d1b2eec0d0
This CL does not include an actual implementation of said cache. Stan is working on the cache implementation on the Android side of things. Bug: skia: Change-Id: Iabe4f19b2dbacaaa1ead8bb3fa68d88c687b9a84 Reviewed-on: https://skia-review.googlesource.com/54780 Reviewed-by: Brian Salomon <bsalomon@google.com> Commit-Queue: Ethan Nicholas <ethannicholas@google.com>
438 lines
18 KiB
C++
438 lines
18 KiB
C++
/*
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* Copyright 2010 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef GrContext_DEFINED
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#define GrContext_DEFINED
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#include "GrCaps.h"
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#include "GrColor.h"
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#include "SkMatrix.h"
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#include "SkPathEffect.h"
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#include "SkTypes.h"
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#include "../private/GrAuditTrail.h"
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#include "../private/GrSingleOwner.h"
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#include "GrContextOptions.h"
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class GrAtlasGlyphCache;
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class GrBackendSemaphore;
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class GrContextPriv;
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class GrContextThreadSafeProxy;
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class GrDrawingManager;
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struct GrDrawOpAtlasConfig;
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class GrFragmentProcessor;
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struct GrGLInterface;
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class GrGpu;
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class GrIndexBuffer;
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struct GrMockOptions;
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class GrOvalRenderer;
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class GrPath;
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class GrRenderTargetContext;
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class GrResourceEntry;
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class GrResourceCache;
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class GrResourceProvider;
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class GrSamplerState;
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class GrSurfaceProxy;
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class GrTextBlobCache;
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class GrTextContext;
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class GrTextureProxy;
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class GrVertexBuffer;
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struct GrVkBackendContext;
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class GrSwizzle;
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class SkTraceMemoryDump;
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class SkImage;
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class SkSurfaceProps;
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class SkTaskGroup;
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class SK_API GrContext : public SkRefCnt {
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public:
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/**
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* Creates a GrContext for a backend context.
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*/
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static GrContext* Create(GrBackend, GrBackendContext, const GrContextOptions& options);
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static GrContext* Create(GrBackend, GrBackendContext);
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static sk_sp<GrContext> MakeGL(const GrGLInterface*, const GrContextOptions&);
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static sk_sp<GrContext> MakeGL(const GrGLInterface*);
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#ifdef SK_VULKAN
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static sk_sp<GrContext> MakeVulkan(const GrVkBackendContext*, const GrContextOptions&);
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static sk_sp<GrContext> MakeVulkan(const GrVkBackendContext*);
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#endif
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#ifdef SK_METAL
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/**
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* Makes a GrContext which uses Metal as the backend. The device parameter is an MTLDevice
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* and queue is an MTLCommandQueue which should be used by the backend. These objects must
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* have a ref on them which can be transferred to Ganesh which will release the ref when the
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* GrContext is destroyed.
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*/
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static sk_sp<GrContext> MakeMetal(void* device, void* queue, const GrContextOptions& options);
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static sk_sp<GrContext> MakeMetal(void* device, void* queue);
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#endif
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static sk_sp<GrContext> MakeMock(const GrMockOptions*, const GrContextOptions&);
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static sk_sp<GrContext> MakeMock(const GrMockOptions*);
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virtual ~GrContext();
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sk_sp<GrContextThreadSafeProxy> threadSafeProxy();
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/**
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* The GrContext normally assumes that no outsider is setting state
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* within the underlying 3D API's context/device/whatever. This call informs
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* the context that the state was modified and it should resend. Shouldn't
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* be called frequently for good performance.
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* The flag bits, state, is dpendent on which backend is used by the
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* context, either GL or D3D (possible in future).
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*/
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void resetContext(uint32_t state = kAll_GrBackendState);
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/**
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* Callback function to allow classes to cleanup on GrContext destruction.
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* The 'info' field is filled in with the 'info' passed to addCleanUp.
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*/
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typedef void (*PFCleanUpFunc)(const GrContext* context, void* info);
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/**
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* Add a function to be called from within GrContext's destructor.
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* This gives classes a chance to free resources held on a per context basis.
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* The 'info' parameter will be stored and passed to the callback function.
