// // Copyright (c) 2002-2013 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. // // Texture.h: Defines the gl::Texture class [OpenGL ES 2.0.24] section 3.7 page 63. #ifndef LIBANGLE_TEXTURE_H_ #define LIBANGLE_TEXTURE_H_ #include #include #include "angle_gl.h" #include "common/Optional.h" #include "common/debug.h" #include "common/utilities.h" #include "libANGLE/Caps.h" #include "libANGLE/Constants.h" #include "libANGLE/Debug.h" #include "libANGLE/Error.h" #include "libANGLE/FramebufferAttachment.h" #include "libANGLE/Image.h" #include "libANGLE/Observer.h" #include "libANGLE/Stream.h" #include "libANGLE/angletypes.h" #include "libANGLE/formatutils.h" namespace egl { class Surface; class Stream; } // namespace egl namespace rx { class GLImplFactory; class TextureImpl; class TextureGL; } // namespace rx namespace gl { class Framebuffer; class MemoryObject; class Sampler; class State; class Texture; bool IsMipmapFiltered(const SamplerState &samplerState); struct ImageDesc final { ImageDesc(); ImageDesc(const Extents &size, const Format &format, const InitState initState); ImageDesc(const Extents &size, const Format &format, const GLsizei samples, const bool fixedSampleLocations, const InitState initState); ImageDesc(const ImageDesc &other) = default; ImageDesc &operator=(const ImageDesc &other) = default; GLint getMemorySize() const; Extents size; Format format; GLsizei samples; bool fixedSampleLocations; // Needed for robust resource initialization. InitState initState; }; struct SwizzleState final { SwizzleState(); SwizzleState(GLenum red, GLenum green, GLenum blue, GLenum alpha); SwizzleState(const SwizzleState &other) = default; SwizzleState &operator=(const SwizzleState &other) = default; bool swizzleRequired() const; bool operator==(const SwizzleState &other) const; bool operator!=(const SwizzleState &other) const; GLenum swizzleRed; GLenum swizzleGreen; GLenum swizzleBlue; GLenum swizzleAlpha; }; // State from Table 6.9 (state per texture object) in the OpenGL ES 3.0.2 spec. class TextureState final : private angle::NonCopyable { public: TextureState(TextureType type); ~TextureState(); bool swizzleRequired() const; GLuint getEffectiveBaseLevel() const; GLuint getEffectiveMaxLevel() const; // Returns the value called "q" in the GLES 3.0.4 spec section 3.8.10. GLuint getMipmapMaxLevel() const; // Returns true if base level changed. bool setBaseLevel(GLuint baseLevel); bool setMaxLevel(GLuint maxLevel); bool isCubeComplete() const; ANGLE_INLINE bool compatibleWithSamplerFormat(SamplerFormat format, const SamplerState &samplerState) const { if (!mCachedSamplerFormatValid || mCachedSamplerCompareMode != samplerState.getCompareMode()) { mCachedSamplerFormat = computeRequiredSamplerFormat(samplerState); mCachedSamplerCompareMode = samplerState.getCompareMode(); mCachedSamplerFormatValid = true; } // Incomplete textures are compatible with any sampler format. return mCachedSamplerFormat == SamplerFormat::InvalidEnum || format == mCachedSamplerFormat; } const ImageDesc &getImageDesc(TextureTarget target, size_t level) const; const ImageDesc &getImageDesc(const ImageIndex &imageIndex) const; TextureType getType() const { return mType; } const SwizzleState &getSwizzleState() const { return mSwizzleState; } const SamplerState &getSamplerState() const { return mSamplerState; } GLenum getUsage() const { return mUsage; } GLenum getDepthStencilTextureMode() const { return mDepthStencilTextureMode; } // Returns the desc of the base level. Only valid for cube-complete/mip-complete textures. const ImageDesc &getBaseLevelDesc() const; // GLES1 emulation: For GL_OES_draw_texture void setCrop(const gl::Rectangle &rect); const gl::Rectangle &getCrop() const; // GLES1 emulation: Auto-mipmap generation is a texparameter void