kc3-lang/angle/src/libANGLE/renderer/gl/wgl/DisplayWGL.cpp

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• Hash : 00ed7a1f
  Author :
  Date : 2016-05-19T13:13:38
  

  Enable always-available extensions in gl::Context.
  
  We can consolidate exposing these extensions in initCaps. Otherwise
  we have to maintain the lists in every Renderer back-end.
  
  Also do the same treatment for select egl::Display extensions.
  
  BUG=angleproject:1319
  
  Change-Id: I529dd120c6d2cdbb789bd9dd20491e796e97f3f6
  Reviewed-on: https://chromium-review.googlesource.com/345914
  Reviewed-by: Corentin Wallez <cwallez@chromium.org>
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/renderer/gl/wgl/DisplayWGL.cpp

• //
  // Copyright (c) 2015 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.
  //
  
  // DisplayWGL.h: WGL implementation of egl::Display
  
  #include "libANGLE/renderer/gl/wgl/DisplayWGL.h"
  
  #include "common/debug.h"
  #include "libANGLE/Config.h"
  #include "libANGLE/Display.h"
  #include "libANGLE/Surface.h"
  #include "libANGLE/renderer/gl/renderergl_utils.h"
  #include "libANGLE/renderer/gl/wgl/DXGISwapChainWindowSurfaceWGL.h"
  #include "libANGLE/renderer/gl/wgl/FunctionsWGL.h"
  #include "libANGLE/renderer/gl/wgl/PbufferSurfaceWGL.h"
  #include "libANGLE/renderer/gl/wgl/WindowSurfaceWGL.h"
  #include "libANGLE/renderer/gl/wgl/wgl_utils.h"
  
  #include <EGL/eglext.h>
  #include <string>
  #include <sstream>
  
  namespace rx
  {
  
  class FunctionsGLWindows : public FunctionsGL
  {
    public:
      FunctionsGLWindows(HMODULE openGLModule, PFNWGLGETPROCADDRESSPROC getProcAddressWGL)
          : mOpenGLModule(openGLModule),
            mGetProcAddressWGL(getProcAddressWGL)
      {
          ASSERT(mOpenGLModule);
          ASSERT(mGetProcAddressWGL);
      }
  
      ~FunctionsGLWindows() override {}
  
    private:
      void *loadProcAddress(const std::string &function) override
      {
          void *proc = reinterpret_cast<void*>(mGetProcAddressWGL(function.c_str()));
          if (!proc)
          {
              proc = reinterpret_cast<void*>(GetProcAddress(mOpenGLModule, function.c_str()));
          }
          return proc;
      }
  
      HMODULE mOpenGLModule;
      PFNWGLGETPROCADDRESSPROC mGetProcAddressWGL;
  };
  
  DisplayWGL::DisplayWGL()
      : DisplayGL(),
        mOpenGLModule(nullptr),
        mFunctionsWGL(nullptr),
        mFunctionsGL(nullptr),
        mWindowClass(0),
        mWindow(nullptr),
        mDeviceContext(nullptr),
        mPixelFormat(0),
        mWGLContext(nullptr),
        mUseDXGISwapChains(false),
        mDxgiModule(nullptr),
        mD3d11Module(nullptr),
        mD3D11DeviceHandle(nullptr),
        mD3D11Device(nullptr),
        mDisplay(nullptr)
  {
  }
  
  DisplayWGL::~DisplayWGL()
  {
  }
  
  egl::Error DisplayWGL::initialize(egl::Display *display)
  {
      mDisplay = display;
  
      mOpenGLModule = LoadLibraryA("opengl32.dll");
      if (!mOpenGLModule)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to load OpenGL library.");
      }
  
      mFunctionsWGL = new FunctionsWGL();
      mFunctionsWGL->initialize(mOpenGLModule, nullptr);
  
      // WGL can't grab extensions until it creates a context because it needs to load the driver's DLLs first.
      // Create a dummy context to load the driver and determine which GL versions are available.
  
