/* * 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 GrResourceAllocator_DEFINED #define GrResourceAllocator_DEFINED #include "GrGpuResourcePriv.h" #include "GrSurface.h" #include "GrSurfaceProxy.h" #include "SkArenaAlloc.h" #include "SkTDynamicHash.h" #include "SkTMultiMap.h" class GrDeinstantiateProxyTracker; class GrResourceProvider; // Print out explicit allocation information #define GR_ALLOCATION_SPEW 0 // Print out information about interval creation #define GR_TRACK_INTERVAL_CREATION 0 /* * The ResourceAllocator explicitly distributes GPU resources at flush time. It operates by * being given the usage intervals of the various proxies. It keeps these intervals in a singly * linked list sorted by increasing start index. (It also maintains a hash table from proxyID * to interval to find proxy reuse). When it comes time to allocate the resources it * traverses the sorted list and: * removes intervals from the active list that have completed (returning their GrSurfaces * to the free pool) * allocates a new resource (preferably from the free pool) for the new interval * adds the new interval to the active list (that is sorted by increasing end index) * * Note: the op indices (used in the usage intervals) come from the order of the ops in * their opLists after the opList DAG has been linearized. */ class GrResourceAllocator { public: GrResourceAllocator(GrResourceProvider* resourceProvider, GrDeinstantiateProxyTracker* tracker) : fResourceProvider(resourceProvider), fDeinstantiateTracker(tracker) {} ~GrResourceAllocator(); unsigned int curOp() const { return fNumOps; } void incOps() { fNumOps++; } unsigned int numOps() const { return fNumOps; } // Add a usage interval from 'start' to 'end' inclusive. This is usually used for renderTargets. // If an existing interval already exists it will be expanded to include the new range. void addInterval(GrSurfaceProxy*, unsigned int start, unsigned int end SkDEBUGCODE(, bool isDirectDstRead = false)); // Add an interval that spans just the current op. Usually this is for texture uses. // If an existing interval already exists it will be expanded to include the new operation. void addInterval(GrSurfaceProxy* proxy SkDEBUGCODE(, bool isDirectDstRead = false)) { this->addInterval(proxy, fNumOps, fNumOps SkDEBUGCODE(, isDirectDstRead)); } enum class AssignError { kNoError, kFailedProxyInstantiation }; // Returns true when the opLists from 'startIndex' to 'stopIndex' should be executed; // false when nothing remains to be executed. // If any proxy fails to instantiate, the AssignError will be set to kFailedProxyInstantiation. // If this happens, the caller should remove all ops which reference an uninstantiated proxy. // This is used to execute a portion of the queued opLists in order to reduce the total // amount of GPU resources required. bool assign(int* startIndex, int* stopIndex, AssignError* outError); void markEndOfOpList(int opListIndex); #if GR_ALLOCATION_SPEW void dumpIntervals(); #endif private: class Interval; // Remove dead intervals from the active list void expire(unsigned int curIndex); // These two methods wrap the interactions with the free pool void recycleSurface(sk_sp surface); sk_sp findSurfaceFor(const GrSurfaceProxy* proxy, bool needsStencil); struct FreePoolTraits { static const GrScratchKey& GetKey(const GrSurface& s) { return s.resourcePriv().getScratchKey(); } static uint32_t Hash(const GrScratchKey& key) { return key.hash(); } static void OnFree(GrSurface* s) { s->unref(); } }; typedef SkTMultiMap FreePoolMultiMap; typedef SkTDynamicHash IntvlHash; class Interval { public: Interval(GrSurfaceProxy* proxy, unsigned int start, unsigned int end) : fProxy(proxy) , fProxyID(proxy->uniqueID().asUInt()) , fStart(start) , fEnd(end) , fNext(nullptr) { SkASSERT(proxy); #if GR_TRACK_INTERVAL_CREATION fUniqueID = CreateUniqueID(); SkDebugf("New intvl %d: proxyID: %d [ %d, %d ]\n", fUniqueID, proxy->uniqueID().asUInt(), start, end); #endif } void resetTo(GrSurfaceProxy* proxy, unsigned int start, unsigned int end) { SkASSERT(proxy); SkASSERT(!fNext); fProxy = proxy; fProxyID = proxy->uniqueID().asUInt(); fStart = start; fEnd = end; fNext = nullptr; #if GR_TRACK_INTERVAL_CREATION fUniqueID = CreateUniqueID(); SkDebugf("New intvl %d: proxyID: %d [ %d, %d ]\n", fUniqueID, proxy->uniqueID().asUInt(), start, end); #endif } ~Interval() { SkASSERT(!fAssignedSurface); } const GrSurfaceProxy* proxy() const { return fProxy; } GrSurfaceProxy* proxy() { return fProxy; } unsigned int start() const { return fStart; } unsigned int end() const { return fEnd; } const Interval* next() const { return fNext; } Interval* next() { return fNext; } void setNext(Interval* next) { fNext = next; } void extendEnd(unsigned int newEnd) { if (newEnd > fEnd) { fEnd = newEnd; #if GR_TRACK_INTERVAL_CREATION SkDebugf("intvl %d: extending from %d to %d\n", fUniqueID, fEnd, newEnd); #endif } } void assign(sk_sp); bool wasAssignedSurface() const { return fAssignedSurface != nullptr; } sk_sp detachSurface() { return std::move(fAssignedSurface); } // for SkTDynamicHash static const uint32_t& GetKey(const Interval& intvl) { return intvl.fProxyID; } static uint32_t Hash(const uint32_t& key) { return key; } private: sk_sp fAssignedSurface; GrSurfaceProxy* fProxy; uint32_t fProxyID; // This is here b.c. DynamicHash requires a ref to the key unsigned int fStart; unsigned int fEnd; Interval* fNext; #if GR_TRACK_INTERVAL_CREATION uint32_t fUniqueID; uint32_t CreateUniqueID(); #endif }; class IntervalList { public: IntervalList() = default; ~IntervalList() { // The only time we delete an IntervalList is in the GrResourceAllocator dtor. // Since the arena allocator will clean up for us we don't bother here. } bool empty() const { SkASSERT(SkToBool(fHead) == SkToBool(fTail)); return !SkToBool(fHead); } const Interval* peekHead() const { return fHead; } Interval* popHead(); void insertByIncreasingStart(Interval*); void insertByIncreasingEnd(Interval*); Interval* detachAll(); private: SkDEBUGCODE(void validate() const;) Interval* fHead = nullptr; Interval* fTail = nullptr; }; // Compositing use cases can create > 80 intervals. static const int kInitialArenaSize = 128 * sizeof(Interval); GrResourceProvider* fResourceProvider; GrDeinstantiateProxyTracker* fDeinstantiateTracker; FreePoolMultiMap fFreePool; // Recently created/used GrSurfaces IntvlHash fIntvlHash; // All the intervals, hashed by proxyID IntervalList fIntvlList; // All the intervals sorted by increasing start IntervalList fActiveIntvls; // List of live intervals during assignment // (sorted by increasing end) unsigned int fNumOps = 1; // op # 0 is reserved for uploads at the start // of a flush SkTArray fEndOfOpListOpIndices; int fCurOpListIndex = 0; SkDEBUGCODE(bool fAssigned = false;) char fStorage[kInitialArenaSize]; SkArenaAlloc fIntervalAllocator{fStorage, kInitialArenaSize, kInitialArenaSize}; Interval* fFreeIntervalList = nullptr; }; #endif // GrResourceAllocator_DEFINED