kc3-lang/angle/src/libANGLE/renderer/d3d/d3d11/SwapChain11.cpp

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• Hash : 118ce6aa
  Author :
  Date : 2022-01-20T16:55:04
  

  Support to open d3d12 shared handles
  
  For
  https://docs.microsoft.com/en-us/windows/win32/api/d3d12/nf-d3d12-id3d12device-createsharedhandle
  
  Bug: angleproject:6927
  Change-Id: I0f0ce7bff37abfc278a167c6eec92eb3b6df1370
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3404060
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Geoff Lang <geofflang@chromium.org>
  Commit-Queue: Geoff Lang <geofflang@chromium.org>
  

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• src/libANGLE/renderer/d3d/d3d11/SwapChain11.cpp

• //
  // Copyright 2012 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  
  // SwapChain11.cpp: Implements a back-end specific class for the D3D11 swap chain.
  
  #include "libANGLE/renderer/d3d/d3d11/SwapChain11.h"
  
  #include <EGL/eglext.h>
  
  #include "libANGLE/features.h"
  #include "libANGLE/renderer/d3d/DisplayD3D.h"
  #include "libANGLE/renderer/d3d/d3d11/NativeWindow11.h"
  #include "libANGLE/renderer/d3d/d3d11/Renderer11.h"
  #include "libANGLE/renderer/d3d/d3d11/formatutils11.h"
  #include "libANGLE/renderer/d3d/d3d11/renderer11_utils.h"
  #include "libANGLE/renderer/d3d/d3d11/texture_format_table.h"
  #include "libANGLE/trace.h"
  
  // Precompiled shaders
  #include "libANGLE/renderer/d3d/d3d11/shaders/compiled/passthrough2d11vs.h"
  #include "libANGLE/renderer/d3d/d3d11/shaders/compiled/passthroughrgba2d11ps.h"
  #include "libANGLE/renderer/d3d/d3d11/shaders/compiled/passthroughrgba2dms11ps.h"
  #include "libANGLE/renderer/d3d/d3d11/shaders/compiled/resolvecolor2dps.h"
  
  #ifdef ANGLE_ENABLE_KEYEDMUTEX
  #    define ANGLE_RESOURCE_SHARE_TYPE D3D11_RESOURCE_MISC_SHARED_KEYEDMUTEX
  #else
  #    define ANGLE_RESOURCE_SHARE_TYPE D3D11_RESOURCE_MISC_SHARED
  #endif
  
  namespace rx
  {
  
  namespace
  {
  // To avoid overflow in QPC to Microseconds calculations, since we multiply
  // by kMicrosecondsPerSecond, then the QPC value should not exceed
  // (2^63 - 1) / 1E6. If it exceeds that threshold, we divide then multiply.
  static constexpr int64_t kQPCOverflowThreshold  = 0x8637BD05AF7;
  static constexpr int64_t kMicrosecondsPerSecond = 1000000;
  
  bool NeedsOffscreenTexture(Renderer11 *renderer, NativeWindow11 *nativeWindow, EGLint orientation)
  {
      // We don't need an offscreen texture if either orientation = INVERT_Y,
      // or present path fast is enabled and we're not rendering onto an offscreen surface.
      return orientation != EGL_SURFACE_ORIENTATION_INVERT_Y_ANGLE &&
             !(renderer->presentPathFastEnabled() && nativeWindow->getNativeWindow());
  }
  }  // anonymous namespace
  
  SwapChain11::SwapChain11(Renderer11 *renderer,
                           NativeWindow11 *nativeWindow,
                           HANDLE shareHandle,
                           IUnknown *d3dTexture,
                           GLenum backBufferFormat,
                           GLenum depthBufferFormat,
                           EGLint orientation,
                           EGLint samples)
      : SwapChainD3D(shareHandle, d3dTexture, backBufferFormat, depthBufferFormat),
        mRenderer(renderer),
        mWidth(-1),
        mHeight(-1),
        mOrientation(orientation),
        mAppCreatedShareHandle(mShareHandle != nullptr),
        mSwapInterval(0),
        mPassThroughResourcesInit(false),
        mNativeWindow(nativeWindow),
        mFirstSwap(true),
        mSwapChain(nullptr),
        mSwapChain1(nullptr),
        mKeyedMutex(nullptr),
        mBackBufferTexture(),
        mBackBufferRTView(),
        mBackBufferSRView(),
        mNeedsOffscreenTexture(NeedsOffscreenTexture(renderer, nativeWindow, orientation)),
        mOffscreenTexture(),
        mOffscreenRTView(),
        mOffscreenSRView(),
        mNeedsOffscreenTextureCopy(false),
        mOffscreenTextureCopyForSRV(),
        mDepthStencilTexture(),
        mDepthStencilDSView(),
        mDepthStencilSRView(),
        mQuadVB(),
        mPassThroughSampler(),
        mPassThroughIL(),
        mPassThroughVS(),
        mPassThroughOrResolvePS(),
        mPassThroughRS(),
        mColorRenderTarget(this, renderer, false),
        mDepthStencilRenderTarget(this, renderer, true),
        mEGLSamples(samples)
  {
      // Check that if present path fast is active then we're using the default orientation
      ASSERT(!mRenderer->presentPathFastEnabled() || orientation == 0);
  
      // Get the performance counter
      LARGE_INTEGER counterFreqency = {};
      BOOL success                  = QueryPerformanceFrequency(&counterFreqency);
      ASSERT(success);
  
      mQPCFrequency = counterFreqency.QuadPart;
  }
  
  SwapChain11::~SwapChain11()
  {
      release();
  }
  
  void SwapChain11::release()
  {
      // TODO(jmadill): Should probably signal that the RenderTarget is dirty.
  
