src/gpu/GrResourceCache.cpp - platform/external/skia - Git at Google


 /*
  * Copyright 2010 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #include "GrResourceCache.h"
 #include "GrResource.h"

 GrResourceEntry::GrResourceEntry(const GrResourceKey& key, GrResource* resource)
         : fKey(key), fResource(resource) {
     fLockCount = 0;
     fPrev = fNext = NULL;

     // we assume ownership of the resource, and will unref it when we die
     GrAssert(resource);
 }

 GrResourceEntry::~GrResourceEntry() {
     fResource->unref();
 }

 #if GR_DEBUG
 void GrResourceEntry::validate() const {
     GrAssert(fLockCount >= 0);
     GrAssert(fResource);
     fResource->validate();
 }
 #endif

 ///////////////////////////////////////////////////////////////////////////////

 GrResourceCache::GrResourceCache(int maxCount, size_t maxBytes) :
         fMaxCount(maxCount),
         fMaxBytes(maxBytes) {
     fEntryCount          = 0;
     fUnlockedEntryCount  = 0;
     fEntryBytes          = 0;
     fClientDetachedCount = 0;
     fClientDetachedBytes = 0;

     fHead = fTail = NULL;
     fPurging = false;
 }

 GrResourceCache::~GrResourceCache() {
     GrAutoResourceCacheValidate atcv(this);

     this->removeAll();
 }

 void GrResourceCache::getLimits(int* maxResources, size_t* maxResourceBytes) const{
     if (maxResources) {
         *maxResources = fMaxCount;
     }
     if (maxResourceBytes) {
         *maxResourceBytes = fMaxBytes;
     }
 }

 void GrResourceCache::setLimits(int maxResources, size_t maxResourceBytes) {
     bool smaller = (maxResources < fMaxCount) || (maxResourceBytes < fMaxBytes);

     fMaxCount = maxResources;
     fMaxBytes = maxResourceBytes;

     if (smaller) {
         this->purgeAsNeeded();
     }
 }

 void GrResourceCache::internalDetach(GrResourceEntry* entry,
                                     bool clientDetach) {
     GrResourceEntry* prev = entry->fPrev;
     GrResourceEntry* next = entry->fNext;

     if (prev) {
         prev->fNext = next;
     } else {
         fHead = next;
     }
     if (next) {
         next->fPrev = prev;
     } else {
         fTail = prev;
     }
     if (!entry->isLocked()) {
         --fUnlockedEntryCount;
     }

     // update our stats
     if (clientDetach) {
         fClientDetachedCount += 1;
         fClientDetachedBytes += entry->resource()->sizeInBytes();
     } else {
         fEntryCount -= 1;
         fEntryBytes -= entry->resource()->sizeInBytes();
     }
 }

 void GrResourceCache::attachToHead(GrResourceEntry* entry,
                                   bool clientReattach) {
     entry->fPrev = NULL;
     entry->fNext = fHead;
     if (fHead) {
         fHead->fPrev = entry;
     }
     fHead = entry;
     if (NULL == fTail) {
         fTail = entry;
     }
     if (!entry->isLocked()) {
         ++fUnlockedEntryCount;
     }

     // update our stats
     if (clientReattach) {
         fClientDetachedCount -= 1;
         fClientDetachedBytes -= entry->resource()->sizeInBytes();
     } else {
         fEntryCount += 1;
         fEntryBytes += entry->resource()->sizeInBytes();
     }
 }

 class GrResourceCache::Key {
     typedef GrResourceEntry T;

     const GrResourceKey& fKey;
 public:
     Key(const GrResourceKey& key) : fKey(key) {}

     uint32_t getHash() const { return fKey.hashIndex(); }

     static bool LT(const T& entry, const Key& key) {
         return entry.key() < key.fKey;
     }
     static bool EQ(const T& entry, const Key& key) {
         return entry.key() == key.fKey;
     }
 #if GR_DEBUG
     static uint32_t GetHash(const T& entry) {
         return entry.key().hashIndex();
     }
     static bool LT(const T& a, const T& b) {
         return a.key() < b.key();
     }
     static bool EQ(const T& a, const T& b) {
         return a.key() == b.key();
     }
 #endif
 };

