src/third_party/skia/src/gpu/text/GrTextBlobCache.h - cobalt - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrTextBlobCache_DEFINED
 #define GrTextBlobCache_DEFINED

 #include "GrAtlasTextContext.h"
 #include "SkMessageBus.h"
 #include "SkRefCnt.h"
 #include "SkTArray.h"
 #include "SkTextBlobRunIterator.h"
 #include "SkTHash.h"

 class GrTextBlobCache {
 public:
     /**
      * The callback function used by the cache when it is still over budget after a purge. The
      * passed in 'data' is the same 'data' handed to setOverbudgetCallback.
      */
     typedef void (*PFOverBudgetCB)(void* data);

     GrTextBlobCache(PFOverBudgetCB cb, void* data)
         : fPool(0u, kMinGrowthSize)
         , fCallback(cb)
         , fData(data)
         , fBudget(kDefaultBudget) {
         SkASSERT(cb && data);
     }
     ~GrTextBlobCache();

     // creates an uncached blob
     sk_sp<GrAtlasTextBlob> makeBlob(int glyphCount, int runCount) {
         return GrAtlasTextBlob::Make(&fPool, glyphCount, runCount);
     }

     sk_sp<GrAtlasTextBlob> makeBlob(const SkTextBlob* blob) {
         int glyphCount = 0;
         int runCount = 0;
         BlobGlyphCount(&glyphCount, &runCount, blob);
         return GrAtlasTextBlob::Make(&fPool, glyphCount, runCount);
     }

     sk_sp<GrAtlasTextBlob> makeCachedBlob(const SkTextBlob* blob,
                                           const GrAtlasTextBlob::Key& key,
                                           const SkMaskFilter::BlurRec& blurRec,
                                           const SkPaint& paint) {
         sk_sp<GrAtlasTextBlob> cacheBlob(this->makeBlob(blob));
         cacheBlob->setupKey(key, blurRec, paint);
         this->add(cacheBlob);
         blob->notifyAddedToCache();
         return cacheBlob;
     }

     sk_sp<GrAtlasTextBlob> find(const GrAtlasTextBlob::Key& key) const {
         const auto* idEntry = fBlobIDCache.find(key.fUniqueID);
         return idEntry ? idEntry->find(key) : nullptr;
     }

     void remove(GrAtlasTextBlob* blob) {
         auto  id      = GrAtlasTextBlob::GetKey(*blob).fUniqueID;
         auto* idEntry = fBlobIDCache.find(id);
         SkASSERT(idEntry);

         fBlobList.remove(blob);
         idEntry->removeBlob(blob);
         if (idEntry->fBlobs.empty()) {
             fBlobIDCache.remove(id);
         }
     }

     void makeMRU(GrAtlasTextBlob* blob) {
         if (fBlobList.head() == blob) {
             return;
         }

         fBlobList.remove(blob);
         fBlobList.addToHead(blob);
     }

     void freeAll();

     // TODO move to SkTextBlob
     static void BlobGlyphCount(int* glyphCount, int* runCount, const SkTextBlob* blob) {
         SkTextBlobRunIterator itCounter(blob);
         for (; !itCounter.done(); itCounter.next(), (*runCount)++) {
             *glyphCount += itCounter.glyphCount();
         }
     }

     void setBudget(size_t budget) {
         fBudget = budget;
         this->checkPurge();
     }

     struct PurgeBlobMessage {
         uint32_t fID;
     };

     static void PostPurgeBlobMessage(uint32_t);

 private:
     using BitmapBlobList = SkTInternalLList<GrAtlasTextBlob>;

     struct BlobIDCacheEntry {
         BlobIDCacheEntry() : fID(SK_InvalidGenID) {}
         explicit BlobIDCacheEntry(uint32_t id) : fID(id) {}

         static uint32_t GetKey(const BlobIDCacheEntry& entry) {
             return entry.fID;
         }

         void addBlob(sk_sp<GrAtlasTextBlob> blob) {
             SkASSERT(blob);
             SkASSERT(GrAtlasTextBlob::GetKey(*blob).fUniqueID == fID);
             SkASSERT(!this->find(GrAtlasTextBlob::GetKey(*blob)));