      SafeRelease(mSwapChain1);
      SafeRelease(mSwapChain);
      SafeRelease(mKeyedMutex);
      mBackBufferTexture.reset();
      mBackBufferRTView.reset();
      mBackBufferSRView.reset();
      mOffscreenTexture.reset();
      mOffscreenRTView.reset();
      mOffscreenSRView.reset();
      mDepthStencilTexture.reset();
      mDepthStencilDSView.reset();
      mDepthStencilSRView.reset();
      mQuadVB.reset();
      mPassThroughSampler.reset();
      mPassThroughIL.reset();
      mPassThroughVS.reset();
      mPassThroughOrResolvePS.reset();
      mPassThroughRS.reset();
  
      if (!mAppCreatedShareHandle)
      {
          mShareHandle = nullptr;
      }
  }
  
  void SwapChain11::releaseOffscreenColorBuffer()
  {
      mOffscreenTexture.reset();
      mOffscreenRTView.reset();
      mOffscreenSRView.reset();
      mNeedsOffscreenTextureCopy = false;
      mOffscreenTextureCopyForSRV.reset();
  }
  
  void SwapChain11::releaseOffscreenDepthBuffer()
  {
      mDepthStencilTexture.reset();
      mDepthStencilDSView.reset();
      mDepthStencilSRView.reset();
  }
  
  EGLint SwapChain11::resetOffscreenBuffers(DisplayD3D *displayD3D,
                                            int backbufferWidth,
                                            int backbufferHeight)
  {
      if (mNeedsOffscreenTexture)
      {
          EGLint result = resetOffscreenColorBuffer(displayD3D, backbufferWidth, backbufferHeight);
          if (result != EGL_SUCCESS)
          {
              return result;
          }
      }
  
      EGLint result = resetOffscreenDepthBuffer(displayD3D, backbufferWidth, backbufferHeight);
      if (result != EGL_SUCCESS)
      {
          return result;
      }
  
      mWidth  = backbufferWidth;
      mHeight = backbufferHeight;
  
      return EGL_SUCCESS;
  }
  
  EGLint SwapChain11::resetOffscreenColorBuffer(DisplayD3D *displayD3D,
                                                int backbufferWidth,
                                                int backbufferHeight)
  {
      ASSERT(mNeedsOffscreenTexture);
  
      ANGLE_TRACE_EVENT0("gpu.angle", "SwapChain11::resetOffscreenTexture");
      ID3D11Device *device = mRenderer->getDevice();
  
      ASSERT(device != nullptr);
  
      // D3D11 does not allow zero size textures
      ASSERT(backbufferWidth >= 1);
      ASSERT(backbufferHeight >= 1);
  
      // Preserve the render target content
      TextureHelper11 previousOffscreenTexture(std::move(mOffscreenTexture));
      const int previousWidth  = mWidth;
      const int previousHeight = mHeight;
  
      releaseOffscreenColorBuffer();
  
      const d3d11::Format &backbufferFormatInfo =
          d3d11::Format::Get(mOffscreenRenderTargetFormat, mRenderer->getRenderer11DeviceCaps());
      D3D11_TEXTURE2D_DESC offscreenTextureDesc = {};
  
      // If the app passed in a share handle or D3D texture, open the resource
      // See EGL_ANGLE_d3d_share_handle_client_buffer and EGL_ANGLE_d3d_texture_client_buffer
      if (mAppCreatedShareHandle || mD3DTexture != nullptr)
      {
          if (mAppCreatedShareHandle)
          {
              ID3D11Resource *tempResource11;
              HRESULT result = device->OpenSharedResource(mShareHandle, __uuidof(ID3D11Resource),
                                                          (void **)&tempResource11);
              if (FAILED(result) && mRenderer->getDevice1())
              {
                  result = mRenderer->getDevice1()->OpenSharedResource1(
                      mShareHandle, __uuidof(ID3D11Resource), (void **)&tempResource11);
              }
  
              if (FAILED(result))
              {
                  ERR() << "Could not open shared handle. " << gl::FmtHR(result);
                  release();
                  return EGL_BAD_SURFACE;
              }
  
              mOffscreenTexture.set(d3d11::DynamicCastComObject<ID3D11Texture2D>(tempResource11),
                                    backbufferFormatInfo);
              SafeRelease(tempResource11);
          }
          else if (mD3DTexture != nullptr)
          {
              mOffscreenTexture.set(d3d11::DynamicCastComObject<ID3D11Texture2D>(mD3DTexture),
                                    backbufferFormatInfo);
          }
          else
          {
              UNREACHABLE();
          }
          ASSERT(mOffscreenTexture.valid());
          mOffscreenTexture.getDesc(&offscreenTextureDesc);
  
          // Fail if the offscreen texture is not renderable.
          if ((offscreenTextureDesc.BindFlags & D3D11_BIND_RENDER_TARGET) == 0)
          {
              ERR() << "Could not use provided offscreen texture, texture not renderable.";
              release();
              return EGL_BAD_SURFACE;
          }
      }
      else
      {
          const bool useSharedResource =
              !mNativeWindow->getNativeWindow() && mRenderer->getShareHandleSupport();
  
          offscreenTextureDesc.Width              = backbufferWidth;
          offscreenTextureDesc.Height             = backbufferHeight;
          offscreenTextureDesc.Format             = backbufferFormatInfo.texFormat;
          offscreenTextureDesc.MipLevels          = 1;
          offscreenTextureDesc.ArraySize          = 1;
          offscreenTextureDesc.SampleDesc.Count   = getD3DSamples();
          offscreenTextureDesc.SampleDesc.Quality = 0;
          offscreenTextureDesc.Usage              = D3D11_USAGE_DEFAULT;
          offscreenTextureDesc.BindFlags      = D3D11_BIND_RENDER_TARGET | D3D11_BIND_SHADER_RESOURCE;
          offscreenTextureDesc.CPUAccessFlags = 0;
          offscreenTextureDesc.MiscFlags      = useSharedResource ? ANGLE_RESOURCE_SHARE_TYPE : 0;
  
          angle::Result result = mRenderer->allocateTexture(displayD3D, offscreenTextureDesc,
                                                            backbufferFormatInfo, &mOffscreenTexture);
          if (result == angle::Result::Stop)
          {
              ERR() << "Could not create offscreen texture, " << displayD3D->getStoredErrorString();
              release();
              return EGL_BAD_ALLOC;
          }
  
          mOffscreenTexture.setInternalName("OffscreenBackBufferTexture");
  