      // Work around compile error from not defining "UNICODE" while Chromium does
      const LPSTR idcArrow = MAKEINTRESOURCEA(32512);
  
      std::string className = FormatString("ANGLE DisplayWGL 0x%0.8p Intermediate Window Class", mDisplay);
  
      WNDCLASSA intermediateClassDesc = { 0 };
      intermediateClassDesc.style = CS_OWNDC;
      intermediateClassDesc.lpfnWndProc = DefWindowProc;
      intermediateClassDesc.cbClsExtra = 0;
      intermediateClassDesc.cbWndExtra = 0;
      intermediateClassDesc.hInstance = GetModuleHandle(nullptr);
      intermediateClassDesc.hIcon = nullptr;
      intermediateClassDesc.hCursor = LoadCursorA(nullptr, idcArrow);
      intermediateClassDesc.hbrBackground = 0;
      intermediateClassDesc.lpszMenuName = nullptr;
      intermediateClassDesc.lpszClassName = className.c_str();
      mWindowClass = RegisterClassA(&intermediateClassDesc);
      if (!mWindowClass)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to register intermediate OpenGL window class.");
      }
  
      HWND dummyWindow = CreateWindowExA(0,
                                         reinterpret_cast<const char *>(mWindowClass),
                                         "ANGLE Dummy Window",
                                         WS_OVERLAPPEDWINDOW,
                                         CW_USEDEFAULT,
                                         CW_USEDEFAULT,
                                         CW_USEDEFAULT,
                                         CW_USEDEFAULT,
                                         nullptr,
                                         nullptr,
                                         nullptr,
                                         nullptr);
      if (!dummyWindow)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to create dummy OpenGL window.");
      }
  
      HDC dummyDeviceContext = GetDC(dummyWindow);
      if (!dummyDeviceContext)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to get the device context of the dummy OpenGL window.");
      }
  
      const PIXELFORMATDESCRIPTOR pixelFormatDescriptor = wgl::GetDefaultPixelFormatDescriptor();
  
      int dummyPixelFormat = ChoosePixelFormat(dummyDeviceContext, &pixelFormatDescriptor);
      if (dummyPixelFormat == 0)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Could not find a compatible pixel format for the dummy OpenGL window.");
      }
  
      if (!SetPixelFormat(dummyDeviceContext, dummyPixelFormat, &pixelFormatDescriptor))
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to set the pixel format on the intermediate OpenGL window.");
      }
  
      HGLRC dummyWGLContext = mFunctionsWGL->createContext(dummyDeviceContext);
      if (!dummyDeviceContext)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to create a WGL context for the dummy OpenGL window.");
      }
  
      if (!mFunctionsWGL->makeCurrent(dummyDeviceContext, dummyWGLContext))
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to make the dummy WGL context current.");
      }
  
      // Grab the GL version from this context and use it as the maximum version available.
      typedef const GLubyte* (GL_APIENTRYP PFNGLGETSTRINGPROC) (GLenum name);
      PFNGLGETSTRINGPROC getString = reinterpret_cast<PFNGLGETSTRINGPROC>(GetProcAddress(mOpenGLModule, "glGetString"));
      if (!getString)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to get glGetString pointer.");
      }
  
      // Reinitialize the wgl functions to grab the extensions
      mFunctionsWGL->initialize(mOpenGLModule, dummyDeviceContext);
  
      // Destroy the dummy window and context
      mFunctionsWGL->makeCurrent(dummyDeviceContext, nullptr);
      mFunctionsWGL->deleteContext(dummyWGLContext);
      ReleaseDC(dummyWindow, dummyDeviceContext);
      DestroyWindow(dummyWindow);
  
      const egl::AttributeMap &displayAttributes = display->getAttributeMap();
      EGLint requestedDisplayType = static_cast<EGLint>(displayAttributes.get(
          EGL_PLATFORM_ANGLE_TYPE_ANGLE, EGL_PLATFORM_ANGLE_TYPE_DEFAULT_ANGLE));
      if (requestedDisplayType == EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE &&
          !mFunctionsWGL->hasExtension("WGL_EXT_create_context_es2_profile") &&
          !mFunctionsWGL->hasExtension("WGL_EXT_create_context_es_profile"))
      {
          return egl::Error(EGL_NOT_INITIALIZED,
                            "Cannot create an OpenGL ES platform on Windows without "
                            "the WGL_EXT_create_context_es(2)_profile extension.");
      }
  
