dolphin/Source/Core/VideoCommon/ShaderCache.h

// Copyright 2018 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.

#pragma once

#include <array>
#include <cstddef>
#include <map>
#include <memory>
#include <optional>
#include <string>
#include <unordered_map>
#include <utility>

#include "Common/CommonTypes.h"
#include "Common/LinearDiskCache.h"

#include "VideoCommon/AbstractPipeline.h"
#include "VideoCommon/AbstractShader.h"
#include "VideoCommon/NativeVertexFormat.h"

#include "VideoCommon/AsyncShaderCompiler.h"
#include "VideoCommon/GeometryShaderGen.h"
#include "VideoCommon/PixelShaderGen.h"
#include "VideoCommon/RenderState.h"
#include "VideoCommon/UberShaderPixel.h"
#include "VideoCommon/UberShaderVertex.h"
#include "VideoCommon/VertexShaderGen.h"

class NativeVertexFormat;

namespace VideoCommon
{
struct GXPipelineConfig
{
  const NativeVertexFormat* vertex_format;
  VertexShaderUid vs_uid;
  GeometryShaderUid gs_uid;
  PixelShaderUid ps_uid;
  RasterizationState rasterization_state;
  DepthState depth_state;
  BlendingState blending_state;

  bool operator<(const GXPipelineConfig& rhs) const
  {
    return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,
                    blending_state.hex) < std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,
                                                   rhs.ps_uid, rhs.rasterization_state.hex,
                                                   rhs.depth_state.hex, rhs.blending_state.hex);
  }
  bool operator==(const GXPipelineConfig& rhs) const
  {
    return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,
                    blending_state.hex) == std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,
                                                    rhs.ps_uid, rhs.rasterization_state.hex,
                                                    rhs.depth_state.hex, rhs.blending_state.hex);
  }
  bool operator!=(const GXPipelineConfig& rhs) const { return !operator==(rhs); }
};
struct GXUberPipelineConfig
{
  const NativeVertexFormat* vertex_format;
  UberShader::VertexShaderUid vs_uid;
  GeometryShaderUid gs_uid;
  UberShader::PixelShaderUid ps_uid;
  RasterizationState rasterization_state;
  DepthState depth_state;
  BlendingState blending_state;

  bool operator<(const GXUberPipelineConfig& rhs) const
  {
    return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,
                    blending_state.hex) < std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,
                                                   rhs.ps_uid, rhs.rasterization_state.hex,
                                                   rhs.depth_state.hex, rhs.blending_state.hex);
  }
  bool operator==(const GXUberPipelineConfig& rhs) const
  {
    return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,
                    blending_state.hex) == std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,
                                                    rhs.ps_uid, rhs.rasterization_state.hex,
                                                    rhs.depth_state.hex, rhs.blending_state.hex);
  }
  bool operator!=(const GXUberPipelineConfig& rhs) const { return !operator==(rhs); }
};

class ShaderCache final
{
public:
  ShaderCache();
  ~ShaderCache();

  // Perform at startup, create descriptor layouts, compiles all static shaders.
  bool Initialize();
  void Shutdown();

  // Changes the shader host config. Shaders will be reloaded if there are changes.
  void SetHostConfig(const ShaderHostConfig& host_config, u32 efb_multisamples);

  // Reloads/recreates all shaders and pipelines.
  void Reload();

  // Retrieves all pending shaders/pipelines from the async compiler.
  void RetrieveAsyncShaders();

  // Get utility shader header based on current config.
  std::string GetUtilityShaderHeader() const;

  // Accesses ShaderGen shader caches
  const AbstractPipeline* GetPipelineForUid(const GXPipelineConfig& uid);
  const AbstractPipeline* GetUberPipelineForUid(const GXUberPipelineConfig& uid);