          // EGL_ANGLE_surface_d3d_texture_2d_share_handle requires that we store a share handle for
          // the client
          if (useSharedResource)
          {
              IDXGIResource *offscreenTextureResource = nullptr;
              HRESULT hr                              = mOffscreenTexture.get()->QueryInterface(
                  __uuidof(IDXGIResource), (void **)&offscreenTextureResource);
  
              // Fall back to no share handle on failure
              if (FAILED(hr))
              {
                  ERR() << "Could not query offscreen texture resource, " << gl::FmtHR(hr);
              }
              else
              {
                  hr = offscreenTextureResource->GetSharedHandle(&mShareHandle);
                  SafeRelease(offscreenTextureResource);
  
                  if (FAILED(hr))
                  {
                      mShareHandle = nullptr;
                      ERR() << "Could not get offscreen texture shared handle, " << gl::FmtHR(hr);
                  }
              }
          }
      }
  
      // This may return null if the original texture was created without a keyed mutex.
      mKeyedMutex = d3d11::DynamicCastComObject<IDXGIKeyedMutex>(mOffscreenTexture.get());
  
      D3D11_RENDER_TARGET_VIEW_DESC offscreenRTVDesc;
      offscreenRTVDesc.Format = backbufferFormatInfo.rtvFormat;
      offscreenRTVDesc.ViewDimension =
          (mEGLSamples <= 1) ? D3D11_RTV_DIMENSION_TEXTURE2D : D3D11_RTV_DIMENSION_TEXTURE2DMS;
      offscreenRTVDesc.Texture2D.MipSlice = 0;
  
      angle::Result result = mRenderer->allocateResource(displayD3D, offscreenRTVDesc,
                                                         mOffscreenTexture.get(), &mOffscreenRTView);
      if (result == angle::Result::Stop)
      {
          ERR() << "Could not create offscreen back buffer render target, "
                << displayD3D->getStoredErrorString();
          release();
          return EGL_BAD_ALLOC;
      }
      mOffscreenRTView.setInternalName("OffscreenBackBufferRenderTarget");
  
      D3D11_SHADER_RESOURCE_VIEW_DESC offscreenSRVDesc;
      offscreenSRVDesc.Format = backbufferFormatInfo.srvFormat;
      offscreenSRVDesc.ViewDimension =
          (mEGLSamples <= 1) ? D3D11_SRV_DIMENSION_TEXTURE2D : D3D11_SRV_DIMENSION_TEXTURE2DMS;
      offscreenSRVDesc.Texture2D.MostDetailedMip = 0;
      offscreenSRVDesc.Texture2D.MipLevels       = static_cast<UINT>(-1);
  
      if (offscreenTextureDesc.BindFlags & D3D11_BIND_SHADER_RESOURCE)
      {
          result = mRenderer->allocateResource(displayD3D, offscreenSRVDesc, mOffscreenTexture.get(),
                                               &mOffscreenSRView);
          if (result == angle::Result::Stop)
          {
              ERR() << "Could not create offscreen back buffer shader resource, "
                    << displayD3D->getStoredErrorString();
              release();
              return EGL_BAD_ALLOC;
          }
          mOffscreenSRView.setInternalName("OffscreenBackBufferShaderResource");
      }
      else
      {
          // Special case for external textures that cannot support sampling. Since internally we
          // assume our SwapChain is always readable, we make a copy texture that is compatible.
          mNeedsOffscreenTextureCopy = true;
      }
  
      if (previousOffscreenTexture.valid())
      {
          D3D11_BOX sourceBox = {};
          sourceBox.left      = 0;
          sourceBox.right     = std::min(previousWidth, backbufferWidth);
          sourceBox.top       = std::max(previousHeight - backbufferHeight, 0);
          sourceBox.bottom    = previousHeight;
          sourceBox.front     = 0;
          sourceBox.back      = 1;
  
          ID3D11DeviceContext *deviceContext = mRenderer->getDeviceContext();
          const int yoffset                  = std::max(backbufferHeight - previousHeight, 0);
          deviceContext->CopySubresourceRegion(mOffscreenTexture.get(), 0, 0, yoffset, 0,
                                               previousOffscreenTexture.get(), 0, &sourceBox);
  
          if (mSwapChain)
          {
              swapRect(displayD3D, 0, 0, backbufferWidth, backbufferHeight);
          }
      }
  
      return EGL_SUCCESS;
  }
  
  EGLint SwapChain11::resetOffscreenDepthBuffer(DisplayD3D *displayD3D,
                                                int backbufferWidth,
                                                int backbufferHeight)
  {
      releaseOffscreenDepthBuffer();
  
      if (mDepthBufferFormat != GL_NONE)
      {
          const d3d11::Format &depthBufferFormatInfo =
              d3d11::Format::Get(mDepthBufferFormat, mRenderer->getRenderer11DeviceCaps());
  
          D3D11_TEXTURE2D_DESC depthStencilTextureDesc;
          depthStencilTextureDesc.Width            = backbufferWidth;
          depthStencilTextureDesc.Height           = backbufferHeight;
          depthStencilTextureDesc.Format           = depthBufferFormatInfo.texFormat;
          depthStencilTextureDesc.MipLevels        = 1;
          depthStencilTextureDesc.ArraySize        = 1;
          depthStencilTextureDesc.SampleDesc.Count = getD3DSamples();
          depthStencilTextureDesc.Usage            = D3D11_USAGE_DEFAULT;
          depthStencilTextureDesc.BindFlags        = D3D11_BIND_DEPTH_STENCIL;
  
