kc3-lang/angle/src/libANGLE/renderer/metal/ImageMtl.mm
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Hash : 1bd1a3db
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Date : 2022-01-06T15:08:48
Metal: Canvas resizing causes webpage to run out of memory For https://bugs.webkit.org/show_bug.cgi?id=232122 Introduce a maximum resident amount of memory that a single command buffer can use, before forcing a flush. As part of ensuring that a command buffer is ready, check to see if this limit is exceeded. if so, flush the command buffer, and create a new one. Bug: angleproject:6880 Change-Id: I5e89735d05adbc174237ab79b006a75bbe89e560 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3369922 Reviewed-by: Gregg Tavares <gman@chromium.org> Reviewed-by: Kenneth Russell <kbr@chromium.org> Commit-Queue: Kyle Piddington <kpiddington@apple.com>
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src/libANGLE/renderer/metal/ImageMtl.mm
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// // Copyright 2021 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. // // ImageMtl.cpp: // Implements the class methods for ImageMtl. // #include "libANGLE/renderer/metal/ImageMtl.h" #include "common/debug.h" #include "libANGLE/Context.h" #include "libANGLE/Display.h" #include "libANGLE/renderer/metal/ContextMtl.h" #include "libANGLE/renderer/metal/DisplayMtl.h" #include "libANGLE/renderer/metal/RenderBufferMtl.h" #include "libANGLE/renderer/metal/TextureMtl.h" namespace rx { // TextureImageSiblingMtl implementation TextureImageSiblingMtl::TextureImageSiblingMtl(EGLClientBuffer buffer) : mBuffer(buffer), mGLFormat(GL_NONE) {} TextureImageSiblingMtl::~TextureImageSiblingMtl() {} // Static bool TextureImageSiblingMtl::ValidateClientBuffer(const DisplayMtl *display, EGLClientBuffer buffer) { id<MTLTexture> texture = (__bridge id<MTLTexture>)(buffer); if (!texture || texture.device != display->getMetalDevice()) { return false; } if (texture.textureType != MTLTextureType2D && texture.textureType != MTLTextureTypeCube) { return false; } angle::FormatID angleFormatId = mtl::Format::MetalToAngleFormatID(texture.pixelFormat); const mtl::Format &format = display->getPixelFormat(angleFormatId); if (!format.valid()) { ERR() << "Unrecognized format"; // Not supported return false; } return true; } egl::Error TextureImageSiblingMtl::initialize(const egl::Display *display) { DisplayMtl *displayMtl = mtl::GetImpl(display); if (initImpl(displayMtl) != angle::Result::Continue) { return egl::EglBadParameter(); } return egl::NoError(); } angle::Result TextureImageSiblingMtl::initImpl(DisplayMtl *displayMtl) { mNativeTexture = mtl::Texture::MakeFromMetal((__bridge id<MTLTexture>)(mBuffer)); angle::FormatID angleFormatId = mtl::Format::MetalToAngleFormatID(mNativeTexture->pixelFormat()); mFormat = displayMtl->getPixelFormat(angleFormatId); if (mNativeTexture) { size_t resourceSize = EstimateTextureSizeInBytes( mFormat, mNativeTexture->widthAt0(), mNativeTexture->heightAt0(), mNativeTexture->depthAt0(), mNativeTexture->samples(), mNativeTexture->mipmapLevels()); mNativeTexture->setEstimatedByteSize(resourceSize); } mGLFormat = gl::Format(mFormat.intendedAngleFormat().glInternalFormat); mRenderable = mFormat.getCaps().depthRenderable || mFormat.getCaps().colorRenderable; mTextureable = mFormat.getCaps().filterable || mFormat.hasDepthOrStencilBits(); return angle::Result::Continue; } void TextureImageSiblingMtl::onDestroy(const egl::Display *display) { mNativeTexture = nullptr; } gl::Format TextureImageSiblingMtl::getFormat() const { return mGLFormat; } bool TextureImageSiblingMtl::isRenderable(const gl::Context *context) const { return mRenderable; } bool TextureImageSiblingMtl::isTexturable(const gl::Context *context) const { return mTextureable; } gl::Extents TextureImageSiblingMtl::getSize() const { return mNativeTexture ? mNativeTexture->sizeAt0() : gl::Extents(0, 0, 0); } size_t TextureImageSiblingMtl::getSamples() const { uint32_t samples = mNativeTexture ? mNativeTexture->samples() : 0; return samples > 1 ? samples : 0; } bool TextureImageSiblingMtl::isYUV() const { // NOTE(hqle): not supporting YUV image yet. return false; } bool TextureImageSiblingMtl::hasProtectedContent() const { return false; } // ImageMtl implementation ImageMtl::ImageMtl(const egl::ImageState &state, const gl::Context *context) : ImageImpl(state) {} ImageMtl::~ImageMtl() {} void ImageMtl::onDestroy(const egl::Display *display) { mNativeTexture = nullptr; } egl::Error ImageMtl::initialize(const egl::Display *display) { if (mState.target == EGL_METAL_TEXTURE_ANGLE) { const TextureImageSiblingMtl *externalImageSibling = GetImplAs<TextureImageSiblingMtl>(GetAs<egl::ExternalImageSibling>(mState.source)); mNativeTexture = externalImageSibling->getTexture(); switch (mNativeTexture->textureType()) { case MTLTextureType2D: mImageTextureType = gl::TextureType::_2D; break; case MTLTextureTypeCube: mImageTextureType = gl::TextureType::CubeMap; break; default: UNREACHABLE(); } mImageLevel = 0; mImageLayer = 0; } else { UNREACHABLE(); return egl::EglBadAccess(); } return egl::NoError(); } angle::Result ImageMtl::orphan(const gl::Context *context, egl::ImageSibling *sibling) { if (sibling == mState.source) { mNativeTexture = nullptr; } return angle::Result::Continue; } } // namespace rx