src/third_party/protobuf/src/google/protobuf/io/zero_copy_stream_impl_lite.cc - cobalt - Git at Google

 // Protocol Buffers - Google's data interchange format
 // Copyright 2008 Google Inc.  All rights reserved.
 // https://developers.google.com/protocol-buffers/
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 // notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 // copyright notice, this list of conditions and the following disclaimer
 // in the documentation and/or other materials provided with the
 // distribution.
 //     * Neither the name of Google Inc. nor the names of its
 // contributors may be used to endorse or promote products derived from
 // this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 // Author: kenton@google.com (Kenton Varda)
 //  Based on original Protocol Buffers design by
 //  Sanjay Ghemawat, Jeff Dean, and others.

 #include <google/protobuf/io/zero_copy_stream_impl_lite.h>

 #include <algorithm>
 #include <limits>

 #include <google/protobuf/stubs/casts.h>
 #include <google/protobuf/stubs/common.h>
 #include <google/protobuf/stubs/logging.h>
 #include <google/protobuf/stubs/stl_util.h>

 namespace google {
 namespace protobuf {
 namespace io {

 namespace {

 // Default block size for Copying{In,Out}putStreamAdaptor.
 static const int kDefaultBlockSize = 8192;

 }  // namespace

 // ===================================================================

 ArrayInputStream::ArrayInputStream(const void* data, int size,
                                    int block_size)
   : data_(reinterpret_cast<const uint8*>(data)),
     size_(size),
     block_size_(block_size > 0 ? block_size : size),
     position_(0),
     last_returned_size_(0) {
 }

 ArrayInputStream::~ArrayInputStream() {
 }

 bool ArrayInputStream::Next(const void** data, int* size) {
   if (position_ < size_) {
     last_returned_size_ = std::min(block_size_, size_ - position_);
     *data = data_ + position_;
     *size = last_returned_size_;
     position_ += last_returned_size_;
     return true;
   } else {
     // We're at the end of the array.
     last_returned_size_ = 0;   // Don't let caller back up.
     return false;
   }
 }

 void ArrayInputStream::BackUp(int count) {
   GOOGLE_CHECK_GT(last_returned_size_, 0)
       << "BackUp() can only be called after a successful Next().";
   GOOGLE_CHECK_LE(count, last_returned_size_);
   GOOGLE_CHECK_GE(count, 0);
   position_ -= count;
   last_returned_size_ = 0;  // Don't let caller back up further.
 }

 bool ArrayInputStream::Skip(int count) {
   GOOGLE_CHECK_GE(count, 0);
   last_returned_size_ = 0;   // Don't let caller back up.
   if (count > size_ - position_) {
     position_ = size_;
     return false;
   } else {
     position_ += count;
     return true;
   }
 }

 int64 ArrayInputStream::ByteCount() const {
   return position_;
 }


 // ===================================================================

 ArrayOutputStream::ArrayOutputStream(void* data, int size, int block_size)
   : data_(reinterpret_cast<uint8*>(data)),
     size_(size),
     block_size_(block_size > 0 ? block_size : size),
     position_(0),
     last_returned_size_(0) {
 }

 ArrayOutputStream::~ArrayOutputStream() {
 }

 bool ArrayOutputStream::Next(void** data, int* size) {
   if (position_ < size_) {
     last_returned_size_ = std::min(block_size_, size_ - position_);
     *data = data_ + position_;
     *size = last_returned_size_;
     position_ += last_returned_size_;
     return true;
   } else {
     // We're at the end of the array.
     last_returned_size_ = 0;   // Don't let caller back up.
     return false;
   }
 }

 void ArrayOutputStream::BackUp(int count) {
   GOOGLE_CHECK_GT(last_returned_size_, 0)
       << "BackUp() can only be called after a successful Next().";
   GOOGLE_CHECK_LE(count, last_returned_size_);
   GOOGLE_CHECK_GE(count, 0);
   position_ -= count;
   last_returned_size_ = 0;  // Don't let caller back up further.
 }

 int64 ArrayOutputStream::ByteCount() const {
   return position_;
 }

 // ===================================================================

 StringOutputStream::StringOutputStream(string* target)
   : target_(target) {
 }

 StringOutputStream::~StringOutputStream() {
 }

 bool StringOutputStream::Next(void** data, int* size) {
   GOOGLE_CHECK(target_ != NULL);
   int old_size = target_->size();

