dolphin/Source/Core/VideoBackends/D3D12/D3D12Renderer.cpp

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// Copyright 2019 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
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#include "VideoBackends/D3D12/D3D12Renderer.h"
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#include "Common/Logging/Log.h"
#include "VideoBackends/D3D12/Common.h"
#include "VideoBackends/D3D12/D3D12BoundingBox.h"
#include "VideoBackends/D3D12/D3D12PerfQuery.h"
#include "VideoBackends/D3D12/D3D12SwapChain.h"
#include "VideoBackends/D3D12/DX12Context.h"
#include "VideoBackends/D3D12/DX12Pipeline.h"
#include "VideoBackends/D3D12/DX12Shader.h"
#include "VideoBackends/D3D12/DX12Texture.h"
#include "VideoBackends/D3D12/DX12VertexFormat.h"
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#include "VideoBackends/D3D12/DescriptorHeapManager.h"
#include "VideoCommon/VideoConfig.h"
namespace DX12
{
Renderer::Renderer(std::unique_ptr<SwapChain> swap_chain, float backbuffer_scale)
: ::Renderer(swap_chain ? swap_chain->GetWidth() : 0, swap_chain ? swap_chain->GetHeight() : 0,
backbuffer_scale,
swap_chain ? swap_chain->GetFormat() : AbstractTextureFormat::Undefined),
m_swap_chain(std::move(swap_chain))
{
m_state.root_signature = g_dx_context->GetGXRootSignature();
// Textures must be populated with null descriptors, since we copy directly from this array.
for (u32 i = 0; i < MAX_TEXTURES; i++)
{
m_state.textures[i].ptr = g_dx_context->GetNullSRVDescriptor().cpu_handle.ptr;
m_state.samplers.states[i] = RenderState::GetPointSamplerState();
}
}
Renderer::~Renderer() = default;
bool Renderer::IsHeadless() const
{
return !m_swap_chain;
}
bool Renderer::Initialize()
{
if (!::Renderer::Initialize())
return false;
return true;
}
void Renderer::Shutdown()
{
m_swap_chain.reset();
::Renderer::Shutdown();
}
std::unique_ptr<AbstractTexture> Renderer::CreateTexture(const TextureConfig& config,
std::string_view name)
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{
return DXTexture::Create(config, name);
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}
std::unique_ptr<AbstractStagingTexture> Renderer::CreateStagingTexture(StagingTextureType type,
const TextureConfig& config)
{
return DXStagingTexture::Create(type, config);
}
std::unique_ptr<AbstractFramebuffer> Renderer::CreateFramebuffer(AbstractTexture* color_attachment,
AbstractTexture* depth_attachment)
{
return DXFramebuffer::Create(static_cast<DXTexture*>(color_attachment),
static_cast<DXTexture*>(depth_attachment));
}
std::unique_ptr<AbstractShader>
Renderer::CreateShaderFromSource(ShaderStage stage, std::string_view source, std::string_view name)
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{
return DXShader::CreateFromSource(stage, source, name);
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}
std::unique_ptr<AbstractShader> Renderer::CreateShaderFromBinary(ShaderStage stage,
const void* data, size_t length,
std::string_view name)
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{
return DXShader::CreateFromBytecode(stage, DXShader::CreateByteCode(data, length), name);
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}
std::unique_ptr<NativeVertexFormat>
Renderer::CreateNativeVertexFormat(const PortableVertexDeclaration& vtx_decl)
{
return std::make_unique<DXVertexFormat>(vtx_decl);
}
std::unique_ptr<AbstractPipeline> Renderer::CreatePipeline(const AbstractPipelineConfig& config,
const void* cache_data,
size_t cache_data_length)
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{
return DXPipeline::Create(config, cache_data, cache_data_length);
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}
std::unique_ptr<BoundingBox> Renderer::CreateBoundingBox() const
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{
return std::make_unique<D3D12BoundingBox>();
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}
void Renderer::Flush()
{
ExecuteCommandList(false);
}
void Renderer::WaitForGPUIdle()
{
ExecuteCommandList(true);
}
void Renderer::ClearScreen(const MathUtil::Rectangle<int>& rc, bool color_enable, bool alpha_enable,
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bool z_enable, u32 color, u32 z)
{
// Use a fast path without the shader if both color/alpha are enabled.