  // Accesses ShaderGen shader caches asynchronously.
  // The optional will be empty if this pipeline is now background compiling.
  std::optional<const AbstractPipeline*> GetPipelineForUidAsync(const GXPipelineConfig& uid);

private:
  void WaitForAsyncCompiler(const std::string& msg);
  void LoadShaderCaches();
  void ClearShaderCaches();
  void LoadPipelineUIDCache();
  void CompileMissingPipelines();
  void InvalidateCachedPipelines();
  void ClearPipelineCaches();
  void PrecompileUberShaders();

  // GX shader compiler methods
  std::unique_ptr<AbstractShader> CompileVertexShader(const VertexShaderUid& uid) const;
  std::unique_ptr<AbstractShader>
  CompileVertexUberShader(const UberShader::VertexShaderUid& uid) const;
  std::unique_ptr<AbstractShader> CompilePixelShader(const PixelShaderUid& uid) const;
  std::unique_ptr<AbstractShader>
  CompilePixelUberShader(const UberShader::PixelShaderUid& uid) const;
  const AbstractShader* InsertVertexShader(const VertexShaderUid& uid,
                                           std::unique_ptr<AbstractShader> shader);
  const AbstractShader* InsertVertexUberShader(const UberShader::VertexShaderUid& uid,
                                               std::unique_ptr<AbstractShader> shader);
  const AbstractShader* InsertPixelShader(const PixelShaderUid& uid,
                                          std::unique_ptr<AbstractShader> shader);
  const AbstractShader* InsertPixelUberShader(const UberShader::PixelShaderUid& uid,
                                              std::unique_ptr<AbstractShader> shader);
  const AbstractShader* CreateGeometryShader(const GeometryShaderUid& uid);
  bool NeedsGeometryShader(const GeometryShaderUid& uid) const;

  // GX pipeline compiler methods
  AbstractPipelineConfig
  GetGXPipelineConfig(const NativeVertexFormat* vertex_format, const AbstractShader* vertex_shader,
                      const AbstractShader* geometry_shader, const AbstractShader* pixel_shader,
                      const RasterizationState& rasterization_state, const DepthState& depth_state,
                      const BlendingState& blending_state);
  std::optional<AbstractPipelineConfig> GetGXPipelineConfig(const GXPipelineConfig& uid);
  std::optional<AbstractPipelineConfig> GetGXUberPipelineConfig(const GXUberPipelineConfig& uid);
  const AbstractPipeline* InsertGXPipeline(const GXPipelineConfig& config,
                                           std::unique_ptr<AbstractPipeline> pipeline);
  const AbstractPipeline* InsertGXUberPipeline(const GXUberPipelineConfig& config,
                                               std::unique_ptr<AbstractPipeline> pipeline);
  void AppendGXPipelineUID(const GXPipelineConfig& config);

  // ASync Compiler Methods
  void QueueVertexShaderCompile(const VertexShaderUid& uid);
  void QueueVertexUberShaderCompile(const UberShader::VertexShaderUid& uid);
  void QueuePixelShaderCompile(const PixelShaderUid& uid);
  void QueuePixelUberShaderCompile(const UberShader::PixelShaderUid& uid);
  void QueuePipelineCompile(const GXPipelineConfig& uid);
  void QueueUberPipelineCompile(const GXUberPipelineConfig& uid);

  // Configuration bits.
  APIType m_api_type = APIType::Nothing;
  ShaderHostConfig m_host_config = {};
  u32 m_efb_multisamples = 1;
  std::unique_ptr<AsyncShaderCompiler> m_async_shader_compiler;

  // GX Shader Caches
  template <typename Uid>
  struct ShaderModuleCache
  {
    struct Shader
    {
      std::unique_ptr<AbstractShader> shader;
      bool pending;
    };
    std::map<Uid, Shader> shader_map;
    LinearDiskCache<Uid, u8> disk_cache;
  };
  ShaderModuleCache<VertexShaderUid> m_vs_cache;
  ShaderModuleCache<GeometryShaderUid> m_gs_cache;
  ShaderModuleCache<PixelShaderUid> m_ps_cache;
  ShaderModuleCache<UberShader::VertexShaderUid> m_uber_vs_cache;
  ShaderModuleCache<UberShader::PixelShaderUid> m_uber_ps_cache;

