src/text/gpu/TextBlobRedrawCoordinator.cpp - skia - 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.
  */

 #include "src/text/gpu/TextBlobRedrawCoordinator.h"

 #include "src/core/SkStrikeCache.h"
 #include "src/text/GlyphRun.h"
 #if SK_SUPPORT_GPU
 #include "src/gpu/ganesh/v1/SurfaceDrawContext_v1.h"
 #endif

 // This needs to be outside the namespace so we can declare SkMessageBus properly
 DECLARE_SKMESSAGEBUS_MESSAGE(sktext::gpu::TextBlobRedrawCoordinator::PurgeBlobMessage,
                              uint32_t, true)
 namespace sktext::gpu {
 // This function is captured by the above macro using implementations from SkMessageBus.h
 static inline bool SkShouldPostMessageToBus(
         const TextBlobRedrawCoordinator::PurgeBlobMessage& msg, uint32_t msgBusUniqueID) {
     return msg.fContextID == msgBusUniqueID;
 }

 TextBlobRedrawCoordinator::TextBlobRedrawCoordinator(uint32_t messageBusID)
         : fSizeBudget(kDefaultBudget)
         , fMessageBusID(messageBusID)
         , fPurgeBlobInbox(messageBusID) { }

 #if SK_SUPPORT_GPU
 void TextBlobRedrawCoordinator::drawGlyphRunList(SkCanvas* canvas,
                                                  const GrClip* clip,
                                                  const SkMatrixProvider& viewMatrix,
                                                  const GlyphRunList& glyphRunList,
                                                  const SkPaint& paint,
                                                  SkStrikeDeviceInfo strikeDeviceInfo,
                                                  skgpu::v1::SurfaceDrawContext* sdc) {
     sk_sp<TextBlob> blob = this->findOrCreateBlob(viewMatrix, glyphRunList, paint,
                                                   strikeDeviceInfo);

     blob->draw(canvas, clip, viewMatrix, glyphRunList.origin(), paint, sdc);
 }
 #endif

 #if defined(SK_GRAPHITE_ENABLED)
 void TextBlobRedrawCoordinator::drawGlyphRunList(SkCanvas* canvas,
                                                  const SkMatrix& viewMatrix,
                                                  const sktext::GlyphRunList& glyphRunList,
                                                  const SkPaint& paint,
                                                  SkStrikeDeviceInfo strikeDeviceInfo,
                                                  skgpu::graphite::Device* device) {
     sk_sp<TextBlob> blob = this->findOrCreateBlob(viewMatrix, glyphRunList, paint,
                                                   strikeDeviceInfo);

     blob->draw(canvas, glyphRunList.origin(), paint, device);
 }
 #endif

 sk_sp<TextBlob> TextBlobRedrawCoordinator::findOrCreateBlob(const SkMatrixProvider& viewMatrix,
                                                             const GlyphRunList& glyphRunList,
                                                             const SkPaint& paint,
                                                             SkStrikeDeviceInfo strikeDeviceInfo) {
     SkMatrix positionMatrix{viewMatrix.localToDevice()};
     positionMatrix.preTranslate(glyphRunList.origin().x(), glyphRunList.origin().y());

     auto [canCache, key] = TextBlob::Key::Make(
             glyphRunList, paint, positionMatrix, strikeDeviceInfo);
     sk_sp<TextBlob> blob;
     if (canCache) {
         blob = this->find(key);
     }

     if (blob == nullptr || !blob->canReuse(paint, positionMatrix)) {
         if (blob != nullptr) {
             // We have to remake the blob because changes may invalidate our masks.
             this->remove(blob.get());
         }

         blob = TextBlob::Make(
                 glyphRunList, paint, positionMatrix,
                 strikeDeviceInfo, SkStrikeCache::GlobalStrikeCache());

         if (canCache) {
             blob->addKey(key);
             // The blob may already have been created on a different thread. Use the first one
             // that was there.
             blob = this->addOrReturnExisting(glyphRunList, blob);
         }
     }

