Duckstation/src/core/gpu_hw.h

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// SPDX-FileCopyrightText: 2019-2022 Connor McLaughlin <stenzek@gmail.com>
// SPDX-License-Identifier: (GPL-3.0 OR CC-BY-NC-ND-4.0)
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#pragma once
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#include "gpu.h"
#include "texture_replacements.h"
#include "util/gpu_device.h"
#include "common/dimensional_array.h"
#include "common/heap_array.h"
#include <sstream>
#include <string>
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#include <tuple>
#include <utility>
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#include <vector>
class GPU_SW_Backend;
struct GPUBackendCommand;
struct GPUBackendDrawCommand;
class GPU_HW final : public GPU
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{
public:
enum class BatchRenderMode : u8
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{
TransparencyDisabled,
TransparentAndOpaque,
OnlyOpaque,
OnlyTransparent
};
enum class InterlacedRenderMode : u8
{
None,
InterleavedFields,
SeparateFields
};
GPU_HW();
~GPU_HW() override;
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const Threading::Thread* GetSWThread() const override;
bool IsHardwareRenderer() const override;
bool Initialize() override;
void Reset(bool clear_vram) override;
bool DoState(StateWrapper& sw, GPUTexture** host_texture, bool update_display) override;
void RestoreDeviceContext() override;
void UpdateSettings(const Settings& old_settings) override;
void UpdateResolutionScale() override final;
std::tuple<u32, u32> GetEffectiveDisplayResolution(bool scaled = true) override final;
std::tuple<u32, u32> GetFullDisplayResolution(bool scaled = true) override final;
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void ClearDisplay() override;
void UpdateDisplay() override;
private:
enum : u32
{
MAX_BATCH_VERTEX_COUNTER_IDS = 65536 - 2,
MAX_VERTICES_FOR_RECTANGLE = 6 * (((MAX_PRIMITIVE_WIDTH + (TEXTURE_PAGE_WIDTH - 1)) / TEXTURE_PAGE_WIDTH) + 1u) *
(((MAX_PRIMITIVE_HEIGHT + (TEXTURE_PAGE_HEIGHT - 1)) / TEXTURE_PAGE_HEIGHT) + 1u)
};
static_assert(GPUDevice::MIN_TEXEL_BUFFER_ELEMENTS >= (VRAM_WIDTH * VRAM_HEIGHT));
struct BatchVertex
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{
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float x;
float y;
float z;
float w;
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u32 color;
u32 texpage;
u16 u; // 16-bit texcoords are needed for 256 extent rectangles
u16 v;
u32 uv_limits;
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void Set(float x_, float y_, float z_, float w_, u32 color_, u32 texpage_, u16 packed_texcoord, u32 uv_limits_);
void Set(float x_, float y_, float z_, float w_, u32 color_, u32 texpage_, u16 u_, u16 v_, u32 uv_limits_);
static u32 PackUVLimits(u32 min_u, u32 max_u, u32 min_v, u32 max_v);
void SetUVLimits(u32 min_u, u32 max_u, u32 min_v, u32 max_v);
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};
struct BatchConfig
{
GPUTextureMode texture_mode = GPUTextureMode::Disabled;
GPUTransparencyMode transparency_mode = GPUTransparencyMode::Disabled;
bool dithering = false;
bool interlacing = false;
bool set_mask_while_drawing = false;
bool check_mask_before_draw = false;
bool use_depth_buffer = false;
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// Returns the render mode for this batch.
