kc3-lang/angle/src/libANGLE/renderer/metal/DisplayMtl.mm

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• Hash : d1860ea1
  Author :
  Date : 2019-11-19T23:04:00
  

  Metal: support OES_depth_texture
  
  Also added Depth32 & Depth16 texture data upload tests.
  
  Bug: angleproject:2634
  Change-Id: I103f1cda1dc915f0dc8b04f7aaa2d8c0f9220cda
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/1919281
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/renderer/metal/DisplayMtl.mm

• //
  // Copyright (c) 2019 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.
  //
  
  // DisplayMtl.mm: Metal implementation of DisplayImpl
  
  #include "libANGLE/renderer/metal/DisplayMtl.h"
  
  #include "libANGLE/Context.h"
  #include "libANGLE/Display.h"
  #include "libANGLE/Surface.h"
  #include "libANGLE/renderer/glslang_wrapper_utils.h"
  #include "libANGLE/renderer/metal/ContextMtl.h"
  #include "libANGLE/renderer/metal/SurfaceMtl.h"
  #include "libANGLE/renderer/metal/mtl_common.h"
  #include "platform/Platform.h"
  
  #include "EGL/eglext.h"
  
  namespace rx
  {
  
  bool IsMetalDisplayAvailable()
  {
      // We only support macos 10.13+ and 11 for now. Since they are requirements for Metal 2.0.
      if (ANGLE_APPLE_AVAILABLE_XCI(10.13, 13.0, 11))
      {
          return true;
      }
      return false;
  }
  
  DisplayImpl *CreateMetalDisplay(const egl::DisplayState &state)
  {
      return new DisplayMtl(state);
  }
  
  DisplayMtl::DisplayMtl(const egl::DisplayState &state) : DisplayImpl(state), mUtils(this) {}
  
  DisplayMtl::~DisplayMtl() {}
  
  egl::Error DisplayMtl::initialize(egl::Display *display)
  {
      ASSERT(IsMetalDisplayAvailable());
  
      angle::Result result = initializeImpl(display);
      if (result != angle::Result::Continue)
      {
          return egl::EglNotInitialized();
      }
      return egl::NoError();
  }
  
  angle::Result DisplayMtl::initializeImpl(egl::Display *display)
  {
      ANGLE_MTL_OBJC_SCOPE
      {
          mMetalDevice = [MTLCreateSystemDefaultDevice() ANGLE_MTL_AUTORELEASE];
          if (!mMetalDevice)
          {
              return angle::Result::Stop;
          }
  
          mCmdQueue.set([[mMetalDevice.get() newCommandQueue] ANGLE_MTL_AUTORELEASE]);
  
          mCapsInitialized = false;
  
          GlslangInitialize();
  
          if (!mState.featuresAllDisabled)
          {
              initializeFeatures();
          }
  
          ANGLE_TRY(mFormatTable.initialize(this));
  
          return mUtils.initialize();
      }
  }
  
  void DisplayMtl::terminate()
  {
      for (mtl::TextureRef &nullTex : mNullTextures)
      {
          nullTex.reset();
      }
      mUtils.onDestroy();
      mCmdQueue.reset();
      mMetalDevice     = nil;
      mCapsInitialized = false;
  
      GlslangRelease();
  }
  
  bool DisplayMtl::testDeviceLost()
  {
      return false;
  }
  
  egl::Error DisplayMtl::restoreLostDevice(const egl::Display *display)
  {
      return egl::NoError();
  }
  
  std::string DisplayMtl::getVendorString() const
  {
      ANGLE_MTL_OBJC_SCOPE
      {
          std::string vendorString = "Google Inc.";
          if (mMetalDevice)
          {
              vendorString += " Metal Renderer: ";
              vendorString += mMetalDevice.get().name.UTF8String;
          }
  
          return vendorString;
      }
  }
  
  DeviceImpl *DisplayMtl::createDevice()
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  egl::Error DisplayMtl::waitClient(const gl::Context *context)
  {
      auto contextMtl      = GetImplAs<ContextMtl>(context);
      angle::Result result = contextMtl->finishCommandBuffer();
  
      if (result != angle::Result::Continue)
      {
          return egl::EglBadAccess();
      }
      return egl::NoError();
  }
  
  egl::Error DisplayMtl::waitNative(const gl::Context *context, EGLint engine)
  {
      UNIMPLEMENTED();
      return egl::EglBadAccess();
  }
  
