src/pdf/SkDeflate.cpp - platform/external/skqp - Gitiles

 /*
  * Copyright 2010 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #include "SkData.h"
 #include "SkDeflate.h"

 #ifdef ZLIB_INCLUDE
     #include ZLIB_INCLUDE
 #else
     #include "zlib.h"
 #endif

 namespace {

 // Different zlib implementations use different T.
 // We've seen size_t and unsigned.
 template <typename T> void* skia_alloc_func(void*, T items, T size) {
     return sk_calloc_throw(SkToSizeT(items) * SkToSizeT(size));
 }

 void skia_free_func(void*, void* address) { sk_free(address); }

 }  // namespace

 #define SKDEFLATEWSTREAM_INPUT_BUFFER_SIZE 4096
 #define SKDEFLATEWSTREAM_OUTPUT_BUFFER_SIZE 4224  // 4096 + 128, usually big
                                                   // enough to always do a
                                                   // single loop.

 // called by both write() and finalize()
 static void do_deflate(int flush,
                        z_stream* zStream,
                        SkWStream* out,
                        unsigned char* inBuffer,
                        size_t inBufferSize) {
     zStream->next_in = inBuffer;
     zStream->avail_in = SkToInt(inBufferSize);
     unsigned char outBuffer[SKDEFLATEWSTREAM_OUTPUT_BUFFER_SIZE];
     SkDEBUGCODE(int returnValue;)
     do {
         zStream->next_out = outBuffer;
         zStream->avail_out = sizeof(outBuffer);
         SkDEBUGCODE(returnValue =) deflate(zStream, flush);
         SkASSERT(!zStream->msg);

         out->write(outBuffer, sizeof(outBuffer) - zStream->avail_out);
     } while (zStream->avail_in || !zStream->avail_out);
     SkASSERT(flush == Z_FINISH
                  ? returnValue == Z_STREAM_END
                  : returnValue == Z_OK);
 }

 // Hide all zlib impl details.
 struct SkDeflateWStream::Impl {
     SkWStream* fOut;
     unsigned char fInBuffer[SKDEFLATEWSTREAM_INPUT_BUFFER_SIZE];
     size_t fInBufferIndex;
     z_stream fZStream;
 };

 SkDeflateWStream::SkDeflateWStream(SkWStream* out,
                                    int compressionLevel,
                                    bool gzip)
     : fImpl(new SkDeflateWStream::Impl) {
     fImpl->fOut = out;
     fImpl->fInBufferIndex = 0;
     if (!fImpl->fOut) {
         return;
     }
     fImpl->fZStream.next_in = nullptr;
     fImpl->fZStream.zalloc = &skia_alloc_func;
     fImpl->fZStream.zfree = &skia_free_func;
     fImpl->fZStream.opaque = nullptr;
     SkASSERT(compressionLevel <= 9 && compressionLevel >= -1);
     SkDEBUGCODE(int r =) deflateInit2(&fImpl->fZStream, compressionLevel,
                                       Z_DEFLATED, gzip ? 0x1F : 0x0F,
                                       8, Z_DEFAULT_STRATEGY);
     SkASSERT(Z_OK == r);
 }

 SkDeflateWStream::~SkDeflateWStream() { this->finalize(); }

 void SkDeflateWStream::finalize() {
     if (!fImpl->fOut) {
         return;
     }
     do_deflate(Z_FINISH, &fImpl->fZStream, fImpl->fOut, fImpl->fInBuffer,
                fImpl->fInBufferIndex);
     (void)deflateEnd(&fImpl->fZStream);
     fImpl->fOut = nullptr;
 }

 bool SkDeflateWStream::write(const void* void_buffer, size_t len) {
     if (!fImpl->fOut) {
         return false;
     }
     const char* buffer = (const char*)void_buffer;
     while (len > 0) {
         size_t tocopy =
                 SkTMin(len, sizeof(fImpl->fInBuffer) - fImpl->fInBufferIndex);
         memcpy(fImpl->fInBuffer + fImpl->fInBufferIndex, buffer, tocopy);
         len -= tocopy;
         buffer += tocopy;
         fImpl->fInBufferIndex += tocopy;
         SkASSERT(fImpl->fInBufferIndex <= sizeof(fImpl->fInBuffer));

         // if the buffer isn't filled, don't call into zlib yet.
         if (sizeof(fImpl->fInBuffer) == fImpl->fInBufferIndex) {
             do_deflate(Z_NO_FLUSH, &fImpl->fZStream, fImpl->fOut,
                        fImpl->fInBuffer, fImpl->fInBufferIndex);
             fImpl->fInBufferIndex = 0;
         }
     }
     return true;
 }

 size_t SkDeflateWStream::bytesWritten() const {
     return fImpl->fZStream.total_in + fImpl->fInBufferIndex;
 }
	/*
	* Copyright 2010 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#include "SkData.h"
	#include "SkDeflate.h"