             fBlobs.emplace_back(std::move(blob));
         }

         void removeBlob(GrAtlasTextBlob* blob) {
             SkASSERT(blob);
             SkASSERT(GrAtlasTextBlob::GetKey(*blob).fUniqueID == fID);

             auto index = this->findBlobIndex(GrAtlasTextBlob::GetKey(*blob));
             SkASSERT(index >= 0);

             fBlobs.removeShuffle(index);
         }

         sk_sp<GrAtlasTextBlob> find(const GrAtlasTextBlob::Key& key) const {
             auto index = this->findBlobIndex(key);
             return index < 0 ? nullptr : fBlobs[index];
         }

         int findBlobIndex(const GrAtlasTextBlob::Key& key) const{
             for (int i = 0; i < fBlobs.count(); ++i) {
                 if (GrAtlasTextBlob::GetKey(*fBlobs[i]) == key) {
                     return i;
                 }
             }
             return -1;
         }

         uint32_t                             fID;
         // Current clients don't generate multiple GrAtlasTextBlobs per SkTextBlob, so an array w/
         // linear search is acceptable.  If usage changes, we should re-evaluate this structure.
         SkSTArray<1, sk_sp<GrAtlasTextBlob>, true> fBlobs;
     };

     void add(sk_sp<GrAtlasTextBlob> blob) {
         auto  id      = GrAtlasTextBlob::GetKey(*blob).fUniqueID;
         auto* idEntry = fBlobIDCache.find(id);
         if (!idEntry) {
             idEntry = fBlobIDCache.set(id, BlobIDCacheEntry(id));
         }

         // Safe to retain a raw ptr temporarily here, because the cache will hold a ref.
         GrAtlasTextBlob* rawBlobPtr = blob.get();
         fBlobList.addToHead(rawBlobPtr);
         idEntry->addBlob(std::move(blob));

         this->checkPurge(rawBlobPtr);
     }

     void checkPurge(GrAtlasTextBlob* blob = nullptr) {
         // First, purge all stale blob IDs.
         {
             SkTArray<PurgeBlobMessage> msgs;
             fPurgeBlobInbox.poll(&msgs);

             for (const auto& msg : msgs) {
                 auto* idEntry = fBlobIDCache.find(msg.fID);
                 if (!idEntry) {
                     // no cache entries for id
                     continue;
                 }

                 // remove all blob entries from the LRU list
                 for (const auto& blob : idEntry->fBlobs) {
                     fBlobList.remove(blob.get());
                 }

                 // drop the idEntry itself (unrefs all blobs)
                 fBlobIDCache.remove(msg.fID);
             }
         }

         // If we are still overbudget, then unref until we are below budget again
         if (fPool.size() > fBudget) {
             BitmapBlobList::Iter iter;
             iter.init(fBlobList, BitmapBlobList::Iter::kTail_IterStart);
             GrAtlasTextBlob* lruBlob = nullptr;
             while (fPool.size() > fBudget && (lruBlob = iter.get()) && lruBlob != blob) {
                 // Backup the iterator before removing and unrefing the blob
                 iter.prev();

                 this->remove(lruBlob);
             }

             // If we break out of the loop with lruBlob == blob, then we haven't purged enough
             // use the call back and try to free some more.  If we are still overbudget after this,
             // then this single textblob is over our budget
             if (blob && lruBlob == blob) {
                 (*fCallback)(fData);
             }

 #ifdef SPEW_BUDGET_MESSAGE
             if (fPool.size() > fBudget) {
                 SkDebugf("Single textblob is larger than our whole budget");
             }
 #endif
         }
     }

     static const int kMinGrowthSize = 1 << 16;
     static const int kDefaultBudget = 1 << 22;
     GrMemoryPool fPool;
     BitmapBlobList fBlobList;
     SkTHashMap<uint32_t, BlobIDCacheEntry> fBlobIDCache;
     PFOverBudgetCB fCallback;
     void* fData;
     size_t fBudget;
     SkMessageBus<PurgeBlobMessage>::Inbox fPurgeBlobInbox;
 };

