aee18c95b1
The removal of IORefs from GrSurface makes a lot of other cruft obsolete. Change-Id: I0e02d680a17dc4f4ec705cb6ee4c294738271e28 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/239919 Reviewed-by: Brian Salomon <bsalomon@google.com> Commit-Queue: Robert Phillips <robertphillips@google.com>
317 lines
11 KiB
C++
317 lines
11 KiB
C++
/*
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* Copyright 2014 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 GrGpuResource_DEFINED
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#define GrGpuResource_DEFINED
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#include "include/private/GrResourceKey.h"
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#include "include/private/GrTypesPriv.h"
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#include "include/private/SkNoncopyable.h"
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class GrContext;
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class GrGpu;
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class GrResourceCache;
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class SkTraceMemoryDump;
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/**
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* Base class for GrGpuResource. Provides the hooks for resources to interact with the cache.
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* Separated out as a base class to isolate the ref-cnting behavior and provide friendship without
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* exposing all of GrGpuResource.
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*
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* PRIOR to the last ref being removed DERIVED::notifyRefCntWillBeZero() will be called
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* (static poly morphism using CRTP). It is legal for additional ref's to be added
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* during this time. AFTER the ref count reaches zero DERIVED::notifyRefCntIsZero() will be
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* called.
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*/
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template <typename DERIVED> class GrIORef : public SkNoncopyable {
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public:
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bool unique() const { return fRefCnt == 1; }
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// Some of the signatures are written to mirror SkRefCnt so that GrGpuResource can work with
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// templated helper classes (e.g. sk_sp). However, we don't require thread safety as
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// GrCacheable objects are not intended to cross thread boundaries.
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void ref() const {
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// Only the cache should be able to add the first ref to a resource.
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SkASSERT(fRefCnt > 0);
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++fRefCnt;
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}
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void unref() const {
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SkASSERT(fRefCnt > 0);
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if (fRefCnt == 1) {
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static_cast<const DERIVED*>(this)->notifyRefCntWillBeZero();
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// TODO: I believe we never add refs at this point any more - simplify
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// Additionally, merge notifyRefCntWillBeZero and willRemoveLastRef
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SkASSERT(fRefCnt > 0);
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}
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if (--fRefCnt == 0) {
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static_cast<const DERIVED*>(this)->notifyRefCntIsZero();
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}
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}
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#if GR_TEST_UTILS
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int32_t testingOnly_getRefCnt() const { return fRefCnt; }
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#endif
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protected:
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friend class GrResourceCache; // for internalHasRef
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GrIORef() : fRefCnt(1) {}
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bool internalHasRef() const { return SkToBool(fRefCnt); }
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// Privileged method that allows going from ref count = 0 to ref count = 1.
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void addInitialRef() const {
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SkASSERT(fRefCnt >= 0);
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++fRefCnt;
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}
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private:
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mutable int32_t fRefCnt;
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typedef SkNoncopyable INHERITED;
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};
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/**
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* Base class for objects that can be kept in the GrResourceCache.
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*/
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class SK_API GrGpuResource : public GrIORef<GrGpuResource> {
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public:
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/**
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* Tests whether a object has been abandoned or released. All objects will
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* be in this state after their creating GrContext is destroyed or has
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* contextLost called. It's up to the client to test wasDestroyed() before
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* attempting to use an object if it holds refs on objects across
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* ~GrContext, freeResources with the force flag, or contextLost.
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*
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* @return true if the object has been released or abandoned,
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* false otherwise.
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*/
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bool wasDestroyed() const { return nullptr == fGpu; }
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/**
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* Retrieves the context that owns the object. Note that it is possible for
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* this to return NULL. When objects have been release()ed or abandon()ed
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* they no longer have an owning context. Destroying a GrContext
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* automatically releases all its resources.
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*/
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const GrContext* getContext() const;
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GrContext* getContext();
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/**
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* Retrieves the amount of GPU memory used by this resource in bytes. It is
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* approximate since we aren't aware of additional padding or copies made
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* by the driver.
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*
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* @return the amount of GPU memory used in bytes
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*/
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size_t gpuMemorySize() const {
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if (kInvalidGpuMemorySize == fGpuMemorySize) {
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fGpuMemorySize = this->onGpuMemorySize();
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SkASSERT(kInvalidGpuMemorySize != fGpuMemorySize);
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}
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return fGpuMemorySize;
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}
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class UniqueID {
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public:
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UniqueID() = default;
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explicit UniqueID(uint32_t id) : fID(id) {}
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uint32_t asUInt() const { return fID; }
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bool operator==(const UniqueID& other) const { return fID == other.fID; }
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bool operator!=(const UniqueID& other) const { return !(*this == other); }
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void makeInvalid() { fID = SK_InvalidUniqueID; }
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bool isInvalid() const { return fID == SK_InvalidUniqueID; }
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protected:
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uint32_t fID = SK_InvalidUniqueID;
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};
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/**
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* Gets an id that is unique for this GrGpuResource object. It is static in that it does
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* not change when the content of the GrGpuResource object changes. This will never return
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* 0.
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*/
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UniqueID uniqueID() const { return fUniqueID; }
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/** Returns the current unique key for the resource. It will be invalid if the resource has no
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associated unique key. */
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const GrUniqueKey& getUniqueKey() const { return fUniqueKey; }
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/**
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* Internal-only helper class used for manipulations of the resource by the cache.
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*/
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class CacheAccess;
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inline CacheAccess cacheAccess();
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inline const CacheAccess cacheAccess() const;
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/**
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* Internal-only helper class used for manipulations of the resource by GrSurfaceProxy.