setGenerateMipmapHint(GLenum hint); GLenum getGenerateMipmapHint() const; private: // Texture needs access to the ImageDesc functions. friend class Texture; // TODO(jmadill): Remove TextureGL from friends. friend class rx::TextureGL; friend bool operator==(const TextureState &a, const TextureState &b); bool computeSamplerCompleteness(const SamplerState &samplerState, const State &data) const; bool computeMipmapCompleteness() const; bool computeLevelCompleteness(TextureTarget target, size_t level) const; SamplerFormat computeRequiredSamplerFormat(const SamplerState &samplerState) const; TextureTarget getBaseImageTarget() const; void setImageDesc(TextureTarget target, size_t level, const ImageDesc &desc); void setImageDescChain(GLuint baselevel, GLuint maxLevel, Extents baseSize, const Format &format, InitState initState); void setImageDescChainMultisample(Extents baseSize, const Format &format, GLsizei samples, bool fixedSampleLocations, InitState initState); void clearImageDesc(TextureTarget target, size_t level); void clearImageDescs(); const TextureType mType; SwizzleState mSwizzleState; SamplerState mSamplerState; GLuint mBaseLevel; GLuint mMaxLevel; GLenum mDepthStencilTextureMode; bool mImmutableFormat; GLuint mImmutableLevels; // From GL_ANGLE_texture_usage GLenum mUsage; std::vector mImageDescs; // GLES1 emulation: Texture crop rectangle // For GL_OES_draw_texture gl::Rectangle mCropRect; // GLES1 emulation: Generate-mipmap hint per texture GLenum mGenerateMipmapHint; InitState mInitState; mutable SamplerFormat mCachedSamplerFormat; mutable GLenum mCachedSamplerCompareMode; mutable bool mCachedSamplerFormatValid; }; bool operator==(const TextureState &a, const TextureState &b); bool operator!=(const TextureState &a, const TextureState &b); class Texture final : public RefCountObject, public egl::ImageSibling, public LabeledObject { public: Texture(rx::GLImplFactory *factory, GLuint id, TextureType type); ~Texture() override; void onDestroy(const Context *context) override; void setLabel(const Context *context, const std::string &label) override; const std::string &getLabel() const override; TextureType getType() const { return mState.mType; } void setSwizzleRed(const Context *context, GLenum swizzleRed); GLenum getSwizzleRed() const; void setSwizzleGreen(const Context *context, GLenum swizzleGreen); GLenum getSwizzleGreen() const; void setSwizzleBlue(const Context *context, GLenum swizzleBlue); GLenum getSwizzleBlue() const; void setSwizzleAlpha(const Context *context, GLenum swizzleAlpha); GLenum getSwizzleAlpha() const; void setMinFilter(const Context *context, GLenum minFilter); GLenum getMinFilter() const; void setMagFilter(const Context *context, GLenum magFilter); GLenum getMagFilter() const; void setWrapS(const Context *context, GLenum wrapS); GLenum getWrapS() const; void setWrapT(const Context *context, GLenum wrapT); GLenum getWrapT() const; void setWrapR(const Context *context, GLenum wrapR); GLenum getWrapR() const; void setMaxAnisotropy(const Context *context, float maxAnisotropy); float getMaxAnisotropy() const; void setMinLod(const Context *context, GLfloat minLod); GLfloat getMinLod() const; void setMaxLod(const Context *context, GLfloat maxLod); GLfloat getMaxLod() const; void setCompareMode(const Context *context, GLenum compareMode); GLenum getCompareMode() const; void setCompareFunc(const Context *context, GLenum compareFunc); GLenum getCompareFunc() const; void setSRGBDecode(const Context *context, GLenum sRGBDecode); GLenum getSRGBDecode() const; const SamplerState &getSamplerState() const; angle::Result setBaseLevel(const Context *context, GLuint baseLevel); GLuint getBaseLevel() const; void setMaxLevel(const Context *context, GLuint maxLevel); GLuint getMaxLevel() const; void setDepthStencilTextureMode(const