const bool fast_color_clear = color_enable && (alpha_enable || !EFBHasAlphaChannel());
if (fast_color_clear || z_enable)
{
MathUtil::Rectangle<int> native_rc = ConvertEFBRectangle(rc);
native_rc.ClampUL(0, 0, m_current_framebuffer->GetWidth(), m_current_framebuffer->GetHeight());
const D3D12_RECT d3d_clear_rc{native_rc.left, native_rc.top, native_rc.right, native_rc.bottom};
if (fast_color_clear)
{
static_cast<DXTexture*>(m_current_framebuffer->GetColorAttachment())
->TransitionToState(D3D12_RESOURCE_STATE_RENDER_TARGET);
const std::array<float, 4> clear_color = {
{static_cast<float>((color >> 16) & 0xFF) / 255.0f,
static_cast<float>((color >> 8) & 0xFF) / 255.0f,
static_cast<float>((color >> 0) & 0xFF) / 255.0f,
static_cast<float>((color >> 24) & 0xFF) / 255.0f}};
g_dx_context->GetCommandList()->ClearRenderTargetView(
static_cast<const DXFramebuffer*>(m_current_framebuffer)->GetRTVDescriptor().cpu_handle,
clear_color.data(), 1, &d3d_clear_rc);
color_enable = false;
alpha_enable = false;
}
if (z_enable)
{
static_cast<DXTexture*>(m_current_framebuffer->GetDepthAttachment())
->TransitionToState(D3D12_RESOURCE_STATE_DEPTH_WRITE);
// D3D does not support reversed depth ranges.
const float clear_depth = 1.0f - static_cast<float>(z & 0xFFFFFF) / 16777216.0f;
g_dx_context->GetCommandList()->ClearDepthStencilView(
static_cast<const DXFramebuffer*>(m_current_framebuffer)->GetDSVDescriptor().cpu_handle,
D3D12_CLEAR_FLAG_DEPTH, clear_depth, 0, 1, &d3d_clear_rc);
z_enable = false;
}
}
// Anything left over, fall back to clear triangle.
if (color_enable || alpha_enable || z_enable)
::Renderer::ClearScreen(rc, color_enable, alpha_enable, z_enable, color, z);
}
void Renderer::SetPipeline(const AbstractPipeline* pipeline)
{
const DXPipeline* dx_pipeline = static_cast<const DXPipeline*>(pipeline);
if (m_current_pipeline == dx_pipeline)
return;
m_current_pipeline = dx_pipeline;
m_dirty_bits |= DirtyState_Pipeline;
if (dx_pipeline)
{
if (dx_pipeline->GetRootSignature() != m_state.root_signature)
{
m_state.root_signature = dx_pipeline->GetRootSignature();
m_dirty_bits |= DirtyState_RootSignature | DirtyState_PS_CBV | DirtyState_VS_CBV |
DirtyState_GS_CBV | DirtyState_SRV_Descriptor |
DirtyState_Sampler_Descriptor | DirtyState_UAV_Descriptor;
}
if (dx_pipeline->UseIntegerRTV() != m_state.using_integer_rtv)
{
m_state.using_integer_rtv = dx_pipeline->UseIntegerRTV();
m_dirty_bits |= DirtyState_Framebuffer;
}
if (dx_pipeline->GetPrimitiveTopology() != m_state.primitive_topology)
{
m_state.primitive_topology = dx_pipeline->GetPrimitiveTopology();
m_dirty_bits |= DirtyState_PrimitiveTopology;
}
}
}
void Renderer::BindFramebuffer(DXFramebuffer* fb)
{
if (fb->HasColorBuffer())
{
static_cast<DXTexture*>(fb->GetColorAttachment())
->TransitionToState(D3D12_RESOURCE_STATE_RENDER_TARGET);
}
if (fb->HasDepthBuffer())
{
static_cast<DXTexture*>(fb->GetDepthAttachment())
->TransitionToState(D3D12_RESOURCE_STATE_DEPTH_WRITE);
}
g_dx_context->GetCommandList()->OMSetRenderTargets(
fb->GetRTVDescriptorCount(),
