/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef GrProgramElement_DEFINED #define GrProgramElement_DEFINED #include "../private/SkTArray.h" #include "SkRefCnt.h" /** * Note: We are converting GrProcessor from ref counting to a single owner model using move * semantics. This class will be removed. * * This is used to track "refs" for two separate types GrProcessor ownership. A regular ref is owned * by any client that may continue to issue draws that use the GrProgramElement. A recorded op or * GrPipeline uses "pending executions" instead of refs. A pending execution is cleared after the * draw is executed (or aborted). * * While a GrProgramElement is ref'ed any resources it owns are also ref'ed. However, once it gets * into the state where it has pending executions AND no refs then it converts its ownership of * its GrGpuResources from refs to pending IOs. The pending IOs allow the cache to track when it is * safe to recycle a resource even though we still have buffered GrOps that read or write to the * the resource. * * To make this work the subclass GrProcessor implements addPendingIOs, removeRefs, and * pendingIOComplete. addPendingIOs adds pending reads/writes to GrGpuResources owned by the * processor as appropriate when the processor is recorded in a GrOpList. removeRefs is called when * the ref count reaches 0 and the GrProcessor is only owned by "pending executions". * pendingIOComplete occurs if the resource is still owned by a ref but all recorded draws have been * completed. Whenever pending executions and refs reach zero the processor is deleted. * * The GrProcessor may also implement notifyRefCntIsZero in order to change its ownership of child * processors from ref to pending execution when the processor is first owned exclusively in pending * execution mode. */ class GrProgramElement : public SkNoncopyable { public: virtual ~GrProgramElement() { // fRefCnt can be one when an effect is created statically using GR_CREATE_STATIC_EFFECT SkASSERT((0 == fRefCnt || 1 == fRefCnt) && 0 == fPendingExecutions); // Set to invalid values. SkDEBUGCODE(fRefCnt = fPendingExecutions = -10;) } void ref() const { this->validate(); // Once the ref cnt reaches zero it should never be ref'ed again. SkASSERT(fRefCnt > 0); ++fRefCnt; this->validate(); } void unref() const { this->validate(); --fRefCnt; if (0 == fRefCnt) { this->notifyRefCntIsZero(); if (0 == fPendingExecutions) { delete this; return; } else { this->removeRefs(); } } this->validate(); } void validate() const { #ifdef SK_DEBUG SkASSERT(fRefCnt >= 0); SkASSERT(fPendingExecutions >= 0); SkASSERT(fRefCnt + fPendingExecutions > 0); #endif } protected: GrProgramElement() : fRefCnt(1), fPendingExecutions(0) {} void addPendingExecution() const { this->validate(); if (0 == fPendingExecutions) { this->addPendingIOs(); } ++fPendingExecutions; this->validate(); } void completedExecution() const { this->validate(); --fPendingExecutions; if (0 == fPendingExecutions) { if (0 == fRefCnt) { delete this; return; } else { this->pendingIOComplete(); } } this->validate(); } private: virtual void addPendingIOs() const = 0; virtual void removeRefs() const = 0; virtual void pendingIOComplete() const = 0; /** This will be called when the ref cnt is zero. The object may or may not have pending executions. */ virtual void notifyRefCntIsZero() const = 0; mutable int32_t fRefCnt; // Count of deferred executions not yet issued to the 3D API. mutable int32_t fPendingExecutions; // Only these classes can access addPendingExecution() and completedExecution(). template <typename T> friend class GrPendingProgramElement; friend class GrProcessorSet; typedef SkNoncopyable INHERITED; }; #endif