Context *context, GLenum mode); GLenum getDepthStencilTextureMode() const; bool getImmutableFormat() const; GLuint getImmutableLevels() const; void setUsage(const Context *context, GLenum usage); GLenum getUsage() const; void setBorderColor(const Context *context, const ColorGeneric &color); const ColorGeneric &getBorderColor() const; const TextureState &getTextureState() const; size_t getWidth(TextureTarget target, size_t level) const; size_t getHeight(TextureTarget target, size_t level) const; size_t getDepth(TextureTarget target, size_t level) const; GLsizei getSamples(TextureTarget target, size_t level) const; bool getFixedSampleLocations(TextureTarget target, size_t level) const; const Format &getFormat(TextureTarget target, size_t level) const; // Returns the value called "q" in the GLES 3.0.4 spec section 3.8.10. GLuint getMipmapMaxLevel() const; bool isMipmapComplete() const; angle::Result setImage(Context *context, const PixelUnpackState &unpackState, TextureTarget target, GLint level, GLenum internalFormat, const Extents &size, GLenum format, GLenum type, const uint8_t *pixels); angle::Result setSubImage(Context *context, const PixelUnpackState &unpackState, Buffer *unpackBuffer, TextureTarget target, GLint level, const Box &area, GLenum format, GLenum type, const uint8_t *pixels); angle::Result setCompressedImage(Context *context, const PixelUnpackState &unpackState, TextureTarget target, GLint level, GLenum internalFormat, const Extents &size, size_t imageSize, const uint8_t *pixels); angle::Result setCompressedSubImage(const Context *context, const PixelUnpackState &unpackState, TextureTarget target, GLint level, const Box &area, GLenum format, size_t imageSize, const uint8_t *pixels); angle::Result copyImage(Context *context, TextureTarget target, GLint level, const Rectangle &sourceArea, GLenum internalFormat, Framebuffer *source); angle::Result copySubImage(Context *context, const ImageIndex &index, const Offset &destOffset, const Rectangle &sourceArea, Framebuffer *source); angle::Result copyTexture(Context *context, TextureTarget target, GLint level, GLenum internalFormat, GLenum type, GLint sourceLevel, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, Texture *source); angle::Result copySubTexture(const Context *context, TextureTarget target, GLint level, const Offset &destOffset, GLint sourceLevel, const Box &sourceBox, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, Texture *source); angle::Result copyCompressedTexture(Context *context, const Texture *source); angle::Result setStorage(Context *context, TextureType type, GLsizei levels, GLenum internalFormat, const Extents &size); angle::Result setStorageMultisample(Context *context, TextureType type, GLsizei samples, GLint internalformat, const Extents &size, bool fixedSampleLocations); angle::Result setStorageExternalMemory(Context *context, TextureType type, GLsizei levels, GLenum internalFormat, const Extents &size, MemoryObject *memoryObject, GLuint64 offset); angle::Result setImageExternal(Context *context, TextureTarget target, GLint level, GLenum internalFormat, const Extents &size, GLenum format, GLenum type); angle::Result setEGLImageTarget(Context *context, TextureType type, egl::Image *imageTarget); angle::Result generateMipmap(Context *context); egl::Surface *getBoundSurface() const; egl::Stream *getBoundStream() const; GLint getMemorySize() const; GLint getLevelMemorySize(TextureTarget target, GLint level) const; void signalDirtyStorage(InitState initState); bool isSamplerComplete(const Context *context, const Sampler *optionalSampler); rx::TextureImpl *getImplementation() const { return mTexture; } // FramebufferAttachmentObject implementation Extents getAttachmentSize(const ImageIndex &imageIndex) const