor"
#define I_FOGI "cfogi"
#define I_FOGF "cfogf"
#define I_FOGRANGE "cfogrange"
#define I_ZSLOPE "czslope"
#define I_EFBSCALE "cefbscale"
#define I_POSNORMALMATRIX "cpnmtx"
#define I_PROJECTION "cproj"
#define I_MATERIALS "cmtrl"
#define I_LIGHTS "clights"
#define I_TEXMATRICES "ctexmtx"
#define I_TRANSFORMMATRICES "ctrmtx"
#define I_NORMALMATRICES "cnmtx"
#define I_POSTTRANSFORMMATRICES "cpostmtx"
#define I_PIXELCENTERCORRECTION "cpixelcenter"
#define I_VIEWPORT_SIZE "cviewport"
#define I_CACHED_TANGENT "ctangent"
#define I_CACHED_BINORMAL "cbinormal"
#define I_STEREOPARAMS "cstereo"
#define I_LINEPTPARAMS "clinept"
#define I_TEXOFFSET "ctexoffset"
static const char s_shader_uniforms[] = "\tuint components;\n"
"\tuint xfmem_dualTexInfo;\n"
"\tuint xfmem_numColorChans;\n"
"\tuint missing_color_hex;\n"
"\tfloat4 missing_color_value;\n"
"\tfloat4 " I_POSNORMALMATRIX "[6];\n"
"\tfloat4 " I_PROJECTION "[4];\n"
"\tint4 " I_MATERIALS "[4];\n"
"\tLight " I_LIGHTS "[8];\n"
"\tfloat4 " I_TEXMATRICES "[24];\n"
"\tfloat4 " I_TRANSFORMMATRICES "[64];\n"
"\tfloat4 " I_NORMALMATRICES "[32];\n"
"\tfloat4 " I_POSTTRANSFORMMATRICES "[64];\n"
"\tfloat4 " I_PIXELCENTERCORRECTION ";\n"
"\tfloat2 " I_VIEWPORT_SIZE ";\n"
"\tuint4 xfmem_pack1[8];\n"
"\tfloat4 " I_CACHED_TANGENT ";\n"
"\tfloat4 " I_CACHED_BINORMAL ";\n"
"\t#define xfmem_texMtxInfo(i) (xfmem_pack1[(i)].x)\n"
"\t#define xfmem_postMtxInfo(i) (xfmem_pack1[(i)].y)\n"
"\t#define xfmem_color(i) (xfmem_pack1[(i)].z)\n"
"\t#define xfmem_alpha(i) (xfmem_pack1[(i)].w)\n";