kc3-lang/angle/src/libEGL/Display.cpp

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• Hash : 37fa3c8e
  Author :
  Date : 2010-07-28T19:21:21
  

  Removes Windows-style line endings from Display.cpp
  TRAC #12714
  Signed-off-by: Daniel Koch
  
  Author:    Shannon Woods
  
  git-svn-id: https://angleproject.googlecode.com/svn/trunk@366 736b8ea6-26fd-11df-bfd4-992fa37f6226
  

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• src/libEGL/Display.cpp

• //
  // Copyright (c) 2002-2010 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.
  //
  
  // Display.cpp: Implements the egl::Display class, representing the abstract
  // display on which graphics are drawn. Implements EGLDisplay.
  // [EGL 1.4] section 2.1.2 page 3.
  
  #include "libEGL/Display.h"
  
  #include <algorithm>
  #include <vector>
  
  #include "common/debug.h"
  
  #include "libEGL/main.h"
  
  #define REF_RAST 0   // Can also be enabled by defining FORCE_REF_RAST in the project's predefined macros
  
  namespace egl
  {
  Display::Display(HDC deviceContext) : mDc(deviceContext)
  {
      mD3d9 = NULL;
      mDevice = NULL;
      mDeviceWindow = NULL;
  
      mAdapter = D3DADAPTER_DEFAULT;
  
      #if REF_RAST == 1 || defined(FORCE_REF_RAST)
          mDeviceType = D3DDEVTYPE_REF;
      #else
          mDeviceType = D3DDEVTYPE_HAL;
      #endif
  
      mMinSwapInterval = 1;
      mMaxSwapInterval = 1;
      setSwapInterval(1);
  }
  
  Display::~Display()
  {
      terminate();
  }
  
  bool Display::initialize()
  {
      if (isInitialized())
      {
          return true;
      }
  
      mD3d9 = Direct3DCreate9(D3D_SDK_VERSION);
  
      if (mD3d9)
      {
          if (mDc != NULL)
          {
          //  UNIMPLEMENTED();   // FIXME: Determine which adapter index the device context corresponds to
          }
  
          HRESULT result = mD3d9->GetDeviceCaps(mAdapter, mDeviceType, &mDeviceCaps);
  
          if (result == D3DERR_OUTOFVIDEOMEMORY || result == E_OUTOFMEMORY)
          {
              return error(EGL_BAD_ALLOC, false);
          }
  
          if (mDeviceCaps.PixelShaderVersion < D3DPS_VERSION(2, 0))
          {
              mD3d9->Release();
              mD3d9 = NULL;
          }
          else
          {
              mMinSwapInterval = 4;
              mMaxSwapInterval = 0;
  
              if (mDeviceCaps.PresentationIntervals & D3DPRESENT_INTERVAL_IMMEDIATE) {mMinSwapInterval = std::min(mMinSwapInterval, 0); mMaxSwapInterval = std::max(mMaxSwapInterval, 0);}
              if (mDeviceCaps.PresentationIntervals & D3DPRESENT_INTERVAL_ONE)       {mMinSwapInterval = std::min(mMinSwapInterval, 1); mMaxSwapInterval = std::max(mMaxSwapInterval, 1);}
              if (mDeviceCaps.PresentationIntervals & D3DPRESENT_INTERVAL_TWO)       {mMinSwapInterval = std::min(mMinSwapInterval, 2); mMaxSwapInterval = std::max(mMaxSwapInterval, 2);}
              if (mDeviceCaps.PresentationIntervals & D3DPRESENT_INTERVAL_THREE)     {mMinSwapInterval = std::min(mMinSwapInterval, 3); mMaxSwapInterval = std::max(mMaxSwapInterval, 3);}
              if (mDeviceCaps.PresentationIntervals & D3DPRESENT_INTERVAL_FOUR)      {mMinSwapInterval = std::min(mMinSwapInterval, 4); mMaxSwapInterval = std::max(mMaxSwapInterval, 4);}
  
              const D3DFORMAT renderTargetFormats[] =
              {
                  D3DFMT_A1R5G5B5,
              //  D3DFMT_A2R10G10B10,   // The color_ramp conformance test uses ReadPixels with UNSIGNED_BYTE causing it to think that rendering skipped a colour value.
                  D3DFMT_A8R8G8B8,
                  D3DFMT_R5G6B5,
                  D3DFMT_X1R5G5B5,
                  D3DFMT_X8R8G8B8
              };
  
              const D3DFORMAT depthStencilFormats[] =
              {
              //  D3DFMT_D16_LOCKABLE,
                  D3DFMT_D32,
              //  D3DFMT_D15S1,
                  D3DFMT_D24S8,
                  D3DFMT_D24X8,
              //  D3DFMT_D24X4S4,
                  D3DFMT_D16,
              //  D3DFMT_D32F_LOCKABLE,
              //  D3DFMT_D24FS8
              };
  