     return blob;
 }

 sk_sp<TextBlob> TextBlobRedrawCoordinator::addOrReturnExisting(
         const GlyphRunList& glyphRunList, sk_sp<TextBlob> blob) {
     SkAutoSpinlock lock{fSpinLock};
     blob = this->internalAdd(std::move(blob));
     glyphRunList.temporaryShuntBlobNotifyAddedToCache(fMessageBusID);
     return blob;
 }

 sk_sp<TextBlob> TextBlobRedrawCoordinator::find(const TextBlob::Key& key) {
     SkAutoSpinlock lock{fSpinLock};
     const BlobIDCacheEntry* idEntry = fBlobIDCache.find(key.fUniqueID);
     if (idEntry == nullptr) {
         return nullptr;
     }

     sk_sp<TextBlob> blob = idEntry->find(key);
     TextBlob* blobPtr = blob.get();
     if (blobPtr != nullptr && blobPtr != fBlobList.head()) {
         fBlobList.remove(blobPtr);
         fBlobList.addToHead(blobPtr);
     }
     return blob;
 }

 void TextBlobRedrawCoordinator::remove(TextBlob* blob) {
     SkAutoSpinlock lock{fSpinLock};
     this->internalRemove(blob);
 }

 void TextBlobRedrawCoordinator::internalRemove(TextBlob* blob) {
     auto  id      = blob->key().fUniqueID;
     auto* idEntry = fBlobIDCache.find(id);

     if (idEntry != nullptr) {
         sk_sp<TextBlob> stillExists = idEntry->find(blob->key());
         if (blob == stillExists.get())  {
             fCurrentSize -= blob->size();
             fBlobList.remove(blob);
             idEntry->removeBlob(blob);
             if (idEntry->fBlobs.empty()) {
                 fBlobIDCache.remove(id);
             }
         }
     }
 }

 void TextBlobRedrawCoordinator::freeAll() {
     SkAutoSpinlock lock{fSpinLock};
     fBlobIDCache.reset();
     fBlobList.reset();
     fCurrentSize = 0;
 }

 void TextBlobRedrawCoordinator::PostPurgeBlobMessage(uint32_t blobID, uint32_t cacheID) {
     SkASSERT(blobID != SK_InvalidGenID);
     SkMessageBus<PurgeBlobMessage, uint32_t>::Post(PurgeBlobMessage(blobID, cacheID));
 }

 void TextBlobRedrawCoordinator::purgeStaleBlobs() {
     SkAutoSpinlock lock{fSpinLock};
     this->internalPurgeStaleBlobs();
 }

 void TextBlobRedrawCoordinator::internalPurgeStaleBlobs() {
     SkTArray<PurgeBlobMessage> msgs;
     fPurgeBlobInbox.poll(&msgs);

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

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

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

 size_t TextBlobRedrawCoordinator::usedBytes() const {
     SkAutoSpinlock lock{fSpinLock};
     return fCurrentSize;
 }

 bool TextBlobRedrawCoordinator::isOverBudget() const {
     SkAutoSpinlock lock{fSpinLock};
     return fCurrentSize > fSizeBudget;
 }

 void TextBlobRedrawCoordinator::internalCheckPurge(TextBlob* blob) {
     // First, purge all stale blob IDs.
     this->internalPurgeStaleBlobs();