  SurfaceImpl *DisplayMtl::createWindowSurface(const egl::SurfaceState &state,
                                               EGLNativeWindowType window,
                                               const egl::AttributeMap &attribs)
  {
      return new SurfaceMtl(this, state, window, attribs);
  }
  
  SurfaceImpl *DisplayMtl::createPbufferSurface(const egl::SurfaceState &state,
                                                const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return static_cast<SurfaceImpl *>(0);
  }
  
  SurfaceImpl *DisplayMtl::createPbufferFromClientBuffer(const egl::SurfaceState &state,
                                                         EGLenum buftype,
                                                         EGLClientBuffer clientBuffer,
                                                         const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return static_cast<SurfaceImpl *>(0);
  }
  
  SurfaceImpl *DisplayMtl::createPixmapSurface(const egl::SurfaceState &state,
                                               NativePixmapType nativePixmap,
                                               const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return static_cast<SurfaceImpl *>(0);
  }
  
  ImageImpl *DisplayMtl::createImage(const egl::ImageState &state,
                                     const gl::Context *context,
                                     EGLenum target,
                                     const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  rx::ContextImpl *DisplayMtl::createContext(const gl::State &state,
                                             gl::ErrorSet *errorSet,
                                             const egl::Config *configuration,
                                             const gl::Context *shareContext,
                                             const egl::AttributeMap &attribs)
  {
      return new ContextMtl(state, errorSet, this);
  }
  
  StreamProducerImpl *DisplayMtl::createStreamProducerD3DTexture(
      egl::Stream::ConsumerType consumerType,
      const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  gl::Version DisplayMtl::getMaxSupportedESVersion() const
  {
      return mtl::kMaxSupportedGLVersion;
  }
  
  gl::Version DisplayMtl::getMaxConformantESVersion() const
  {
      return std::min(getMaxSupportedESVersion(), gl::Version(2, 0));
  }
  
  EGLSyncImpl *DisplayMtl::createSync(const egl::AttributeMap &attribs)
  {
      UNIMPLEMENTED();
      return nullptr;
  }
  
  egl::Error DisplayMtl::makeCurrent(egl::Surface *drawSurface,
                                     egl::Surface *readSurface,
                                     gl::Context *context)
  {
      if (!context)
      {
          return egl::NoError();
      }
  
      return egl::NoError();
  }
  
  void DisplayMtl::generateExtensions(egl::DisplayExtensions *outExtensions) const
  {
      outExtensions->flexibleSurfaceCompatibility = true;
  }
  
  void DisplayMtl::generateCaps(egl::Caps *outCaps) const {}
  
  void DisplayMtl::populateFeatureList(angle::FeatureList *features) {}
  
  egl::ConfigSet DisplayMtl::generateConfigs()
  {
      // NOTE(hqle): generate more config permutations
      egl::ConfigSet configs;
  
      const gl::Version &maxVersion = getMaxSupportedESVersion();
      ASSERT(maxVersion >= gl::Version(2, 0));
      bool supportsES3 = maxVersion >= gl::Version(3, 0);
  
      egl::Config config;
  
      // Native stuff
      config.nativeVisualID   = 0;
      config.nativeVisualType = 0;
      config.nativeRenderable = EGL_TRUE;
  
      config.colorBufferType = EGL_RGB_BUFFER;
      config.luminanceSize   = 0;
      config.alphaMaskSize   = 0;
  
      config.transparentType = EGL_NONE;
  
      // Pbuffer
      config.maxPBufferWidth  = 4096;
      config.maxPBufferHeight = 4096;
      config.maxPBufferPixels = 4096 * 4096;
  
      // Caveat
      config.configCaveat = EGL_NONE;
  
      // Misc
      config.sampleBuffers     = 0;
      config.samples           = 0;
      config.level             = 0;
      config.bindToTextureRGB  = EGL_FALSE;
      config.bindToTextureRGBA = EGL_FALSE;
  
      config.surfaceType = EGL_WINDOW_BIT;
  
      config.minSwapInterval = 1;
      config.maxSwapInterval = 1;
  
      config.renderTargetFormat = GL_RGBA8;
      config.depthStencilFormat = GL_DEPTH24_STENCIL8;
  
      config.conformant     = EGL_OPENGL_ES2_BIT | (supportsES3 ? EGL_OPENGL_ES3_BIT_KHR : 0);
      config.renderableType = config.conformant;
  
      config.matchNativePixmap = EGL_NONE;
  
      config.colorComponentType = EGL_COLOR_COMPONENT_TYPE_FIXED_EXT;
  
