/* * Copyright 2017 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef GrBackendSurface_DEFINED #define GrBackendSurface_DEFINED #include "GrTypes.h" #include "gl/GrGLTypes.h" #include "mock/GrMockTypes.h" #include "vk/GrVkTypes.h" #include "../private/GrVkTypesPriv.h" class GrVkImageLayout; #ifdef SK_METAL #include "mtl/GrMtlTypes.h" #endif #if !SK_SUPPORT_GPU // SkSurface and SkImage rely on a minimal version of these always being available class SK_API GrBackendTexture { public: GrBackendTexture() {} bool isValid() const { return false; } }; class SK_API GrBackendRenderTarget { public: GrBackendRenderTarget() {} bool isValid() const { return false; } }; #else class SK_API GrBackendFormat { public: // Creates an invalid backend format. GrBackendFormat() : fValid(false) {} static GrBackendFormat MakeGL(GrGLenum format, GrGLenum target) { return GrBackendFormat(format, target); } static GrBackendFormat MakeVk(VkFormat format) { return GrBackendFormat(format, GrVkYcbcrConversionInfo()); } // This is used for external textures and the VkFormat is assumed to be VK_FORMAT_UNDEFINED. // This call is only supported on Android since the GrVkYcbcrConvesionInfo contains an android // external format. static GrBackendFormat MakeVk(const GrVkYcbcrConversionInfo& ycbcrInfo); #ifdef SK_METAL static GrBackendFormat MakeMtl(GrMTLPixelFormat format) { return GrBackendFormat(format); } #endif static GrBackendFormat MakeMock(GrPixelConfig config) { return GrBackendFormat(config); } bool operator==(const GrBackendFormat& that) const; bool operator!=(const GrBackendFormat& that) const { return !(*this == that); } GrBackendApi backend() const { return fBackend; } GrTextureType textureType() const { return fTextureType; } // If the backend API is GL, these return a pointer to the format and target. Otherwise // it returns nullptr. const GrGLenum* getGLFormat() const; const GrGLenum* getGLTarget() const; // If the backend API is Vulkan, this returns a pointer to a VkFormat. Otherwise // it returns nullptr const VkFormat* getVkFormat() const; const GrVkYcbcrConversionInfo* getVkYcbcrConversionInfo() const; #ifdef SK_METAL // If the backend API is Metal, this returns a pointer to a GrMTLPixelFormat. Otherwise // it returns nullptr const GrMTLPixelFormat* getMtlFormat() const; #endif // If the backend API is Mock, this returns a pointer to a GrPixelConfig. Otherwise // it returns nullptr. const GrPixelConfig* getMockFormat() const; // If possible, copies the GrBackendFormat and forces the texture type to be Texture2D. If the // GrBackendFormat was for Vulkan and it originally had a GrVkYcbcrConversionInfo, we will // remove the conversion and set the format to be VK_FORMAT_R8G8B8A8_UNORM. GrBackendFormat makeTexture2D() const; // Returns true if the backend format has been initialized. bool isValid() const { return fValid; } private: GrBackendFormat(GrGLenum format, GrGLenum target); GrBackendFormat(const VkFormat vkFormat, const GrVkYcbcrConversionInfo&); #ifdef SK_METAL GrBackendFormat(const GrMTLPixelFormat mtlFormat); #endif GrBackendFormat(const GrPixelConfig config); GrBackendApi fBackend; bool fValid; union { GrGLenum fGLFormat; // the sized, internal format of the GL resource struct { VkFormat fFormat; GrVkYcbcrConversionInfo fYcbcrConversionInfo; } fVk; #ifdef SK_METAL GrMTLPixelFormat fMtlFormat; #endif GrPixelConfig fMockFormat; }; GrTextureType fTextureType; }; class SK_API GrBackendTexture { public: // Creates an invalid backend texture. GrBackendTexture() : fIsValid(false) {} // The GrGLTextureInfo must have a valid fFormat. GrBackendTexture(int width, int height, GrMipMapped, const