/* * Copyright 2023 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef GrSurfaceCharacterization_DEFINED #define GrSurfaceCharacterization_DEFINED #include "include/core/SkColorSpace.h" // IWYU pragma: keep #include "include/core/SkColorType.h" #include "include/core/SkImageInfo.h" #include "include/core/SkRefCnt.h" #include "include/core/SkSize.h" #include "include/core/SkSurfaceProps.h" #include "include/core/SkTypes.h" #include "include/gpu/GpuTypes.h" #include "include/gpu/GrBackendSurface.h" #include "include/gpu/GrContextThreadSafeProxy.h" #include "include/gpu/GrTypes.h" #include "include/private/base/SkDebug.h" #include #include /** \class GrSurfaceCharacterization A surface characterization contains all the information Ganesh requires to makes its internal rendering decisions. When passed into a GrDeferredDisplayListRecorder it will copy the data and pass it on to the GrDeferredDisplayList if/when it is created. Note that both of those objects (the Recorder and the DisplayList) will take a ref on the GrContextThreadSafeProxy and SkColorSpace objects. */ class SK_API GrSurfaceCharacterization { public: enum class Textureable : bool { kNo = false, kYes = true }; enum class UsesGLFBO0 : bool { kNo = false, kYes = true }; // This flag indicates that the backing VkImage for this Vulkan surface will have the // VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT set. This bit allows skia to handle advanced blends // more optimally in a shader by being able to directly read the dst values. enum class VkRTSupportsInputAttachment : bool { kNo = false, kYes = true }; // This flag indicates if the surface is wrapping a raw Vulkan secondary command buffer. enum class VulkanSecondaryCBCompatible : bool { kNo = false, kYes = true }; GrSurfaceCharacterization() : fCacheMaxResourceBytes(0) , fOrigin(kBottomLeft_GrSurfaceOrigin) , fSampleCnt(0) , fIsTextureable(Textureable::kYes) , fIsMipmapped(skgpu::Mipmapped::kYes) , fUsesGLFBO0(UsesGLFBO0::kNo) , fVulkanSecondaryCBCompatible(VulkanSecondaryCBCompatible::kNo) , fIsProtected(skgpu::Protected::kNo) , fSurfaceProps() {} GrSurfaceCharacterization(GrSurfaceCharacterization&&) = default; GrSurfaceCharacterization& operator=(GrSurfaceCharacterization&&) = default; GrSurfaceCharacterization(const GrSurfaceCharacterization&) = default; GrSurfaceCharacterization& operator=(const GrSurfaceCharacterization& other) = default; bool operator==(const GrSurfaceCharacterization& other) const; bool operator!=(const GrSurfaceCharacterization& other) const { return !(*this == other); } /* * Return a new surface characterization with the only difference being a different width * and height */ GrSurfaceCharacterization createResized(int width, int height) const; /* * Return a new surface characterization with only a replaced color space */ GrSurfaceCharacterization createColorSpace(sk_sp) const; /* * Return a new surface characterization with the backend format replaced. A colorType * must also be supplied to indicate the interpretation of the new format. */ GrSurfaceCharacterization createBackendFormat(SkColorType colorType, const GrBackendFormat& backendFormat) const; /* * Return a new surface characterization with just a different use of FBO0 (in GL) */ GrSurfaceCharacterization createFBO0(bool usesGLFBO0) const; GrContextThreadSafeProxy* contextInfo() const { return fContextInfo.get(); } sk_sp refContextInfo() const { return fContextInfo; } size_t cacheMaxResourceBytes() const { return fCacheMaxResourceBytes; } bool isValid() const { return kUnknown_SkColorType != fImageInfo.colorType(); } const SkImageInfo& imageInfo() const { return fImageInfo; } const GrBackendFormat& backendFormat() const { return fBackendFormat; } GrSurfaceOrigin origin() const { return fOrigin; } SkISize dimensions() const { return fImageInfo.dimensions(); } int