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kc3-lang/angle/src/libANGLE/Framebuffer.h
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Author :
Mingyu Hu
Date : 2019-08-26 15:59:48
Hash : 7e44ec26
Message : GL_EXT_multisampled_render_to_texture extension. Part 1. Adding new parameters for extension without adding any real code change. Since no new code paths were added, we expect all tests to pass as before. Bug: angleproject:980428 Change-Id: I551b46a66f422eabd357fd021e00cf266a991efb Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/1772377 Commit-Queue: Rafael Cintron <rafael.cintron@microsoft.com> Reviewed-by: Rafael Cintron <rafael.cintron@microsoft.com> Reviewed-by: Geoff Lang <geofflang@chromium.org>
- src/libANGLE/Framebuffer.h
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// // Copyright 2002 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. // // Framebuffer.h: Defines the gl::Framebuffer class. Implements GL framebuffer // objects and related functionality. [OpenGL ES 2.0.24] section 4.4 page 105. #ifndef LIBANGLE_FRAMEBUFFER_H_ #define LIBANGLE_FRAMEBUFFER_H_ #include <vector> #include "common/FixedVector.h" #include "common/Optional.h" #include "common/angleutils.h" #include "libANGLE/Constants.h" #include "libANGLE/Debug.h" #include "libANGLE/Error.h" #include "libANGLE/FramebufferAttachment.h" #include "libANGLE/Observer.h" #include "libANGLE/RefCountObject.h" namespace rx { class GLImplFactory; class FramebufferImpl; class RenderbufferImpl; class SurfaceImpl; } // namespace rx namespace egl { class Display; class Surface; } // namespace egl namespace gl { struct Caps; class Context; struct Extensions; class Framebuffer; class ImageIndex; struct Rectangle; class Renderbuffer; class State; class Texture; class TextureCapsMap; class FramebufferState final : angle::NonCopyable { public: FramebufferState(); explicit FramebufferState(const Caps &caps, FramebufferID id); ~FramebufferState(); const std::string &getLabel(); size_t getReadIndex() const; const FramebufferAttachment *getAttachment(const Context *context, GLenum attachment) const; const FramebufferAttachment *getReadAttachment() const; const FramebufferAttachment *getFirstNonNullAttachment() const; const FramebufferAttachment *getFirstColorAttachment() const; const FramebufferAttachment *getDepthOrStencilAttachment() const; const FramebufferAttachment *getStencilOrDepthStencilAttachment() const; const FramebufferAttachment *getColorAttachment(size_t colorAttachment) const; const FramebufferAttachment *getDepthAttachment() const; const FramebufferAttachment *getStencilAttachment() const; const FramebufferAttachment *getDepthStencilAttachment() const; const std::vector<GLenum> &getDrawBufferStates() const { return mDrawBufferStates; } DrawBufferMask getEnabledDrawBuffers() const { return mEnabledDrawBuffers; } GLenum getReadBufferState() const { return mReadBufferState; } const std::vector<FramebufferAttachment> &getColorAttachments() const { return mColorAttachments; } bool attachmentsHaveSameDimensions() const; bool hasSeparateDepthAndStencilAttachments() const; bool colorAttachmentsAreUniqueImages() const; Box getDimensions() const; Extents getExtents() const; const FramebufferAttachment *getDrawBuffer(size_t drawBufferIdx) const; size_t getDrawBufferCount() const; GLint getDefaultWidth() const { return mDefaultWidth; } GLint getDefaultHeight() const { return mDefaultHeight; } GLint getDefaultSamples() const { return mDefaultSamples; } bool getDefaultFixedSampleLocations() const { return mDefaultFixedSampleLocations; } GLint getDefaultLayers() const { return mDefaultLayers; } bool hasDepth() const; bool hasStencil() const; bool isMultiview() const; ANGLE_INLINE GLsizei getNumViews() const { const FramebufferAttachment *attachment = getFirstNonNullAttachment(); if (attachment == nullptr) { return FramebufferAttachment::kDefaultNumViews; } return