dolphin/Source/Core/VideoBackends/Vulkan/ObjectCache.h
Stenzek 417a4ca206 Vulkan: Implement post-processing backend
No new features, just parity with OpenGL.
2017-04-25 14:27:02 +10:00

219 lines
7.9 KiB
C++

// Copyright 2016 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.
#pragma once
#include <array>
#include <cstddef>
#include <map>
#include <memory>
#include <string>
#include <unordered_map>
#include "Common/CommonTypes.h"
#include "Common/LinearDiskCache.h"
#include "VideoBackends/Vulkan/Constants.h"
#include "VideoCommon/GeometryShaderGen.h"
#include "VideoCommon/PixelShaderGen.h"
#include "VideoCommon/RenderState.h"
#include "VideoCommon/VertexShaderGen.h"
namespace Vulkan
{
class CommandBufferManager;
class VertexFormat;
class StreamBuffer;
struct PipelineInfo
{
// These are packed in descending order of size, to avoid any padding so that the structure
// can be copied/compared as a single block of memory. 64-bit pointer size is assumed.
const VertexFormat* vertex_format;
VkPipelineLayout pipeline_layout;
VkShaderModule vs;
VkShaderModule gs;
VkShaderModule ps;
VkRenderPass render_pass;
BlendingState blend_state;
RasterizationState rasterization_state;
DepthStencilState depth_stencil_state;
VkPrimitiveTopology primitive_topology;
};
struct PipelineInfoHash
{
std::size_t operator()(const PipelineInfo& key) const;
};
bool operator==(const PipelineInfo& lhs, const PipelineInfo& rhs);
bool operator!=(const PipelineInfo& lhs, const PipelineInfo& rhs);
bool operator<(const PipelineInfo& lhs, const PipelineInfo& rhs);
bool operator>(const PipelineInfo& lhs, const PipelineInfo& rhs);
bool operator==(const SamplerState& lhs, const SamplerState& rhs);
bool operator!=(const SamplerState& lhs, const SamplerState& rhs);
bool operator>(const SamplerState& lhs, const SamplerState& rhs);
bool operator<(const SamplerState& lhs, const SamplerState& rhs);
struct ComputePipelineInfo
{
VkPipelineLayout pipeline_layout;
VkShaderModule cs;
};
struct ComputePipelineInfoHash
{
std::size_t operator()(const ComputePipelineInfo& key) const;
};
bool operator==(const ComputePipelineInfo& lhs, const ComputePipelineInfo& rhs);
bool operator!=(const ComputePipelineInfo& lhs, const ComputePipelineInfo& rhs);
bool operator<(const ComputePipelineInfo& lhs, const ComputePipelineInfo& rhs);
bool operator>(const ComputePipelineInfo& lhs, const ComputePipelineInfo& rhs);
class ObjectCache
{
public:
ObjectCache();
~ObjectCache();
// Descriptor set layout accessor. Used for allocating descriptor sets.
VkDescriptorSetLayout GetDescriptorSetLayout(DESCRIPTOR_SET_LAYOUT layout) const
{
return m_descriptor_set_layouts[layout];
}
// Pipeline layout accessor. Used to fill in required field in PipelineInfo.
VkPipelineLayout GetPipelineLayout(PIPELINE_LAYOUT layout) const
{
return m_pipeline_layouts[layout];
}
// Shared utility shader resources
VertexFormat* GetUtilityShaderVertexFormat() const
{
return m_utility_shader_vertex_format.get();
}
StreamBuffer* GetUtilityShaderVertexBuffer() const
{
return m_utility_shader_vertex_buffer.get();
}
StreamBuffer* GetUtilityShaderUniformBuffer() const
{
return m_utility_shader_uniform_buffer.get();
}
// Get utility shader header based on current config.
std::string GetUtilityShaderHeader() const;
// Accesses ShaderGen shader caches
VkShaderModule GetVertexShaderForUid(const VertexShaderUid& uid);
VkShaderModule GetGeometryShaderForUid(const GeometryShaderUid& uid);
VkShaderModule GetPixelShaderForUid(const PixelShaderUid& uid);
// Static samplers
VkSampler GetPointSampler() const { return m_point_sampler; }
VkSampler GetLinearSampler() const { return m_linear_sampler; }
VkSampler GetSampler(const SamplerState& info);
// Perform at startup, create descriptor layouts, compiles all static shaders.
bool Initialize();
// Creates a pipeline for the specified description. The resulting pipeline, if successful
// is not stored anywhere, this is left up to the caller.