          // If there is a multisampled offscreen color texture, the offscreen depth-stencil texture
          // must also have the same quality value.
          if (mOffscreenTexture.valid() && getD3DSamples() > 1)
          {
              D3D11_TEXTURE2D_DESC offscreenTextureDesc = {};
              mOffscreenTexture.getDesc(&offscreenTextureDesc);
              depthStencilTextureDesc.SampleDesc.Quality = offscreenTextureDesc.SampleDesc.Quality;
          }
          else
          {
              depthStencilTextureDesc.SampleDesc.Quality = 0;
          }
  
          // Only create an SRV if it is supported
          bool depthStencilSRV =
              depthBufferFormatInfo.srvFormat != DXGI_FORMAT_UNKNOWN &&
              (mRenderer->getRenderer11DeviceCaps().supportsMultisampledDepthStencilSRVs ||
               depthStencilTextureDesc.SampleDesc.Count <= 1);
          if (depthStencilSRV)
          {
              depthStencilTextureDesc.BindFlags |= D3D11_BIND_SHADER_RESOURCE;
          }
  
          depthStencilTextureDesc.CPUAccessFlags = 0;
          depthStencilTextureDesc.MiscFlags      = 0;
  
          angle::Result result = mRenderer->allocateTexture(
              displayD3D, depthStencilTextureDesc, depthBufferFormatInfo, &mDepthStencilTexture);
          if (result == angle::Result::Stop)
          {
              ERR() << "Could not create depthstencil surface for new swap chain, "
                    << displayD3D->getStoredErrorString();
              release();
              return EGL_BAD_ALLOC;
          }
          mDepthStencilTexture.setInternalName("OffscreenDepthStencilTexture");
  
          D3D11_DEPTH_STENCIL_VIEW_DESC depthStencilDesc;
          depthStencilDesc.Format = depthBufferFormatInfo.dsvFormat;
          depthStencilDesc.ViewDimension =
              (mEGLSamples <= 1) ? D3D11_DSV_DIMENSION_TEXTURE2D : D3D11_DSV_DIMENSION_TEXTURE2DMS;
          depthStencilDesc.Flags              = 0;
          depthStencilDesc.Texture2D.MipSlice = 0;
  
          result = mRenderer->allocateResource(displayD3D, depthStencilDesc,
                                               mDepthStencilTexture.get(), &mDepthStencilDSView);
          ASSERT(result != angle::Result::Stop);
          mDepthStencilDSView.setInternalName("OffscreenDSV");
  
          if (depthStencilSRV)
          {
              D3D11_SHADER_RESOURCE_VIEW_DESC depthStencilSRVDesc;
              depthStencilSRVDesc.Format        = depthBufferFormatInfo.srvFormat;
              depthStencilSRVDesc.ViewDimension = (mEGLSamples <= 1)
                                                      ? D3D11_SRV_DIMENSION_TEXTURE2D
                                                      : D3D11_SRV_DIMENSION_TEXTURE2DMS;
              depthStencilSRVDesc.Texture2D.MostDetailedMip = 0;
              depthStencilSRVDesc.Texture2D.MipLevels       = static_cast<UINT>(-1);
  
              result = mRenderer->allocateResource(displayD3D, depthStencilSRVDesc,
                                                   mDepthStencilTexture.get(), &mDepthStencilSRView);
              ASSERT(result != angle::Result::Stop);
              mDepthStencilSRView.setInternalName("OffscreenDepthStencilSRV");
          }
      }
  
      return EGL_SUCCESS;
  }
  
  EGLint SwapChain11::resize(DisplayD3D *displayD3D, EGLint backbufferWidth, EGLint backbufferHeight)
  {
      ANGLE_TRACE_EVENT0("gpu.angle", "SwapChain11::resize");
      ID3D11Device *device = mRenderer->getDevice();
  
      if (device == nullptr)
      {
          return EGL_BAD_ACCESS;
      }
  
      // EGL allows creating a surface with 0x0 dimension, however, DXGI does not like 0x0 swapchains
      if (backbufferWidth < 1 || backbufferHeight < 1)
      {
          return EGL_SUCCESS;
      }
  
      // Don't resize unnecessarily
      if (mWidth == backbufferWidth && mHeight == backbufferHeight)
      {
          return EGL_SUCCESS;
      }
  
      // Can only call resize if we have already created our swap buffer and resources
      ASSERT(mSwapChain && mBackBufferTexture.valid() && mBackBufferRTView.valid() &&
             mBackBufferSRView.valid());
  
      mBackBufferTexture.reset();
      mBackBufferRTView.reset();
      mBackBufferSRView.reset();
  
      // Resize swap chain
      DXGI_SWAP_CHAIN_DESC desc;
      HRESULT hr = mSwapChain->GetDesc(&desc);
      if (FAILED(hr))
      {
          ERR() << "Error reading swap chain description, " << gl::FmtHR(hr);
          release();
          return EGL_BAD_ALLOC;
      }
  
      hr = mSwapChain->ResizeBuffers(desc.BufferCount, backbufferWidth, backbufferHeight,
                                     getSwapChainNativeFormat(), 0);
  
      if (FAILED(hr))
      {
          ERR() << "Error resizing swap chain buffers, " << gl::FmtHR(hr);
          release();
  
          if (d3d11::isDeviceLostError(hr))
          {
              HRESULT reason = device->GetDeviceRemovedReason();
              ERR() << "Device lost in SwapChain11::resize " << gl::FmtHR(hr)
                    << ", reason: " << gl::FmtHR(reason);
              return EGL_CONTEXT_LOST;
          }
          else
          {
              return EGL_BAD_ALLOC;
          }
      }
  