m_state.using_integer_rtv ? fb->GetIntRTVDescriptorArray() : fb->GetRTVDescriptorArray(),
FALSE, fb->GetDSVDescriptorArray());
m_current_framebuffer = fb;
m_dirty_bits &= ~DirtyState_Framebuffer;
}
void Renderer::SetFramebuffer(AbstractFramebuffer* framebuffer)
{
if (m_current_framebuffer == framebuffer)
return;
m_current_framebuffer = framebuffer;
m_dirty_bits |= DirtyState_Framebuffer;
}
void Renderer::SetAndDiscardFramebuffer(AbstractFramebuffer* framebuffer)
{
BindFramebuffer(static_cast<DXFramebuffer*>(framebuffer));
static const D3D12_DISCARD_REGION dr = {0, nullptr, 0, 1};
if (framebuffer->HasColorBuffer())
{
g_dx_context->GetCommandList()->DiscardResource(
static_cast<DXTexture*>(framebuffer->GetColorAttachment())->GetResource(), &dr);
}
if (framebuffer->HasDepthBuffer())
{
g_dx_context->GetCommandList()->DiscardResource(
static_cast<DXTexture*>(framebuffer->GetDepthAttachment())->GetResource(), &dr);
}
}
void Renderer::SetAndClearFramebuffer(AbstractFramebuffer* framebuffer,
const ClearColor& color_value, float depth_value)
{
DXFramebuffer* dxfb = static_cast<DXFramebuffer*>(framebuffer);
BindFramebuffer(dxfb);
static const D3D12_DISCARD_REGION dr = {0, nullptr, 0, 1};
if (framebuffer->HasColorBuffer())
{
g_dx_context->GetCommandList()->ClearRenderTargetView(dxfb->GetRTVDescriptor().cpu_handle,
color_value.data(), 0, nullptr);
}
if (framebuffer->HasDepthBuffer())
{
g_dx_context->GetCommandList()->ClearDepthStencilView(
dxfb->GetDSVDescriptor().cpu_handle, D3D12_CLEAR_FLAG_DEPTH, depth_value, 0, 0, nullptr);
}
}
void Renderer::SetScissorRect(const MathUtil::Rectangle<int>& rc)
{
if (m_state.scissor.left == rc.left && m_state.scissor.right == rc.right &&
m_state.scissor.top == rc.top && m_state.scissor.bottom == rc.bottom)
{
return;
}
m_state.scissor.left = rc.left;
m_state.scissor.right = rc.right;
m_state.scissor.top = rc.top;
m_state.scissor.bottom = rc.bottom;
m_dirty_bits |= DirtyState_ScissorRect;
}
void Renderer::SetTexture(u32 index, const AbstractTexture* texture)
{
const DXTexture* dxtex = static_cast<const DXTexture*>(texture);
if (m_state.textures[index].ptr == dxtex->GetSRVDescriptor().cpu_handle.ptr)
return;
m_state.textures[index].ptr = dxtex->GetSRVDescriptor().cpu_handle.ptr;
if (dxtex)
dxtex->TransitionToState(D3D12_RESOURCE_STATE_PIXEL_SHADER_RESOURCE);
m_dirty_bits |= DirtyState_Textures;
}
void Renderer::SetSamplerState(u32 index, const SamplerState& state)
{
if (m_state.samplers.states[index] == state)
return;
m_state.samplers.states[index] = state;
m_dirty_bits |= DirtyState_Samplers;
}
void Renderer::SetComputeImageTexture(AbstractTexture* texture, bool read, bool write)
{
const DXTexture* dxtex = static_cast<const DXTexture*>(texture);
if (m_state.compute_image_texture == dxtex)
return;
m_state.compute_image_texture = dxtex;
if (dxtex)
dxtex->TransitionToState(D3D12_RESOURCE_STATE_UNORDERED_ACCESS);
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m_dirty_bits |= DirtyState_ComputeImageTexture;
}
void Renderer::UnbindTexture(const AbstractTexture* texture)
{
const auto srv_shadow_descriptor =