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*/
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void addCleanUp(PFCleanUpFunc cleanUp, void* info) {
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CleanUpData* entry = fCleanUpData.push();
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entry->fFunc = cleanUp;
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entry->fInfo = info;
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}
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/**
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* Abandons all GPU resources and assumes the underlying backend 3D API context is not longer
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* usable. Call this if you have lost the associated GPU context, and thus internal texture,
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* buffer, etc. references/IDs are now invalid. Calling this ensures that the destructors of the
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* GrContext and any of its created resource objects will not make backend 3D API calls. Content
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* rendered but not previously flushed may be lost. After this function is called all subsequent
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* calls on the GrContext will fail or be no-ops.
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*
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* The typical use case for this function is that the underlying 3D context was lost and further
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* API calls may crash.
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*/
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void abandonContext();
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/**
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* This is similar to abandonContext() however the underlying 3D context is not yet lost and
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* the GrContext will cleanup all allocated resources before returning. After returning it will
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* assume that the underlying context may no longer be valid.
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*
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* The typical use case for this function is that the client is going to destroy the 3D context
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* but can't guarantee that GrContext will be destroyed first (perhaps because it may be ref'ed
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* elsewhere by either the client or Skia objects).
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*/
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void releaseResourcesAndAbandonContext();
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///////////////////////////////////////////////////////////////////////////
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// Resource Cache
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/**
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* Return the current GPU resource cache limits.
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*
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* @param maxResources If non-null, returns maximum number of resources that
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* can be held in the cache.
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* @param maxResourceBytes If non-null, returns maximum number of bytes of
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* video memory that can be held in the cache.
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*/
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void getResourceCacheLimits(int* maxResources, size_t* maxResourceBytes) const;
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/**
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* Gets the current GPU resource cache usage.
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*
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* @param resourceCount If non-null, returns the number of resources that are held in the
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* cache.
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* @param maxResourceBytes If non-null, returns the total number of bytes of video memory held
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* in the cache.
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*/
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void getResourceCacheUsage(int* resourceCount, size_t* resourceBytes) const;
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/**
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* Gets the number of bytes in the cache consumed by purgeable (e.g. unlocked) resources.
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*/
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size_t getResourceCachePurgeableBytes() const;
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/**
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* Specify the GPU resource cache limits. If the current cache exceeds either
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* of these, it will be purged (LRU) to keep the cache within these limits.
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*
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* @param maxResources The maximum number of resources that can be held in
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* the cache.
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* @param maxResourceBytes The maximum number of bytes of video memory
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* that can be held in the cache.
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*/
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void setResourceCacheLimits(int maxResources, size_t maxResourceBytes);
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/**
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* Frees GPU created by the context. Can be called to reduce GPU memory
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* pressure.
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*/
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void freeGpuResources();
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/**
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* Purge all the unlocked resources from the cache.
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* This entry point is mainly meant for timing texture uploads
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* and is not defined in normal builds of Skia.
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*/
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void purgeAllUnlockedResources();
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/**
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* Purge GPU resources that haven't been used in the past 'ms' milliseconds, regardless of
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* whether the context is currently under budget.
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*/
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void purgeResourcesNotUsedInMs(std::chrono::milliseconds ms);
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/**
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* Purge unlocked resources from the cache until the the provided byte count has been reached
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* or we have purged all unlocked resources. The default policy is to purge in LRU order, but
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* can be overridden to prefer purging scratch resources (in LRU order) prior to purging other
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* resource types.
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*
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* @param maxBytesToPurge the desired number of bytes to be purged.
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* @param preferScratchResources If true scratch resources will be purged prior to other
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* resource types.
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*/
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void purgeUnlockedResources(size_t bytesToPurge, bool preferScratchResources);
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/** Access the context capabilities */
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const GrCaps* caps() const { return fCaps; }
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/**
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* Returns the recommended sample count for a render target when using this
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* context.
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*
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* @param config the configuration of the render target.
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* @param dpi the display density in dots per inch.
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*
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* @return sample count that should be perform well and have good enough
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* rendering quality for the display. Alternatively returns 0 if
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* MSAA is not supported or recommended to be used by default.
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*/
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int getRecommendedSampleCount(GrPixelConfig config, SkScalar dpi) const;
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/*
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* Create a new render target context backed by a deferred-style
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* GrRenderTargetProxy. We guarantee that "asTextureProxy" will succeed for
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* renderTargetContexts created via this entry point.