override; Format getAttachmentFormat(GLenum binding, const ImageIndex &imageIndex) const override; GLsizei getAttachmentSamples(const ImageIndex &imageIndex) const override; bool isRenderable(const Context *context, GLenum binding, const ImageIndex &imageIndex) const override; bool getAttachmentFixedSampleLocations(const ImageIndex &imageIndex) const; // GLES1 emulation void setCrop(const gl::Rectangle &rect); const gl::Rectangle &getCrop() const; void setGenerateMipmapHint(GLenum generate); GLenum getGenerateMipmapHint() const; void onAttach(const Context *context) override; void onDetach(const Context *context) override; GLuint getId() const override; GLuint getNativeID() const; // Needed for robust resource init. angle::Result ensureInitialized(const Context *context); InitState initState(const ImageIndex &imageIndex) const override; InitState initState() const { return mState.mInitState; } void setInitState(const ImageIndex &imageIndex, InitState initState) override; enum DirtyBitType { // Sampler state DIRTY_BIT_MIN_FILTER, DIRTY_BIT_MAG_FILTER, DIRTY_BIT_WRAP_S, DIRTY_BIT_WRAP_T, DIRTY_BIT_WRAP_R, DIRTY_BIT_MAX_ANISOTROPY, DIRTY_BIT_MIN_LOD, DIRTY_BIT_MAX_LOD, DIRTY_BIT_COMPARE_MODE, DIRTY_BIT_COMPARE_FUNC, DIRTY_BIT_SRGB_DECODE, DIRTY_BIT_BORDER_COLOR, // Texture state DIRTY_BIT_SWIZZLE_RED, DIRTY_BIT_SWIZZLE_GREEN, DIRTY_BIT_SWIZZLE_BLUE, DIRTY_BIT_SWIZZLE_ALPHA, DIRTY_BIT_BASE_LEVEL, DIRTY_BIT_MAX_LEVEL, DIRTY_BIT_DEPTH_STENCIL_TEXTURE_MODE, // Misc DIRTY_BIT_LABEL, DIRTY_BIT_USAGE, DIRTY_BIT_IMPLEMENTATION, DIRTY_BIT_COUNT, }; using DirtyBits = angle::BitSet; angle::Result syncState(const Context *context); bool hasAnyDirtyBit() const { return mDirtyBits.any(); } // ObserverInterface implementation. void onSubjectStateChange(angle::SubjectIndex index, angle::SubjectMessage message) override; private: rx::FramebufferAttachmentObjectImpl *getAttachmentImpl() const override; // ANGLE-only method, used internally friend class egl::Surface; angle::Result bindTexImageFromSurface(Context *context, egl::Surface *surface); angle::Result releaseTexImageFromSurface(const Context *context); // ANGLE-only methods, used internally friend class egl::Stream; void bindStream(egl::Stream *stream); void releaseStream(); angle::Result acquireImageFromStream(const Context *context, const egl::Stream::GLTextureDescription &desc); angle::Result releaseImageFromStream(const Context *context); void invalidateCompletenessCache() const; angle::Result releaseTexImageInternal(Context *context); angle::Result ensureSubImageInitialized(const Context *context, TextureTarget target, size_t level, const gl::Box &area); angle::Result handleMipmapGenerationHint(Context *context, int level); void signalDirtyState(size_t dirtyBit); TextureState mState; DirtyBits mDirtyBits; rx::TextureImpl *mTexture; angle::ObserverBinding mImplObserver; std::string mLabel; egl::Surface *mBoundSurface; egl::Stream *mBoundStream; struct SamplerCompletenessCache { SamplerCompletenessCache(); // Context used to generate this cache entry ContextID context; // All values that affect sampler completeness that are not stored within // the texture itself SamplerState samplerState; // Result of the sampler completeness with the above parameters bool samplerComplete; }; mutable SamplerCompletenessCache mCompletenessCache; }; inline bool operator==(const TextureState &a, const TextureState &b) { return a.mSwizzleState == b.mSwizzleState && a.mSamplerState == b.mSamplerState && a.mBaseLevel == b.mBaseLevel && a.mMaxLevel == b.mMaxLevel && a.mImmutableFormat == b.mImmutableFormat && a.mImmutableLevels == b.mImmutableLevels && a.mUsage == b.mUsage; } inline bool operator!=(const TextureState &a, const TextureState &b) { return !(a == b); } } // namespace gl #endif // LIBANGLE_TEXTURE_H_