/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "WebGLTexture.h" #include "GLContext.h" #include "mozilla/dom/WebGLRenderingContextBinding.h" #include "mozilla/Scoped.h" #include "ScopedGLHelpers.h" #include "WebGLContext.h" #include "WebGLContextUtils.h" #include "WebGLTexelConversions.h" #include #include "mozilla/MathAlgorithms.h" using namespace mozilla; JSObject* WebGLTexture::WrapObject(JSContext* cx) { return dom::WebGLTextureBinding::Wrap(cx, this); } WebGLTexture::WebGLTexture(WebGLContext* context, GLuint tex) : WebGLBindableName(tex) , WebGLContextBoundObject(context) , mMinFilter(LOCAL_GL_NEAREST_MIPMAP_LINEAR) , mMagFilter(LOCAL_GL_LINEAR) , mWrapS(LOCAL_GL_REPEAT) , mWrapT(LOCAL_GL_REPEAT) , mFacesCount(0) , mMaxLevelWithCustomImages(0) , mHaveGeneratedMipmap(false) , mImmutable(false) , mBaseMipmapLevel(0) , mMaxMipmapLevel(1000) , mFakeBlackStatus(WebGLTextureFakeBlackStatus::IncompleteTexture) { mContext->mTextures.insertBack(this); } void WebGLTexture::Delete() { mImageInfos.Clear(); mContext->MakeContextCurrent(); mContext->gl->fDeleteTextures(1, &mGLName); LinkedListElement::removeFrom(mContext->mTextures); } size_t WebGLTexture::ImageInfo::MemoryUsage() const { if (mImageDataStatus == WebGLImageDataStatus::NoImageData) return 0; size_t bitsPerTexel = GetBitsPerTexel(mEffectiveInternalFormat); return size_t(mWidth) * size_t(mHeight) * size_t(mDepth) * bitsPerTexel / 8; } size_t WebGLTexture::MemoryUsage() const { if (IsDeleted()) return 0; size_t result = 0; for(size_t face = 0; face < mFacesCount; face++) { for(size_t level = 0; level <= mMaxLevelWithCustomImages; level++) result += ImageInfoAtFace(face, level).MemoryUsage(); } return result; } static inline size_t MipmapLevelsForSize(const WebGLTexture::ImageInfo &info) { GLsizei size = std::max(std::max(info.Width(), info.Height()), info.Depth()); // Find floor(log2(size)). (ES 3.0.4, 3.8 - Mipmapping). return mozilla::FloorLog2(size); } bool WebGLTexture::DoesMipmapHaveAllLevelsConsistentlyDefined(TexImageTarget texImageTarget) const { // We could not have generated a mipmap if the base image wasn't defined. if (mHaveGeneratedMipmap) return true; if (!IsMipmapRangeValid()) return false; // We want a copy here so we can modify it temporarily. ImageInfo expected = ImageInfoAt(texImageTarget, EffectiveBaseMipmapLevel()); if (!expected.IsPositive()) return false; // If Level{max} is > mMaxLevelWithCustomImages, then check if we are // missing any image levels. if (mMaxMipmapLevel > mMaxLevelWithCustomImages) { if (MipmapLevelsForSize(expected) > mMaxLevelWithCustomImages) return false; } // Checks if custom images are all defined up to the highest level and // have the expected dimensions. for (size_t level = EffectiveBaseMipmapLevel(); level <= EffectiveMaxMipmapLevel(); ++level) { const ImageInfo& actual = ImageInfoAt(texImageTarget, level); if (actual != expected) return false; expected.mWidth = std::max(1, expected.mWidth / 2); expected.mHeight = std::max(1, expected.mHeight / 2); expected.mDepth = std::max(1, expected.mDepth / 2); // if the current level has size 1x1, we can stop here: the spec doesn't seem to forbid the existence // of extra useless levels. if (actual.mWidth == 1 && actual.mHeight == 1 && actual.mDepth == 1) { return true; } } return true; } void WebGLTexture::Bind(TexTarget aTexTarget) { // this function should only be called by bindTexture(). // it assumes that the GL context is already current. bool