      // Buffer sizes
      config.redSize    = 8;
      config.greenSize  = 8;
      config.blueSize   = 8;
      config.alphaSize  = 8;
      config.bufferSize = config.redSize + config.greenSize + config.blueSize + config.alphaSize;
  
      // With DS
      config.depthSize   = 24;
      config.stencilSize = 8;
      configs.add(config);
  
      // With D
      config.depthSize   = 24;
      config.stencilSize = 0;
      configs.add(config);
  
      // With S
      config.depthSize   = 0;
      config.stencilSize = 8;
      configs.add(config);
  
      // No DS
      config.depthSize   = 0;
      config.stencilSize = 0;
      configs.add(config);
  
      return configs;
  }
  
  bool DisplayMtl::isValidNativeWindow(EGLNativeWindowType window) const
  {
      NSObject *layer = (__bridge NSObject *)(window);
      return [layer isKindOfClass:[CALayer class]];
  }
  
  std::string DisplayMtl::getRendererDescription() const
  {
      ANGLE_MTL_OBJC_SCOPE
      {
          std::string desc = "Metal Renderer";
  
          if (mMetalDevice)
          {
              desc += ": ";
              desc += mMetalDevice.get().name.UTF8String;
          }
  
          return desc;
      }
  }
  
  gl::Caps DisplayMtl::getNativeCaps() const
  {
      ensureCapsInitialized();
      return mNativeCaps;
  }
  const gl::TextureCapsMap &DisplayMtl::getNativeTextureCaps() const
  {
      ensureCapsInitialized();
      return mNativeTextureCaps;
  }
  const gl::Extensions &DisplayMtl::getNativeExtensions() const
  {
      ensureCapsInitialized();
      return mNativeExtensions;
  }
  
  const mtl::TextureRef &DisplayMtl::getNullTexture(const gl::Context *context, gl::TextureType type)
  {
      // TODO(hqle): Use rx::IncompleteTextureSet.
      ContextMtl *contextMtl = mtl::GetImpl(context);
      if (!mNullTextures[type])
      {
          // initialize content with zeros
          MTLRegion region           = MTLRegionMake2D(0, 0, 1, 1);
          const uint8_t zeroPixel[4] = {0, 0, 0, 255};
  
          const auto &rgbaFormat = getPixelFormat(angle::FormatID::R8G8B8A8_UNORM);
  
          switch (type)
          {
              case gl::TextureType::_2D:
                  (void)(mtl::Texture::Make2DTexture(contextMtl, rgbaFormat, 1, 1, 1, false, false,
                                                     &mNullTextures[type]));
                  mNullTextures[type]->replaceRegion(contextMtl, region, 0, 0, zeroPixel,
                                                     sizeof(zeroPixel));
                  break;
              case gl::TextureType::CubeMap:
                  (void)(mtl::Texture::MakeCubeTexture(contextMtl, rgbaFormat, 1, 1, false, false,
                                                       &mNullTextures[type]));
                  for (int f = 0; f < 6; ++f)
                  {
                      mNullTextures[type]->replaceRegion(contextMtl, region, 0, f, zeroPixel,
                                                         sizeof(zeroPixel));
                  }
                  break;
              default:
                  UNREACHABLE();
                  // NOTE(hqle): Support more texture types.
          }
          ASSERT(mNullTextures[type]);
      }
  
      return mNullTextures[type];
  }
  
  void DisplayMtl::ensureCapsInitialized() const
  {
      if (mCapsInitialized)
      {
          return;
      }
  
      mCapsInitialized = true;
  
      // Reset
      mNativeCaps = gl::Caps();
  
      // Fill extension and texture caps
      initializeExtensions();
      initializeTextureCaps();
  