  // GX Pipeline Caches - .first - pipeline, .second - pending
  // TODO: Use unordered_map for speed.
  std::map<GXPipelineConfig, std::pair<std::unique_ptr<AbstractPipeline>, bool>>
      m_gx_pipeline_cache;
  std::map<GXUberPipelineConfig, std::pair<std::unique_ptr<AbstractPipeline>, bool>>
      m_gx_uber_pipeline_cache;

  // Disk cache of pipeline UIDs
  // We can't use the whole UID as a type
  struct GXPipelineDiskCacheUid
  {
    PortableVertexDeclaration vertex_decl;
    VertexShaderUid vs_uid;
    GeometryShaderUid gs_uid;
    PixelShaderUid ps_uid;
    u32 rasterization_state_bits;
    u32 depth_state_bits;
    u32 blending_state_bits;
  };
  LinearDiskCache<GXPipelineDiskCacheUid, u8> m_gx_pipeline_uid_disk_cache;
};

}  // namespace VideoCommon

extern std::unique_ptr<VideoCommon::ShaderCache> g_shader_cache;
Move shader caches to VideoCommon 2018-02-24 16:15:35 +01:00			`// Copyright 2018 Dolphin Emulator Project`
			`// Licensed under GPLv2+`
			`// Refer to the license.txt file included.`

			`#pragma once`

			`#include <array>`
			`#include <cstddef>`
			`#include <map>`
			`#include <memory>`
			`#include <optional>`
			`#include <string>`
			`#include <unordered_map>`
			`#include <utility>`

			`#include "Common/CommonTypes.h"`
			`#include "Common/LinearDiskCache.h"`

			`#include "VideoCommon/AbstractPipeline.h"`
			`#include "VideoCommon/AbstractShader.h"`
			`#include "VideoCommon/NativeVertexFormat.h"`

			`#include "VideoCommon/AsyncShaderCompiler.h"`
			`#include "VideoCommon/GeometryShaderGen.h"`
			`#include "VideoCommon/PixelShaderGen.h"`
			`#include "VideoCommon/RenderState.h"`
			`#include "VideoCommon/UberShaderPixel.h"`
			`#include "VideoCommon/UberShaderVertex.h"`
			`#include "VideoCommon/VertexShaderGen.h"`

			`class NativeVertexFormat;`

			`namespace VideoCommon`
			`{`
			`struct GXPipelineConfig`
			`{`
			`const NativeVertexFormat* vertex_format;`
			`VertexShaderUid vs_uid;`
			`GeometryShaderUid gs_uid;`
			`PixelShaderUid ps_uid;`
			`RasterizationState rasterization_state;`
			`DepthState depth_state;`
			`BlendingState blending_state;`

			`bool operator<(const GXPipelineConfig& rhs) const`
			`{`
			`return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,`
			`blending_state.hex) < std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,`
			`rhs.ps_uid, rhs.rasterization_state.hex,`
			`rhs.depth_state.hex, rhs.blending_state.hex);`
			`}`
			`bool operator==(const GXPipelineConfig& rhs) const`
			`{`
			`return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,`
			`blending_state.hex) == std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,`
			`rhs.ps_uid, rhs.rasterization_state.hex,`
			`rhs.depth_state.hex, rhs.blending_state.hex);`
			`}`
			`bool operator!=(const GXPipelineConfig& rhs) const { return !operator==(rhs); }`
			`};`
			`struct GXUberPipelineConfig`
			`{`
			`const NativeVertexFormat* vertex_format;`
			`UberShader::VertexShaderUid vs_uid;`
			`GeometryShaderUid gs_uid;`
			`UberShader::PixelShaderUid ps_uid;`
			`RasterizationState rasterization_state;`
			`DepthState depth_state;`
			`BlendingState blending_state;`