	#ifdef ZLIB_INCLUDE
	#include ZLIB_INCLUDE
	#else
	#include "zlib.h"
	#endif

	namespace {

	// Different zlib implementations use different T.
	// We've seen size_t and unsigned.
	template <typename T> void* skia_alloc_func(void*, T items, T size) {
	return sk_calloc_throw(SkToSizeT(items) * SkToSizeT(size));
	}

	void skia_free_func(void, void address) { sk_free(address); }

	} // namespace

	#define SKDEFLATEWSTREAM_INPUT_BUFFER_SIZE 4096
	#define SKDEFLATEWSTREAM_OUTPUT_BUFFER_SIZE 4224 // 4096 + 128, usually big
	// enough to always do a
	// single loop.

	// called by both write() and finalize()
	static void do_deflate(int flush,
	z_stream* zStream,
	SkWStream* out,
	unsigned char* inBuffer,
	size_t inBufferSize) {
	zStream->next_in = inBuffer;
	zStream->avail_in = SkToInt(inBufferSize);
	unsigned char outBuffer[SKDEFLATEWSTREAM_OUTPUT_BUFFER_SIZE];
	SkDEBUGCODE(int returnValue;)
	do {
	zStream->next_out = outBuffer;
	zStream->avail_out = sizeof(outBuffer);
	SkDEBUGCODE(returnValue =) deflate(zStream, flush);
	SkASSERT(!zStream->msg);

	out->write(outBuffer, sizeof(outBuffer) - zStream->avail_out);
	} while (zStream->avail_in \|\| !zStream->avail_out);
	SkASSERT(flush == Z_FINISH
	? returnValue == Z_STREAM_END
	: returnValue == Z_OK);
	}

	// Hide all zlib impl details.
	struct SkDeflateWStream::Impl {
	SkWStream* fOut;
	unsigned char fInBuffer[SKDEFLATEWSTREAM_INPUT_BUFFER_SIZE];
	size_t fInBufferIndex;
	z_stream fZStream;
	};

	SkDeflateWStream::SkDeflateWStream(SkWStream* out,
	int compressionLevel,
	bool gzip)
	: fImpl(new SkDeflateWStream::Impl) {
	fImpl->fOut = out;
	fImpl->fInBufferIndex = 0;
	if (!fImpl->fOut) {
	return;
	}
	fImpl->fZStream.next_in = nullptr;
	fImpl->fZStream.zalloc = &skia_alloc_func;
	fImpl->fZStream.zfree = &skia_free_func;
	fImpl->fZStream.opaque = nullptr;
	SkASSERT(compressionLevel <= 9 && compressionLevel >= -1);
	SkDEBUGCODE(int r =) deflateInit2(&fImpl->fZStream, compressionLevel,
	Z_DEFLATED, gzip ? 0x1F : 0x0F,
	8, Z_DEFAULT_STRATEGY);
	SkASSERT(Z_OK == r);
	}

	SkDeflateWStream::~SkDeflateWStream() { this->finalize(); }

	void SkDeflateWStream::finalize() {
	if (!fImpl->fOut) {
	return;
	}
	do_deflate(Z_FINISH, &fImpl->fZStream, fImpl->fOut, fImpl->fInBuffer,
	fImpl->fInBufferIndex);
	(void)deflateEnd(&fImpl->fZStream);
	fImpl->fOut = nullptr;
	}

	bool SkDeflateWStream::write(const void* void_buffer, size_t len) {
	if (!fImpl->fOut) {
	return false;
	}
	const char* buffer = (const char*)void_buffer;
	while (len > 0) {
	size_t tocopy =
	SkTMin(len, sizeof(fImpl->fInBuffer) - fImpl->fInBufferIndex);
	memcpy(fImpl->fInBuffer + fImpl->fInBufferIndex, buffer, tocopy);
	len -= tocopy;
	buffer += tocopy;
	fImpl->fInBufferIndex += tocopy;
	SkASSERT(fImpl->fInBufferIndex <= sizeof(fImpl->fInBuffer));

	// if the buffer isn't filled, don't call into zlib yet.
	if (sizeof(fImpl->fInBuffer) == fImpl->fInBufferIndex) {
	do_deflate(Z_NO_FLUSH, &fImpl->fZStream, fImpl->fOut,
	fImpl->fInBuffer, fImpl->fInBufferIndex);
	fImpl->fInBufferIndex = 0;
	}
	}
	return true;
	}

	size_t SkDeflateWStream::bytesWritten() const {
	return fImpl->fZStream.total_in + fImpl->fInBufferIndex;
	}