      ID3D11Texture2D *backbufferTexture = nullptr;
      hr                                 = mSwapChain->GetBuffer(0, __uuidof(ID3D11Texture2D),
                                 reinterpret_cast<void **>(&backbufferTexture));
      ASSERT(SUCCEEDED(hr));
      if (SUCCEEDED(hr))
      {
          const auto &format =
              d3d11::Format::Get(mOffscreenRenderTargetFormat, mRenderer->getRenderer11DeviceCaps());
          mBackBufferTexture.set(backbufferTexture, format);
          mBackBufferTexture.setInternalName("BackBufferTexture");
  
          angle::Result result = mRenderer->allocateResourceNoDesc(
              displayD3D, mBackBufferTexture.get(), &mBackBufferRTView);
          ASSERT(result != angle::Result::Stop);
          mBackBufferRTView.setInternalName("BackBufferRTV");
  
          result = mRenderer->allocateResourceNoDesc(displayD3D, mBackBufferTexture.get(),
                                                     &mBackBufferSRView);
          ASSERT(result != angle::Result::Stop);
          mBackBufferSRView.setInternalName("BackBufferSRV");
      }
  
      mFirstSwap = true;
  
      return resetOffscreenBuffers(displayD3D, backbufferWidth, backbufferHeight);
  }
  
  DXGI_FORMAT SwapChain11::getSwapChainNativeFormat() const
  {
      // Return a render target format for offscreen rendering is supported by IDXGISwapChain.
      // MSDN https://msdn.microsoft.com/en-us/library/windows/desktop/bb173064(v=vs.85).aspx
      switch (mOffscreenRenderTargetFormat)
      {
          case GL_RGBA8:
          case GL_RGBA4:
          case GL_RGB5_A1:
          case GL_RGB8:
          case GL_RGB565:
              return DXGI_FORMAT_R8G8B8A8_UNORM;
  
          case GL_BGRA8_EXT:
              return DXGI_FORMAT_B8G8R8A8_UNORM;
  
          case GL_RGB10_A2:
              return DXGI_FORMAT_R10G10B10A2_UNORM;
  
          case GL_RGBA16F:
              return DXGI_FORMAT_R16G16B16A16_FLOAT;
  
          default:
              UNREACHABLE();
              return DXGI_FORMAT_UNKNOWN;
      }
  }
  
  EGLint SwapChain11::reset(DisplayD3D *displayD3D,
                            EGLint backbufferWidth,
                            EGLint backbufferHeight,
                            EGLint swapInterval)
  {
      mSwapInterval = static_cast<unsigned int>(swapInterval);
      if (mSwapInterval > 4)
      {
          // IDXGISwapChain::Present documentation states that valid sync intervals are in the [0,4]
          // range
          return EGL_BAD_PARAMETER;
      }
  
      // If the swap chain already exists, just resize
      if (mSwapChain != nullptr)
      {
          return resize(displayD3D, backbufferWidth, backbufferHeight);
      }
  
      ANGLE_TRACE_EVENT0("gpu.angle", "SwapChain11::reset");
      ID3D11Device *device = mRenderer->getDevice();
  
      if (device == nullptr)
      {
          return EGL_BAD_ACCESS;
      }
  
      // Release specific resources to free up memory for the new render target, while the
      // old render target still exists for the purpose of preserving its contents.
      SafeRelease(mSwapChain1);
      SafeRelease(mSwapChain);
      mBackBufferTexture.reset();
      mBackBufferRTView.reset();
  
      // EGL allows creating a surface with 0x0 dimension, however, DXGI does not like 0x0 swapchains
      if (backbufferWidth < 1 || backbufferHeight < 1)
      {
          releaseOffscreenColorBuffer();
          return EGL_SUCCESS;
      }
  
      if (mNativeWindow->getNativeWindow())
      {
          HRESULT hr = mNativeWindow->createSwapChain(
              device, mRenderer->getDxgiFactory(), getSwapChainNativeFormat(), backbufferWidth,
              backbufferHeight, mNeedsOffscreenTexture ? 1 : getD3DSamples(), &mSwapChain);
  
          if (FAILED(hr))
          {
              ERR() << "Could not create additional swap chains or offscreen surfaces, "
                    << gl::FmtHR(hr);
              release();
  
              if (d3d11::isDeviceLostError(hr))
              {
                  HRESULT reason = device->GetDeviceRemovedReason();
                  ERR() << "Device lost in SwapChain11::reset " << gl::FmtHR(hr)
                        << ", reason: " << gl::FmtHR(reason);
                  return EGL_CONTEXT_LOST;
              }
              else
              {
                  return EGL_BAD_ALLOC;
              }
          }
  
          if (mRenderer->getRenderer11DeviceCaps().supportsDXGI1_2)
          {
              mSwapChain1 = d3d11::DynamicCastComObject<IDXGISwapChain1>(mSwapChain);
          }
  
          ID3D11Texture2D *backbufferTex = nullptr;
          hr                             = mSwapChain->GetBuffer(0, __uuidof(ID3D11Texture2D),
                                     reinterpret_cast<LPVOID *>(&backbufferTex));
          ASSERT(SUCCEEDED(hr));
          const auto &format =
              d3d11::Format::Get(mOffscreenRenderTargetFormat, mRenderer->getRenderer11DeviceCaps());
          mBackBufferTexture.set(backbufferTex, format);
          mBackBufferTexture.setInternalName("BackBufferTexture");
  
          angle::Result result = mRenderer->allocateResourceNoDesc(
              displayD3D, mBackBufferTexture.get(), &mBackBufferRTView);
          ASSERT(result != angle::Result::Stop);
          mBackBufferRTView.setInternalName("BackBufferRTV");
  
          result = mRenderer->allocateResourceNoDesc(displayD3D, mBackBufferTexture.get(),
                                                     &mBackBufferSRView);
          ASSERT(result != angle::Result::Stop);
          mBackBufferSRView.setInternalName("BackBufferSRV");
      }
  
      mFirstSwap = true;
  
      return resetOffscreenBuffers(displayD3D, backbufferWidth, backbufferHeight);
  }
  
  angle::Result SwapChain11::initPassThroughResources(DisplayD3D *displayD3D)
  {
      if (mPassThroughResourcesInit)
      {
          return angle::Result::Continue;
      }
  
      ANGLE_TRACE_EVENT0("gpu.angle", "SwapChain11::initPassThroughResources");
      ID3D11Device *device = mRenderer->getDevice();
  