			`bool operator<(const GXUberPipelineConfig& rhs) const`
			`{`
			`return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,`
			`blending_state.hex) < std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,`
			`rhs.ps_uid, rhs.rasterization_state.hex,`
			`rhs.depth_state.hex, rhs.blending_state.hex);`
			`}`
			`bool operator==(const GXUberPipelineConfig& rhs) const`
			`{`
			`return std::tie(vertex_format, vs_uid, gs_uid, ps_uid, rasterization_state.hex, depth_state.hex,`
			`blending_state.hex) == std::tie(rhs.vertex_format, rhs.vs_uid, rhs.gs_uid,`
			`rhs.ps_uid, rhs.rasterization_state.hex,`
			`rhs.depth_state.hex, rhs.blending_state.hex);`
			`}`
			`bool operator!=(const GXUberPipelineConfig& rhs) const { return !operator==(rhs); }`
			`};`

			`class ShaderCache final`
			`{`
			`public:`
			`ShaderCache();`
			`~ShaderCache();`

			`// Perform at startup, create descriptor layouts, compiles all static shaders.`
			`bool Initialize();`
			`void Shutdown();`

			`// Changes the shader host config. Shaders will be reloaded if there are changes.`
			`void SetHostConfig(const ShaderHostConfig& host_config, u32 efb_multisamples);`

			`// Reloads/recreates all shaders and pipelines.`
			`void Reload();`

			`// Retrieves all pending shaders/pipelines from the async compiler.`
			`void RetrieveAsyncShaders();`

			`// Get utility shader header based on current config.`
			`std::string GetUtilityShaderHeader() const;`

			`// Accesses ShaderGen shader caches`
			`const AbstractPipeline* GetPipelineForUid(const GXPipelineConfig& uid);`
			`const AbstractPipeline* GetUberPipelineForUid(const GXUberPipelineConfig& uid);`

			`// Accesses ShaderGen shader caches asynchronously.`
			`// The optional will be empty if this pipeline is now background compiling.`
			`std::optional<const AbstractPipeline*> GetPipelineForUidAsync(const GXPipelineConfig& uid);`

			`private:`
			`void WaitForAsyncCompiler(const std::string& msg);`
			`void LoadShaderCaches();`
			`void ClearShaderCaches();`
			`void LoadPipelineUIDCache();`
			`void CompileMissingPipelines();`
			`void InvalidateCachedPipelines();`
			`void ClearPipelineCaches();`
			`void PrecompileUberShaders();`

			`// GX shader compiler methods`
			`std::unique_ptr<AbstractShader> CompileVertexShader(const VertexShaderUid& uid) const;`
			`std::unique_ptr<AbstractShader>`
			`CompileVertexUberShader(const UberShader::VertexShaderUid& uid) const;`
			`std::unique_ptr<AbstractShader> CompilePixelShader(const PixelShaderUid& uid) const;`
			`std::unique_ptr<AbstractShader>`
			`CompilePixelUberShader(const UberShader::PixelShaderUid& uid) const;`
			`const AbstractShader* InsertVertexShader(const VertexShaderUid& uid,`
			`std::unique_ptr<AbstractShader> shader);`
			`const AbstractShader* InsertVertexUberShader(const UberShader::VertexShaderUid& uid,`
			`std::unique_ptr<AbstractShader> shader);`
			`const AbstractShader* InsertPixelShader(const PixelShaderUid& uid,`
			`std::unique_ptr<AbstractShader> shader);`
			`const AbstractShader* InsertPixelUberShader(const UberShader::PixelShaderUid& uid,`
			`std::unique_ptr<AbstractShader> shader);`
			`const AbstractShader* CreateGeometryShader(const GeometryShaderUid& uid);`
			`bool NeedsGeometryShader(const GeometryShaderUid& uid) const;`