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*/
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sk_sp<GrRenderTargetContext> makeDeferredRenderTargetContext(
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SkBackingFit fit,
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int width, int height,
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GrPixelConfig config,
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sk_sp<SkColorSpace> colorSpace,
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int sampleCnt = 0,
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GrMipMapped = GrMipMapped::kNo,
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GrSurfaceOrigin origin = kBottomLeft_GrSurfaceOrigin,
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const SkSurfaceProps* surfaceProps = nullptr,
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SkBudgeted = SkBudgeted::kYes);
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/*
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* This method will attempt to create a renderTargetContext that has, at least, the number of
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* channels and precision per channel as requested in 'config' (e.g., A8 and 888 can be
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* converted to 8888). It may also swizzle the channels (e.g., BGRA -> RGBA).
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* SRGB-ness will be preserved.
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*/
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sk_sp<GrRenderTargetContext> makeDeferredRenderTargetContextWithFallback(
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SkBackingFit fit,
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int width, int height,
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GrPixelConfig config,
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sk_sp<SkColorSpace> colorSpace,
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int sampleCnt = 0,
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GrMipMapped = GrMipMapped::kNo,
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GrSurfaceOrigin origin = kBottomLeft_GrSurfaceOrigin,
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const SkSurfaceProps* surfaceProps = nullptr,
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SkBudgeted budgeted = SkBudgeted::kYes);
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///////////////////////////////////////////////////////////////////////////
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// Misc.
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/**
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* Call to ensure all drawing to the context has been issued to the underlying 3D API.
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*/
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void flush();
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/**
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* Call to ensure all drawing to the context has been issued to the underlying 3D API. After
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* issuing all commands, numSemaphore semaphores will be signaled by the gpu. The client passes
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* in an array of numSemaphores GrBackendSemaphores. In general these GrBackendSemaphore's can
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* be either initialized or not. If they are initialized, the backend uses the passed in
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* semaphore. If it is not initialized, a new semaphore is created and the GrBackendSemaphore
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* object is initialized with that semaphore.
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*
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* The client will own and be responsible for deleting the underlying semaphores that are stored
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* and returned in initialized GrBackendSemaphore objects. The GrBackendSemaphore objects
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* themselves can be deleted as soon as this function returns.
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*
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* If the backend API is OpenGL only uninitialized GrBackendSemaphores are supported.
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* If the backend API is Vulkan either initialized or unitialized semaphores are supported.
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* If unitialized, the semaphores which are created will be valid for use only with the VkDevice
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* with which they were created.
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*
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* If this call returns GrSemaphoresSubmited::kNo, the GPU backend will not have created or
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* added any semaphores to signal on the GPU. Thus the client should not have the GPU wait on
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* any of the semaphores. However, any pending commands to the context will still be flushed.
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*/
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GrSemaphoresSubmitted flushAndSignalSemaphores(int numSemaphores,
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GrBackendSemaphore signalSemaphores[]);
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/**
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* An ID associated with this context, guaranteed to be unique.
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*/
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uint32_t uniqueID() { return fUniqueID; }
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///////////////////////////////////////////////////////////////////////////
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// Functions intended for internal use only.
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GrGpu* getGpu() { return fGpu; }
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const GrGpu* getGpu() const { return fGpu; }
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GrAtlasGlyphCache* getAtlasGlyphCache() { return fAtlasGlyphCache; }
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GrTextBlobCache* getTextBlobCache() { return fTextBlobCache.get(); }
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bool abandoned() const;
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GrResourceProvider* resourceProvider() { return fResourceProvider; }
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const GrResourceProvider* resourceProvider() const { return fResourceProvider; }
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GrResourceCache* getResourceCache() { return fResourceCache; }
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/** Reset GPU stats */
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void resetGpuStats() const ;
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/** Prints cache stats to the string if GR_CACHE_STATS == 1. */
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void dumpCacheStats(SkString*) const;
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void dumpCacheStatsKeyValuePairs(SkTArray<SkString>* keys, SkTArray<double>* values) const;
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void printCacheStats() const;
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/** Prints GPU stats to the string if GR_GPU_STATS == 1. */
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void dumpGpuStats(SkString*) const;
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void dumpGpuStatsKeyValuePairs(SkTArray<SkString>* keys, SkTArray<double>* values) const;
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void printGpuStats() const;
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/** Returns a string with detailed information about the context & GPU, in JSON format. */
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SkString dump() const;
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/** Specify the TextBlob cache limit. If the current cache exceeds this limit it will purge.