              D3DDISPLAYMODE currentDisplayMode;
              mD3d9->GetAdapterDisplayMode(mAdapter, &currentDisplayMode);
  
              ConfigSet configSet;
  
              for (int formatIndex = 0; formatIndex < sizeof(renderTargetFormats) / sizeof(D3DFORMAT); formatIndex++)
              {
                  D3DFORMAT renderTargetFormat = renderTargetFormats[formatIndex];
  
                  HRESULT result = mD3d9->CheckDeviceFormat(mAdapter, mDeviceType, currentDisplayMode.Format, D3DUSAGE_RENDERTARGET, D3DRTYPE_SURFACE, renderTargetFormat);
  
                  if (SUCCEEDED(result))
                  {
                      for (int depthStencilIndex = 0; depthStencilIndex < sizeof(depthStencilFormats) / sizeof(D3DFORMAT); depthStencilIndex++)
                      {
                          D3DFORMAT depthStencilFormat = depthStencilFormats[depthStencilIndex];
                          HRESULT result = mD3d9->CheckDeviceFormat(mAdapter, mDeviceType, currentDisplayMode.Format, D3DUSAGE_DEPTHSTENCIL, D3DRTYPE_SURFACE, depthStencilFormat);
  
                          if (SUCCEEDED(result))
                          {
                              HRESULT result = mD3d9->CheckDepthStencilMatch(mAdapter, mDeviceType, currentDisplayMode.Format, renderTargetFormat, depthStencilFormat);
  
                              if (SUCCEEDED(result))
                              {
                                  // FIXME: Enumerate multi-sampling
  
                                  configSet.add(currentDisplayMode, mMinSwapInterval, mMaxSwapInterval, renderTargetFormat, depthStencilFormat, 0);
                              }
                          }
                      }
                  }
              }
  
              // Give the sorted configs a unique ID and store them internally
              EGLint index = 1;
              for (ConfigSet::Iterator config = configSet.mSet.begin(); config != configSet.mSet.end(); config++)
              {
                  Config configuration = *config;
                  configuration.mConfigID = index;
                  index++;
  
                  mConfigSet.mSet.insert(configuration);
              }
          }
  
          if (!createDevice())
          {
              terminate();
  
              return false;
          }
      }
  
      if (!isInitialized())
      {
          terminate();
  
          return false;
      }
  
      return true;
  }
  
  void Display::terminate()
  {
      for (SurfaceSet::iterator surface = mSurfaceSet.begin(); surface != mSurfaceSet.end(); surface++)
      {
          delete *surface;
      }
  
      for (ContextSet::iterator context = mContextSet.begin(); context != mContextSet.end(); context++)
      {
          glDestroyContext(*context);
      }
  
      if (mDevice)
      {
          mDevice->Release();
          mDevice = NULL;
      }
  
      if (mD3d9)
      {
          mD3d9->Release();
          mD3d9 = NULL;
      }
  
      if (mDeviceWindow)
      {
          DestroyWindow(mDeviceWindow);
          mDeviceWindow = NULL;
      }
  }
  
  void Display::startScene()
  {
      if (!mSceneStarted)
      {
          long result = mDevice->BeginScene();
          ASSERT(SUCCEEDED(result));
          mSceneStarted = true;
      }
  }
  
  void Display::endScene()
  {
      if (mSceneStarted)
      {
          long result = mDevice->EndScene();
          ASSERT(SUCCEEDED(result));
          mSceneStarted = false;
      }
  }
  
  bool Display::getConfigs(EGLConfig *configs, const EGLint *attribList, EGLint configSize, EGLint *numConfig)
  {
      return mConfigSet.getConfigs(configs, attribList, configSize, numConfig);
  }
  
  bool Display::getConfigAttrib(EGLConfig config, EGLint attribute, EGLint *value)
  {
      const egl::Config *configuration = mConfigSet.get(config);
  