			`// GX pipeline compiler methods`
			`AbstractPipelineConfig`
			`GetGXPipelineConfig(const NativeVertexFormat* vertex_format, const AbstractShader* vertex_shader,`
			`const AbstractShader* geometry_shader, const AbstractShader* pixel_shader,`
			`const RasterizationState& rasterization_state, const DepthState& depth_state,`
			`const BlendingState& blending_state);`
			`std::optional<AbstractPipelineConfig> GetGXPipelineConfig(const GXPipelineConfig& uid);`
			`std::optional<AbstractPipelineConfig> GetGXUberPipelineConfig(const GXUberPipelineConfig& uid);`
			`const AbstractPipeline* InsertGXPipeline(const GXPipelineConfig& config,`
			`std::unique_ptr<AbstractPipeline> pipeline);`
			`const AbstractPipeline* InsertGXUberPipeline(const GXUberPipelineConfig& config,`
			`std::unique_ptr<AbstractPipeline> pipeline);`
			`void AppendGXPipelineUID(const GXPipelineConfig& config);`

			`// ASync Compiler Methods`
			`void QueueVertexShaderCompile(const VertexShaderUid& uid);`
			`void QueueVertexUberShaderCompile(const UberShader::VertexShaderUid& uid);`
			`void QueuePixelShaderCompile(const PixelShaderUid& uid);`
			`void QueuePixelUberShaderCompile(const UberShader::PixelShaderUid& uid);`
			`void QueuePipelineCompile(const GXPipelineConfig& uid);`
			`void QueueUberPipelineCompile(const GXUberPipelineConfig& uid);`

			`// Configuration bits.`
			`APIType m_api_type = APIType::Nothing;`
			`ShaderHostConfig m_host_config = {};`
			`u32 m_efb_multisamples = 1;`
			`std::unique_ptr<AsyncShaderCompiler> m_async_shader_compiler;`

			`// GX Shader Caches`
			`template <typename Uid>`
			`struct ShaderModuleCache`
			`{`
			`struct Shader`
			`{`
			`std::unique_ptr<AbstractShader> shader;`
			`bool pending;`
			`};`
			`std::map<Uid, Shader> shader_map;`
			`LinearDiskCache<Uid, u8> disk_cache;`
			`};`
			`ShaderModuleCache<VertexShaderUid> m_vs_cache;`
			`ShaderModuleCache<GeometryShaderUid> m_gs_cache;`
			`ShaderModuleCache<PixelShaderUid> m_ps_cache;`
			`ShaderModuleCache<UberShader::VertexShaderUid> m_uber_vs_cache;`
			`ShaderModuleCache<UberShader::PixelShaderUid> m_uber_ps_cache;`

			`// GX Pipeline Caches - .first - pipeline, .second - pending`
			`// TODO: Use unordered_map for speed.`
			`std::map<GXPipelineConfig, std::pair<std::unique_ptr<AbstractPipeline>, bool>>`
			`m_gx_pipeline_cache;`
			`std::map<GXUberPipelineConfig, std::pair<std::unique_ptr<AbstractPipeline>, bool>>`
			`m_gx_uber_pipeline_cache;`

			`// Disk cache of pipeline UIDs`
			`// We can't use the whole UID as a type`
			`struct GXPipelineDiskCacheUid`
			`{`
			`PortableVertexDeclaration vertex_decl;`
			`VertexShaderUid vs_uid;`
			`GeometryShaderUid gs_uid;`
			`PixelShaderUid ps_uid;`
			`u32 rasterization_state_bits;`
			`u32 depth_state_bits;`
			`u32 blending_state_bits;`
			`};`
			`LinearDiskCache<GXPipelineDiskCacheUid, u8> m_gx_pipeline_uid_disk_cache;`
			`};`

			`} // namespace VideoCommon`

			`extern std::unique_ptr<VideoCommon::ShaderCache> g_shader_cache;`