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BatchRenderMode GetRenderMode() const;
};
struct BatchUBOData
{
u32 u_texture_window_and[2];
u32 u_texture_window_or[2];
float u_src_alpha_factor;
float u_dst_alpha_factor;
u32 u_interlaced_displayed_field;
u32 u_set_mask_while_drawing;
};
struct RendererStats
{
u32 num_batches;
u32 num_vram_read_texture_updates;
u32 num_uniform_buffer_updates;
};
bool CreateBuffers();
void ClearFramebuffer();
void DestroyBuffers();
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bool CompilePipelines();
void DestroyPipelines();
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void LoadVertices();
void AddVertex(const BatchVertex& v);
template<typename... Args>
void AddNewVertex(Args&&... args);
void PrintSettingsToLog();
void CheckSettings();
void UpdateVRAMReadTexture();
void UpdateDepthBufferFromMaskBit();
void ClearDepthBuffer();
void SetScissor();
void MapBatchVertexPointer(u32 required_vertices);
void UnmapBatchVertexPointer(u32 used_vertices);
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void DrawBatchVertices(BatchRenderMode render_mode, u32 num_vertices, u32 base_vertex);
u32 CalculateResolutionScale() const;
GPUDownsampleMode GetDownsampleMode(u32 resolution_scale) const;
bool IsUsingMultisampling() const;
bool IsUsingDownsampling() const;
void SetFullVRAMDirtyRectangle();
void ClearVRAMDirtyRectangle();
void IncludeVRAMDirtyRectangle(const Common::Rectangle<u32>& rect);
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bool IsFlushed() const;
u32 GetBatchVertexSpace() const;
u32 GetBatchVertexCount() const;
void EnsureVertexBufferSpace(u32 required_vertices);
void EnsureVertexBufferSpaceForCurrentCommand();
void ResetBatchVertexDepth();
/// Returns the value to be written to the depth buffer for the current operation for mask bit emulation.
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float GetCurrentNormalizedVertexDepth() const;
/// Returns the interlaced mode to use when scanning out/displaying.
InterlacedRenderMode GetInterlacedRenderMode() const;
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/// Returns if the draw needs to be broken into opaque/transparent passes.
bool NeedsTwoPassRendering() const;
void FillBackendCommandParameters(GPUBackendCommand* cmd) const;
void FillDrawCommand(GPUBackendDrawCommand* cmd, GPURenderCommand rc) const;
void UpdateSoftwareRenderer(bool copy_vram_from_hw);
void FillVRAM(u32 x, u32 y, u32 width, u32 height, u32 color) override;
void ReadVRAM(u32 x, u32 y, u32 width, u32 height) override;
void UpdateVRAM(u32 x, u32 y, u32 width, u32 height, const void* data, bool set_mask, bool check_mask) override;
void CopyVRAM(u32 src_x, u32 src_y, u32 dst_x, u32 dst_y, u32 width, u32 height) override;
void DispatchRenderCommand() override;
void FlushRender() override;
void DrawRendererStats(bool is_idle_frame) override;
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bool BlitVRAMReplacementTexture(const TextureReplacementTexture* tex, u32 dst_x, u32 dst_y, u32 width, u32 height);
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/// Expands a line into two triangles.
void DrawLine(float x0, float y0, u32 col0, float x1, float y1, u32 col1, float depth);
/// Handles quads with flipped texture coordinate directions.
static void HandleFlippedQuadTextureCoordinates(BatchVertex* vertices);
/// Computes polygon U/V boundaries.
static void ComputePolygonUVLimits(BatchVertex* vertices, u32 num_vertices);
/// Sets the depth test flag for PGXP depth buffering.
void SetBatchDepthBuffer(bool enabled);
void CheckForDepthClear(const BatchVertex* vertices, u32 num_vertices);
/// Returns the number of mipmap levels used for adaptive smoothing.
u32 GetAdaptiveDownsamplingMipLevels() const;
void DownsampleFramebuffer(GPUTexture* source, u32 left, u32 top, u32 width, u32 height);
void DownsampleFramebufferAdaptive(GPUTexture* source, u32 left, u32 top, u32 width, u32 height);
void DownsampleFramebufferBoxFilter(GPUTexture* source, u32 left, u32 top, u32 width, u32 height);
std::unique_ptr<GPUTexture> m_vram_texture;
std::unique_ptr<GPUTexture> m_vram_depth_texture;
std::unique_ptr<GPUTexture> m_vram_depth_view;
std::unique_ptr<GPUTexture> m_vram_read_texture;
std::unique_ptr<GPUTexture> m_vram_readback_texture;
std::unique_ptr<GPUTexture> m_vram_replacement_texture;
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std::unique_ptr<GPUTexture> m_display_private_texture; // TODO: Move to base.