      // Create the real intermediate context and windows
      mWindow = CreateWindowExA(0,
                                reinterpret_cast<const char *>(mWindowClass),
                                "ANGLE Intermediate Window",
                                WS_OVERLAPPEDWINDOW,
                                CW_USEDEFAULT,
                                CW_USEDEFAULT,
                                CW_USEDEFAULT,
                                CW_USEDEFAULT,
                                nullptr,
                                nullptr,
                                nullptr,
                                nullptr);
      if (!mWindow)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to create intermediate OpenGL window.");
      }
  
      mDeviceContext = GetDC(mWindow);
      if (!mDeviceContext)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to get the device context of the intermediate OpenGL window.");
      }
  
      if (mFunctionsWGL->choosePixelFormatARB)
      {
          std::vector<int> attribs = wgl::GetDefaultPixelFormatAttributes(false);
  
          UINT matchingFormats = 0;
          mFunctionsWGL->choosePixelFormatARB(mDeviceContext, &attribs[0], nullptr, 1u, &mPixelFormat,
                                              &matchingFormats);
      }
  
      if (mPixelFormat == 0)
      {
          mPixelFormat = ChoosePixelFormat(mDeviceContext, &pixelFormatDescriptor);
      }
  
      if (mPixelFormat == 0)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Could not find a compatible pixel format for the intermediate OpenGL window.");
      }
  
      if (!SetPixelFormat(mDeviceContext, mPixelFormat, &pixelFormatDescriptor))
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to set the pixel format on the intermediate OpenGL window.");
      }
  
      if (mFunctionsWGL->createContextAttribsARB)
      {
          int flags = 0;
          // TODO: allow debug contexts
          // TODO: handle robustness
  
          int mask = 0;
  
          if (requestedDisplayType == EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE)
          {
              mask |= WGL_CONTEXT_ES_PROFILE_BIT_EXT;
          }
          else
          {
              // Request core profile
              mask |= WGL_CONTEXT_CORE_PROFILE_BIT_ARB;
          }
  
          std::vector<int> contextCreationAttributes;
  
          // Don't request a specific version unless the user wants one.  WGL will return the highest version
          // that the driver supports if no version is requested.
          EGLint requestedMajorVersion = static_cast<EGLint>(
              displayAttributes.get(EGL_PLATFORM_ANGLE_MAX_VERSION_MAJOR_ANGLE, EGL_DONT_CARE));
          EGLint requestedMinorVersion = static_cast<EGLint>(
              displayAttributes.get(EGL_PLATFORM_ANGLE_MAX_VERSION_MINOR_ANGLE, EGL_DONT_CARE));
          if (requestedMajorVersion != EGL_DONT_CARE && requestedMinorVersion != EGL_DONT_CARE)
          {
              contextCreationAttributes.push_back(WGL_CONTEXT_MAJOR_VERSION_ARB);
              contextCreationAttributes.push_back(requestedMajorVersion);
  
              contextCreationAttributes.push_back(WGL_CONTEXT_MINOR_VERSION_ARB);
              contextCreationAttributes.push_back(requestedMinorVersion);
          }
          else
          {
              // the ES profile will give us ES version 1.1 unless a higher version is requested.
              // Requesting version 2.0 will give us the highest compatible version available (2.0,
              // 3.0, 3.1, etc).
              if (requestedDisplayType == EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE)
              {
                  contextCreationAttributes.push_back(WGL_CONTEXT_MAJOR_VERSION_ARB);
                  contextCreationAttributes.push_back(2);
  
                  contextCreationAttributes.push_back(WGL_CONTEXT_MINOR_VERSION_ARB);
                  contextCreationAttributes.push_back(0);
              }
          }
  