      ASSERT(device != nullptr);
  
      // Make sure our resources are all not allocated, when we create
      ASSERT(!mQuadVB.valid() && !mPassThroughSampler.valid());
      ASSERT(!mPassThroughIL.valid() && !mPassThroughVS.valid() && !mPassThroughOrResolvePS.valid());
  
      D3D11_BUFFER_DESC vbDesc;
      vbDesc.ByteWidth           = sizeof(d3d11::PositionTexCoordVertex) * 4;
      vbDesc.Usage               = D3D11_USAGE_DYNAMIC;
      vbDesc.BindFlags           = D3D11_BIND_VERTEX_BUFFER;
      vbDesc.CPUAccessFlags      = D3D11_CPU_ACCESS_WRITE;
      vbDesc.MiscFlags           = 0;
      vbDesc.StructureByteStride = 0;
  
      ANGLE_TRY(mRenderer->allocateResource(displayD3D, vbDesc, &mQuadVB));
      mQuadVB.setInternalName("SwapChainQuadVB");
  
      D3D11_SAMPLER_DESC samplerDesc;
      samplerDesc.Filter         = D3D11_FILTER_MIN_MAG_MIP_POINT;
      samplerDesc.AddressU       = D3D11_TEXTURE_ADDRESS_CLAMP;
      samplerDesc.AddressV       = D3D11_TEXTURE_ADDRESS_CLAMP;
      samplerDesc.AddressW       = D3D11_TEXTURE_ADDRESS_CLAMP;
      samplerDesc.MipLODBias     = 0.0f;
      samplerDesc.MaxAnisotropy  = 0;
      samplerDesc.ComparisonFunc = D3D11_COMPARISON_NEVER;
      samplerDesc.BorderColor[0] = 0.0f;
      samplerDesc.BorderColor[1] = 0.0f;
      samplerDesc.BorderColor[2] = 0.0f;
      samplerDesc.BorderColor[3] = 0.0f;
      samplerDesc.MinLOD         = 0;
      samplerDesc.MaxLOD         = D3D11_FLOAT32_MAX;
  
      ANGLE_TRY(mRenderer->allocateResource(displayD3D, samplerDesc, &mPassThroughSampler));
      mPassThroughSampler.setInternalName("SwapChainPassThroughSampler");
  
      D3D11_INPUT_ELEMENT_DESC quadLayout[] = {
          {"POSITION", 0, DXGI_FORMAT_R32G32_FLOAT, 0, 0, D3D11_INPUT_PER_VERTEX_DATA, 0},
          {"TEXCOORD", 0, DXGI_FORMAT_R32G32_FLOAT, 0, 8, D3D11_INPUT_PER_VERTEX_DATA, 0},
      };
  
      InputElementArray quadElements(quadLayout);
      ShaderData vertexShaderData(g_VS_Passthrough2D);
  
      ANGLE_TRY(
          mRenderer->allocateResource(displayD3D, quadElements, &vertexShaderData, &mPassThroughIL));
      mPassThroughIL.setInternalName("SwapChainPassThroughIL");
  
      ANGLE_TRY(mRenderer->allocateResource(displayD3D, vertexShaderData, &mPassThroughVS));
      mPassThroughVS.setInternalName("SwapChainPassThroughVS");
  
      if (mEGLSamples <= 1)
      {
          ShaderData pixelShaderData(g_PS_PassthroughRGBA2D);
          ANGLE_TRY(
              mRenderer->allocateResource(displayD3D, pixelShaderData, &mPassThroughOrResolvePS));
      }
      else
      {
          if (mNativeWindow->getNativeWindow() && mNeedsOffscreenTexture)
          {
              ShaderData pixelShaderData(g_PS_ResolveColor2D);
              ANGLE_TRY(
                  mRenderer->allocateResource(displayD3D, pixelShaderData, &mPassThroughOrResolvePS));
          }
          else
          {
              ShaderData pixelShaderData(g_PS_PassthroughRGBA2DMS);
              ANGLE_TRY(
                  mRenderer->allocateResource(displayD3D, pixelShaderData, &mPassThroughOrResolvePS));
          }
      }
  
      mPassThroughOrResolvePS.setInternalName("SwapChainPassThroughPS");
  
      // Use the default rasterizer state but without culling
      D3D11_RASTERIZER_DESC rasterizerDesc;
      rasterizerDesc.FillMode              = D3D11_FILL_SOLID;
      rasterizerDesc.CullMode              = D3D11_CULL_NONE;
      rasterizerDesc.FrontCounterClockwise = FALSE;
      rasterizerDesc.DepthBias             = 0;
      rasterizerDesc.SlopeScaledDepthBias  = 0.0f;
      rasterizerDesc.DepthBiasClamp        = 0.0f;
      rasterizerDesc.DepthClipEnable       = TRUE;
      rasterizerDesc.ScissorEnable         = FALSE;
      rasterizerDesc.MultisampleEnable     = FALSE;
      rasterizerDesc.AntialiasedLineEnable = FALSE;
  
      ANGLE_TRY(mRenderer->allocateResource(displayD3D, rasterizerDesc, &mPassThroughRS));
      mPassThroughRS.setInternalName("SwapChainPassThroughRasterizerState");
  
      mPassThroughResourcesInit = true;
      return angle::Result::Continue;
  }
  
  // parameters should be validated/clamped by caller
  EGLint SwapChain11::swapRect(DisplayD3D *displayD3D,
                               EGLint x,
                               EGLint y,
                               EGLint width,
                               EGLint height)
  {
      if (mNeedsOffscreenTexture)
      {
          EGLint result = copyOffscreenToBackbuffer(displayD3D, x, y, width, height);
          if (result != EGL_SUCCESS)
          {
              return result;
          }
      }
  