GrGLTextureInfo& glInfo); GrBackendTexture(int width, int height, const GrVkImageInfo& vkInfo); #ifdef SK_METAL GrBackendTexture(int width, int height, GrMipMapped, const GrMtlTextureInfo& mtlInfo); #endif GrBackendTexture(int width, int height, GrMipMapped, const GrMockTextureInfo& mockInfo); GrBackendTexture(const GrBackendTexture& that); ~GrBackendTexture(); GrBackendTexture& operator=(const GrBackendTexture& that); int width() const { return fWidth; } int height() const { return fHeight; } bool hasMipMaps() const { return GrMipMapped::kYes == fMipMapped; } GrBackendApi backend() const {return fBackend; } // If the backend API is GL, copies a snapshot of the GrGLTextureInfo struct into the passed in // pointer and returns true. Otherwise returns false if the backend API is not GL. bool getGLTextureInfo(GrGLTextureInfo*) const; // If the backend API is Vulkan, copies a snapshot of the GrVkImageInfo struct into the passed // in pointer and returns true. This snapshot will set the fImageLayout to the current layout // state. Otherwise returns false if the backend API is not Vulkan. bool getVkImageInfo(GrVkImageInfo*) const; // Anytime the client changes the VkImageLayout of the VkImage captured by this // GrBackendTexture, they must call this function to notify Skia of the changed layout. void setVkImageLayout(VkImageLayout); #ifdef SK_METAL // If the backend API is Metal, copies a snapshot of the GrMtlTextureInfo struct into the passed // in pointer and returns true. Otherwise returns false if the backend API is not Metal. bool getMtlTextureInfo(GrMtlTextureInfo*) const; #endif // Get the GrBackendFormat for this texture (or an invalid format if this is not valid). GrBackendFormat getBackendFormat() const; // If the backend API is Mock, copies a snapshot of the GrMockTextureInfo struct into the passed // in pointer and returns true. Otherwise returns false if the backend API is not Mock. bool getMockTextureInfo(GrMockTextureInfo*) const; // Returns true if the backend texture has been initialized. bool isValid() const { return fIsValid; } #if GR_TEST_UTILS // We can remove the pixelConfig getter and setter once we remove the GrPixelConfig from the // GrBackendTexture and plumb the GrPixelconfig manually throughout our code (or remove all use // of GrPixelConfig in general). GrPixelConfig pixelConfig() const { return fConfig; } void setPixelConfig(GrPixelConfig config) { fConfig = config; } static bool TestingOnly_Equals(const GrBackendTexture& , const GrBackendTexture&); #endif private: // Friending for access to the GrPixelConfig friend class SkImage; friend class SkImage_Gpu; friend class SkImage_GpuBase; friend class SkImage_GpuYUVA; friend class SkPromiseImageHelper; friend class SkSurface; friend class GrAHardwareBufferImageGenerator; friend class GrBackendTextureImageGenerator; friend class GrProxyProvider; friend class GrGpu; friend class GrGLGpu; friend class GrVkGpu; friend class GrMtlGpu; friend class PromiseImageHelper; GrPixelConfig config() const { return fConfig; } // Requires friending of GrVkGpu (done above already) sk_sp getGrVkImageLayout() const; friend class GrVkTexture; #ifdef SK_VULKAN GrBackendTexture(int width, int height, const GrVkImageInfo& vkInfo, sk_sp layout); #endif // Free and release and resources being held by the GrBackendTexture. void cleanup(); bool fIsValid; int fWidth; // getGrVkImageLayout() const; friend class GrVkRenderTarget; GrBackendRenderTarget(int width, int height, int sampleCnt, const GrVkImageInfo& vkInfo, sk_sp layout); // Free and release and resources being held by the GrBackendTexture. void cleanup(); bool fIsValid; int fWidth; //