          // Set the flag attributes
          if (flags != 0)
          {
              contextCreationAttributes.push_back(WGL_CONTEXT_FLAGS_ARB);
              contextCreationAttributes.push_back(flags);
          }
  
          // Set the mask attribute
          if (mask != 0)
          {
              contextCreationAttributes.push_back(WGL_CONTEXT_PROFILE_MASK_ARB);
              contextCreationAttributes.push_back(mask);
          }
  
          // Signal the end of the attributes
          contextCreationAttributes.push_back(0);
          contextCreationAttributes.push_back(0);
  
          mWGLContext = mFunctionsWGL->createContextAttribsARB(mDeviceContext, NULL, &contextCreationAttributes[0]);
      }
  
      // If wglCreateContextAttribsARB is unavailable or failed, try the standard wglCreateContext
      if (!mWGLContext)
      {
          // Don't have control over GL versions
          mWGLContext = mFunctionsWGL->createContext(mDeviceContext);
      }
  
      if (!mWGLContext)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to create a WGL context for the intermediate OpenGL window.");
      }
  
      if (!mFunctionsWGL->makeCurrent(mDeviceContext, mWGLContext))
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to make the intermediate WGL context current.");
      }
  
      mFunctionsGL = new FunctionsGLWindows(mOpenGLModule, mFunctionsWGL->getProcAddress);
      mFunctionsGL->initialize();
  
      // Intel OpenGL ES drivers are not currently supported due to bugs in the driver and ANGLE
      VendorID vendor = GetVendorID(mFunctionsGL);
      if (requestedDisplayType == EGL_PLATFORM_ANGLE_TYPE_OPENGLES_ANGLE && vendor == VENDOR_ID_INTEL)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Intel OpenGL ES drivers are not supported.");
      }
  
      // Create DXGI swap chains for windows that come from other processes.  Windows is unable to
      // SetPixelFormat on windows from other processes when a sandbox is enabled.
      HDC nativeDisplay = display->getNativeDisplayId();
      HWND nativeWindow = WindowFromDC(nativeDisplay);
      if (nativeWindow != nullptr)
      {
          DWORD currentProcessId = GetCurrentProcessId();
          DWORD windowProcessId;
          GetWindowThreadProcessId(nativeWindow, &windowProcessId);
  
          // AMD drivers advertise the WGL_NV_DX_interop and WGL_NV_DX_interop2 extensions but fail
          mUseDXGISwapChains = vendor != VENDOR_ID_AMD && (currentProcessId != windowProcessId);
      }
      else
      {
          mUseDXGISwapChains = false;
      }
  
      if (mUseDXGISwapChains)
      {
          egl::Error error = initializeD3DDevice();
          if (error.isError())
          {
              return error;
          }
      }
  
      return DisplayGL::initialize(display);
  }
  
  void DisplayWGL::terminate()
  {
      DisplayGL::terminate();
  
      releaseD3DDevice(mD3D11DeviceHandle);
  
      mFunctionsWGL->makeCurrent(mDeviceContext, NULL);
      mFunctionsWGL->deleteContext(mWGLContext);
      mWGLContext = NULL;
  
      ReleaseDC(mWindow, mDeviceContext);
      mDeviceContext = NULL;
  
      DestroyWindow(mWindow);
      mWindow = NULL;
  
      UnregisterClassA(reinterpret_cast<const char*>(mWindowClass), NULL);
      mWindowClass = NULL;
  
      SafeDelete(mFunctionsWGL);
      SafeDelete(mFunctionsGL);
  
      FreeLibrary(mOpenGLModule);
      mOpenGLModule = nullptr;
  
      SafeRelease(mD3D11Device);
  
      if (mDxgiModule)
      {
          FreeLibrary(mDxgiModule);
          mDxgiModule = nullptr;
      }
  
      if (mD3d11Module)
      {
          FreeLibrary(mD3d11Module);
          mD3d11Module = nullptr;
      }
  