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*/
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class ProxyAccess;
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inline ProxyAccess proxyAccess();
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/**
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* Internal-only helper class used for manipulations of the resource by internal code.
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*/
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class ResourcePriv;
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inline ResourcePriv resourcePriv();
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inline const ResourcePriv resourcePriv() const;
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/**
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* Dumps memory usage information for this GrGpuResource to traceMemoryDump.
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* Typically, subclasses should not need to override this, and should only
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* need to override setMemoryBacking.
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**/
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virtual void dumpMemoryStatistics(SkTraceMemoryDump* traceMemoryDump) const;
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/**
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* Describes the type of gpu resource that is represented by the implementing
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* class (e.g. texture, buffer object, stencil). This data is used for diagnostic
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* purposes by dumpMemoryStatistics().
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*
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* The value returned is expected to be long lived and will not be copied by the caller.
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*/
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virtual const char* getResourceType() const = 0;
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static uint32_t CreateUniqueID();
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protected:
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// This must be called by every non-wrapped GrGpuObject. It should be called once the object is
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// fully initialized (i.e. only from the constructors of the final class).
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void registerWithCache(SkBudgeted);
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// This must be called by every GrGpuObject that references any wrapped backend objects. It
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// should be called once the object is fully initialized (i.e. only from the constructors of the
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// final class).
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void registerWithCacheWrapped(GrWrapCacheable);
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GrGpuResource(GrGpu*);
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virtual ~GrGpuResource();
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GrGpu* getGpu() const { return fGpu; }
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/** Overridden to free GPU resources in the backend API. */
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virtual void onRelease() { }
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/** Overridden to abandon any internal handles, ptrs, etc to backend API resources.
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This may be called when the underlying 3D context is no longer valid and so no
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backend API calls should be made. */
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virtual void onAbandon() { }
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/**
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* Allows subclasses to add additional backing information to the SkTraceMemoryDump.
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**/
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virtual void setMemoryBacking(SkTraceMemoryDump*, const SkString&) const {}
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/**
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* Returns a string that uniquely identifies this resource.
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*/
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SkString getResourceName() const;
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/**
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* A helper for subclasses that override dumpMemoryStatistics(). This method using a format
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* consistent with the default implementation of dumpMemoryStatistics() but allows the caller
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* to customize various inputs.
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*/
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void dumpMemoryStatisticsPriv(SkTraceMemoryDump* traceMemoryDump, const SkString& resourceName,
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const char* type, size_t size) const;
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private:
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bool isPurgeable() const;
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bool hasRef() const;
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/**
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* Called by the registerWithCache if the resource is available to be used as scratch.
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* Resource subclasses should override this if the instances should be recycled as scratch
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* resources and populate the scratchKey with the key.
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* By default resources are not recycled as scratch.
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**/
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virtual void computeScratchKey(GrScratchKey*) const {}
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/**
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* Removes references to objects in the underlying 3D API without freeing them.
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* Called by CacheAccess.
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*/
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void abandon();
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/**
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* Frees the object in the underlying 3D API. Called by CacheAccess.
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*/
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void release();
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virtual size_t onGpuMemorySize() const = 0;
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/**
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* Called by GrIORef when a resource is about to lose its last ref
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*/
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virtual void willRemoveLastRef() {}
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// See comments in CacheAccess and ResourcePriv.
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void setUniqueKey(const GrUniqueKey&);
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void removeUniqueKey();
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void notifyRefCntWillBeZero() const;
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void notifyRefCntIsZero() const;
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void removeScratchKey();
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void makeBudgeted();
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void makeUnbudgeted();
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#ifdef SK_DEBUG
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friend class GrGpu; // for assert in GrGpu to access getGpu
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#endif
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// An index into a heap when this resource is purgeable or an array when not. This is maintained
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// by the cache.
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int fCacheArrayIndex;
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// This value reflects how recently this resource was accessed in the cache. This is maintained
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// by the cache.
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uint32_t fTimestamp;
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GrStdSteadyClock::time_point fTimeWhenBecamePurgeable;
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static const size_t kInvalidGpuMemorySize = ~static_cast<size_t>(0);
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GrScratchKey fScratchKey;
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GrUniqueKey fUniqueKey;
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// This is not ref'ed but abandon() or release() will be called before the GrGpu object
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// is destroyed. Those calls set will this to NULL.
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GrGpu* fGpu;
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mutable size_t fGpuMemorySize = kInvalidGpuMemorySize;
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GrBudgetedType fBudgetedType = GrBudgetedType::kUnbudgetedUncacheable;
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bool fRefsWrappedObjects = false;
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const UniqueID fUniqueID;
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typedef GrIORef<GrGpuResource> INHERITED;
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friend class GrIORef<GrGpuResource>; // to access notifyRefCntWillBeZero and notifyRefCntIsZero.
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};
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class GrGpuResource::ProxyAccess {
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private:
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ProxyAccess(GrGpuResource* resource) : fResource(resource) {}
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/** Proxies are allowed to take a resource from no refs to one ref. */
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void ref(GrResourceCache* cache);
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// No taking addresses of this type.
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const CacheAccess* operator&() const = delete;
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CacheAccess* operator&() = delete;
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GrGpuResource* fResource;
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friend class GrGpuResource;
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friend class GrSurfaceProxy;
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};
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inline GrGpuResource::ProxyAccess GrGpuResource::proxyAccess() { return ProxyAccess(this); }
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#endif
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