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this is for testing only */
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void setTextBlobCacheLimit_ForTesting(size_t bytes);
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/** Specify the sizes of the GrAtlasTextContext atlases. The configs pointer below should be
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to an array of 3 entries */
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void setTextContextAtlasSizes_ForTesting(const GrDrawOpAtlasConfig* configs);
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/** Enumerates all cached GPU resources and dumps their memory to traceMemoryDump. */
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void dumpMemoryStatistics(SkTraceMemoryDump* traceMemoryDump) const;
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/** Get pointer to atlas texture for given mask format. Note that this wraps an
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actively mutating texture in an SkImage. This could yield unexpected results
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if it gets cached or used more generally. */
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sk_sp<SkImage> getFontAtlasImage_ForTesting(GrMaskFormat format);
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GrAuditTrail* getAuditTrail() { return &fAuditTrail; }
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GrContextOptions::PersistentCache* getPersistentCache() { return fPersistentCache; }
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/** This is only useful for debug purposes */
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SkDEBUGCODE(GrSingleOwner* debugSingleOwner() const { return &fSingleOwner; } )
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// Provides access to functions that aren't part of the public API.
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GrContextPriv contextPriv();
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const GrContextPriv contextPriv() const;
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private:
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GrGpu* fGpu;
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const GrCaps* fCaps;
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GrResourceCache* fResourceCache;
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GrResourceProvider* fResourceProvider;
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sk_sp<GrContextThreadSafeProxy> fThreadSafeProxy;
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GrAtlasGlyphCache* fAtlasGlyphCache;
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std::unique_ptr<GrTextBlobCache> fTextBlobCache;
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bool fDisableGpuYUVConversion;
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bool fDidTestPMConversions;
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// true if the PM/UPM conversion succeeded; false otherwise
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bool fPMUPMConversionsRoundTrip;
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// In debug builds we guard against improper thread handling
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// This guard is passed to the GrDrawingManager and, from there to all the
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// GrRenderTargetContexts. It is also passed to the GrResourceProvider and SkGpuDevice.
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mutable GrSingleOwner fSingleOwner;
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std::unique_ptr<SkTaskGroup> fTaskGroup;
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struct CleanUpData {
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PFCleanUpFunc fFunc;
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void* fInfo;
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};
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SkTDArray<CleanUpData> fCleanUpData;
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const uint32_t fUniqueID;
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std::unique_ptr<GrDrawingManager> fDrawingManager;
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GrAuditTrail fAuditTrail;
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GrBackend fBackend;
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GrContextOptions::PersistentCache* fPersistentCache;
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// TODO: have the GrClipStackClip use renderTargetContexts and rm this friending
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friend class GrContextPriv;
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GrContext(); // init must be called after the constructor.
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bool init(GrBackend, GrBackendContext, const GrContextOptions& options);
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bool init(const GrContextOptions& options);
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/**
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* These functions create premul <-> unpremul effects. If the second argument is 'true', they
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* use the specialized round-trip effects from GrConfigConversionEffect, otherwise they
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* create effects that do naive multiply or divide.
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*/
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std::unique_ptr<GrFragmentProcessor> createPMToUPMEffect(std::unique_ptr<GrFragmentProcessor>,
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bool useConfigConversionEffect);
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std::unique_ptr<GrFragmentProcessor> createUPMToPMEffect(std::unique_ptr<GrFragmentProcessor>,
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bool useConfigConversionEffect);
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/**
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* Returns true if createPMtoUPMEffect and createUPMToPMEffect will succeed for non-sRGB 8888
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* configs. In other words, did we find a pair of round-trip preserving conversion effects?
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*/
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bool validPMUPMConversionExists();
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/**
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* A callback similar to the above for use by the TextBlobCache
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* TODO move textblob draw calls below context so we can use the call above.
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*/
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static void TextBlobCacheOverBudgetCB(void* data);
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typedef SkRefCnt INHERITED;
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};
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/**
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* Can be used to perform actions related to the generating GrContext in a thread safe manner. The
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* proxy does not access the 3D API (e.g. OpenGL) that backs the generating GrContext.
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*/
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class GrContextThreadSafeProxy : public SkRefCnt {
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private:
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GrContextThreadSafeProxy(sk_sp<const GrCaps> caps, uint32_t uniqueID)
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: fCaps(std::move(caps))
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, fContextUniqueID(uniqueID) {}
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sk_sp<const GrCaps> fCaps;
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uint32_t fContextUniqueID;
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friend class GrContext;
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friend class SkImage;
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typedef SkRefCnt INHERITED;
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};
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#endif
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