   // Grow the string.
   if (old_size < target_->capacity()) {
     // Resize the string to match its capacity, since we can get away
     // without a memory allocation this way.
     STLStringResizeUninitialized(target_, target_->capacity());
   } else {
     // Size has reached capacity, try to double the size.
     if (old_size > std::numeric_limits<int>::max() / 2) {
       // Can not double the size otherwise it is going to cause integer
       // overflow in the expression below: old_size * 2 ";
       GOOGLE_LOG(ERROR) << "Cannot allocate buffer larger than kint32max for "
                  << "StringOutputStream.";
       return false;
     }
     // Double the size, also make sure that the new size is at least
     // kMinimumSize.
     STLStringResizeUninitialized(
         target_,
         std::max(old_size * 2,
                  kMinimumSize + 0));  // "+ 0" works around GCC4 weirdness.
   }

   *data = mutable_string_data(target_) + old_size;
   *size = target_->size() - old_size;
   return true;
 }

 void StringOutputStream::BackUp(int count) {
   GOOGLE_CHECK_GE(count, 0);
   GOOGLE_CHECK(target_ != NULL);
   GOOGLE_CHECK_LE(count, target_->size());
   target_->resize(target_->size() - count);
 }

 int64 StringOutputStream::ByteCount() const {
   GOOGLE_CHECK(target_ != NULL);
   return target_->size();
 }

 void StringOutputStream::SetString(string* target) {
   target_ = target;
 }

 // ===================================================================

 LazyStringOutputStream::LazyStringOutputStream(
     ResultCallback<string*>* callback)
     : StringOutputStream(NULL),
       callback_(GOOGLE_CHECK_NOTNULL(callback)),
       string_is_set_(false) {
 }

 LazyStringOutputStream::~LazyStringOutputStream() {
 }

 bool LazyStringOutputStream::Next(void** data, int* size) {
   if (!string_is_set_) {
     SetString(callback_->Run());
     string_is_set_ = true;
   }
   return StringOutputStream::Next(data, size);
 }

 int64 LazyStringOutputStream::ByteCount() const {
   return string_is_set_ ? StringOutputStream::ByteCount() : 0;
 }

 // ===================================================================

 CopyingInputStream::~CopyingInputStream() {}

 int CopyingInputStream::Skip(int count) {
   char junk[4096];
   int skipped = 0;
   while (skipped < count) {
     int bytes =
         Read(junk, std::min(count - skipped, implicit_cast<int>(sizeof(junk))));
     if (bytes <= 0) {
       // EOF or read error.
       return skipped;
     }
     skipped += bytes;
   }
   return skipped;
 }

 CopyingInputStreamAdaptor::CopyingInputStreamAdaptor(
     CopyingInputStream* copying_stream, int block_size)
   : copying_stream_(copying_stream),
     owns_copying_stream_(false),
     failed_(false),
     position_(0),
     buffer_size_(block_size > 0 ? block_size : kDefaultBlockSize),
     buffer_used_(0),
     backup_bytes_(0) {
 }

 CopyingInputStreamAdaptor::~CopyingInputStreamAdaptor() {
   if (owns_copying_stream_) {
     delete copying_stream_;
   }
 }

 bool CopyingInputStreamAdaptor::Next(const void** data, int* size) {
   if (failed_) {
     // Already failed on a previous read.
     return false;
   }

   AllocateBufferIfNeeded();

   if (backup_bytes_ > 0) {
     // We have data left over from a previous BackUp(), so just return that.
     *data = buffer_.get() + buffer_used_ - backup_bytes_;
     *size = backup_bytes_;
     backup_bytes_ = 0;
     return true;
   }

   // Read new data into the buffer.
   buffer_used_ = copying_stream_->Read(buffer_.get(), buffer_size_);
   if (buffer_used_ <= 0) {
     // EOF or read error.  We don't need the buffer anymore.
     if (buffer_used_ < 0) {
       // Read error (not EOF).
       failed_ = true;
     }
     FreeBuffer();
     return false;
   }
   position_ += buffer_used_;