attachment->getNumViews(); } GLint getBaseViewIndex() const; FramebufferID id() const { return mId; } bool isDefault() const; private: const FramebufferAttachment *getWebGLDepthStencilAttachment() const; const FramebufferAttachment *getWebGLDepthAttachment() const; const FramebufferAttachment *getWebGLStencilAttachment() const; friend class Framebuffer; FramebufferID mId; std::string mLabel; std::vector<FramebufferAttachment> mColorAttachments; FramebufferAttachment mDepthAttachment; FramebufferAttachment mStencilAttachment; std::vector<GLenum> mDrawBufferStates; GLenum mReadBufferState; DrawBufferMask mEnabledDrawBuffers; ComponentTypeMask mDrawBufferTypeMask; GLint mDefaultWidth; GLint mDefaultHeight; GLint mDefaultSamples; bool mDefaultFixedSampleLocations; GLint mDefaultLayers; // It's necessary to store all this extra state so we can restore attachments // when DEPTH_STENCIL/DEPTH/STENCIL is unbound in WebGL 1. FramebufferAttachment mWebGLDepthStencilAttachment; FramebufferAttachment mWebGLDepthAttachment; FramebufferAttachment mWebGLStencilAttachment; bool mWebGLDepthStencilConsistent; // Tracks if we need to initialize the resources for each attachment. angle::BitSet<IMPLEMENTATION_MAX_FRAMEBUFFER_ATTACHMENTS + 2> mResourceNeedsInit; bool mDefaultFramebufferReadAttachmentInitialized; FramebufferAttachment mDefaultFramebufferReadAttachment; }; class Framebuffer final : public angle::ObserverInterface, public LabeledObject, public angle::Subject { public: // Constructor to build application-defined framebuffers Framebuffer(const Caps &caps, rx::GLImplFactory *factory, FramebufferID id); // Constructor to build default framebuffers for a surface and context pair Framebuffer(const Context *context, egl::Surface *surface, egl::Surface *readSurface); // Constructor to build a fake default framebuffer when surfaceless Framebuffer(const Context *context, rx::GLImplFactory *factory, egl::Surface *readSurface); ~Framebuffer() override; void onDestroy(const Context *context); void setReadSurface(const Context *context, egl::Surface *readSurface); void setLabel(const Context *context, const std::string &label) override; const std::string &getLabel() const override; rx::FramebufferImpl *getImplementation() const { return mImpl; } FramebufferID id() const { return mState.mId; } void setAttachment(const Context *context, GLenum type, GLenum binding, const ImageIndex &textureIndex, FramebufferAttachmentObject *resource); void setAttachmentMultiview(const Context *context, GLenum type, GLenum binding, const ImageIndex &textureIndex, FramebufferAttachmentObject *resource, GLsizei numViews, GLint baseViewIndex); void resetAttachment(const Context *context, GLenum binding); bool detachTexture(const Context *context, TextureID texture); bool detachRenderbuffer(const Context *context, RenderbufferID renderbuffer); const FramebufferAttachment *getColorAttachment(size_t colorAttachment) const; const FramebufferAttachment *getDepthAttachment() const; const FramebufferAttachment *getStencilAttachment() const; const FramebufferAttachment *getDepthStencilAttachment() const; const FramebufferAttachment *getDepthOrStencilAttachment() const; const FramebufferAttachment *getStencilOrDepthStencilAttachment() const; const FramebufferAttachment *getReadColorAttachment() const; GLenum getReadColorAttachmentType() const; const FramebufferAttachment *getFirstColorAttachment() const; const FramebufferAttachment *getFirstNonNullAttachment() const; const FramebufferAttachment *getAttachment(const Context *context, GLenum attachment) const; bool isMultiview() const; bool readDisallowedByMultiview() const; GLsizei getNumViews() const; GLint getBaseViewIndex() const; Extents getExtents() const; size_t getDrawbufferStateCount() const; GLenum getDrawBufferState(size_t drawBuffer) const; const std::vector<GLenum> &getDrawBufferStates() const; void setDrawBuffers(size_t