 GrResourceEntry* GrResourceCache::findAndLock(const GrResourceKey& key,
                                               LockType type) {
     GrAutoResourceCacheValidate atcv(this);

     GrResourceEntry* entry = fCache.find(key);
     if (entry) {
         this->internalDetach(entry, false);
         // mark the entry as "busy" so it doesn't get purged
         // do this between detach and attach for locked count tracking
         if (kNested_LockType == type || !entry->isLocked()) {
             entry->lock();
         }
         this->attachToHead(entry, false);
     }
     return entry;
 }

 bool GrResourceCache::hasKey(const GrResourceKey& key) const {
     return NULL != fCache.find(key);
 }

 GrResourceEntry* GrResourceCache::createAndLock(const GrResourceKey& key,
                                               GrResource* resource) {
     // we don't expect to create new resources during a purge. In theory
     // this could cause purgeAsNeeded() into an infinite loop (e.g.
     // each resource destroyed creates and locks 2 resources and
     // unlocks 1 thereby causing a new purge).
     GrAssert(!fPurging);
     GrAutoResourceCacheValidate atcv(this);

     GrResourceEntry* entry = new GrResourceEntry(key, resource);

     // mark the entry as "busy" so it doesn't get purged
     // do this before attach for locked count tracking
     entry->lock();

     this->attachToHead(entry, false);
     fCache.insert(key, entry);

 #if GR_DUMP_TEXTURE_UPLOAD
     GrPrintf("--- add resource to cache %p, count=%d bytes= %d %d\n",
              entry, fEntryCount, resource->sizeInBytes(), fEntryBytes);
 #endif

     this->purgeAsNeeded();
     return entry;
 }

 void GrResourceCache::detach(GrResourceEntry* entry) {
     GrAutoResourceCacheValidate atcv(this);
     internalDetach(entry, true);
     fCache.remove(entry->fKey, entry);
 }

 void GrResourceCache::reattachAndUnlock(GrResourceEntry* entry) {
     GrAutoResourceCacheValidate atcv(this);
     if (entry->resource()->isValid()) {
         attachToHead(entry, true);
         fCache.insert(entry->key(), entry);
     } else {
         // If the resource went invalid while it was detached then purge it
         // This can happen when a 3D context was lost,
         // the client called GrContext::contextDestroyed() to notify Gr,
         // and then later an SkGpuDevice's destructor releases its backing
         // texture (which was invalidated at contextDestroyed time).
         fClientDetachedCount -= 1;
         fEntryCount -= 1;
         size_t size = entry->resource()->sizeInBytes();
         fClientDetachedBytes -= size;
         fEntryBytes -= size;
     }
     this->unlock(entry);
 }

 void GrResourceCache::unlock(GrResourceEntry* entry) {
     GrAutoResourceCacheValidate atcv(this);

     GrAssert(entry);
     GrAssert(entry->isLocked());
     GrAssert(fCache.find(entry->key()));

     entry->unlock();
     if (!entry->isLocked()) {
         ++fUnlockedEntryCount;
     }
     this->purgeAsNeeded();
 }

 /**
  * Destroying a resource may potentially trigger the unlock of additional
  * resources which in turn will trigger a nested purge. We block the nested
  * purge using the fPurging variable. However, the initial purge will keep
  * looping until either all resources in the cache are unlocked or we've met
  * the budget. There is an assertion in createAndLock to check against a
  * resource's destructor inserting new resources into the cache. If these
  * new resources were unlocked before purgeAsNeeded completed it could
  * potentially make purgeAsNeeded loop infinitely.
  */
 void GrResourceCache::purgeAsNeeded() {
     if (!fPurging) {
         fPurging = true;
         bool withinBudget = false;
         do {
             GrResourceEntry* entry = fTail;
             while (entry && fUnlockedEntryCount) {
                 GrAutoResourceCacheValidate atcv(this);
                 if (fEntryCount <= fMaxCount && fEntryBytes <= fMaxBytes) {
                     withinBudget = true;
                     break;
                 }