   *size = buffer_used_;
   *data = buffer_.get();
   return true;
 }

 void CopyingInputStreamAdaptor::BackUp(int count) {
   GOOGLE_CHECK(backup_bytes_ == 0 && buffer_.get() != NULL)
     << " BackUp() can only be called after Next().";
   GOOGLE_CHECK_LE(count, buffer_used_)
     << " Can't back up over more bytes than were returned by the last call"
        " to Next().";
   GOOGLE_CHECK_GE(count, 0)
     << " Parameter to BackUp() can't be negative.";

   backup_bytes_ = count;
 }

 bool CopyingInputStreamAdaptor::Skip(int count) {
   GOOGLE_CHECK_GE(count, 0);

   if (failed_) {
     // Already failed on a previous read.
     return false;
   }

   // First skip any bytes left over from a previous BackUp().
   if (backup_bytes_ >= count) {
     // We have more data left over than we're trying to skip.  Just chop it.
     backup_bytes_ -= count;
     return true;
   }

   count -= backup_bytes_;
   backup_bytes_ = 0;

   int skipped = copying_stream_->Skip(count);
   position_ += skipped;
   return skipped == count;
 }

 int64 CopyingInputStreamAdaptor::ByteCount() const {
   return position_ - backup_bytes_;
 }

 void CopyingInputStreamAdaptor::AllocateBufferIfNeeded() {
   if (buffer_.get() == NULL) {
     buffer_.reset(new uint8[buffer_size_]);
   }
 }

 void CopyingInputStreamAdaptor::FreeBuffer() {
   GOOGLE_CHECK_EQ(backup_bytes_, 0);
   buffer_used_ = 0;
   buffer_.reset();
 }

 // ===================================================================

 CopyingOutputStream::~CopyingOutputStream() {}

 CopyingOutputStreamAdaptor::CopyingOutputStreamAdaptor(
     CopyingOutputStream* copying_stream, int block_size)
   : copying_stream_(copying_stream),
     owns_copying_stream_(false),
     failed_(false),
     position_(0),
     buffer_size_(block_size > 0 ? block_size : kDefaultBlockSize),
     buffer_used_(0) {
 }

 CopyingOutputStreamAdaptor::~CopyingOutputStreamAdaptor() {
   WriteBuffer();
   if (owns_copying_stream_) {
     delete copying_stream_;
   }
 }

 bool CopyingOutputStreamAdaptor::Flush() {
   return WriteBuffer();
 }

 bool CopyingOutputStreamAdaptor::Next(void** data, int* size) {
   if (buffer_used_ == buffer_size_) {
     if (!WriteBuffer()) return false;
   }

   AllocateBufferIfNeeded();

   *data = buffer_.get() + buffer_used_;
   *size = buffer_size_ - buffer_used_;
   buffer_used_ = buffer_size_;
   return true;
 }

 void CopyingOutputStreamAdaptor::BackUp(int count) {
   GOOGLE_CHECK_GE(count, 0);
   GOOGLE_CHECK_EQ(buffer_used_, buffer_size_)
     << " BackUp() can only be called after Next().";
   GOOGLE_CHECK_LE(count, buffer_used_)
     << " Can't back up over more bytes than were returned by the last call"
        " to Next().";

   buffer_used_ -= count;
 }

 int64 CopyingOutputStreamAdaptor::ByteCount() const {
   return position_ + buffer_used_;
 }

 bool CopyingOutputStreamAdaptor::WriteBuffer() {
   if (failed_) {
     // Already failed on a previous write.
     return false;
   }

   if (buffer_used_ == 0) return true;

   if (copying_stream_->Write(buffer_.get(), buffer_used_)) {
     position_ += buffer_used_;
     buffer_used_ = 0;
     return true;
   } else {
     failed_ = true;
     FreeBuffer();
     return false;
   }
 }

 void CopyingOutputStreamAdaptor::AllocateBufferIfNeeded() {
   if (buffer_ == NULL) {
     buffer_.reset(new uint8[buffer_size_]);
   }
 }

 void CopyingOutputStreamAdaptor::FreeBuffer() {
   buffer_used_ = 0;
   buffer_.reset();
 }

 // ===================================================================

 }  // namespace io
 }  // namespace protobuf
 }  // namespace google
	// Protocol Buffers - Google's data interchange format
	// Copyright 2008 Google Inc. All rights reserved.
	// https://developers.google.com/protocol-buffers/
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following disclaimer
	// in the documentation and/or other materials provided with the
	// distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	// Author: kenton@google.com (Kenton Varda)
	// Based on original Protocol Buffers design by
	// Sanjay Ghemawat, Jeff Dean, and others.