static_cast<const DXTexture*>(texture)->GetSRVDescriptor().cpu_handle;
for (u32 i = 0; i < MAX_TEXTURES; i++)
{
if (m_state.textures[i].ptr == srv_shadow_descriptor.ptr)
{
m_state.textures[i].ptr = g_dx_context->GetNullSRVDescriptor().cpu_handle.ptr;
m_dirty_bits |= DirtyState_Textures;
}
}
if (m_state.compute_image_texture == texture)
{
m_state.compute_image_texture = nullptr;
m_dirty_bits |= DirtyState_ComputeImageTexture;
}
}
void Renderer::SetViewport(float x, float y, float width, float height, float near_depth,
float far_depth)
{
if (m_state.viewport.TopLeftX == x && m_state.viewport.TopLeftY == y &&
m_state.viewport.Width == width && m_state.viewport.Height == height &&
near_depth == m_state.viewport.MinDepth && far_depth == m_state.viewport.MaxDepth)
{
return;
}
m_state.viewport.TopLeftX = x;
m_state.viewport.TopLeftY = y;
m_state.viewport.Width = width;
m_state.viewport.Height = height;
m_state.viewport.MinDepth = near_depth;
m_state.viewport.MaxDepth = far_depth;
m_dirty_bits |= DirtyState_Viewport;
}
void Renderer::Draw(u32 base_vertex, u32 num_vertices)
{
if (!ApplyState())
return;
g_dx_context->GetCommandList()->DrawInstanced(num_vertices, 1, base_vertex, 0);
}
void Renderer::DrawIndexed(u32 base_index, u32 num_indices, u32 base_vertex)
{
if (!ApplyState())
return;
g_dx_context->GetCommandList()->DrawIndexedInstanced(num_indices, 1, base_index, base_vertex, 0);
}
void Renderer::DispatchComputeShader(const AbstractShader* shader, u32 groups_x, u32 groups_y,
u32 groups_z)
{
SetRootSignatures();
SetDescriptorHeaps();
UpdateDescriptorTables();
if (m_dirty_bits & DirtyState_ComputeImageTexture && !UpdateComputeUAVDescriptorTable())
{
ExecuteCommandList(false);
SetRootSignatures();
SetDescriptorHeaps();
UpdateDescriptorTables();
UpdateComputeUAVDescriptorTable();
}
// Share graphics and compute state. No need to track now since dispatches are infrequent.
auto* const cmdlist = g_dx_context->GetCommandList();
cmdlist->SetPipelineState(static_cast<const DXShader*>(shader)->GetComputePipeline());
cmdlist->SetComputeRootConstantBufferView(CS_ROOT_PARAMETER_CBV, m_state.constant_buffers[0]);
cmdlist->SetComputeRootDescriptorTable(CS_ROOT_PARAMETER_SRV, m_state.srv_descriptor_base);
cmdlist->SetComputeRootDescriptorTable(CS_ROOT_PARAMETER_SAMPLERS,
m_state.sampler_descriptor_base);
cmdlist->SetComputeRootDescriptorTable(CS_ROOT_PARAMETER_UAV,
m_state.compute_uav_descriptor_base);
cmdlist->Dispatch(groups_x, groups_y, groups_z);
// Compute and graphics state share the same pipeline object? :(
m_dirty_bits |= DirtyState_Pipeline;
}
void Renderer::BindBackbuffer(const ClearColor& clear_color)
{
CheckForSwapChainChanges();
SetAndClearFramebuffer(m_swap_chain->GetCurrentFramebuffer(), clear_color);
}
void Renderer::CheckForSwapChainChanges()
{
const bool surface_changed = m_surface_changed.TestAndClear();
const bool surface_resized =
m_surface_resized.TestAndClear() || m_swap_chain->CheckForFullscreenChange();
if (!surface_changed && !surface_resized)
return;
// The swap chain could be in use from a previous frame.