count, const GLenum *buffers); const FramebufferAttachment *getDrawBuffer(size_t drawBuffer) const; ComponentType getDrawbufferWriteType(size_t drawBuffer) const; ComponentTypeMask getDrawBufferTypeMask() const; DrawBufferMask getDrawBufferMask() const; bool hasEnabledDrawBuffer() const; GLenum getReadBufferState() const; void setReadBuffer(GLenum buffer); size_t getNumColorAttachments() const; bool hasDepth() const; bool hasStencil() const; bool usingExtendedDrawBuffers() const; // This method calls checkStatus. int getSamples(const Context *context); angle::Result getSamplePosition(const Context *context, size_t index, GLfloat *xy) const; GLint getDefaultWidth() const; GLint getDefaultHeight() const; GLint getDefaultSamples() const; bool getDefaultFixedSampleLocations() const; GLint getDefaultLayers() const; void setDefaultWidth(const Context *context, GLint defaultWidth); void setDefaultHeight(const Context *context, GLint defaultHeight); void setDefaultSamples(const Context *context, GLint defaultSamples); void setDefaultFixedSampleLocations(const Context *context, bool defaultFixedSampleLocations); void setDefaultLayers(GLint defaultLayers); void invalidateCompletenessCache(); ANGLE_INLINE GLenum checkStatus(const Context *context) { // The default framebuffer is always complete except when it is surfaceless in which // case it is always unsupported. ASSERT(!isDefault() || mCachedStatus.valid()); if (isDefault() || (!hasAnyDirtyBit() && mCachedStatus.valid())) { return mCachedStatus.value(); } return checkStatusImpl(context); } // For when we don't want to check completeness in getSamples(). int getCachedSamples(const Context *context) const; // Helper for checkStatus == GL_FRAMEBUFFER_COMPLETE. ANGLE_INLINE bool isComplete(const Context *context) { return (checkStatus(context) == GL_FRAMEBUFFER_COMPLETE); } bool hasValidDepthStencil() const; angle::Result discard(const Context *context, size_t count, const GLenum *attachments); angle::Result invalidate(const Context *context, size_t count, const GLenum *attachments); angle::Result invalidateSub(const Context *context, size_t count, const GLenum *attachments, const Rectangle &area); angle::Result clear(const Context *context, GLbitfield mask); angle::Result clearBufferfv(const Context *context, GLenum buffer, GLint drawbuffer, const GLfloat *values); angle::Result clearBufferuiv(const Context *context, GLenum buffer, GLint drawbuffer, const GLuint *values); angle::Result clearBufferiv(const Context *context, GLenum buffer, GLint drawbuffer, const GLint *values); angle::Result clearBufferfi(const Context *context, GLenum buffer, GLint drawbuffer, GLfloat depth, GLint stencil); // These two methods call syncState() internally. angle::Result getImplementationColorReadFormat(const Context *context, GLenum *formatOut); angle::Result getImplementationColorReadType(const Context *context, GLenum *typeOut); angle::Result readPixels(const Context *context, const Rectangle &area, GLenum format, GLenum type, void *pixels); angle::Result blit(const Context *context, const Rectangle &sourceArea, const Rectangle &destArea, GLbitfield mask, GLenum filter); bool isDefault() const { return mState.isDefault(); } enum DirtyBitType : size_t { DIRTY_BIT_COLOR_ATTACHMENT_0, DIRTY_BIT_COLOR_ATTACHMENT_MAX = DIRTY_BIT_COLOR_ATTACHMENT_0 + IMPLEMENTATION_MAX_FRAMEBUFFER_ATTACHMENTS, DIRTY_BIT_DEPTH_ATTACHMENT = DIRTY_BIT_COLOR_ATTACHMENT_MAX, DIRTY_BIT_STENCIL_ATTACHMENT, DIRTY_BIT_COLOR_BUFFER_CONTENTS_0, DIRTY_BIT_COLOR_BUFFER_CONTENTS_MAX = DIRTY_BIT_COLOR_BUFFER_CONTENTS_0 + IMPLEMENTATION_MAX_FRAMEBUFFER_ATTACHMENTS, DIRTY_BIT_DEPTH_BUFFER_CONTENTS, DIRTY_BIT_STENCIL_BUFFER_CONTENTS, DIRTY_BIT_DRAW_BUFFERS, DIRTY_BIT_READ_BUFFER, DIRTY_BIT_DEFAULT_WIDTH, DIRTY_BIT_DEFAULT_HEIGHT, DIRTY_BIT_DEFAULT_SAMPLES, DIRTY_BIT_DEFAULT_FIXED_SAMPLE_LOCATIONS, DIRTY_BIT_DEFAULT_LAYERS, DIRTY_BIT_UNKNOWN, DIRTY_BIT_MAX = DIRTY_BIT_UNKNOWN }; using DirtyBits = angle::BitSet<DIRTY_BIT_MAX>; bool hasAnyDirtyBit() const { return mDirtyBits.any(); } bool hasActiveFloat32ColorAttachment() const { return (mFloat32ColorAttachmentBits & getDrawBufferMask()).any(); } bool hasResourceThatNeedsInit() const { return mState.mResourceNeedsInit.any(); } angle::Result syncState(const Context *context); // Observer implementation void onSubjectStateChange(angle::SubjectIndex index, angle::SubjectMessage message) override; bool formsRenderingFeedbackLoopWith(const Context *context) const; bool formsCopyingFeedbackLoopWith(GLuint copyTextureID, GLint copyTextureLevel, GLint copyTextureLayer) const; angle::Result ensureClearAttachmentsInitialized(const Context *context, GLbitfield mask); angle::Result ensureClearBufferAttachmentsInitialized(const Context *context, GLenum buffer, GLint drawbuffer); angle::Result ensureDrawAttachmentsInitialized(const Context *context); // Conservatively initializes both read color and depth. Blit can access the depth buffer. angle::Result ensureReadAttachmentsInitialized(const Context *context); Box getDimensions() const; static const FramebufferID kDefaultDrawFramebufferHandle; private: bool detachResourceById(const Context *context, GLenum resourceType, GLuint resourceId); bool detachMatchingAttachment(const Context *context, FramebufferAttachment *attachment, GLenum matchType, GLuint matchId); GLenum checkStatusWithGLFrontEnd(const Context *context); GLenum checkStatusImpl(const Context *context); void setAttachment(const Context *context, GLenum type, GLenum binding, const ImageIndex &textureIndex, FramebufferAttachmentObject *resource, GLsizei numViews, GLuint baseViewIndex, bool isMultiview, GLsizei samples); void commitWebGL1DepthStencilIfConsistent(const Context *context, GLsizei numViews, GLuint baseViewIndex, bool isMultiview, GLsizei samples); void setAttachmentImpl(const Context *context, GLenum type, GLenum binding, const ImageIndex &textureIndex, FramebufferAttachmentObject *resource, GLsizei numViews, GLuint baseViewIndex, bool isMultiview, GLsizei samples); void updateAttachment(const Context *context, FramebufferAttachment *attachment, size_t dirtyBit, angle::ObserverBinding *onDirtyBinding, GLenum type, GLenum binding, const ImageIndex &textureIndex, FramebufferAttachmentObject *resource, GLsizei numViews, GLuint baseViewIndex, bool isMultiview, GLsizei samples); void markDrawAttachmentsInitialized(bool color, bool depth, bool stencil); void markBufferInitialized(GLenum bufferType, GLint bufferIndex); angle::Result ensureBufferInitialized(const Context *context, GLenum bufferType, GLint bufferIndex); // Checks that we have a partially masked clear: // * some color channels are masked out // * some stencil values are masked out // * scissor test partially overlaps the framebuffer bool partialClearNeedsInit(const Context *context, bool color, bool depth, bool stencil); bool partialBufferClearNeedsInit(const Context *context, GLenum bufferType); FramebufferAttachment *getAttachmentFromSubjectIndex(angle::SubjectIndex index); ANGLE_INLINE void updateFloat32ColorAttachmentBits(size_t index, const gl::InternalFormat *format) { mFloat32ColorAttachmentBits.set(index, format->type == GL_FLOAT); } FramebufferState mState; rx::FramebufferImpl *mImpl; Optional<GLenum> mCachedStatus; std::vector<angle::ObserverBinding> mDirtyColorAttachmentBindings; angle::ObserverBinding mDirtyDepthAttachmentBinding; angle::ObserverBinding mDirtyStencilAttachmentBinding; DirtyBits mDirtyBits; DrawBufferMask mFloat32ColorAttachmentBits; DrawBufferMask mColorAttachmentBits; // The dirty bits guard is checked when we get a dependent state change message. We verify that // we don't set a dirty bit that isn't already set, when inside the dirty bits syncState. Optional<DirtyBits> mDirtyBitsGuard; }; } // namespace gl #endif // LIBANGLE_FRAMEBUFFER_H_