	#include <google/protobuf/io/zero_copy_stream_impl_lite.h>

	#include <algorithm>
	#include <limits>

	#include <google/protobuf/stubs/casts.h>
	#include <google/protobuf/stubs/common.h>
	#include <google/protobuf/stubs/logging.h>
	#include <google/protobuf/stubs/stl_util.h>

	namespace google {
	namespace protobuf {
	namespace io {

	namespace {

	// Default block size for Copying{In,Out}putStreamAdaptor.
	static const int kDefaultBlockSize = 8192;

	} // namespace

	// ===================================================================

	ArrayInputStream::ArrayInputStream(const void* data, int size,
	int block_size)
	: data_(reinterpret_cast<const uint8*>(data)),
	size_(size),
	block_size_(block_size > 0 ? block_size : size),
	position_(0),
	last_returned_size_(0) {
	}

	ArrayInputStream::~ArrayInputStream() {
	}

	bool ArrayInputStream::Next(const void** data, int* size) {
	if (position_ < size_) {
	last_returned_size_ = std::min(block_size_, size_ - position_);
	*data = data_ + position_;
	*size = last_returned_size_;
	position_ += last_returned_size_;
	return true;
	} else {
	// We're at the end of the array.
	last_returned_size_ = 0; // Don't let caller back up.
	return false;
	}
	}

	void ArrayInputStream::BackUp(int count) {
	GOOGLE_CHECK_GT(last_returned_size_, 0)
	<< "BackUp() can only be called after a successful Next().";
	GOOGLE_CHECK_LE(count, last_returned_size_);
	GOOGLE_CHECK_GE(count, 0);
	position_ -= count;
	last_returned_size_ = 0; // Don't let caller back up further.
	}

	bool ArrayInputStream::Skip(int count) {
	GOOGLE_CHECK_GE(count, 0);
	last_returned_size_ = 0; // Don't let caller back up.
	if (count > size_ - position_) {
	position_ = size_;
	return false;
	} else {
	position_ += count;
	return true;
	}
	}

	int64 ArrayInputStream::ByteCount() const {
	return position_;
	}


	// ===================================================================

	ArrayOutputStream::ArrayOutputStream(void* data, int size, int block_size)
	: data_(reinterpret_cast<uint8*>(data)),
	size_(size),
	block_size_(block_size > 0 ? block_size : size),
	position_(0),
	last_returned_size_(0) {
	}

	ArrayOutputStream::~ArrayOutputStream() {
	}

	bool ArrayOutputStream::Next(void** data, int* size) {
	if (position_ < size_) {
	last_returned_size_ = std::min(block_size_, size_ - position_);
	*data = data_ + position_;
	*size = last_returned_size_;
	position_ += last_returned_size_;
	return true;
	} else {
	// We're at the end of the array.
	last_returned_size_ = 0; // Don't let caller back up.
	return false;
	}
	}

	void ArrayOutputStream::BackUp(int count) {
	GOOGLE_CHECK_GT(last_returned_size_, 0)
	<< "BackUp() can only be called after a successful Next().";
	GOOGLE_CHECK_LE(count, last_returned_size_);
	GOOGLE_CHECK_GE(count, 0);
	position_ -= count;
	last_returned_size_ = 0; // Don't let caller back up further.
	}

	int64 ArrayOutputStream::ByteCount() const {
	return position_;
	}

	// ===================================================================

	StringOutputStream::StringOutputStream(string* target)
	: target_(target) {
	}

	StringOutputStream::~StringOutputStream() {
	}

	bool StringOutputStream::Next(void** data, int* size) {
	GOOGLE_CHECK(target_ != NULL);
	int old_size = target_->size();