firstTimeThisTextureIsBound = !HasEverBeenBound(); if (firstTimeThisTextureIsBound) { BindTo(aTexTarget); } else if (aTexTarget != Target()) { mContext->ErrorInvalidOperation("bindTexture: this texture has already been bound to a different target"); // very important to return here before modifying texture state! This was the place when I lost a whole day figuring // very strange 'invalid write' crashes. return; } GLuint name = GLName(); mContext->gl->fBindTexture(aTexTarget.get(), name); if (firstTimeThisTextureIsBound) { mFacesCount = (aTexTarget == LOCAL_GL_TEXTURE_CUBE_MAP) ? 6 : 1; EnsureMaxLevelWithCustomImagesAtLeast(0); SetFakeBlackStatus(WebGLTextureFakeBlackStatus::Unknown); // thanks to the WebKit people for finding this out: GL_TEXTURE_WRAP_R is not // present in GLES 2, but is present in GL and it seems as if for cube maps // we need to set it to GL_CLAMP_TO_EDGE to get the expected GLES behavior. if (mTarget == LOCAL_GL_TEXTURE_CUBE_MAP && !mContext->gl->IsGLES()) mContext->gl->fTexParameteri(aTexTarget.get(), LOCAL_GL_TEXTURE_WRAP_R, LOCAL_GL_CLAMP_TO_EDGE); } } void WebGLTexture::SetImageInfo(TexImageTarget aTexImageTarget, GLint aLevel, GLsizei aWidth, GLsizei aHeight, GLsizei aDepth, TexInternalFormat aEffectiveInternalFormat, WebGLImageDataStatus aStatus) { MOZ_ASSERT(aDepth == 1 || aTexImageTarget == LOCAL_GL_TEXTURE_3D); MOZ_ASSERT(TexImageTargetToTexTarget(aTexImageTarget) == mTarget); EnsureMaxLevelWithCustomImagesAtLeast(aLevel); ImageInfoAt(aTexImageTarget, aLevel) = ImageInfo(aWidth, aHeight, aDepth, aEffectiveInternalFormat, aStatus); if (aLevel > 0) SetCustomMipmap(); // Invalidate framebuffer status cache NotifyFBsStatusChanged(); SetFakeBlackStatus(WebGLTextureFakeBlackStatus::Unknown); } void WebGLTexture::SetGeneratedMipmap() { if (!mHaveGeneratedMipmap) { mHaveGeneratedMipmap = true; SetFakeBlackStatus(WebGLTextureFakeBlackStatus::Unknown); } } void WebGLTexture::SetCustomMipmap() { if (mHaveGeneratedMipmap) { if (!IsMipmapRangeValid()) return; // If we were in GeneratedMipmap mode and are now switching to CustomMipmap mode, // we now need to compute all the mipmap image info. ImageInfo imageInfo = ImageInfoAtFace(0, EffectiveBaseMipmapLevel()); NS_ASSERTION(mContext->IsWebGL2() || imageInfo.IsPowerOfTwo(), "this texture is NPOT, so how could GenerateMipmap() ever accept it?"); size_t maxLevel = MipmapLevelsForSize(imageInfo); EnsureMaxLevelWithCustomImagesAtLeast(EffectiveBaseMipmapLevel() + maxLevel); for (size_t level = EffectiveBaseMipmapLevel() + 1; level <= EffectiveMaxMipmapLevel(); ++level) { imageInfo.mWidth = std::max(imageInfo.mWidth / 2, 1); imageInfo.mHeight = std::max(imageInfo.mHeight / 2, 1); imageInfo.mDepth = std::max(imageInfo.mDepth / 2, 1); for(size_t face = 0; face < mFacesCount; ++face) ImageInfoAtFace(face, level) = imageInfo; } } mHaveGeneratedMipmap = false; } bool WebGLTexture::AreAllLevel0ImageInfosEqual() const { for (size_t face = 1; face < mFacesCount; ++face) { if (ImageInfoAtFace(face, 0) != ImageInfoAtFace(0, 0)) return false; } return true; } bool WebGLTexture::IsMipmapComplete() const { MOZ_ASSERT(mTarget == LOCAL_GL_TEXTURE_2D || mTarget == LOCAL_GL_TEXTURE_3D); return DoesMipmapHaveAllLevelsConsistentlyDefined(LOCAL_GL_TEXTURE_2D); } bool WebGLTexture::IsCubeComplete() const { MOZ_ASSERT(mTarget == LOCAL_GL_TEXTURE_CUBE_MAP); const ImageInfo &first = ImageInfoAt(LOCAL_GL_TEXTURE_CUBE_MAP_POSITIVE_X, 0); if (!first.IsPositive() || !first.IsSquare()) return false; return AreAllLevel0ImageInfosEqual(); } bool WebGLTexture::IsMipmapCubeComplete() const { if (!IsCubeComplete()) // in particular, this checks that this is a cube map return false; for (int i = 0; i < 6; i++) { const TexImageTarget face = TexImageTargetForTargetAndFace(LOCAL_GL_TEXTURE_CUBE_MAP, i); if (!DoesMipmapHaveAllLevelsConsistentlyDefined(face)) return false; } return true; } bool WebGLTexture::IsMipmapRangeValid() const { // In ES3, if a texture is immutable, the mipmap levels are clamped. if (IsImmutable()) return true; if (mBaseMipmapLevel > std::min(mMaxLevelWithCustomImages, mMaxMipmapLevel)) return false; return true; } WebGLTextureFakeBlackStatus WebGLTexture::ResolvedFakeBlackStatus() { if (MOZ_LIKELY(mFakeBlackStatus != WebGLTextureFakeBlackStatus::Unknown)) { return mFakeBlackStatus; } // Determine if the texture needs to be faked as a black texture. // See 3.8.2 Shader Execution in the OpenGL ES 2.0.24 spec, and 3.8.13 in // the OpenGL ES 3.0.4 spec. if (!IsMipmapRangeValid()) { mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; return mFakeBlackStatus; } for (size_t face = 0; face < mFacesCount; ++face) { if (ImageInfoAtFace(face, EffectiveBaseMipmapLevel()).mImageDataStatus == WebGLImageDataStatus::NoImageData) { // In case of undefined texture image, we don't print any message because this is a very common // and often legitimate case (asynchronous texture loading). mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; return mFakeBlackStatus; } } const char *msg_rendering_as_black = "A texture is going to be rendered as if it were black, as per the OpenGL ES 2.0.24 spec section 3.8.2, " "because it"; if (mTarget == LOCAL_GL_TEXTURE_2D || mTarget == LOCAL_GL_TEXTURE_3D) { int dim = mTarget == LOCAL_GL_TEXTURE_2D ? 2 : 3; if (DoesMinFilterRequireMipmap()) { if (!IsMipmapComplete()) { mContext->GenerateWarning ("%s is a %dD texture, with a minification filter requiring a mipmap, " "and is not mipmap complete (as defined in section 3.7.10).", msg_rendering_as_black, dim); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (!mContext->IsWebGL2() && !ImageInfoBase().IsPowerOfTwo()) { mContext->GenerateWarning ("%s is a %dD texture, with a minification filter requiring a mipmap, " "and either its width or height is not a power of two.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } else // no mipmap required { if (!ImageInfoBase().IsPositive()) { mContext->GenerateWarning ("%s is a %dD texture and its width or height is equal to zero.", msg_rendering_as_black, dim); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (!AreBothWrapModesClampToEdge() && !mContext->IsWebGL2() && !ImageInfoBase().IsPowerOfTwo()) { mContext->GenerateWarning ("%s is a %dD texture, with a minification filter not requiring a mipmap, " "with its width or height not a power of two, and with a wrap mode " "different from CLAMP_TO_EDGE.", msg_rendering_as_black, dim); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } } else // cube map { bool legalImageSize = true; if (!mContext->IsWebGL2()) { for (size_t face = 0; face < mFacesCount; ++face) legalImageSize &= ImageInfoAtFace(face, 0).IsPowerOfTwo(); } if (DoesMinFilterRequireMipmap()) { if (!IsMipmapCubeComplete()) { mContext->GenerateWarning("%s is a cube map texture, with a minification filter requiring a mipmap, " "and is not mipmap cube complete (as defined in section 3.7.10).", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (!legalImageSize) { mContext->GenerateWarning("%s is a cube map texture, with a minification filter requiring a mipmap, " "and either the width or the height of some level 0 image is not a power of two.