WaitForGPUIdle();
if (surface_changed)
{
m_swap_chain->ChangeSurface(m_new_surface_handle);
m_new_surface_handle = nullptr;
}
else
{
m_swap_chain->ResizeSwapChain();
}
m_backbuffer_width = m_swap_chain->GetWidth();
m_backbuffer_height = m_swap_chain->GetHeight();
}
void Renderer::PresentBackbuffer()
{
m_current_framebuffer = nullptr;
m_swap_chain->GetCurrentTexture()->TransitionToState(D3D12_RESOURCE_STATE_PRESENT);
ExecuteCommandList(false);
m_swap_chain->Present();
}
void Renderer::OnConfigChanged(u32 bits)
{
::Renderer::OnConfigChanged(bits);
// For quad-buffered stereo we need to change the layer count, so recreate the swap chain.
if (m_swap_chain && bits & CONFIG_CHANGE_BIT_STEREO_MODE)
{
ExecuteCommandList(true);
m_swap_chain->SetStereo(SwapChain::WantsStereo());
}
// Wipe sampler cache if force texture filtering or anisotropy changes.
if (bits & (CONFIG_CHANGE_BIT_ANISOTROPY | CONFIG_CHANGE_BIT_FORCE_TEXTURE_FILTERING))
{
ExecuteCommandList(true);
g_dx_context->GetSamplerHeapManager().Clear();
g_dx_context->ResetSamplerAllocators();
}
// If the host config changed (e.g. bbox/per-pixel-shading), recreate the root signature.
if (bits & CONFIG_CHANGE_BIT_HOST_CONFIG)
g_dx_context->RecreateGXRootSignature();
}
void Renderer::ExecuteCommandList(bool wait_for_completion)
{
PerfQuery::GetInstance()->ResolveQueries();
g_dx_context->ExecuteCommandList(wait_for_completion);
m_dirty_bits = DirtyState_All;
}
void Renderer::SetConstantBuffer(u32 index, D3D12_GPU_VIRTUAL_ADDRESS address)
{
if (m_state.constant_buffers[index] == address)
return;
m_state.constant_buffers[index] = address;
m_dirty_bits |= DirtyState_PS_CBV << index;
}
void Renderer::SetTextureDescriptor(u32 index, D3D12_CPU_DESCRIPTOR_HANDLE handle)
{
if (m_state.textures[index].ptr == handle.ptr)
return;
m_state.textures[index].ptr = handle.ptr;
m_dirty_bits |= DirtyState_Textures;
}
void Renderer::SetPixelShaderUAV(D3D12_CPU_DESCRIPTOR_HANDLE handle)
{
if (m_state.ps_uav.ptr == handle.ptr)
return;
m_state.ps_uav = handle;
m_dirty_bits |= DirtyState_PS_UAV;
}
void Renderer::SetVertexBuffer(D3D12_GPU_VIRTUAL_ADDRESS address, u32 stride, u32 size)
{
if (m_state.vertex_buffer.BufferLocation == address &&
m_state.vertex_buffer.StrideInBytes == stride && m_state.vertex_buffer.SizeInBytes == size)
{
return;
}
m_state.vertex_buffer.BufferLocation = address;
m_state.vertex_buffer.StrideInBytes = stride;
m_state.vertex_buffer.SizeInBytes = size;
m_dirty_bits |= DirtyState_VertexBuffer;
}
void Renderer::SetIndexBuffer(D3D12_GPU_VIRTUAL_ADDRESS address, u32 size, DXGI_FORMAT format)
{
if (m_state.index_buffer.BufferLocation == address && m_state.index_buffer.SizeInBytes == size &&
m_state.index_buffer.Format == format)
{
return;
}
m_state.index_buffer.BufferLocation = address;
m_state.index_buffer.SizeInBytes = size;
m_state.index_buffer.Format = format;
m_dirty_bits |= DirtyState_IndexBuffer;
}
bool Renderer::ApplyState()
{
if (!m_current_framebuffer || !m_current_pipeline)
return false;
// Updating the descriptor tables can cause command list execution if no descriptors remain.