      ASSERT(mRegisteredD3DDevices.empty());
  }
  
  SurfaceImpl *DisplayWGL::createWindowSurface(const egl::SurfaceState &state,
                                               const egl::Config *configuration,
                                               EGLNativeWindowType window,
                                               const egl::AttributeMap &attribs)
  {
      EGLint orientation = static_cast<EGLint>(attribs.get(EGL_SURFACE_ORIENTATION_ANGLE, 0));
      if (mUseDXGISwapChains)
      {
          return new DXGISwapChainWindowSurfaceWGL(state, this->getRenderer(), window, mD3D11Device,
                                                   mD3D11DeviceHandle, mWGLContext, mDeviceContext,
                                                   mFunctionsGL, mFunctionsWGL, orientation);
      }
      else
      {
          return new WindowSurfaceWGL(state, this->getRenderer(), window, mPixelFormat, mWGLContext,
                                      mFunctionsWGL, orientation);
      }
  }
  
  SurfaceImpl *DisplayWGL::createPbufferSurface(const egl::SurfaceState &state,
                                                const egl::Config *configuration,
                                                const egl::AttributeMap &attribs)
  {
      EGLint width          = static_cast<EGLint>(attribs.get(EGL_WIDTH, 0));
      EGLint height         = static_cast<EGLint>(attribs.get(EGL_HEIGHT, 0));
      bool largest = (attribs.get(EGL_LARGEST_PBUFFER, EGL_FALSE) == EGL_TRUE);
      EGLenum textureFormat = static_cast<EGLenum>(attribs.get(EGL_TEXTURE_FORMAT, EGL_NO_TEXTURE));
      EGLenum textureTarget = static_cast<EGLenum>(attribs.get(EGL_TEXTURE_TARGET, EGL_NO_TEXTURE));
  
      return new PbufferSurfaceWGL(state, this->getRenderer(), width, height, textureFormat,
                                   textureTarget, largest, mPixelFormat, mDeviceContext, mWGLContext,
                                   mFunctionsWGL);
  }
  
  SurfaceImpl *DisplayWGL::createPbufferFromClientBuffer(const egl::SurfaceState &state,
                                                         const egl::Config *configuration,
                                                         EGLClientBuffer shareHandle,
                                                         const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  SurfaceImpl *DisplayWGL::createPixmapSurface(const egl::SurfaceState &state,
                                               const egl::Config *configuration,
                                               NativePixmapType nativePixmap,
                                               const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  egl::Error DisplayWGL::getDevice(DeviceImpl **device)
  {
      UNIMPLEMENTED();
      return egl::Error(EGL_BAD_DISPLAY);
  }
  
  egl::ConfigSet DisplayWGL::generateConfigs() const
  {
      egl::ConfigSet configs;
  
      int minSwapInterval = 1;
      int maxSwapInterval = 1;
      if (mFunctionsWGL->swapIntervalEXT)
      {
          // No defined maximum swap interval in WGL_EXT_swap_control, use a reasonable number
          minSwapInterval = 0;
          maxSwapInterval = 8;
      }
  
      const gl::Version &maxVersion = getMaxSupportedESVersion();
      ASSERT(maxVersion >= gl::Version(2, 0));
      bool supportsES3 = maxVersion >= gl::Version(3, 0);
  
      PIXELFORMATDESCRIPTOR pixelFormatDescriptor;
      DescribePixelFormat(mDeviceContext, mPixelFormat, sizeof(pixelFormatDescriptor), &pixelFormatDescriptor);
  
      auto getAttrib = [this](int attrib)
      {
          return wgl::QueryWGLFormatAttrib(mDeviceContext, mPixelFormat, attrib, mFunctionsWGL);
      };
  
      const EGLint optimalSurfaceOrientation =
          mUseDXGISwapChains ? EGL_SURFACE_ORIENTATION_INVERT_Y_ANGLE : 0;
  