     // If we are still over budget, then unref until we are below budget again
     if (fCurrentSize > fSizeBudget) {
         TextBlobList::Iter iter;
         iter.init(fBlobList, TextBlobList::Iter::kTail_IterStart);
         TextBlob* lruBlob = nullptr;
         while (fCurrentSize > fSizeBudget && (lruBlob = iter.get()) && lruBlob != blob) {
             // Backup the iterator before removing and unrefing the blob
             iter.prev();

             this->internalRemove(lruBlob);
         }

     #ifdef SPEW_BUDGET_MESSAGE
         if (fCurrentSize > fSizeBudget) {
             SkDebugf("Single textblob is larger than our whole budget");
         }
     #endif
     }
 }

 sk_sp<TextBlob> TextBlobRedrawCoordinator::internalAdd(sk_sp<TextBlob> blob) {
     auto  id      = blob->key().fUniqueID;
     auto* idEntry = fBlobIDCache.find(id);
     if (!idEntry) {
         idEntry = fBlobIDCache.set(id, BlobIDCacheEntry(id));
     }

     if (sk_sp<TextBlob> alreadyIn = idEntry->find(blob->key()); alreadyIn) {
         blob = std::move(alreadyIn);
     } else {
         fBlobList.addToHead(blob.get());
         fCurrentSize += blob->size();
         idEntry->addBlob(blob);
     }

     this->internalCheckPurge(blob.get());
     return blob;
 }

 TextBlobRedrawCoordinator::BlobIDCacheEntry::BlobIDCacheEntry() : fID(SK_InvalidGenID) {}

 TextBlobRedrawCoordinator::BlobIDCacheEntry::BlobIDCacheEntry(uint32_t id) : fID(id) {}

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

 void TextBlobRedrawCoordinator::BlobIDCacheEntry::addBlob(sk_sp<TextBlob> blob) {
     SkASSERT(blob);
     SkASSERT(blob->key().fUniqueID == fID);
     SkASSERT(!this->find(blob->key()));

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

 void TextBlobRedrawCoordinator::BlobIDCacheEntry::removeBlob(TextBlob* blob) {
     SkASSERT(blob);
     SkASSERT(blob->key().fUniqueID == fID);

     auto index = this->findBlobIndex(blob->key());
     SkASSERT(index >= 0);

     fBlobs.removeShuffle(index);
 }

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

 int TextBlobRedrawCoordinator::BlobIDCacheEntry::findBlobIndex(const TextBlob::Key& key) const {
     for (int i = 0; i < fBlobs.count(); ++i) {
         if (fBlobs[i]->key() == key) {
             return i;
         }
     }
     return -1;
 }

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

	#include "src/text/gpu/TextBlobRedrawCoordinator.h"

	#include "src/core/SkStrikeCache.h"
	#include "src/text/GlyphRun.h"
	#if SK_SUPPORT_GPU
	#include "src/gpu/ganesh/v1/SurfaceDrawContext_v1.h"
	#endif

	// This needs to be outside the namespace so we can declare SkMessageBus properly
	DECLARE_SKMESSAGEBUS_MESSAGE(sktext::gpu::TextBlobRedrawCoordinator::PurgeBlobMessage,
	uint32_t, true)
	namespace sktext::gpu {
	// This function is captured by the above macro using implementations from SkMessageBus.h
	static inline bool SkShouldPostMessageToBus(
	const TextBlobRedrawCoordinator::PurgeBlobMessage& msg, uint32_t msgBusUniqueID) {
	return msg.fContextID == msgBusUniqueID;
	}

	TextBlobRedrawCoordinator::TextBlobRedrawCoordinator(uint32_t messageBusID)
	: fSizeBudget(kDefaultBudget)
	, fMessageBusID(messageBusID)
	, fPurgeBlobInbox(messageBusID) { }

	#if SK_SUPPORT_GPU
	void TextBlobRedrawCoordinator::drawGlyphRunList(SkCanvas* canvas,
	const GrClip* clip,
	const SkMatrixProvider& viewMatrix,
	const GlyphRunList& glyphRunList,
	const SkPaint& paint,
	SkStrikeDeviceInfo strikeDeviceInfo,
	skgpu::v1::SurfaceDrawContext* sdc) {
	sk_sp<TextBlob> blob = this->findOrCreateBlob(viewMatrix, glyphRunList, paint,
	strikeDeviceInfo);

	blob->draw(canvas, clip, viewMatrix, glyphRunList.origin(), paint, sdc);
	}
	#endif