SetRootSignatures();
SetDescriptorHeaps();
UpdateDescriptorTables();
// Clear bits before actually changing state. Some state (e.g. cbuffers) can't be set
// if utility pipelines are bound.
const u32 dirty_bits = m_dirty_bits;
m_dirty_bits &= ~(
DirtyState_Framebuffer | DirtyState_Pipeline | DirtyState_Viewport | DirtyState_ScissorRect |
DirtyState_PS_UAV | DirtyState_PS_CBV | DirtyState_VS_CBV | DirtyState_GS_CBV |
DirtyState_SRV_Descriptor | DirtyState_Sampler_Descriptor | DirtyState_UAV_Descriptor |
DirtyState_VertexBuffer | DirtyState_IndexBuffer | DirtyState_PrimitiveTopology);
auto* const cmdlist = g_dx_context->GetCommandList();
if (dirty_bits & DirtyState_Pipeline)
cmdlist->SetPipelineState(static_cast<const DXPipeline*>(m_current_pipeline)->GetPipeline());
if (dirty_bits & DirtyState_Framebuffer)
BindFramebuffer(static_cast<DXFramebuffer*>(m_current_framebuffer));
if (dirty_bits & DirtyState_Viewport)
cmdlist->RSSetViewports(1, &m_state.viewport);
if (dirty_bits & DirtyState_ScissorRect)
cmdlist->RSSetScissorRects(1, &m_state.scissor);
if (dirty_bits & DirtyState_VertexBuffer)
cmdlist->IASetVertexBuffers(0, 1, &m_state.vertex_buffer);
if (dirty_bits & DirtyState_IndexBuffer)
cmdlist->IASetIndexBuffer(&m_state.index_buffer);
if (dirty_bits & DirtyState_PrimitiveTopology)
cmdlist->IASetPrimitiveTopology(m_state.primitive_topology);
if (dirty_bits & DirtyState_SRV_Descriptor)
cmdlist->SetGraphicsRootDescriptorTable(ROOT_PARAMETER_PS_SRV, m_state.srv_descriptor_base);
if (dirty_bits & DirtyState_Sampler_Descriptor)
{
cmdlist->SetGraphicsRootDescriptorTable(ROOT_PARAMETER_PS_SAMPLERS,
m_state.sampler_descriptor_base);
}
if (static_cast<const DXPipeline*>(m_current_pipeline)->GetUsage() == AbstractPipelineUsage::GX)
{
if (dirty_bits & DirtyState_VS_CBV)
{
cmdlist->SetGraphicsRootConstantBufferView(ROOT_PARAMETER_VS_CBV,
m_state.constant_buffers[1]);
if (g_ActiveConfig.bEnablePixelLighting)
{
cmdlist->SetGraphicsRootConstantBufferView(
g_ActiveConfig.bBBoxEnable ? ROOT_PARAMETER_PS_CBV2 : ROOT_PARAMETER_PS_UAV_OR_CBV2,
m_state.constant_buffers[1]);
}
}
if (dirty_bits & DirtyState_GS_CBV)
{
cmdlist->SetGraphicsRootConstantBufferView(ROOT_PARAMETER_GS_CBV,
m_state.constant_buffers[2]);
}
if (dirty_bits & DirtyState_UAV_Descriptor && g_ActiveConfig.bBBoxEnable)
{
cmdlist->SetGraphicsRootDescriptorTable(ROOT_PARAMETER_PS_UAV_OR_CBV2,
m_state.uav_descriptor_base);
}
}
if (dirty_bits & DirtyState_PS_CBV)
{
cmdlist->SetGraphicsRootConstantBufferView(ROOT_PARAMETER_PS_CBV, m_state.constant_buffers[0]);
}
return true;
}
void Renderer::SetRootSignatures()
{
const u32 dirty_bits = m_dirty_bits;
if (dirty_bits & DirtyState_RootSignature)
g_dx_context->GetCommandList()->SetGraphicsRootSignature(m_state.root_signature);
if (dirty_bits & DirtyState_ComputeRootSignature)
{
g_dx_context->GetCommandList()->SetComputeRootSignature(
g_dx_context->GetComputeRootSignature());
}
m_dirty_bits &= ~(DirtyState_RootSignature | DirtyState_ComputeRootSignature);
}
void Renderer::SetDescriptorHeaps()
{
if (m_dirty_bits & DirtyState_DescriptorHeaps)
{
g_dx_context->GetCommandList()->SetDescriptorHeaps(g_dx_context->GetGPUDescriptorHeapCount(),
g_dx_context->GetGPUDescriptorHeaps());
m_dirty_bits &= ~DirtyState_DescriptorHeaps;
}
}
void Renderer::UpdateDescriptorTables()
{
// Samplers force a full sync because any of the samplers could be in use.