width() const { return fImageInfo.width(); } int height() const { return fImageInfo.height(); } SkColorType colorType() const { return fImageInfo.colorType(); } int sampleCount() const { return fSampleCnt; } bool isTextureable() const { return Textureable::kYes == fIsTextureable; } bool isMipMapped() const { return skgpu::Mipmapped::kYes == fIsMipmapped; } bool usesGLFBO0() const { return UsesGLFBO0::kYes == fUsesGLFBO0; } bool vkRTSupportsInputAttachment() const { return VkRTSupportsInputAttachment::kYes == fVkRTSupportsInputAttachment; } bool vulkanSecondaryCBCompatible() const { return VulkanSecondaryCBCompatible::kYes == fVulkanSecondaryCBCompatible; } skgpu::Protected isProtected() const { return fIsProtected; } SkColorSpace* colorSpace() const { return fImageInfo.colorSpace(); } sk_sp refColorSpace() const { return fImageInfo.refColorSpace(); } const SkSurfaceProps& surfaceProps()const { return fSurfaceProps; } private: friend class SkSurface_Ganesh; // for 'set' & 'config' friend class GrVkSecondaryCBDrawContext; // for 'set' & 'config' friend class GrContextThreadSafeProxy; // for private ctor friend class GrVkContextThreadSafeProxy; // for private ctor friend class GrDeferredDisplayListRecorder; // for 'config' friend class SkSurface; // for 'config' SkDEBUGCODE(void validate() const;) GrSurfaceCharacterization(sk_sp contextInfo, size_t cacheMaxResourceBytes, const SkImageInfo& ii, const GrBackendFormat& backendFormat, GrSurfaceOrigin origin, int sampleCnt, Textureable isTextureable, skgpu::Mipmapped isMipmapped, UsesGLFBO0 usesGLFBO0, VkRTSupportsInputAttachment vkRTSupportsInputAttachment, VulkanSecondaryCBCompatible vulkanSecondaryCBCompatible, skgpu::Protected isProtected, const SkSurfaceProps& surfaceProps) : fContextInfo(std::move(contextInfo)) , fCacheMaxResourceBytes(cacheMaxResourceBytes) , fImageInfo(ii) , fBackendFormat(std::move(backendFormat)) , fOrigin(origin) , fSampleCnt(sampleCnt) , fIsTextureable(isTextureable) , fIsMipmapped(isMipmapped) , fUsesGLFBO0(usesGLFBO0) , fVkRTSupportsInputAttachment(vkRTSupportsInputAttachment) , fVulkanSecondaryCBCompatible(vulkanSecondaryCBCompatible) , fIsProtected(isProtected) , fSurfaceProps(surfaceProps) { if (fSurfaceProps.flags() & SkSurfaceProps::kDynamicMSAA_Flag) { // Dynamic MSAA is not currently supported with DDL. *this = {}; } SkDEBUGCODE(this->validate()); } void set(sk_sp contextInfo, size_t cacheMaxResourceBytes, const SkImageInfo& ii, const GrBackendFormat& backendFormat, GrSurfaceOrigin origin, int sampleCnt, Textureable isTextureable, skgpu::Mipmapped isMipmapped, UsesGLFBO0 usesGLFBO0, VkRTSupportsInputAttachment vkRTSupportsInputAttachment, VulkanSecondaryCBCompatible vulkanSecondaryCBCompatible, skgpu::Protected isProtected, const SkSurfaceProps& surfaceProps) { if (surfaceProps.flags() & SkSurfaceProps::kDynamicMSAA_Flag) { // Dynamic MSAA is not currently supported with DDL. *this = {}; } else { fContextInfo = std::move(contextInfo); fCacheMaxResourceBytes = cacheMaxResourceBytes; fImageInfo = ii; fBackendFormat = std::move(backendFormat); fOrigin = origin; fSampleCnt = sampleCnt; fIsTextureable = isTextureable; fIsMipmapped = isMipmapped; fUsesGLFBO0 = usesGLFBO0; fVkRTSupportsInputAttachment = vkRTSupportsInputAttachment; fVulkanSecondaryCBCompatible = vulkanSecondaryCBCompatible; fIsProtected = isProtected; fSurfaceProps = surfaceProps; } SkDEBUGCODE(this->validate()); } sk_sp fContextInfo; size_t fCacheMaxResourceBytes; SkImageInfo fImageInfo; GrBackendFormat fBackendFormat; GrSurfaceOrigin fOrigin; int fSampleCnt; Textureable fIsTextureable; skgpu::Mipmapped fIsMipmapped; UsesGLFBO0 fUsesGLFBO0; VkRTSupportsInputAttachment fVkRTSupportsInputAttachment; VulkanSecondaryCBCompatible fVulkanSecondaryCBCompatible; skgpu::Protected fIsProtected; SkSurfaceProps fSurfaceProps; }; #endif