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } else // no mipmap required { if (!IsCubeComplete()) { mContext->GenerateWarning("%s is a cube map texture, with a minification filter not requiring a mipmap, " "and is not cube complete (as defined in section 3.7.10).", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (!AreBothWrapModesClampToEdge() && !legalImageSize) { mContext->GenerateWarning("%s is a cube map texture, with a minification filter not requiring a mipmap, " "with some level 0 image having width or height not a power of two, and with a wrap mode " "different from CLAMP_TO_EDGE.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } } TexType type = TypeFromInternalFormat(ImageInfoBase().mEffectiveInternalFormat); if (type == LOCAL_GL_FLOAT && !Context()->IsExtensionEnabled(WebGLExtensionID::OES_texture_float_linear)) { if (mMinFilter == LOCAL_GL_LINEAR || mMinFilter == LOCAL_GL_LINEAR_MIPMAP_LINEAR || mMinFilter == LOCAL_GL_LINEAR_MIPMAP_NEAREST || mMinFilter == LOCAL_GL_NEAREST_MIPMAP_LINEAR) { mContext->GenerateWarning("%s is a texture with a linear minification filter, " "which is not compatible with gl.FLOAT by default. " "Try enabling the OES_texture_float_linear extension if supported.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (mMagFilter == LOCAL_GL_LINEAR) { mContext->GenerateWarning("%s is a texture with a linear magnification filter, " "which is not compatible with gl.FLOAT by default. " "Try enabling the OES_texture_float_linear extension if supported.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } else if (type == LOCAL_GL_HALF_FLOAT && !Context()->IsExtensionEnabled(WebGLExtensionID::OES_texture_half_float_linear)) { if (mMinFilter == LOCAL_GL_LINEAR || mMinFilter == LOCAL_GL_LINEAR_MIPMAP_LINEAR || mMinFilter == LOCAL_GL_LINEAR_MIPMAP_NEAREST || mMinFilter == LOCAL_GL_NEAREST_MIPMAP_LINEAR) { mContext->GenerateWarning("%s is a texture with a linear minification filter, " "which is not compatible with gl.HALF_FLOAT by default. " "Try enabling the OES_texture_half_float_linear extension if supported.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } else if (mMagFilter == LOCAL_GL_LINEAR) { mContext->GenerateWarning("%s is a texture with a linear magnification filter, " "which is not compatible with gl.HALF_FLOAT by default. " "Try enabling the OES_texture_half_float_linear extension if supported.", msg_rendering_as_black); mFakeBlackStatus = WebGLTextureFakeBlackStatus::IncompleteTexture; } } // We have exhausted all cases of incomplete textures, where we would need opaque black. // We may still need transparent black in case of uninitialized image data. bool hasUninitializedImageData = false; for (size_t level = 0; level <= mMaxLevelWithCustomImages; ++level) { for (size_t face = 0; face < mFacesCount; ++face) { hasUninitializedImageData |= (ImageInfoAtFace(face, level).mImageDataStatus == WebGLImageDataStatus::UninitializedImageData); } } if (hasUninitializedImageData) { bool hasAnyInitializedImageData = false; for (size_t level = 0; level <= mMaxLevelWithCustomImages; ++level) { for (size_t face = 0; face < mFacesCount; ++face) { if (ImageInfoAtFace(face, level).mImageDataStatus == WebGLImageDataStatus::InitializedImageData) { hasAnyInitializedImageData = true; break; } } if (hasAnyInitializedImageData) { break; } } if (hasAnyInitializedImageData) { // The texture contains some initialized image data, and some uninitialized image data. // In this case, we have no choice but to initialize all image data now. Fortunately, // in this case we know that we can't be dealing with a depth texture per WEBGL_depth_texture // and ANGLE_depth_texture (which allow only one image per texture) so we can assume that // glTexImage2D is able to upload data to images. for (size_t level = 0; level <= mMaxLevelWithCustomImages; ++level) { for (size_t face = 0; face < mFacesCount; ++face) { TexImageTarget imageTarget = TexImageTargetForTargetAndFace(mTarget, face); const ImageInfo& imageInfo = ImageInfoAt(imageTarget, level); if (imageInfo.mImageDataStatus == WebGLImageDataStatus::UninitializedImageData) { EnsureNoUninitializedImageData(imageTarget, level); } } } mFakeBlackStatus = WebGLTextureFakeBlackStatus::NotNeeded; } else { // The texture only contains uninitialized image data. In this case, // we can use a black texture for it. mFakeBlackStatus = WebGLTextureFakeBlackStatus::UninitializedImageData; } } // we have exhausted all cases where we do need fakeblack, so if the status is still unknown, // that means that we do NOT need it. if (mFakeBlackStatus == WebGLTextureFakeBlackStatus::Unknown) { mFakeBlackStatus = WebGLTextureFakeBlackStatus::NotNeeded; } MOZ_ASSERT(mFakeBlackStatus != WebGLTextureFakeBlackStatus::Unknown); return mFakeBlackStatus; } static bool ClearByMask(WebGLContext* context, GLbitfield mask) { gl::GLContext* gl = context->GL(); MOZ_ASSERT(gl->IsCurrent()); GLenum status = gl->fCheckFramebufferStatus(LOCAL_GL_FRAMEBUFFER); if (status != LOCAL_GL_FRAMEBUFFER_COMPLETE) return false; bool colorAttachmentsMask[WebGLContext::kMaxColorAttachments] = {false}; if (mask & LOCAL_GL_COLOR_BUFFER_BIT) { colorAttachmentsMask[0] = true; } context->ForceClearFramebufferWithDefaultValues(mask, colorAttachmentsMask); return true; } // `mask` from glClear. static bool ClearWithTempFB(WebGLContext* context, GLuint tex, TexImageTarget texImageTarget, GLint level, TexInternalFormat baseInternalFormat, GLsizei width, GLsizei height) { MOZ_ASSERT(texImageTarget == LOCAL_GL_TEXTURE_2D); gl::GLContext* gl = context->GL(); MOZ_ASSERT(gl->IsCurrent()); gl::ScopedFramebuffer fb(gl); gl::ScopedBindFramebuffer autoFB(gl, fb.FB()); GLbitfield mask = 0; switch (baseInternalFormat.get()) { case LOCAL_GL_LUMINANCE: case LOCAL_GL_LUMINANCE_ALPHA: case LOCAL_GL_ALPHA: case LOCAL_GL_RGB: case LOCAL_GL_RGBA: case LOCAL_GL_BGR: case LOCAL_GL_BGRA: mask = LOCAL_GL_COLOR_BUFFER_BIT; gl->fFramebufferTexture2D(LOCAL_GL_FRAMEBUFFER, LOCAL_GL_COLOR_ATTACHMENT0, texImageTarget.get(), tex, level); break; case LOCAL_GL_DEPTH_COMPONENT: mask = LOCAL_GL_DEPTH_BUFFER_BIT; gl->fFramebufferTexture2D(LOCAL_GL_FRAMEBUFFER, LOCAL_GL_DEPTH_ATTACHMENT, texImageTarget.get(), tex, level); break; case LOCAL_GL_DEPTH_STENCIL: mask = LOCAL_GL_DEPTH_BUFFER_BIT | LOCAL_GL_STENCIL_BUFFER_BIT; gl->fFramebufferTexture2D(LOCAL_GL_FRAMEBUFFER, LOCAL_GL_DEPTH_ATTACHMENT, texImageTarget.get(), tex, level); gl->fFramebufferTexture2D(LOCAL_GL_FRAMEBUFFER, LOCAL_GL_STENCIL_ATTACHMENT, texImageTarget.get(), tex, level); break; default: return false; } MOZ_ASSERT(mask); if (ClearByMask(context, mask)) return true; // Failed to simply build an FB from the tex, but maybe it