      switch (attribute)
      {
        case EGL_BUFFER_SIZE:               *value = configuration->mBufferSize;             break;
        case EGL_ALPHA_SIZE:                *value = configuration->mAlphaSize;              break;
        case EGL_BLUE_SIZE:                 *value = configuration->mBlueSize;               break;
        case EGL_GREEN_SIZE:                *value = configuration->mGreenSize;              break;
        case EGL_RED_SIZE:                  *value = configuration->mRedSize;                break;
        case EGL_DEPTH_SIZE:                *value = configuration->mDepthSize;              break;
        case EGL_STENCIL_SIZE:              *value = configuration->mStencilSize;            break;
        case EGL_CONFIG_CAVEAT:             *value = configuration->mConfigCaveat;           break;
        case EGL_CONFIG_ID:                 *value = configuration->mConfigID;               break;
        case EGL_LEVEL:                     *value = configuration->mLevel;                  break;
        case EGL_NATIVE_RENDERABLE:         *value = configuration->mNativeRenderable;       break;
        case EGL_NATIVE_VISUAL_TYPE:        *value = configuration->mNativeVisualType;       break;
        case EGL_SAMPLES:                   *value = configuration->mSamples;                break;
        case EGL_SAMPLE_BUFFERS:            *value = configuration->mSampleBuffers;          break;
        case EGL_SURFACE_TYPE:              *value = configuration->mSurfaceType;            break;
        case EGL_TRANSPARENT_TYPE:          *value = configuration->mTransparentType;        break;
        case EGL_TRANSPARENT_BLUE_VALUE:    *value = configuration->mTransparentBlueValue;   break;
        case EGL_TRANSPARENT_GREEN_VALUE:   *value = configuration->mTransparentGreenValue;  break;
        case EGL_TRANSPARENT_RED_VALUE:     *value = configuration->mTransparentRedValue;    break;
        case EGL_BIND_TO_TEXTURE_RGB:       *value = configuration->mBindToTextureRGB;       break;
        case EGL_BIND_TO_TEXTURE_RGBA:      *value = configuration->mBindToTextureRGBA;      break;
        case EGL_MIN_SWAP_INTERVAL:         *value = configuration->mMinSwapInterval;        break;
        case EGL_MAX_SWAP_INTERVAL:         *value = configuration->mMaxSwapInterval;        break;
        case EGL_LUMINANCE_SIZE:            *value = configuration->mLuminanceSize;          break;
        case EGL_ALPHA_MASK_SIZE:           *value = configuration->mAlphaMaskSize;          break;
        case EGL_COLOR_BUFFER_TYPE:         *value = configuration->mColorBufferType;        break;
        case EGL_RENDERABLE_TYPE:           *value = configuration->mRenderableType;         break;
        case EGL_MATCH_NATIVE_PIXMAP:       *value = false; UNIMPLEMENTED();                 break;
        case EGL_CONFORMANT:                *value = configuration->mConformant;             break;
        default:
          return false;
      }
  
      return true;
  }
  
  bool Display::createDevice()
  {
      static const TCHAR windowName[] = TEXT("AngleHiddenWindow");
      static const TCHAR className[] = TEXT("STATIC");
  
      mDeviceWindow = CreateWindowEx(WS_EX_NOACTIVATE, className, windowName, WS_DISABLED | WS_POPUP, 0, 0, 1, 1, HWND_MESSAGE, NULL, GetModuleHandle(NULL), NULL);
  
      D3DPRESENT_PARAMETERS presentParameters = {0};
  
      // The default swap chain is never actually used. Surface will create a new swap chain with the proper parameters.
      presentParameters.AutoDepthStencilFormat = D3DFMT_UNKNOWN;
      presentParameters.BackBufferCount = 1;
      presentParameters.BackBufferFormat = D3DFMT_UNKNOWN;
      presentParameters.BackBufferWidth = 1;
      presentParameters.BackBufferHeight = 1;
      presentParameters.EnableAutoDepthStencil = FALSE;
      presentParameters.Flags = 0;
      presentParameters.hDeviceWindow = mDeviceWindow;
      presentParameters.MultiSampleQuality = 0;
      presentParameters.MultiSampleType = D3DMULTISAMPLE_NONE;
      presentParameters.PresentationInterval = convertInterval(mMinSwapInterval);
      presentParameters.SwapEffect = D3DSWAPEFFECT_DISCARD;
      presentParameters.Windowed = TRUE;
  