	// Grow the string.
	if (old_size < target_->capacity()) {
	// Resize the string to match its capacity, since we can get away
	// without a memory allocation this way.
	STLStringResizeUninitialized(target_, target_->capacity());
	} else {
	// Size has reached capacity, try to double the size.
	if (old_size > std::numeric_limits<int>::max() / 2) {
	// Can not double the size otherwise it is going to cause integer
	// overflow in the expression below: old_size * 2 ";
	GOOGLE_LOG(ERROR) << "Cannot allocate buffer larger than kint32max for "
	<< "StringOutputStream.";
	return false;
	}
	// Double the size, also make sure that the new size is at least
	// kMinimumSize.
	STLStringResizeUninitialized(
	target_,
	std::max(old_size * 2,
	kMinimumSize + 0)); // "+ 0" works around GCC4 weirdness.
	}

	*data = mutable_string_data(target_) + old_size;
	*size = target_->size() - old_size;
	return true;
	}

	void StringOutputStream::BackUp(int count) {
	GOOGLE_CHECK_GE(count, 0);
	GOOGLE_CHECK(target_ != NULL);
	GOOGLE_CHECK_LE(count, target_->size());
	target_->resize(target_->size() - count);
	}

	int64 StringOutputStream::ByteCount() const {
	GOOGLE_CHECK(target_ != NULL);
	return target_->size();
	}

	void StringOutputStream::SetString(string* target) {
	target_ = target;
	}

	// ===================================================================

	LazyStringOutputStream::LazyStringOutputStream(
	ResultCallback<string> callback)
	: StringOutputStream(NULL),
	callback_(GOOGLE_CHECK_NOTNULL(callback)),
	string_is_set_(false) {
	}

	LazyStringOutputStream::~LazyStringOutputStream() {
	}

	bool LazyStringOutputStream::Next(void** data, int* size) {
	if (!string_is_set_) {
	SetString(callback_->Run());
	string_is_set_ = true;
	}
	return StringOutputStream::Next(data, size);
	}

	int64 LazyStringOutputStream::ByteCount() const {
	return string_is_set_ ? StringOutputStream::ByteCount() : 0;
	}

	// ===================================================================

	CopyingInputStream::~CopyingInputStream() {}

	int CopyingInputStream::Skip(int count) {
	char junk[4096];
	int skipped = 0;
	while (skipped < count) {
	int bytes =
	Read(junk, std::min(count - skipped, implicit_cast<int>(sizeof(junk))));
	if (bytes <= 0) {
	// EOF or read error.
	return skipped;
	}
	skipped += bytes;
	}
	return skipped;
	}

	CopyingInputStreamAdaptor::CopyingInputStreamAdaptor(
	CopyingInputStream* copying_stream, int block_size)
	: copying_stream_(copying_stream),
	owns_copying_stream_(false),
	failed_(false),
	position_(0),
	buffer_size_(block_size > 0 ? block_size : kDefaultBlockSize),
	buffer_used_(0),
	backup_bytes_(0) {
	}

	CopyingInputStreamAdaptor::~CopyingInputStreamAdaptor() {
	if (owns_copying_stream_) {
	delete copying_stream_;
	}
	}

	bool CopyingInputStreamAdaptor::Next(const void** data, int* size) {
	if (failed_) {
	// Already failed on a previous read.
	return false;
	}

	AllocateBufferIfNeeded();

	if (backup_bytes_ > 0) {
	// We have data left over from a previous BackUp(), so just return that.
	*data = buffer_.get() + buffer_used_ - backup_bytes_;
	*size = backup_bytes_;
	backup_bytes_ = 0;
	return true;
	}

	// Read new data into the buffer.
	buffer_used_ = copying_stream_->Read(buffer_.get(), buffer_size_);
	if (buffer_used_ <= 0) {
	// EOF or read error. We don't need the buffer anymore.
	if (buffer_used_ < 0) {
	// Read error (not EOF).
	failed_ = true;
	}
	FreeBuffer();
	return false;
	}
	position_ += buffer_used_;