const bool texture_update_failed =
(m_dirty_bits & DirtyState_Textures) && !UpdateSRVDescriptorTable();
const bool sampler_update_failed =
(m_dirty_bits & DirtyState_Samplers) && !UpdateSamplerDescriptorTable();
const bool uav_update_failed = (m_dirty_bits & DirtyState_PS_UAV) && !UpdateUAVDescriptorTable();
if (texture_update_failed || sampler_update_failed || uav_update_failed)
{
WARN_LOG_FMT(VIDEO, "Executing command list while waiting for temporary {}",
texture_update_failed ? "descriptors" : "samplers");
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ExecuteCommandList(false);
SetRootSignatures();
SetDescriptorHeaps();
UpdateSRVDescriptorTable();
UpdateSamplerDescriptorTable();
UpdateUAVDescriptorTable();
}
}
bool Renderer::UpdateSRVDescriptorTable()
{
static constexpr std::array<UINT, MAX_TEXTURES> src_sizes = {1, 1, 1, 1, 1, 1, 1, 1};
DescriptorHandle dst_base_handle;
const UINT dst_handle_sizes = 8;
if (!g_dx_context->GetDescriptorAllocator()->Allocate(MAX_TEXTURES, &dst_base_handle))
return false;
g_dx_context->GetDevice()->CopyDescriptors(
1, &dst_base_handle.cpu_handle, &dst_handle_sizes, MAX_TEXTURES, m_state.textures.data(),
src_sizes.data(), D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV);
m_state.srv_descriptor_base = dst_base_handle.gpu_handle;
m_dirty_bits = (m_dirty_bits & ~DirtyState_Textures) | DirtyState_SRV_Descriptor;
return true;
}
bool Renderer::UpdateSamplerDescriptorTable()
{
if (!g_dx_context->GetSamplerAllocator()->GetGroupHandle(m_state.samplers,
&m_state.sampler_descriptor_base))
{
g_dx_context->ResetSamplerAllocators();
return false;
}
m_dirty_bits = (m_dirty_bits & ~DirtyState_Samplers) | DirtyState_Sampler_Descriptor;
return true;
}
bool Renderer::UpdateUAVDescriptorTable()
{
// We can skip writing the UAV descriptor if bbox isn't enabled, since it's not used otherwise.
if (!g_ActiveConfig.bBBoxEnable)
return true;
DescriptorHandle handle;
if (!g_dx_context->GetDescriptorAllocator()->Allocate(1, &handle))
return false;
g_dx_context->GetDevice()->CopyDescriptorsSimple(1, handle.cpu_handle, m_state.ps_uav,
D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV);
m_state.uav_descriptor_base = handle.gpu_handle;
m_dirty_bits = (m_dirty_bits & ~DirtyState_PS_UAV) | DirtyState_UAV_Descriptor;
return true;
}
bool Renderer::UpdateComputeUAVDescriptorTable()
{
DescriptorHandle handle;
if (!g_dx_context->GetDescriptorAllocator()->Allocate(1, &handle))
return false;
if (m_state.compute_image_texture)
{
g_dx_context->GetDevice()->CopyDescriptorsSimple(
1, handle.cpu_handle, m_state.compute_image_texture->GetUAVDescriptor().cpu_handle,
D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV);
}
else
{
constexpr D3D12_UNORDERED_ACCESS_VIEW_DESC null_uav_desc = {};
g_dx_context->GetDevice()->CreateUnorderedAccessView(nullptr, nullptr, &null_uav_desc,
handle.cpu_handle);
}
m_dirty_bits &= ~DirtyState_ComputeImageTexture;
m_state.compute_uav_descriptor_base = handle.gpu_handle;
return true;
}
} // namespace DX12