      egl::Config config;
      config.renderTargetFormat = GL_RGBA8; // TODO: use the bit counts to determine the format
      config.depthStencilFormat = GL_DEPTH24_STENCIL8; // TODO: use the bit counts to determine the format
      config.bufferSize = pixelFormatDescriptor.cColorBits;
      config.redSize = pixelFormatDescriptor.cRedBits;
      config.greenSize = pixelFormatDescriptor.cGreenBits;
      config.blueSize = pixelFormatDescriptor.cBlueBits;
      config.luminanceSize = 0;
      config.alphaSize = pixelFormatDescriptor.cAlphaBits;
      config.alphaMaskSize = 0;
      config.bindToTextureRGB   = (getAttrib(WGL_BIND_TO_TEXTURE_RGB_ARB) == TRUE);
      config.bindToTextureRGBA  = (getAttrib(WGL_BIND_TO_TEXTURE_RGBA_ARB) == TRUE);
      config.colorBufferType = EGL_RGB_BUFFER;
      config.configCaveat = EGL_NONE;
      config.conformant = EGL_OPENGL_ES2_BIT | (supportsES3 ? EGL_OPENGL_ES3_BIT_KHR : 0);
      config.depthSize = pixelFormatDescriptor.cDepthBits;
      config.level = 0;
      config.matchNativePixmap = EGL_NONE;
      config.maxPBufferWidth    = getAttrib(WGL_MAX_PBUFFER_WIDTH_ARB);
      config.maxPBufferHeight   = getAttrib(WGL_MAX_PBUFFER_HEIGHT_ARB);
      config.maxPBufferPixels   = getAttrib(WGL_MAX_PBUFFER_PIXELS_ARB);
      config.maxSwapInterval = maxSwapInterval;
      config.minSwapInterval = minSwapInterval;
      config.nativeRenderable = EGL_TRUE; // Direct rendering
      config.nativeVisualID = 0;
      config.nativeVisualType = EGL_NONE;
      config.renderableType = EGL_OPENGL_ES2_BIT | (supportsES3 ? EGL_OPENGL_ES3_BIT_KHR : 0);
      config.sampleBuffers = 0; // FIXME: enumerate multi-sampling
      config.samples = 0;
      config.stencilSize = pixelFormatDescriptor.cStencilBits;
      config.surfaceType =
          ((pixelFormatDescriptor.dwFlags & PFD_DRAW_TO_WINDOW) ? EGL_WINDOW_BIT : 0) |
          ((getAttrib(WGL_DRAW_TO_PBUFFER_ARB) == TRUE) ? EGL_PBUFFER_BIT : 0) |
          ((getAttrib(WGL_SWAP_METHOD_ARB) == WGL_SWAP_COPY_ARB) ? EGL_SWAP_BEHAVIOR_PRESERVED_BIT
                                                                 : 0);
      config.optimalOrientation = optimalSurfaceOrientation;
  
      config.transparentType = EGL_NONE;
      config.transparentRedValue = 0;
      config.transparentGreenValue = 0;
      config.transparentBlueValue = 0;
  
      configs.add(config);
  
      return configs;
  }
  
  bool DisplayWGL::isDeviceLost() const
  {
      //UNIMPLEMENTED();
      return false;
  }
  
  bool DisplayWGL::testDeviceLost()
  {
      //UNIMPLEMENTED();
      return false;
  }
  
  egl::Error DisplayWGL::restoreLostDevice()
  {
      UNIMPLEMENTED();
      return egl::Error(EGL_BAD_DISPLAY);
  }
  
  bool DisplayWGL::isValidNativeWindow(EGLNativeWindowType window) const
  {
      return (IsWindow(window) == TRUE);
  }
  
  std::string DisplayWGL::getVendorString() const
  {
      //UNIMPLEMENTED();
      return "";
  }
  
  const FunctionsGL *DisplayWGL::getFunctionsGL() const
  {
      return mFunctionsGL;
  }
  
  egl::Error DisplayWGL::initializeD3DDevice()
  {
      if (mD3D11Device != nullptr)
      {
          return egl::Error(EGL_SUCCESS);
      }
  
      mDxgiModule = LoadLibrary(TEXT("dxgi.dll"));
      if (!mDxgiModule)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to load DXGI library.");
      }
  
      mD3d11Module = LoadLibrary(TEXT("d3d11.dll"));
      if (!mD3d11Module)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Failed to load d3d11 library.");
      }
  