                 GrResourceEntry* prev = entry->fPrev;
                 if (!entry->isLocked()) {
                     // remove from our cache
                     fCache.remove(entry->fKey, entry);

                     // remove from our llist
                     this->internalDetach(entry, false);

         #if GR_DUMP_TEXTURE_UPLOAD
                     GrPrintf("--- ~resource from cache %p [%d %d]\n",
                              entry->resource(),
                              entry->resource()->width(),
                              entry->resource()->height());
         #endif
                     delete entry;
                 }
                 entry = prev;
             }
         } while (!withinBudget && fUnlockedEntryCount);
         fPurging = false;
     }
 }

 void GrResourceCache::removeAll() {
     GrAutoResourceCacheValidate atcv(this);

     GrResourceEntry* entry = fHead;

     // we can have one GrResource holding a lock on another
     // so we don't want to just do a simple loop kicking each
     // entry out. Instead change the budget and purge.

     int savedMaxBytes = fMaxBytes;
     int savedMaxCount = fMaxCount;
     fMaxBytes = -1;
     fMaxCount = 0;
     this->purgeAsNeeded();

 #if GR_DEBUG
     GrAssert(!fUnlockedEntryCount);
     if (!fCache.count()) {
         // Items may have been detached from the cache (such as the backing
         // texture for an SkGpuDevice). The above purge would not have removed
         // them.
         GrAssert(fEntryCount == fClientDetachedCount);
         GrAssert(fEntryBytes == fClientDetachedBytes);
         GrAssert(NULL == fHead);
         GrAssert(NULL == fTail);
     }
 #endif

     fMaxBytes = savedMaxBytes;
     fMaxCount = savedMaxCount;
 }

 ///////////////////////////////////////////////////////////////////////////////

 #if GR_DEBUG
 static int countMatches(const GrResourceEntry* head, const GrResourceEntry* target) {
     const GrResourceEntry* entry = head;
     int count = 0;
     while (entry) {
         if (target == entry) {
             count += 1;
         }
         entry = entry->next();
     }
     return count;
 }

 #if GR_DEBUG
 static bool both_zero_or_nonzero(int count, size_t bytes) {
     return (count == 0 && bytes == 0) || (count > 0 && bytes > 0);
 }
 #endif

 void GrResourceCache::validate() const {
     GrAssert(!fHead == !fTail);
     GrAssert(both_zero_or_nonzero(fEntryCount, fEntryBytes));
     GrAssert(both_zero_or_nonzero(fClientDetachedCount, fClientDetachedBytes));
     GrAssert(fClientDetachedBytes <= fEntryBytes);
     GrAssert(fClientDetachedCount <= fEntryCount);
     GrAssert((fEntryCount - fClientDetachedCount) == fCache.count());

     fCache.validate();

     GrResourceEntry* entry = fHead;
     int count = 0;
     int unlockCount = 0;
     size_t bytes = 0;
     while (entry) {
         entry->validate();
         GrAssert(fCache.find(entry->key()));
         count += 1;
         bytes += entry->resource()->sizeInBytes();
         if (!entry->isLocked()) {
             unlockCount += 1;
         }
         entry = entry->fNext;
     }
     GrAssert(count == fEntryCount - fClientDetachedCount);
     GrAssert(bytes == fEntryBytes  - fClientDetachedBytes);
     GrAssert(unlockCount == fUnlockedEntryCount);

     count = 0;
     for (entry = fTail; entry; entry = entry->fPrev) {
         count += 1;
     }
     GrAssert(count == fEntryCount - fClientDetachedCount);

     for (int i = 0; i < count; i++) {
         int matches = countMatches(fHead, fCache.getArray()[i]);
         GrAssert(1 == matches);
     }
 }
 #endif