	#if defined(SK_GRAPHITE_ENABLED)
	void TextBlobRedrawCoordinator::drawGlyphRunList(SkCanvas* canvas,
	const SkMatrix& viewMatrix,
	const sktext::GlyphRunList& glyphRunList,
	const SkPaint& paint,
	SkStrikeDeviceInfo strikeDeviceInfo,
	skgpu::graphite::Device* device) {
	sk_sp<TextBlob> blob = this->findOrCreateBlob(viewMatrix, glyphRunList, paint,
	strikeDeviceInfo);

	blob->draw(canvas, glyphRunList.origin(), paint, device);
	}
	#endif

	sk_sp<TextBlob> TextBlobRedrawCoordinator::findOrCreateBlob(const SkMatrixProvider& viewMatrix,
	const GlyphRunList& glyphRunList,
	const SkPaint& paint,
	SkStrikeDeviceInfo strikeDeviceInfo) {
	SkMatrix positionMatrix{viewMatrix.localToDevice()};
	positionMatrix.preTranslate(glyphRunList.origin().x(), glyphRunList.origin().y());

	auto [canCache, key] = TextBlob::Key::Make(
	glyphRunList, paint, positionMatrix, strikeDeviceInfo);
	sk_sp<TextBlob> blob;
	if (canCache) {
	blob = this->find(key);
	}

	if (blob == nullptr \|\| !blob->canReuse(paint, positionMatrix)) {
	if (blob != nullptr) {
	// We have to remake the blob because changes may invalidate our masks.
	this->remove(blob.get());
	}

	blob = TextBlob::Make(
	glyphRunList, paint, positionMatrix,
	strikeDeviceInfo, SkStrikeCache::GlobalStrikeCache());

	if (canCache) {
	blob->addKey(key);
	// The blob may already have been created on a different thread. Use the first one
	// that was there.
	blob = this->addOrReturnExisting(glyphRunList, blob);
	}
	}

	return blob;
	}

	sk_sp<TextBlob> TextBlobRedrawCoordinator::addOrReturnExisting(
	const GlyphRunList& glyphRunList, sk_sp<TextBlob> blob) {
	SkAutoSpinlock lock{fSpinLock};
	blob = this->internalAdd(std::move(blob));
	glyphRunList.temporaryShuntBlobNotifyAddedToCache(fMessageBusID);
	return blob;
	}

	sk_sp<TextBlob> TextBlobRedrawCoordinator::find(const TextBlob::Key& key) {
	SkAutoSpinlock lock{fSpinLock};
	const BlobIDCacheEntry* idEntry = fBlobIDCache.find(key.fUniqueID);
	if (idEntry == nullptr) {
	return nullptr;
	}

	sk_sp<TextBlob> blob = idEntry->find(key);
	TextBlob* blobPtr = blob.get();
	if (blobPtr != nullptr && blobPtr != fBlobList.head()) {
	fBlobList.remove(blobPtr);
	fBlobList.addToHead(blobPtr);
	}
	return blob;
	}

	void TextBlobRedrawCoordinator::remove(TextBlob* blob) {
	SkAutoSpinlock lock{fSpinLock};
	this->internalRemove(blob);
	}

	void TextBlobRedrawCoordinator::internalRemove(TextBlob* blob) {
	auto id = blob->key().fUniqueID;
	auto* idEntry = fBlobIDCache.find(id);

	if (idEntry != nullptr) {
	sk_sp<TextBlob> stillExists = idEntry->find(blob->key());
	if (blob == stillExists.get()) {
	fCurrentSize -= blob->size();
	fBlobList.remove(blob);
	idEntry->removeBlob(blob);
	if (idEntry->fBlobs.empty()) {
	fBlobIDCache.remove(id);
	}
	}
	}
	}

	void TextBlobRedrawCoordinator::freeAll() {
	SkAutoSpinlock lock{fSpinLock};
	fBlobIDCache.reset();
	fBlobList.reset();
	fCurrentSize = 0;
	}