      PFN_D3D11_CREATE_DEVICE d3d11CreateDevice = nullptr;
      d3d11CreateDevice = reinterpret_cast<PFN_D3D11_CREATE_DEVICE>(
          GetProcAddress(mD3d11Module, "D3D11CreateDevice"));
      if (d3d11CreateDevice == nullptr)
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Could not retrieve D3D11CreateDevice address.");
      }
  
      HRESULT result = d3d11CreateDevice(nullptr, D3D_DRIVER_TYPE_HARDWARE, nullptr, 0, nullptr, 0,
                                         D3D11_SDK_VERSION, &mD3D11Device, nullptr, nullptr);
      if (FAILED(result))
      {
          return egl::Error(EGL_NOT_INITIALIZED, "Could not create D3D11 device, error: 0x%X",
                            result);
      }
  
      egl::Error error = registerD3DDevice(mD3D11Device, &mD3D11DeviceHandle);
      if (error.isError())
      {
          return error;
      }
  
      return egl::Error(EGL_SUCCESS);
  }
  
  void DisplayWGL::generateExtensions(egl::DisplayExtensions *outExtensions) const
  {
      // Only enable the surface orientation  and post sub buffer for DXGI swap chain surfaces, they
      // prefer to swap with inverted Y.
      outExtensions->postSubBuffer      = mUseDXGISwapChains;
      outExtensions->surfaceOrientation = mUseDXGISwapChains;
  }
  
  void DisplayWGL::generateCaps(egl::Caps *outCaps) const
  {
      outCaps->textureNPOT = true;
  }
  
  egl::Error DisplayWGL::waitClient() const
  {
      // Unimplemented as this is not needed for WGL
      return egl::Error(EGL_SUCCESS);
  }
  
  egl::Error DisplayWGL::waitNative(EGLint engine,
                                    egl::Surface *drawSurface,
                                    egl::Surface *readSurface) const
  {
      // Unimplemented as this is not needed for WGL
      return egl::Error(EGL_SUCCESS);
  }
  
  egl::Error DisplayWGL::getDriverVersion(std::string *version) const
  {
      *version = "";
      return egl::Error(EGL_SUCCESS);
  }
  
  egl::Error DisplayWGL::registerD3DDevice(IUnknown *device, HANDLE *outHandle)
  {
      ASSERT(device != nullptr);
      ASSERT(outHandle != nullptr);
  
      auto iter = mRegisteredD3DDevices.find(device);
      if (iter != mRegisteredD3DDevices.end())
      {
          iter->second.refCount++;
          *outHandle = iter->second.handle;
          return egl::Error(EGL_SUCCESS);
      }
  
      HANDLE handle = mFunctionsWGL->dxOpenDeviceNV(device);
      if (!handle)
      {
          return egl::Error(EGL_BAD_PARAMETER, "Failed to open D3D device.");
      }
  
      device->AddRef();
  
      D3DObjectHandle newDeviceInfo;
      newDeviceInfo.handle          = handle;
      newDeviceInfo.refCount        = 1;
      mRegisteredD3DDevices[device] = newDeviceInfo;
  
      *outHandle = handle;
      return egl::Error(EGL_SUCCESS);
  }
  
  void DisplayWGL::releaseD3DDevice(HANDLE deviceHandle)
  {
      for (auto iter = mRegisteredD3DDevices.begin(); iter != mRegisteredD3DDevices.end(); iter++)
      {
          if (iter->second.handle == deviceHandle)
          {
              iter->second.refCount--;
              if (iter->second.refCount == 0)
              {
                  mFunctionsWGL->dxCloseDeviceNV(iter->second.handle);
                  iter->first->Release();
                  mRegisteredD3DDevices.erase(iter);
                  break;
              }
          }
      }
  }
  }
  

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