	/*
	* Copyright 2010 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/



	#include "GrResourceCache.h"
	#include "GrResource.h"

	GrResourceEntry::GrResourceEntry(const GrResourceKey& key, GrResource* resource)
	: fKey(key), fResource(resource) {
	fLockCount = 0;
	fPrev = fNext = NULL;

	// we assume ownership of the resource, and will unref it when we die
	GrAssert(resource);
	}

	GrResourceEntry::~GrResourceEntry() {
	fResource->unref();
	}

	#if GR_DEBUG
	void GrResourceEntry::validate() const {
	GrAssert(fLockCount >= 0);
	GrAssert(fResource);
	fResource->validate();
	}
	#endif

	///////////////////////////////////////////////////////////////////////////////

	GrResourceCache::GrResourceCache(int maxCount, size_t maxBytes) :
	fMaxCount(maxCount),
	fMaxBytes(maxBytes) {
	fEntryCount = 0;
	fUnlockedEntryCount = 0;
	fEntryBytes = 0;
	fClientDetachedCount = 0;
	fClientDetachedBytes = 0;

	fHead = fTail = NULL;
	fPurging = false;
	}

	GrResourceCache::~GrResourceCache() {
	GrAutoResourceCacheValidate atcv(this);

	this->removeAll();
	}

	void GrResourceCache::getLimits(int* maxResources, size_t* maxResourceBytes) const{
	if (maxResources) {
	*maxResources = fMaxCount;
	}
	if (maxResourceBytes) {
	*maxResourceBytes = fMaxBytes;
	}
	}

	void GrResourceCache::setLimits(int maxResources, size_t maxResourceBytes) {
	bool smaller = (maxResources < fMaxCount) \|\| (maxResourceBytes < fMaxBytes);

	fMaxCount = maxResources;
	fMaxBytes = maxResourceBytes;

	if (smaller) {
	this->purgeAsNeeded();
	}
	}

	void GrResourceCache::internalDetach(GrResourceEntry* entry,
	bool clientDetach) {
	GrResourceEntry* prev = entry->fPrev;
	GrResourceEntry* next = entry->fNext;

	if (prev) {
	prev->fNext = next;
	} else {
	fHead = next;
	}
	if (next) {
	next->fPrev = prev;
	} else {
	fTail = prev;
	}
	if (!entry->isLocked()) {
	--fUnlockedEntryCount;
	}

	// update our stats
	if (clientDetach) {
	fClientDetachedCount += 1;
	fClientDetachedBytes += entry->resource()->sizeInBytes();
	} else {
	fEntryCount -= 1;
	fEntryBytes -= entry->resource()->sizeInBytes();
	}
	}

	void GrResourceCache::attachToHead(GrResourceEntry* entry,
	bool clientReattach) {
	entry->fPrev = NULL;
	entry->fNext = fHead;
	if (fHead) {
	fHead->fPrev = entry;
	}
	fHead = entry;
	if (NULL == fTail) {
	fTail = entry;
	}
	if (!entry->isLocked()) {
	++fUnlockedEntryCount;
	}

	// update our stats
	if (clientReattach) {
	fClientDetachedCount -= 1;
	fClientDetachedBytes -= entry->resource()->sizeInBytes();
	} else {
	fEntryCount += 1;
	fEntryBytes += entry->resource()->sizeInBytes();
	}
	}

	class GrResourceCache::Key {
	typedef GrResourceEntry T;

	const GrResourceKey& fKey;
	public:
	Key(const GrResourceKey& key) : fKey(key) {}

	uint32_t getHash() const { return fKey.hashIndex(); }

	static bool LT(const T& entry, const Key& key) {
	return entry.key() < key.fKey;
	}
	static bool EQ(const T& entry, const Key& key) {
	return entry.key() == key.fKey;
	}
	#if GR_DEBUG
	static uint32_t GetHash(const T& entry) {
	return entry.key().hashIndex();
	}
	static bool LT(const T& a, const T& b) {
	return a.key() < b.key();
	}
	static bool EQ(const T& a, const T& b) {
	return a.key() == b.key();
	}
	#endif
	};