	void TextBlobRedrawCoordinator::PostPurgeBlobMessage(uint32_t blobID, uint32_t cacheID) {
	SkASSERT(blobID != SK_InvalidGenID);
	SkMessageBus<PurgeBlobMessage, uint32_t>::Post(PurgeBlobMessage(blobID, cacheID));
	}

	void TextBlobRedrawCoordinator::purgeStaleBlobs() {
	SkAutoSpinlock lock{fSpinLock};
	this->internalPurgeStaleBlobs();
	}

	void TextBlobRedrawCoordinator::internalPurgeStaleBlobs() {
	SkTArray<PurgeBlobMessage> msgs;
	fPurgeBlobInbox.poll(&msgs);

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

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

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

	size_t TextBlobRedrawCoordinator::usedBytes() const {
	SkAutoSpinlock lock{fSpinLock};
	return fCurrentSize;
	}

	bool TextBlobRedrawCoordinator::isOverBudget() const {
	SkAutoSpinlock lock{fSpinLock};
	return fCurrentSize > fSizeBudget;
	}

	void TextBlobRedrawCoordinator::internalCheckPurge(TextBlob* blob) {
	// First, purge all stale blob IDs.
	this->internalPurgeStaleBlobs();

	// If we are still over budget, then unref until we are below budget again
	if (fCurrentSize > fSizeBudget) {
	TextBlobList::Iter iter;
	iter.init(fBlobList, TextBlobList::Iter::kTail_IterStart);
	TextBlob* lruBlob = nullptr;
	while (fCurrentSize > fSizeBudget && (lruBlob = iter.get()) && lruBlob != blob) {
	// Backup the iterator before removing and unrefing the blob
	iter.prev();

	this->internalRemove(lruBlob);
	}

	#ifdef SPEW_BUDGET_MESSAGE
	if (fCurrentSize > fSizeBudget) {
	SkDebugf("Single textblob is larger than our whole budget");
	}
	#endif
	}
	}

	sk_sp<TextBlob> TextBlobRedrawCoordinator::internalAdd(sk_sp<TextBlob> blob) {
	auto id = blob->key().fUniqueID;
	auto* idEntry = fBlobIDCache.find(id);
	if (!idEntry) {
	idEntry = fBlobIDCache.set(id, BlobIDCacheEntry(id));
	}

	if (sk_sp<TextBlob> alreadyIn = idEntry->find(blob->key()); alreadyIn) {
	blob = std::move(alreadyIn);
	} else {
	fBlobList.addToHead(blob.get());
	fCurrentSize += blob->size();
	idEntry->addBlob(blob);
	}

	this->internalCheckPurge(blob.get());
	return blob;
	}

	TextBlobRedrawCoordinator::BlobIDCacheEntry::BlobIDCacheEntry() : fID(SK_InvalidGenID) {}

	TextBlobRedrawCoordinator::BlobIDCacheEntry::BlobIDCacheEntry(uint32_t id) : fID(id) {}

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

	void TextBlobRedrawCoordinator::BlobIDCacheEntry::addBlob(sk_sp<TextBlob> blob) {
	SkASSERT(blob);
	SkASSERT(blob->key().fUniqueID == fID);
	SkASSERT(!this->find(blob->key()));

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

	void TextBlobRedrawCoordinator::BlobIDCacheEntry::removeBlob(TextBlob* blob) {
	SkASSERT(blob);
	SkASSERT(blob->key().fUniqueID == fID);

	auto index = this->findBlobIndex(blob->key());
	SkASSERT(index >= 0);

	fBlobs.removeShuffle(index);
	}

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

	int TextBlobRedrawCoordinator::BlobIDCacheEntry::findBlobIndex(const TextBlob::Key& key) const {
	for (int i = 0; i < fBlobs.count(); ++i) {
	if (fBlobs[i]->key() == key) {
	return i;
	}
	}
	return -1;
	}

	} // namespace sktext::gpu