      DWORD behaviorFlags = D3DCREATE_FPU_PRESERVE | D3DCREATE_NOWINDOWCHANGES;
  
      HRESULT result = mD3d9->CreateDevice(mAdapter, mDeviceType, mDeviceWindow, behaviorFlags | D3DCREATE_HARDWARE_VERTEXPROCESSING | D3DCREATE_PUREDEVICE, &presentParameters, &mDevice);
  
      if (result == D3DERR_OUTOFVIDEOMEMORY || result == E_OUTOFMEMORY)
      {
          return error(EGL_BAD_ALLOC, false);
      }
  
      if (FAILED(result))
      {
          result = mD3d9->CreateDevice(mAdapter, mDeviceType, mDeviceWindow, behaviorFlags | D3DCREATE_SOFTWARE_VERTEXPROCESSING, &presentParameters, &mDevice);
  
          if (result == D3DERR_OUTOFVIDEOMEMORY || result == E_OUTOFMEMORY)
          {
              return error(EGL_BAD_ALLOC, false);
          }
      }
  
      ASSERT(SUCCEEDED(result));
  
      // Permanent non-default states
      mDevice->SetRenderState(D3DRS_POINTSPRITEENABLE, TRUE);
  
      mSceneStarted = false;
  
      return true;
  }
  
  Surface *Display::createWindowSurface(HWND window, EGLConfig config)
  {
      const Config *configuration = mConfigSet.get(config);
  
      Surface *surface = new Surface(this, configuration, window);
      mSurfaceSet.insert(surface);
  
      return surface;
  }
  
  EGLContext Display::createContext(EGLConfig configHandle, const gl::Context *shareContext)
  {
      const egl::Config *config = mConfigSet.get(configHandle);
  
      gl::Context *context = glCreateContext(config, shareContext);
      mContextSet.insert(context);
  
      return context;
  }
  
  void Display::destroySurface(egl::Surface *surface)
  {
      delete surface;
      mSurfaceSet.erase(surface);
  }
  
  void Display::destroyContext(gl::Context *context)
  {
      glDestroyContext(context);
      mContextSet.erase(context);
  }
  
  bool Display::isInitialized()
  {
      return mD3d9 != NULL && mConfigSet.size() > 0;
  }
  
  bool Display::isValidConfig(EGLConfig config)
  {
      return mConfigSet.get(config) != NULL;
  }
  
  bool Display::isValidContext(gl::Context *context)
  {
      return mContextSet.find(context) != mContextSet.end();
  }
  
  bool Display::isValidSurface(egl::Surface *surface)
  {
      return mSurfaceSet.find(surface) != mSurfaceSet.end();
  }
  
  bool Display::hasExistingWindowSurface(HWND window)
  {
      for (SurfaceSet::iterator surface = mSurfaceSet.begin(); surface != mSurfaceSet.end(); surface++)
      {
          if ((*surface)->getWindowHandle() == window)
          {
              return true;
          }
      }
  
      return false;
  }
  
  void Display::setSwapInterval(GLint interval)
  {
      mSwapInterval = interval;
      mSwapInterval = std::max(mSwapInterval, mMinSwapInterval);
      mSwapInterval = std::min(mSwapInterval, mMaxSwapInterval);
  
      mPresentInterval = convertInterval(mSwapInterval);
  }
  
  DWORD Display::getPresentInterval()
  {
      return mPresentInterval;
  }
  
  DWORD Display::convertInterval(GLint interval)
  {
      switch(interval)
      {
        case 0: return D3DPRESENT_INTERVAL_IMMEDIATE;
        case 1: return D3DPRESENT_INTERVAL_ONE;
        case 2: return D3DPRESENT_INTERVAL_TWO;
        case 3: return D3DPRESENT_INTERVAL_THREE;
        case 4: return D3DPRESENT_INTERVAL_FOUR;
        default: UNREACHABLE();
      }
  
      return D3DPRESENT_INTERVAL_DEFAULT;
  }
  
  IDirect3DDevice9 *Display::getDevice()
  {
      return mDevice;
  }
  
  D3DCAPS9 Display::getDeviceCaps()
  {
      return mDeviceCaps;
  }
  }
  

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