 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrTextBlobCache_DEFINED
	#define GrTextBlobCache_DEFINED

	#include "GrAtlasTextContext.h"
	#include "SkMessageBus.h"
	#include "SkRefCnt.h"
	#include "SkTArray.h"
	#include "SkTextBlobRunIterator.h"
	#include "SkTHash.h"

	class GrTextBlobCache {
	public:
	/**
	* The callback function used by the cache when it is still over budget after a purge. The
	* passed in 'data' is the same 'data' handed to setOverbudgetCallback.
	*/
	typedef void (PFOverBudgetCB)(void data);

	GrTextBlobCache(PFOverBudgetCB cb, void* data)
	: fPool(0u, kMinGrowthSize)
	, fCallback(cb)
	, fData(data)
	, fBudget(kDefaultBudget) {
	SkASSERT(cb && data);
	}
	~GrTextBlobCache();

	// creates an uncached blob
	sk_sp<GrAtlasTextBlob> makeBlob(int glyphCount, int runCount) {
	return GrAtlasTextBlob::Make(&fPool, glyphCount, runCount);
	}

	sk_sp<GrAtlasTextBlob> makeBlob(const SkTextBlob* blob) {
	int glyphCount = 0;
	int runCount = 0;
	BlobGlyphCount(&glyphCount, &runCount, blob);
	return GrAtlasTextBlob::Make(&fPool, glyphCount, runCount);
	}

	sk_sp<GrAtlasTextBlob> makeCachedBlob(const SkTextBlob* blob,
	const GrAtlasTextBlob::Key& key,
	const SkMaskFilter::BlurRec& blurRec,
	const SkPaint& paint) {
	sk_sp<GrAtlasTextBlob> cacheBlob(this->makeBlob(blob));
	cacheBlob->setupKey(key, blurRec, paint);
	this->add(cacheBlob);
	blob->notifyAddedToCache();
	return cacheBlob;
	}

	sk_sp<GrAtlasTextBlob> find(const GrAtlasTextBlob::Key& key) const {
	const auto* idEntry = fBlobIDCache.find(key.fUniqueID);
	return idEntry ? idEntry->find(key) : nullptr;
	}

	void remove(GrAtlasTextBlob* blob) {
	auto id = GrAtlasTextBlob::GetKey(*blob).fUniqueID;
	auto* idEntry = fBlobIDCache.find(id);
	SkASSERT(idEntry);

	fBlobList.remove(blob);
	idEntry->removeBlob(blob);
	if (idEntry->fBlobs.empty()) {
	fBlobIDCache.remove(id);
	}
	}

	void makeMRU(GrAtlasTextBlob* blob) {
	if (fBlobList.head() == blob) {
	return;
	}

	fBlobList.remove(blob);
	fBlobList.addToHead(blob);
	}

	void freeAll();

	// TODO move to SkTextBlob
	static void BlobGlyphCount(int* glyphCount, int* runCount, const SkTextBlob* blob) {
	SkTextBlobRunIterator itCounter(blob);
	for (; !itCounter.done(); itCounter.next(), (*runCount)++) {
	*glyphCount += itCounter.glyphCount();
	}
	}

	void setBudget(size_t budget) {
	fBudget = budget;
	this->checkPurge();
	}

	struct PurgeBlobMessage {
	uint32_t fID;
	};

	static void PostPurgeBlobMessage(uint32_t);

	private:
	using BitmapBlobList = SkTInternalLList<GrAtlasTextBlob>;

	struct BlobIDCacheEntry {
	BlobIDCacheEntry() : fID(SK_InvalidGenID) {}
	explicit BlobIDCacheEntry(uint32_t id) : fID(id) {}

	static uint32_t GetKey(const BlobIDCacheEntry& entry) {
	return entry.fID;
	}

	void addBlob(sk_sp<GrAtlasTextBlob> blob) {
	SkASSERT(blob);
	SkASSERT(GrAtlasTextBlob::GetKey(*blob).fUniqueID == fID);
	SkASSERT(!this->find(GrAtlasTextBlob::GetKey(*blob)));

