/* * 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 "SkData.h" #include "SkFlate.h" #include "SkPDFCatalog.h" #include "SkPDFStream.h" #include "SkStream.h" #include "SkStreamPriv.h" static bool skip_compression(SkPDFCatalog* catalog) { return SkToBool(catalog->getDocumentFlags() & SkPDFDocument::kFavorSpeedOverSize_Flags); } SkPDFStream::SkPDFStream(SkStream* stream) : fState(kUnused_State) { this->setData(stream); } SkPDFStream::SkPDFStream(SkData* data) : fState(kUnused_State) { this->setData(data); } SkPDFStream::SkPDFStream(const SkPDFStream& pdfStream) : SkPDFDict(), fState(kUnused_State) { this->setData(pdfStream.fDataStream.get()); bool removeLength = true; // Don't uncompress an already compressed stream, but we could. if (pdfStream.fState == kCompressed_State) { fState = kCompressed_State; removeLength = false; } this->mergeFrom(pdfStream); if (removeLength) { this->remove("Length"); } } SkPDFStream::~SkPDFStream() {} void SkPDFStream::emitObject(SkWStream* stream, SkPDFCatalog* catalog, bool indirect) { if (indirect) { return emitIndirectObject(stream, catalog); } SkAutoMutexAcquire lock(fMutex); // multiple threads could be calling emit if (!this->populate(catalog)) { return fSubstitute->emitObject(stream, catalog, indirect); } this->INHERITED::emitObject(stream, catalog, false); stream->writeText(" stream\n"); stream->writeStream(fDataStream.get(), fDataStream->getLength()); SkAssertResult(fDataStream->rewind()); stream->writeText("\nendstream"); } size_t SkPDFStream::getOutputSize(SkPDFCatalog* catalog, bool indirect) { if (indirect) { return getIndirectOutputSize(catalog); } SkAutoMutexAcquire lock(fMutex); // multiple threads could be calling emit if (!this->populate(catalog)) { return fSubstitute->getOutputSize(catalog, indirect); } return this->INHERITED::getOutputSize(catalog, false) + strlen(" stream\n\nendstream") + this->dataSize(); } SkPDFStream::SkPDFStream() : fState(kUnused_State) {} void SkPDFStream::setData(SkData* data) { fMemoryStream.setData(data); if (&fMemoryStream != fDataStream.get()) { fDataStream.reset(SkRef(&fMemoryStream)); } } void SkPDFStream::setData(SkStream* stream) { // Code assumes that the stream starts at the beginning and is rewindable. if (&fMemoryStream == fDataStream.get()) { SkASSERT(&fMemoryStream != stream); fMemoryStream.setData(NULL); } SkASSERT(0 == fMemoryStream.getLength()); if (stream) { // SkStreamRewindableFromSkStream will try stream->duplicate(). fDataStream.reset(SkStreamRewindableFromSkStream(stream)); SkASSERT(fDataStream.get()); } else { fDataStream.reset(SkRef(&fMemoryStream)); } } size_t SkPDFStream::dataSize() const { SkASSERT(fDataStream->hasLength()); return fDataStream->getLength(); } bool SkPDFStream::populate(SkPDFCatalog* catalog) { if (fState == kUnused_State) { if (!skip_compression(catalog) && SkFlate::HaveFlate()) { SkDynamicMemoryWStream compressedData; SkAssertResult( SkFlate::Deflate(fDataStream.get(), &compressedData)); SkAssertResult(fDataStream->rewind()); if (compressedData.getOffset() < this->dataSize()) { SkAutoTUnref compressed( compressedData.detachAsStream()); this->setData(compressed.get()); insertName("Filter", "FlateDecode"); } fState = kCompressed_State; } else { fState = kNoCompression_State; } insertInt("Length", this->dataSize()); } else if (fState == kNoCompression_State && !skip_compression(catalog) && SkFlate::HaveFlate()) { if (!fSubstitute.get()) { fSubstitute.reset(new SkPDFStream(*this)); catalog->setSubstitute(this, fSubstitute.get()); } return false; } return true; }