std::unique_ptr<GPUFramebuffer> m_vram_framebuffer;
std::unique_ptr<GPUFramebuffer> m_vram_update_depth_framebuffer;
std::unique_ptr<GPUFramebuffer> m_vram_readback_framebuffer;
std::unique_ptr<GPUFramebuffer> m_display_framebuffer;
std::unique_ptr<GPUTextureBuffer> m_vram_upload_buffer;
std::unique_ptr<GPUTexture> m_vram_write_texture;
FixedHeapArray<u16, VRAM_WIDTH * VRAM_HEIGHT> m_vram_shadow;
std::unique_ptr<GPU_SW_Backend> m_sw_renderer;
BatchVertex* m_batch_start_vertex_ptr = nullptr;
BatchVertex* m_batch_end_vertex_ptr = nullptr;
BatchVertex* m_batch_current_vertex_ptr = nullptr;
u32 m_batch_base_vertex = 0;
s32 m_current_depth = 0;
float m_last_depth_z = 1.0f;
u32 m_resolution_scale = 1;
u32 m_multisamples = 1;
union
{
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BitField<u8, bool, 0, 1> m_supports_dual_source_blend;
BitField<u8, bool, 1, 1> m_per_sample_shading;
BitField<u8, bool, 2, 1> m_scaled_dithering;
BitField<u8, bool, 3, 1> m_chroma_smoothing;
BitField<u8, bool, 4, 1> m_disable_color_perspective;
u8 bits = 0;
};
GPUTextureFilter m_texture_filtering = GPUTextureFilter::Nearest;
GPUDownsampleMode m_downsample_mode = GPUDownsampleMode::Disabled;
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GPUWireframeMode m_wireframe_mode = GPUWireframeMode::Disabled;
bool m_true_color = true;
bool m_using_uv_limits = false;
bool m_pgxp_depth_buffer = false;
BatchConfig m_batch;
BatchUBOData m_batch_ubo_data = {};
// Bounding box of VRAM area that the GPU has drawn into.
Common::Rectangle<u32> m_vram_dirty_rect;
// Changed state
bool m_batch_ubo_dirty = true;
// [depth_test][render_mode][texture_mode][transparency_mode][dithering][interlacing]
DimensionalArray<std::unique_ptr<GPUPipeline>, 2, 2, 5, 9, 4, 3> m_batch_pipelines{};
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std::unique_ptr<GPUPipeline> m_wireframe_pipeline;
// [wrapped][interlaced]
DimensionalArray<std::unique_ptr<GPUPipeline>, 2, 2> m_vram_fill_pipelines{};
// [depth_test]
std::array<std::unique_ptr<GPUPipeline>, 2> m_vram_write_pipelines{};
std::array<std::unique_ptr<GPUPipeline>, 2> m_vram_copy_pipelines{};
std::unique_ptr<GPUPipeline> m_vram_readback_pipeline;
std::unique_ptr<GPUPipeline> m_vram_update_depth_pipeline;
// [depth_24][interlace_mode]
DimensionalArray<std::unique_ptr<GPUPipeline>, 3, 2> m_display_pipelines{};
// TODO: get rid of this, and use image blits instead where supported
std::unique_ptr<GPUPipeline> m_copy_pipeline;
std::unique_ptr<GPUTexture> m_downsample_texture;
std::unique_ptr<GPUTexture> m_downsample_render_texture;
std::unique_ptr<GPUFramebuffer> m_downsample_framebuffer;
std::unique_ptr<GPUTexture> m_downsample_weight_texture;
std::unique_ptr<GPUFramebuffer> m_downsample_weight_framebuffer;
std::unique_ptr<GPUPipeline> m_downsample_first_pass_pipeline;
std::unique_ptr<GPUPipeline> m_downsample_mid_pass_pipeline;
std::unique_ptr<GPUPipeline> m_downsample_blur_pass_pipeline;
std::unique_ptr<GPUPipeline> m_downsample_composite_pass_pipeline;
std::unique_ptr<GPUSampler> m_downsample_lod_sampler;
std::unique_ptr<GPUSampler> m_downsample_composite_sampler;
// Statistics
RendererStats m_renderer_stats = {};
RendererStats m_last_renderer_stats = {};
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};