      EGLint result = present(displayD3D, x, y, width, height);
      if (result != EGL_SUCCESS)
      {
          return result;
      }
  
      mRenderer->onSwap();
  
      return EGL_SUCCESS;
  }
  
  EGLint SwapChain11::copyOffscreenToBackbuffer(DisplayD3D *displayD3D,
                                                EGLint x,
                                                EGLint y,
                                                EGLint width,
                                                EGLint height)
  {
      if (!mSwapChain)
      {
          return EGL_SUCCESS;
      }
  
      if (initPassThroughResources(displayD3D) == angle::Result::Stop)
      {
          return EGL_BAD_ALLOC;
      }
  
      ID3D11DeviceContext *deviceContext = mRenderer->getDeviceContext();
  
      // Set vertices
      D3D11_MAPPED_SUBRESOURCE mappedResource;
      HRESULT result =
          deviceContext->Map(mQuadVB.get(), 0, D3D11_MAP_WRITE_DISCARD, 0, &mappedResource);
      if (FAILED(result))
      {
          return EGL_BAD_ACCESS;
      }
  
      d3d11::PositionTexCoordVertex *vertices =
          static_cast<d3d11::PositionTexCoordVertex *>(mappedResource.pData);
  
      // Create a quad in homogeneous coordinates
      float x1 = (x / float(mWidth)) * 2.0f - 1.0f;
      float y1 = (y / float(mHeight)) * 2.0f - 1.0f;
      float x2 = ((x + width) / float(mWidth)) * 2.0f - 1.0f;
      float y2 = ((y + height) / float(mHeight)) * 2.0f - 1.0f;
  
      float u1 = x / float(mWidth);
      float v1 = y / float(mHeight);
      float u2 = (x + width) / float(mWidth);
      float v2 = (y + height) / float(mHeight);
  
      // Invert the quad vertices depending on the surface orientation.
      if ((mOrientation & EGL_SURFACE_ORIENTATION_INVERT_X_ANGLE) != 0)
      {
          std::swap(x1, x2);
      }
      if ((mOrientation & EGL_SURFACE_ORIENTATION_INVERT_Y_ANGLE) != 0)
      {
          std::swap(y1, y2);
      }
  
      d3d11::SetPositionTexCoordVertex(&vertices[0], x1, y1, u1, v1);
      d3d11::SetPositionTexCoordVertex(&vertices[1], x1, y2, u1, v2);
      d3d11::SetPositionTexCoordVertex(&vertices[2], x2, y1, u2, v1);
      d3d11::SetPositionTexCoordVertex(&vertices[3], x2, y2, u2, v2);
  
      deviceContext->Unmap(mQuadVB.get(), 0);
  
      StateManager11 *stateManager = mRenderer->getStateManager();
  
      constexpr UINT stride = sizeof(d3d11::PositionTexCoordVertex);
      stateManager->setSingleVertexBuffer(&mQuadVB, stride, 0);
  
      // Apply state
      stateManager->setDepthStencilState(nullptr, 0xFFFFFFFF);
      stateManager->setSimpleBlendState(nullptr);
      stateManager->setRasterizerState(&mPassThroughRS);
  
      // Apply shaders
      stateManager->setInputLayout(&mPassThroughIL);
      stateManager->setPrimitiveTopology(D3D_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP);
      stateManager->setDrawShaders(&mPassThroughVS, nullptr, &mPassThroughOrResolvePS);
  
      // Apply render targets. Use the proxy context in display.
      stateManager->setRenderTarget(mBackBufferRTView.get(), nullptr);
  
      // Set the viewport
      stateManager->setSimpleViewport(mWidth, mHeight);
  
      // Apply textures
      stateManager->setSimplePixelTextureAndSampler(mOffscreenSRView, mPassThroughSampler);
  
      // Draw
      deviceContext->Draw(4, 0);
  
      return EGL_SUCCESS;
  }
  
  EGLint SwapChain11::present(DisplayD3D *displayD3D, EGLint x, EGLint y, EGLint width, EGLint height)
  {
      if (!mSwapChain)
      {
          return EGL_SUCCESS;
      }
  
      UINT swapInterval = mSwapInterval;
  #if ANGLE_VSYNC == ANGLE_DISABLED
      swapInterval = 0;
  #endif
  
      HRESULT result = S_OK;
  
      // Use IDXGISwapChain1::Present1 with a dirty rect if DXGI 1.2 is available.
      // Dirty rect present is not supported with a multisampled swapchain.
      if (mSwapChain1 != nullptr && mEGLSamples <= 1)
      {
          if (mFirstSwap)
          {
              // Can't swap with a dirty rect if this swap chain has never swapped before
              DXGI_PRESENT_PARAMETERS params = {0, nullptr, nullptr, nullptr};
              result                         = mSwapChain1->Present1(swapInterval, 0, &params);
          }
          else
          {
              RECT rect = {static_cast<LONG>(x), static_cast<LONG>(mHeight - y - height),
                           static_cast<LONG>(x + width), static_cast<LONG>(mHeight - y)};
              DXGI_PRESENT_PARAMETERS params = {1, &rect, nullptr, nullptr};
              result                         = mSwapChain1->Present1(swapInterval, 0, &params);
          }
      }
      else
      {
          result = mSwapChain->Present(swapInterval, 0);
      }
  
      mFirstSwap = false;
  