	*size = buffer_used_;
	*data = buffer_.get();
	return true;
	}

	void CopyingInputStreamAdaptor::BackUp(int count) {
	GOOGLE_CHECK(backup_bytes_ == 0 && buffer_.get() != NULL)
	<< " BackUp() can only be called after Next().";
	GOOGLE_CHECK_LE(count, buffer_used_)
	<< " Can't back up over more bytes than were returned by the last call"
	" to Next().";
	GOOGLE_CHECK_GE(count, 0)
	<< " Parameter to BackUp() can't be negative.";

	backup_bytes_ = count;
	}

	bool CopyingInputStreamAdaptor::Skip(int count) {
	GOOGLE_CHECK_GE(count, 0);

	if (failed_) {
	// Already failed on a previous read.
	return false;
	}

	// First skip any bytes left over from a previous BackUp().
	if (backup_bytes_ >= count) {
	// We have more data left over than we're trying to skip. Just chop it.
	backup_bytes_ -= count;
	return true;
	}

	count -= backup_bytes_;
	backup_bytes_ = 0;

	int skipped = copying_stream_->Skip(count);
	position_ += skipped;
	return skipped == count;
	}

	int64 CopyingInputStreamAdaptor::ByteCount() const {
	return position_ - backup_bytes_;
	}

	void CopyingInputStreamAdaptor::AllocateBufferIfNeeded() {
	if (buffer_.get() == NULL) {
	buffer_.reset(new uint8[buffer_size_]);
	}
	}

	void CopyingInputStreamAdaptor::FreeBuffer() {
	GOOGLE_CHECK_EQ(backup_bytes_, 0);
	buffer_used_ = 0;
	buffer_.reset();
	}

	// ===================================================================

	CopyingOutputStream::~CopyingOutputStream() {}

	CopyingOutputStreamAdaptor::CopyingOutputStreamAdaptor(
	CopyingOutputStream* copying_stream, int block_size)
	: copying_stream_(copying_stream),
	owns_copying_stream_(false),
	failed_(false),
	position_(0),
	buffer_size_(block_size > 0 ? block_size : kDefaultBlockSize),
	buffer_used_(0) {
	}

	CopyingOutputStreamAdaptor::~CopyingOutputStreamAdaptor() {
	WriteBuffer();
	if (owns_copying_stream_) {
	delete copying_stream_;
	}
	}

	bool CopyingOutputStreamAdaptor::Flush() {
	return WriteBuffer();
	}

	bool CopyingOutputStreamAdaptor::Next(void** data, int* size) {
	if (buffer_used_ == buffer_size_) {
	if (!WriteBuffer()) return false;
	}

	AllocateBufferIfNeeded();

	*data = buffer_.get() + buffer_used_;
	*size = buffer_size_ - buffer_used_;
	buffer_used_ = buffer_size_;
	return true;
	}

	void CopyingOutputStreamAdaptor::BackUp(int count) {
	GOOGLE_CHECK_GE(count, 0);
	GOOGLE_CHECK_EQ(buffer_used_, buffer_size_)
	<< " BackUp() can only be called after Next().";
	GOOGLE_CHECK_LE(count, buffer_used_)
	<< " Can't back up over more bytes than were returned by the last call"
	" to Next().";

	buffer_used_ -= count;
	}

	int64 CopyingOutputStreamAdaptor::ByteCount() const {
	return position_ + buffer_used_;
	}

	bool CopyingOutputStreamAdaptor::WriteBuffer() {
	if (failed_) {
	// Already failed on a previous write.
	return false;
	}

	if (buffer_used_ == 0) return true;

	if (copying_stream_->Write(buffer_.get(), buffer_used_)) {
	position_ += buffer_used_;
	buffer_used_ = 0;
	return true;
	} else {
	failed_ = true;
	FreeBuffer();
	return false;
	}
	}

	void CopyingOutputStreamAdaptor::AllocateBufferIfNeeded() {
	if (buffer_ == NULL) {
	buffer_.reset(new uint8[buffer_size_]);
	}
	}

	void CopyingOutputStreamAdaptor::FreeBuffer() {
	buffer_used_ = 0;
	buffer_.reset();
	}

	// ===================================================================

	} // namespace io
	} // namespace protobuf
	} // namespace google