      // https://developer.apple.com/metal/Metal-Feature-Set-Tables.pdf
      mNativeCaps.maxElementIndex  = std::numeric_limits<GLuint>::max() - 1;
      mNativeCaps.max3DTextureSize = 2048;
  #if TARGET_OS_OSX || TARGET_OS_MACCATALYST
      mNativeCaps.max2DTextureSize          = 16384;
      mNativeCaps.maxVaryingVectors         = 31;
      mNativeCaps.maxVertexOutputComponents = 124;
  #else
      if ([getMetalDevice() supportsFeatureSet:MTLFeatureSet_iOS_GPUFamily3_v1])
      {
          mNativeCaps.max2DTextureSize          = 16384;
          mNativeCaps.maxVertexOutputComponents = 124;
          mNativeCaps.maxVaryingVectors         = mNativeCaps.maxVertexOutputComponents / 4;
      }
      else
      {
          mNativeCaps.max2DTextureSize          = 8192;
          mNativeCaps.maxVertexOutputComponents = 60;
          mNativeCaps.maxVaryingVectors         = mNativeCaps.maxVertexOutputComponents / 4;
      }
  #endif
  
      mNativeCaps.maxArrayTextureLayers = 2048;
      mNativeCaps.maxLODBias            = 0;
      mNativeCaps.maxCubeMapTextureSize = mNativeCaps.max2DTextureSize;
      mNativeCaps.maxRenderbufferSize   = mNativeCaps.max2DTextureSize;
      mNativeCaps.minAliasedPointSize   = 1;
      mNativeCaps.maxAliasedPointSize   = 511;
  
      mNativeCaps.minAliasedLineWidth = 1.0f;
      mNativeCaps.maxAliasedLineWidth = 1.0f;
  
      mNativeCaps.maxDrawBuffers       = mtl::kMaxRenderTargets;
      mNativeCaps.maxFramebufferWidth  = mNativeCaps.max2DTextureSize;
      mNativeCaps.maxFramebufferHeight = mNativeCaps.max2DTextureSize;
      mNativeCaps.maxColorAttachments  = mtl::kMaxRenderTargets;
      mNativeCaps.maxViewportWidth     = mNativeCaps.max2DTextureSize;
      mNativeCaps.maxViewportHeight    = mNativeCaps.max2DTextureSize;
  
      // NOTE(hqle): MSAA
      mNativeCaps.maxSampleMaskWords     = 0;
      mNativeCaps.maxColorTextureSamples = 1;
      mNativeCaps.maxDepthTextureSamples = 1;
      mNativeCaps.maxIntegerSamples      = 1;
  
      mNativeCaps.maxVertexAttributes           = mtl::kMaxVertexAttribs;
      mNativeCaps.maxVertexAttribBindings       = mtl::kMaxVertexAttribs;
      mNativeCaps.maxVertexAttribRelativeOffset = std::numeric_limits<GLint>::max();
      mNativeCaps.maxVertexAttribStride         = std::numeric_limits<GLint>::max();
  
      mNativeCaps.maxElementsIndices  = std::numeric_limits<GLuint>::max();
      mNativeCaps.maxElementsVertices = std::numeric_limits<GLuint>::max();
  
      // Looks like all floats are IEEE according to the docs here:
      mNativeCaps.vertexHighpFloat.setIEEEFloat();
      mNativeCaps.vertexMediumpFloat.setIEEEFloat();
      mNativeCaps.vertexLowpFloat.setIEEEFloat();
      mNativeCaps.fragmentHighpFloat.setIEEEFloat();
      mNativeCaps.fragmentMediumpFloat.setIEEEFloat();
      mNativeCaps.fragmentLowpFloat.setIEEEFloat();
  
      mNativeCaps.vertexHighpInt.setTwosComplementInt(32);
      mNativeCaps.vertexMediumpInt.setTwosComplementInt(32);
      mNativeCaps.vertexLowpInt.setTwosComplementInt(32);
      mNativeCaps.fragmentHighpInt.setTwosComplementInt(32);
      mNativeCaps.fragmentMediumpInt.setTwosComplementInt(32);
      mNativeCaps.fragmentLowpInt.setTwosComplementInt(32);
  
      GLuint maxUniformVectors = mtl::kDefaultUniformsMaxSize / (sizeof(GLfloat) * 4);
  
      const GLuint maxUniformComponents = maxUniformVectors * 4;
  