	fBlobs.emplace_back(std::move(blob));
	}

	void removeBlob(GrAtlasTextBlob* blob) {
	SkASSERT(blob);
	SkASSERT(GrAtlasTextBlob::GetKey(*blob).fUniqueID == fID);

	auto index = this->findBlobIndex(GrAtlasTextBlob::GetKey(*blob));
	SkASSERT(index >= 0);

	fBlobs.removeShuffle(index);
	}

	sk_sp<GrAtlasTextBlob> find(const GrAtlasTextBlob::Key& key) const {
	auto index = this->findBlobIndex(key);
	return index < 0 ? nullptr : fBlobs[index];
	}

	int findBlobIndex(const GrAtlasTextBlob::Key& key) const{
	for (int i = 0; i < fBlobs.count(); ++i) {
	if (GrAtlasTextBlob::GetKey(*fBlobs[i]) == key) {
	return i;
	}
	}
	return -1;
	}

	uint32_t fID;
	// Current clients don't generate multiple GrAtlasTextBlobs per SkTextBlob, so an array w/
	// linear search is acceptable. If usage changes, we should re-evaluate this structure.
	SkSTArray<1, sk_sp<GrAtlasTextBlob>, true> fBlobs;
	};

	void add(sk_sp<GrAtlasTextBlob> blob) {
	auto id = GrAtlasTextBlob::GetKey(*blob).fUniqueID;
	auto* idEntry = fBlobIDCache.find(id);
	if (!idEntry) {
	idEntry = fBlobIDCache.set(id, BlobIDCacheEntry(id));
	}

	// Safe to retain a raw ptr temporarily here, because the cache will hold a ref.
	GrAtlasTextBlob* rawBlobPtr = blob.get();
	fBlobList.addToHead(rawBlobPtr);
	idEntry->addBlob(std::move(blob));

	this->checkPurge(rawBlobPtr);
	}

	void checkPurge(GrAtlasTextBlob* blob = nullptr) {
	// First, purge all stale blob IDs.
	{
	SkTArray<PurgeBlobMessage> msgs;
	fPurgeBlobInbox.poll(&msgs);

	for (const auto& msg : msgs) {
	auto* idEntry = fBlobIDCache.find(msg.fID);
	if (!idEntry) {
	// no cache entries for id
	continue;
	}

	// remove all blob entries from the LRU list
	for (const auto& blob : idEntry->fBlobs) {
	fBlobList.remove(blob.get());
	}

	// drop the idEntry itself (unrefs all blobs)
	fBlobIDCache.remove(msg.fID);
	}
	}

	// If we are still overbudget, then unref until we are below budget again
	if (fPool.size() > fBudget) {
	BitmapBlobList::Iter iter;
	iter.init(fBlobList, BitmapBlobList::Iter::kTail_IterStart);
	GrAtlasTextBlob* lruBlob = nullptr;
	while (fPool.size() > fBudget && (lruBlob = iter.get()) && lruBlob != blob) {
	// Backup the iterator before removing and unrefing the blob
	iter.prev();

	this->remove(lruBlob);
	}

	// If we break out of the loop with lruBlob == blob, then we haven't purged enough
	// use the call back and try to free some more. If we are still overbudget after this,
	// then this single textblob is over our budget
	if (blob && lruBlob == blob) {
	(*fCallback)(fData);
	}

	#ifdef SPEW_BUDGET_MESSAGE
	if (fPool.size() > fBudget) {
	SkDebugf("Single textblob is larger than our whole budget");
	}
	#endif
	}
	}

	static const int kMinGrowthSize = 1 << 16;
	static const int kDefaultBudget = 1 << 22;
	GrMemoryPool fPool;
	BitmapBlobList fBlobList;
	SkTHashMap<uint32_t, BlobIDCacheEntry> fBlobIDCache;
	PFOverBudgetCB fCallback;
	void* fData;
	size_t fBudget;
	SkMessageBus<PurgeBlobMessage>::Inbox fPurgeBlobInbox;
	};

	#endif