      // Some swapping mechanisms such as DXGI_SWAP_EFFECT_FLIP_SEQUENTIAL unbind the current render
      // target. Mark it dirty. Use the proxy context in display since there is none available.
      mRenderer->getStateManager()->invalidateRenderTarget();
  
      if (result == DXGI_ERROR_DEVICE_REMOVED)
      {
          ERR() << "Present failed: the D3D11 device was removed, "
                << gl::FmtHR(mRenderer->getDevice()->GetDeviceRemovedReason());
          return EGL_CONTEXT_LOST;
      }
      else if (result == DXGI_ERROR_DEVICE_RESET)
      {
          ERR() << "Present failed: the D3D11 device was reset from a bad command.";
          return EGL_CONTEXT_LOST;
      }
      else if (FAILED(result))
      {
          ERR() << "Present failed with " << gl::FmtHR(result);
      }
  
      mNativeWindow->commitChange();
  
      return EGL_SUCCESS;
  }
  
  const TextureHelper11 &SwapChain11::getOffscreenTexture()
  {
      return mNeedsOffscreenTexture ? mOffscreenTexture : mBackBufferTexture;
  }
  
  const d3d11::RenderTargetView &SwapChain11::getRenderTarget()
  {
      return mNeedsOffscreenTexture ? mOffscreenRTView : mBackBufferRTView;
  }
  
  const d3d11::SharedSRV &SwapChain11::getRenderTargetShaderResource(d3d::Context *context)
  {
      if (!mNeedsOffscreenTexture)
      {
          ASSERT(mBackBufferSRView.valid());
          return mBackBufferSRView;
      }
  
      if (!mNeedsOffscreenTextureCopy)
      {
          ASSERT(mOffscreenSRView.valid());
          return mOffscreenSRView;
      }
  
      if (!mOffscreenTextureCopyForSRV.valid())
      {
          const d3d11::Format &backbufferFormatInfo =
              d3d11::Format::Get(mOffscreenRenderTargetFormat, mRenderer->getRenderer11DeviceCaps());
  
          D3D11_TEXTURE2D_DESC offscreenCopyDesc;
          mOffscreenTexture.getDesc(&offscreenCopyDesc);
  
          offscreenCopyDesc.BindFlags      = D3D11_BIND_SHADER_RESOURCE;
          offscreenCopyDesc.MiscFlags      = 0;
          offscreenCopyDesc.CPUAccessFlags = 0;
          angle::Result result             = mRenderer->allocateTexture(
              context, offscreenCopyDesc, backbufferFormatInfo, &mOffscreenTextureCopyForSRV);
          ASSERT(result != angle::Result::Stop);
          mOffscreenTextureCopyForSRV.setInternalName("OffscreenBackBufferCopyForSRV");
  
          D3D11_SHADER_RESOURCE_VIEW_DESC offscreenSRVDesc;
          offscreenSRVDesc.Format = backbufferFormatInfo.srvFormat;
          offscreenSRVDesc.ViewDimension =
              (mEGLSamples <= 1) ? D3D11_SRV_DIMENSION_TEXTURE2D : D3D11_SRV_DIMENSION_TEXTURE2DMS;
          offscreenSRVDesc.Texture2D.MostDetailedMip = 0;
          offscreenSRVDesc.Texture2D.MipLevels       = static_cast<UINT>(-1);
  
          result = mRenderer->allocateResource(context, offscreenSRVDesc,
                                               mOffscreenTextureCopyForSRV.get(), &mOffscreenSRView);
          ASSERT(result != angle::Result::Stop);
          mOffscreenSRView.setInternalName("OffscreenBackBufferSRV");
      }
  
      // Need to copy the offscreen texture into the shader-readable copy, since it's external and
      // we don't know if the copy is up-to-date. This works around the problem we have when the app
      // passes in a texture that isn't shader-readable.
      mRenderer->getDeviceContext()->CopyResource(mOffscreenTextureCopyForSRV.get(),
                                                  mOffscreenTexture.get());
      return mOffscreenSRView;
  }
  
  const d3d11::DepthStencilView &SwapChain11::getDepthStencil()
  {
      return mDepthStencilDSView;
  }
  
  const d3d11::SharedSRV &SwapChain11::getDepthStencilShaderResource()
  {
      return mDepthStencilSRView;
  }
  
  const TextureHelper11 &SwapChain11::getDepthStencilTexture()
  {
      return mDepthStencilTexture;
  }
  
  void *SwapChain11::getKeyedMutex()
  {
      return mKeyedMutex;
  }
  
  void SwapChain11::recreate()
  {
      // possibly should use this method instead of reset
  }
  
  RenderTargetD3D *SwapChain11::getColorRenderTarget()
  {
      return &mColorRenderTarget;
  }
  
  RenderTargetD3D *SwapChain11::getDepthStencilRenderTarget()
  {
      return &mDepthStencilRenderTarget;
  }
  
  egl::Error SwapChain11::getSyncValues(EGLuint64KHR *ust, EGLuint64KHR *msc, EGLuint64KHR *sbc)
  {
      if (!mSwapChain)
      {
          return egl::EglNotInitialized() << "Swap chain uninitialized";
      }
  
      DXGI_FRAME_STATISTICS stats = {};
      HRESULT result              = mSwapChain->GetFrameStatistics(&stats);
  
      if (FAILED(result))
      {
          return egl::EglBadAlloc() << "Failed to get frame statistics, " << gl::FmtHR(result);
      }
  
      // Conversion from DXGI_FRAME_STATISTICS to the output values:
      // stats.SyncRefreshCount -> msc
      // stats.PresentCount -> sbc
      // stats.SyncQPCTime -> ust with conversion to microseconds via QueryPerformanceFrequency
      *msc = stats.SyncRefreshCount;
      *sbc = stats.PresentCount;
  
      LONGLONG syncQPCValue = stats.SyncQPCTime.QuadPart;
      // If the QPC Value is below the overflow threshold, we proceed with
      // simple multiply and divide.
      if (syncQPCValue < kQPCOverflowThreshold)
      {
          *ust = syncQPCValue * kMicrosecondsPerSecond / mQPCFrequency;
      }
      else
      {
          // Otherwise, calculate microseconds in a round about manner to avoid
          // overflow and precision issues.
          int64_t wholeSeconds  = syncQPCValue / mQPCFrequency;
          int64_t leftoverTicks = syncQPCValue - (wholeSeconds * mQPCFrequency);
          *ust                  = wholeSeconds * kMicrosecondsPerSecond +
                 leftoverTicks * kMicrosecondsPerSecond / mQPCFrequency;
      }
  
      return egl::NoError();
  }
  
  UINT SwapChain11::getD3DSamples() const
  {
      return (mEGLSamples == 0) ? 1 : mEGLSamples;
  }
  
  }  // namespace rx
  

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