	GrResourceEntry* GrResourceCache::findAndLock(const GrResourceKey& key,
	LockType type) {
	GrAutoResourceCacheValidate atcv(this);

	GrResourceEntry* entry = fCache.find(key);
	if (entry) {
	this->internalDetach(entry, false);
	// mark the entry as "busy" so it doesn't get purged
	// do this between detach and attach for locked count tracking
	if (kNested_LockType == type \|\| !entry->isLocked()) {
	entry->lock();
	}
	this->attachToHead(entry, false);
	}
	return entry;
	}

	bool GrResourceCache::hasKey(const GrResourceKey& key) const {
	return NULL != fCache.find(key);
	}

	GrResourceEntry* GrResourceCache::createAndLock(const GrResourceKey& key,
	GrResource* resource) {
	// we don't expect to create new resources during a purge. In theory
	// this could cause purgeAsNeeded() into an infinite loop (e.g.
	// each resource destroyed creates and locks 2 resources and
	// unlocks 1 thereby causing a new purge).
	GrAssert(!fPurging);
	GrAutoResourceCacheValidate atcv(this);

	GrResourceEntry* entry = new GrResourceEntry(key, resource);

	// mark the entry as "busy" so it doesn't get purged
	// do this before attach for locked count tracking
	entry->lock();

	this->attachToHead(entry, false);
	fCache.insert(key, entry);

	#if GR_DUMP_TEXTURE_UPLOAD
	GrPrintf("--- add resource to cache %p, count=%d bytes= %d %d\n",
	entry, fEntryCount, resource->sizeInBytes(), fEntryBytes);
	#endif

	this->purgeAsNeeded();
	return entry;
	}

	void GrResourceCache::detach(GrResourceEntry* entry) {
	GrAutoResourceCacheValidate atcv(this);
	internalDetach(entry, true);
	fCache.remove(entry->fKey, entry);
	}

	void GrResourceCache::reattachAndUnlock(GrResourceEntry* entry) {
	GrAutoResourceCacheValidate atcv(this);
	if (entry->resource()->isValid()) {
	attachToHead(entry, true);
	fCache.insert(entry->key(), entry);
	} else {
	// If the resource went invalid while it was detached then purge it
	// This can happen when a 3D context was lost,
	// the client called GrContext::contextDestroyed() to notify Gr,
	// and then later an SkGpuDevice's destructor releases its backing
	// texture (which was invalidated at contextDestroyed time).
	fClientDetachedCount -= 1;
	fEntryCount -= 1;
	size_t size = entry->resource()->sizeInBytes();
	fClientDetachedBytes -= size;
	fEntryBytes -= size;
	}
	this->unlock(entry);
	}

	void GrResourceCache::unlock(GrResourceEntry* entry) {
	GrAutoResourceCacheValidate atcv(this);

	GrAssert(entry);
	GrAssert(entry->isLocked());
	GrAssert(fCache.find(entry->key()));

	entry->unlock();
	if (!entry->isLocked()) {
	++fUnlockedEntryCount;
	}
	this->purgeAsNeeded();
	}

	/**
	* Destroying a resource may potentially trigger the unlock of additional
	* resources which in turn will trigger a nested purge. We block the nested
	* purge using the fPurging variable. However, the initial purge will keep
	* looping until either all resources in the cache are unlocked or we've met
	* the budget. There is an assertion in createAndLock to check against a
	* resource's destructor inserting new resources into the cache. If these
	* new resources were unlocked before purgeAsNeeded completed it could
	* potentially make purgeAsNeeded loop infinitely.
	*/
	void GrResourceCache::purgeAsNeeded() {
	if (!fPurging) {
	fPurging = true;
	bool withinBudget = false;
	do {
	GrResourceEntry* entry = fTail;
	while (entry && fUnlockedEntryCount) {
	GrAutoResourceCacheValidate atcv(this);
	if (fEntryCount <= fMaxCount && fEntryBytes <= fMaxBytes) {
	withinBudget = true;
	break;
	}