VkPipeline CreatePipeline(const PipelineInfo& info);
// Find a pipeline by the specified description, if not found, attempts to create it.
VkPipeline GetPipeline(const PipelineInfo& info);
// Find a pipeline by the specified description, if not found, attempts to create it. If this
// resulted in a pipeline being created, the second field of the return value will be false,
// otherwise for a cache hit it will be true.
std::pair<VkPipeline, bool> GetPipelineWithCacheResult(const PipelineInfo& info);
// Creates a compute pipeline, and does not track the handle.
VkPipeline CreateComputePipeline(const ComputePipelineInfo& info);
// Find a pipeline by the specified description, if not found, attempts to create it
VkPipeline GetComputePipeline(const ComputePipelineInfo& info);
// Clears our pipeline cache of all objects. This is necessary when recompiling shaders,
// as drivers are free to return the same pointer again, which means that we may end up using
// and old pipeline object if they are not cleared first. Some stutter may be experienced
// while our cache is rebuilt on use, but the pipeline cache object should mitigate this.
// NOTE: Ensure that none of these objects are in use before calling.
void ClearPipelineCache();
// Saves the pipeline cache to disk. Call when shutting down.
void SavePipelineCache();
// Clear sampler cache, use when anisotropy mode changes
// WARNING: Ensure none of the objects from here are in use when calling
void ClearSamplerCache();
// Recompile shared shaders, call when stereo mode changes.
void RecompileSharedShaders();
// Shared shader accessors
VkShaderModule GetScreenQuadVertexShader() const { return m_screen_quad_vertex_shader; }
VkShaderModule GetPassthroughVertexShader() const { return m_passthrough_vertex_shader; }
VkShaderModule GetScreenQuadGeometryShader() const { return m_screen_quad_geometry_shader; }
VkShaderModule GetPassthroughGeometryShader() const { return m_passthrough_geometry_shader; }
// Gets the filename of the specified type of cache object (e.g. vertex shader, pipeline).
std::string GetDiskCacheFileName(const char* type);
private:
bool CreatePipelineCache(bool load_from_disk);
bool ValidatePipelineCache(const u8* data, size_t data_length);
void DestroyPipelineCache();
void LoadShaderCaches();
void DestroyShaderCaches();
bool CreateDescriptorSetLayouts();
void DestroyDescriptorSetLayouts();
bool CreatePipelineLayouts();
void DestroyPipelineLayouts();
bool CreateUtilityShaderVertexFormat();
bool CreateStaticSamplers();
bool CompileSharedShaders();
void DestroySharedShaders();
void DestroySamplers();
std::array<VkDescriptorSetLayout, NUM_DESCRIPTOR_SET_LAYOUTS> m_descriptor_set_layouts = {};
std::array<VkPipelineLayout, NUM_PIPELINE_LAYOUTS> m_pipeline_layouts = {};
std::unique_ptr<VertexFormat> m_utility_shader_vertex_format;
std::unique_ptr<StreamBuffer> m_utility_shader_vertex_buffer;
std::unique_ptr<StreamBuffer> m_utility_shader_uniform_buffer;
template <typename Uid>
struct ShaderCache
{
std::map<Uid, VkShaderModule> shader_map;
LinearDiskCache<Uid, u32> disk_cache;
};
ShaderCache<VertexShaderUid> m_vs_cache;
ShaderCache<GeometryShaderUid> m_gs_cache;
ShaderCache<PixelShaderUid> m_ps_cache;
std::unordered_map<PipelineInfo, VkPipeline, PipelineInfoHash> m_pipeline_objects;
std::unordered_map<ComputePipelineInfo, VkPipeline, ComputePipelineInfoHash>
m_compute_pipeline_objects;
VkPipelineCache m_pipeline_cache = VK_NULL_HANDLE;
std::string m_pipeline_cache_filename;
VkSampler m_point_sampler = VK_NULL_HANDLE;
VkSampler m_linear_sampler = VK_NULL_HANDLE;
std::map<SamplerState, VkSampler> m_sampler_cache;
// Utility/shared shaders
VkShaderModule m_screen_quad_vertex_shader = VK_NULL_HANDLE;
VkShaderModule m_passthrough_vertex_shader = VK_NULL_HANDLE;
VkShaderModule m_screen_quad_geometry_shader = VK_NULL_HANDLE;
VkShaderModule m_passthrough_geometry_shader = VK_NULL_HANDLE;
};
extern std::unique_ptr<ObjectCache> g_object_cache;
} // namespace Vulkan