      // Uniforms are implemented using a uniform buffer, so the max number of uniforms we can
      // support is the max buffer range divided by the size of a single uniform (4X float).
      mNativeCaps.maxVertexUniformVectors                              = maxUniformVectors;
      mNativeCaps.maxShaderUniformComponents[gl::ShaderType::Vertex]   = maxUniformComponents;
      mNativeCaps.maxFragmentUniformVectors                            = maxUniformVectors;
      mNativeCaps.maxShaderUniformComponents[gl::ShaderType::Fragment] = maxUniformComponents;
  
      // NOTE(hqle): support UBO (ES 3.0 feature)
      mNativeCaps.maxShaderUniformBlocks[gl::ShaderType::Vertex]   = 0;
      mNativeCaps.maxShaderUniformBlocks[gl::ShaderType::Fragment] = 0;
      mNativeCaps.maxCombinedUniformBlocks                         = 0;
  
      // Note that we currently implement textures as combined image+samplers, so the limit is
      // the minimum of supported samplers and sampled images.
      mNativeCaps.maxCombinedTextureImageUnits                         = mtl::kMaxShaderSamplers;
      mNativeCaps.maxShaderTextureImageUnits[gl::ShaderType::Fragment] = mtl::kMaxShaderSamplers;
      mNativeCaps.maxShaderTextureImageUnits[gl::ShaderType::Vertex]   = mtl::kMaxShaderSamplers;
  
      // NOTE(hqle): support storage buffer.
      const uint32_t maxPerStageStorageBuffers                     = 0;
      mNativeCaps.maxShaderStorageBlocks[gl::ShaderType::Vertex]   = maxPerStageStorageBuffers;
      mNativeCaps.maxShaderStorageBlocks[gl::ShaderType::Fragment] = maxPerStageStorageBuffers;
      mNativeCaps.maxCombinedShaderStorageBlocks                   = maxPerStageStorageBuffers;
  
      // Fill in additional limits for UBOs and SSBOs.
      mNativeCaps.maxUniformBufferBindings     = 0;
      mNativeCaps.maxUniformBlockSize          = 0;
      mNativeCaps.uniformBufferOffsetAlignment = 0;
  
      mNativeCaps.maxShaderStorageBufferBindings     = 0;
      mNativeCaps.maxShaderStorageBlockSize          = 0;
      mNativeCaps.shaderStorageBufferOffsetAlignment = 0;
  
      // NOTE(hqle): support UBO
      for (gl::ShaderType shaderType : gl::kAllGraphicsShaderTypes)
      {
          mNativeCaps.maxCombinedShaderUniformComponents[shaderType] = maxUniformComponents;
      }
  
      mNativeCaps.maxCombinedShaderOutputResources = 0;
  
      mNativeCaps.maxTransformFeedbackInterleavedComponents =
          gl::IMPLEMENTATION_MAX_TRANSFORM_FEEDBACK_INTERLEAVED_COMPONENTS;
      mNativeCaps.maxTransformFeedbackSeparateAttributes =
          gl::IMPLEMENTATION_MAX_TRANSFORM_FEEDBACK_SEPARATE_ATTRIBS;
      mNativeCaps.maxTransformFeedbackSeparateComponents =
          gl::IMPLEMENTATION_MAX_TRANSFORM_FEEDBACK_SEPARATE_COMPONENTS;
  
      // NOTE(hqle): support MSAA.
      mNativeCaps.maxSamples = 1;
  }
  
  void DisplayMtl::initializeExtensions() const
  {
      // Reset
      mNativeExtensions = gl::Extensions();
  
      // Enable this for simple buffer readback testing, but some functionality is missing.
      // NOTE(hqle): Support full mapBufferRange extension.
      mNativeExtensions.mapBuffer              = true;
      mNativeExtensions.mapBufferRange         = false;
      mNativeExtensions.textureStorage         = true;
      mNativeExtensions.drawBuffers            = false;
      mNativeExtensions.fragDepth              = true;
      mNativeExtensions.framebufferBlit        = false;
      mNativeExtensions.framebufferMultisample = false;
      mNativeExtensions.copyTexture            = false;
      mNativeExtensions.copyCompressedTexture  = false;
      mNativeExtensions.debugMarker            = false;
      mNativeExtensions.robustness             = true;
      mNativeExtensions.textureBorderClamp     = false;  // not implemented yet
      mNativeExtensions.translatedShaderSource = true;
      mNativeExtensions.discardFramebuffer     = true;
  