	GrResourceEntry* prev = entry->fPrev;
	if (!entry->isLocked()) {
	// remove from our cache
	fCache.remove(entry->fKey, entry);

	// remove from our llist
	this->internalDetach(entry, false);

	#if GR_DUMP_TEXTURE_UPLOAD
	GrPrintf("--- ~resource from cache %p [%d %d]\n",
	entry->resource(),
	entry->resource()->width(),
	entry->resource()->height());
	#endif
	delete entry;
	}
	entry = prev;
	}
	} while (!withinBudget && fUnlockedEntryCount);
	fPurging = false;
	}
	}

	void GrResourceCache::removeAll() {
	GrAutoResourceCacheValidate atcv(this);

	GrResourceEntry* entry = fHead;

	// we can have one GrResource holding a lock on another
	// so we don't want to just do a simple loop kicking each
	// entry out. Instead change the budget and purge.

	int savedMaxBytes = fMaxBytes;
	int savedMaxCount = fMaxCount;
	fMaxBytes = -1;
	fMaxCount = 0;
	this->purgeAsNeeded();

	#if GR_DEBUG
	GrAssert(!fUnlockedEntryCount);
	if (!fCache.count()) {
	// Items may have been detached from the cache (such as the backing
	// texture for an SkGpuDevice). The above purge would not have removed
	// them.
	GrAssert(fEntryCount == fClientDetachedCount);
	GrAssert(fEntryBytes == fClientDetachedBytes);
	GrAssert(NULL == fHead);
	GrAssert(NULL == fTail);
	}
	#endif

	fMaxBytes = savedMaxBytes;
	fMaxCount = savedMaxCount;
	}

	///////////////////////////////////////////////////////////////////////////////

	#if GR_DEBUG
	static int countMatches(const GrResourceEntry* head, const GrResourceEntry* target) {
	const GrResourceEntry* entry = head;
	int count = 0;
	while (entry) {
	if (target == entry) {
	count += 1;
	}
	entry = entry->next();
	}
	return count;
	}

	#if GR_DEBUG
	static bool both_zero_or_nonzero(int count, size_t bytes) {
	return (count == 0 && bytes == 0) \|\| (count > 0 && bytes > 0);
	}
	#endif

	void GrResourceCache::validate() const {
	GrAssert(!fHead == !fTail);
	GrAssert(both_zero_or_nonzero(fEntryCount, fEntryBytes));
	GrAssert(both_zero_or_nonzero(fClientDetachedCount, fClientDetachedBytes));
	GrAssert(fClientDetachedBytes <= fEntryBytes);
	GrAssert(fClientDetachedCount <= fEntryCount);
	GrAssert((fEntryCount - fClientDetachedCount) == fCache.count());

	fCache.validate();

	GrResourceEntry* entry = fHead;
	int count = 0;
	int unlockCount = 0;
	size_t bytes = 0;
	while (entry) {
	entry->validate();
	GrAssert(fCache.find(entry->key()));
	count += 1;
	bytes += entry->resource()->sizeInBytes();
	if (!entry->isLocked()) {
	unlockCount += 1;
	}
	entry = entry->fNext;
	}
	GrAssert(count == fEntryCount - fClientDetachedCount);
	GrAssert(bytes == fEntryBytes - fClientDetachedBytes);
	GrAssert(unlockCount == fUnlockedEntryCount);

	count = 0;
	for (entry = fTail; entry; entry = entry->fPrev) {
	count += 1;
	}
	GrAssert(count == fEntryCount - fClientDetachedCount);

	for (int i = 0; i < count; i++) {
	int matches = countMatches(fHead, fCache.getArray()[i]);
	GrAssert(1 == matches);
	}
	}
	#endif