needs a // color buffer to be complete. if (mask & LOCAL_GL_COLOR_BUFFER_BIT) { // Nope, it already had one. return false; } gl::ScopedRenderbuffer rb(gl); { gl::ScopedBindRenderbuffer(gl, rb.RB()); gl->fRenderbufferStorage(LOCAL_GL_RENDERBUFFER, LOCAL_GL_RGBA4, width, height); } gl->fFramebufferRenderbuffer(LOCAL_GL_FRAMEBUFFER, LOCAL_GL_COLOR_ATTACHMENT0, LOCAL_GL_RENDERBUFFER, rb.RB()); mask |= LOCAL_GL_COLOR_BUFFER_BIT; // Last chance! return ClearByMask(context, mask); } void WebGLTexture::EnsureNoUninitializedImageData(TexImageTarget imageTarget, GLint level) { const ImageInfo& imageInfo = ImageInfoAt(imageTarget, level); if (!imageInfo.HasUninitializedImageData()) return; mContext->MakeContextCurrent(); // Try to clear with glCLear. if (imageTarget == LOCAL_GL_TEXTURE_2D) { bool cleared = ClearWithTempFB(mContext, GLName(), imageTarget, level, imageInfo.mEffectiveInternalFormat, imageInfo.mHeight, imageInfo.mWidth); if (cleared) { SetImageDataStatus(imageTarget, level, WebGLImageDataStatus::InitializedImageData); return; } } // That didn't work. Try uploading zeros then. gl::ScopedBindTexture autoBindTex(mContext->gl, GLName(), mTarget.get()); size_t bitspertexel = GetBitsPerTexel(imageInfo.mEffectiveInternalFormat); MOZ_ASSERT((bitspertexel % 8) == 0); // that would only happen for compressed images, which // cannot use deferred initialization. size_t bytespertexel = bitspertexel / 8; CheckedUint32 checked_byteLength = WebGLContext::GetImageSize( imageInfo.mHeight, imageInfo.mWidth, imageInfo.mDepth, bytespertexel, mContext->mPixelStoreUnpackAlignment); MOZ_ASSERT(checked_byteLength.isValid()); // should have been checked earlier UniquePtr zeros((uint8_t*)moz_xcalloc(1, checked_byteLength.value())); // Infallible for now. gl::GLContext* gl = mContext->gl; GLenum driverInternalFormat = LOCAL_GL_NONE; GLenum driverFormat = LOCAL_GL_NONE; GLenum driverType = LOCAL_GL_NONE; DriverFormatsFromEffectiveInternalFormat(gl, imageInfo.mEffectiveInternalFormat, &driverInternalFormat, &driverFormat, &driverType); mContext->GetAndFlushUnderlyingGLErrors(); if (imageTarget == LOCAL_GL_TEXTURE_3D) { MOZ_ASSERT(mImmutable, "Shouldn't be possible to have non-immutable-format 3D textures in WebGL"); gl->fTexSubImage3D(imageTarget.get(), level, 0, 0, 0, imageInfo.mWidth, imageInfo.mHeight, imageInfo.mDepth, driverFormat, driverType, zeros.get()); } else { if (mImmutable) { gl->fTexSubImage2D(imageTarget.get(), level, 0, 0, imageInfo.mWidth, imageInfo.mHeight, driverFormat, driverType, zeros.get()); } else { gl->fTexImage2D(imageTarget.get(), level, driverInternalFormat, imageInfo.mWidth, imageInfo.mHeight, 0, driverFormat, driverType, zeros.get()); } } GLenum error = mContext->GetAndFlushUnderlyingGLErrors(); if (error) { // Should only be OUT_OF_MEMORY. Anyway, there's no good way to recover from this here. printf_stderr("Error: 0x%4x\n", error); MOZ_CRASH(); // errors on texture upload have been related to video memory exposure in the past. } SetImageDataStatus(imageTarget, level, WebGLImageDataStatus::InitializedImageData); } void WebGLTexture::SetFakeBlackStatus(WebGLTextureFakeBlackStatus x) { mFakeBlackStatus = x; mContext->SetFakeBlackStatus(WebGLContextFakeBlackStatus::Unknown); } NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE_0(WebGLTexture) NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(WebGLTexture, AddRef) NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(WebGLTexture, Release)