      // Enable EXT_blend_minmax
      mNativeExtensions.blendMinMax = true;
  
      mNativeExtensions.eglImage         = false;
      mNativeExtensions.eglImageExternal = false;
      // NOTE(hqle): Support GL_OES_EGL_image_external_essl3.
      mNativeExtensions.eglImageExternalEssl3 = false;
  
      mNativeExtensions.memoryObject   = false;
      mNativeExtensions.memoryObjectFd = false;
  
      mNativeExtensions.semaphore   = false;
      mNativeExtensions.semaphoreFd = false;
  
      mNativeExtensions.instancedArraysANGLE = mFeatures.hasBaseVertexInstancedDraw.enabled;
      mNativeExtensions.instancedArraysEXT   = mNativeExtensions.instancedArraysANGLE;
  
      mNativeExtensions.robustBufferAccessBehavior = false;
  
      mNativeExtensions.eglSync = false;
  
      // NOTE(hqle): support occlusion query
      mNativeExtensions.occlusionQueryBoolean = false;
  
      mNativeExtensions.disjointTimerQuery          = false;
      mNativeExtensions.queryCounterBitsTimeElapsed = false;
      mNativeExtensions.queryCounterBitsTimestamp   = false;
  
      mNativeExtensions.textureFilterAnisotropic = true;
      mNativeExtensions.maxTextureAnisotropy     = 16;
  
      // NOTE(hqle): Support true NPOT textures.
      mNativeExtensions.textureNPOT = false;
  
      mNativeExtensions.texture3DOES = false;
  
      mNativeExtensions.standardDerivatives = true;
  
      mNativeExtensions.elementIndexUint = true;
  }
  
  void DisplayMtl::initializeTextureCaps() const
  {
      mNativeTextureCaps.clear();
  
      mFormatTable.generateTextureCaps(this, &mNativeTextureCaps,
                                       &mNativeCaps.compressedTextureFormats);
  
      // Re-verify texture extensions.
      mNativeExtensions.setTextureExtensionSupport(mNativeTextureCaps);
  }
  
  void DisplayMtl::initializeFeatures()
  {
      // default values:
      mFeatures.hasBaseVertexInstancedDraw.enabled        = true;
      mFeatures.hasDepthTextureFiltering.enabled          = false;
      mFeatures.hasNonUniformDispatch.enabled             = true;
      mFeatures.hasTextureSwizzle.enabled                 = false;
      mFeatures.allowSeparatedDepthStencilBuffers.enabled = false;
  
  
  #if TARGET_OS_OSX || TARGET_OS_MACCATALYST
      mFeatures.hasDepthTextureFiltering.enabled = true;
  
      // Texture swizzle is only supported if macos sdk 10.15 is present
  #    if defined(__MAC_10_15)
      if (ANGLE_APPLE_AVAILABLE_XC(10.15, 13.0))
      {
          // The runtime OS must be MacOS 10.15+ or Mac Catalyst for this to be supported:
          ANGLE_FEATURE_CONDITION((&mFeatures), hasTextureSwizzle,
                                  [getMetalDevice() supportsFamily:MTLGPUFamilyMac2]);
      }
  #    endif
  #elif TARGET_OS_IOS
      // Base Vertex drawing is only supported since GPU family 3.
      ANGLE_FEATURE_CONDITION((&mFeatures), hasBaseVertexInstancedDraw,
                              [getMetalDevice() supportsFeatureSet:MTLFeatureSet_iOS_GPUFamily3_v1]);
  
      ANGLE_FEATURE_CONDITION((&mFeatures), hasNonUniformDispatch,
                              [getMetalDevice() supportsFeatureSet:MTLFeatureSet_iOS_GPUFamily4_v1]);
  
  #    if !TARGET_OS_SIMULATOR
      mFeatures.allowSeparatedDepthStencilBuffers.enabled = true;
  #    endif
  #endif
  
      angle::PlatformMethods *platform = ANGLEPlatformCurrent();
      platform->overrideFeaturesMtl(platform, &mFeatures);
  }
  
  }  // namespace rx
  

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