net/tools/flip_server/ring_buffer.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2009 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/tools/flip_server/ring_buffer.h"
 #include "base/logging.h"

 namespace net {

 RingBuffer::RingBuffer(int buffer_size)
     : buffer_(new char[buffer_size]),
       buffer_size_(buffer_size),
       bytes_used_(0),
       read_idx_(0),
       write_idx_(0) {}

 RingBuffer::~RingBuffer() {}

 int RingBuffer::ReadableBytes() const { return bytes_used_; }

 int RingBuffer::BufferSize() const { return buffer_size_; }

 int RingBuffer::BytesFree() const { return BufferSize() - ReadableBytes(); }

 bool RingBuffer::Empty() const { return ReadableBytes() == 0; }

 bool RingBuffer::Full() const { return ReadableBytes() == BufferSize(); }

 // Returns the number of characters written.
 // Appends up-to-'size' bytes to the ringbuffer.
 int RingBuffer::Write(const char* bytes, int size) {
   CHECK_GE(size, 0);
 #if 1
   char* wptr;
   int wsize;
   GetWritablePtr(&wptr, &wsize);
   int bytes_remaining = size;
   int bytes_written = 0;

   while (wsize && bytes_remaining) {
     if (wsize > bytes_remaining) {
       wsize = bytes_remaining;
     }
     memcpy(wptr, bytes + bytes_written, wsize);
     bytes_written += wsize;
     bytes_remaining -= wsize;
     AdvanceWritablePtr(wsize);
     GetWritablePtr(&wptr, &wsize);
   }
   return bytes_written;
 #else
   const char* p = bytes;

   int bytes_to_write = size;
   int bytes_available = BytesFree();
   if (bytes_available < bytes_to_write) {
     bytes_to_write = bytes_available;
   }
   const char* end = bytes + bytes_to_write;

   while (p != end) {
     this->buffer_[this->write_idx_] = *p;
     ++p;
     ++this->write_idx_;
     if (this->write_idx_ >= this->buffer_size_) {
       this->write_idx_ = 0;
     }
   }
   bytes_used_ += bytes_to_write;
   return bytes_to_write;
 #endif
 }

 // Sets *ptr to the beginning of writable memory, and sets *size to the size
 // available for writing using this pointer.
 void RingBuffer::GetWritablePtr(char** ptr, int* size) const {
   *ptr = buffer_.get() + write_idx_;

   if (bytes_used_ == buffer_size_) {
     *size = 0;
   } else if (read_idx_ > write_idx_) {
     *size = read_idx_ - write_idx_;
   } else {
     *size = buffer_size_ - write_idx_;
   }
 }

 // Sets *ptr to the beginning of readable memory, and sets *size to the size
 // available for reading using this pointer.
 void RingBuffer::GetReadablePtr(char** ptr, int* size) const {
   *ptr = buffer_.get() + read_idx_;

   if (bytes_used_ == 0) {
     *size = 0;
   } else if (write_idx_ > read_idx_) {
     *size = write_idx_ - read_idx_;
   } else {
     *size = buffer_size_ - read_idx_;
   }
 }

 // returns the number of bytes read into
 int RingBuffer::Read(char* bytes, int size) {
   CHECK_GE(size, 0);
 #if 1
   char* rptr;
   int rsize;
   GetReadablePtr(&rptr, &rsize);
   int bytes_remaining = size;
   int bytes_read = 0;

   while (rsize && bytes_remaining) {
     if (rsize > bytes_remaining) {
       rsize = bytes_remaining;
     }
     memcpy(bytes + bytes_read, rptr, rsize);
     bytes_read += rsize;
     bytes_remaining -= rsize;
     AdvanceReadablePtr(rsize);
     GetReadablePtr(&rptr, &rsize);
   }
   return bytes_read;
 #else
   char* p = bytes;
   int bytes_to_read = size;
   int bytes_used = ReadableBytes();
   if (bytes_used < bytes_to_read) {
     bytes_to_read = bytes_used;
   }
   char* end = bytes + bytes_to_read;

   while (p != end) {
     *p = this->buffer_[this->read_idx_];
     ++p;
     ++this->read_idx_;
     if (this->read_idx_ >= this->buffer_size_) {
       this->read_idx_ = 0;
     }
   }
   this->bytes_used_ -= bytes_to_read;
   return bytes_to_read;
 #endif
 }

 void RingBuffer::Clear() {
   bytes_used_ = 0;
   write_idx_ = 0;
   read_idx_ = 0;
 }

 bool RingBuffer::Reserve(int size) {
   DCHECK_GT(size, 0);
   char* write_ptr = NULL;
   int write_size = 0;
   GetWritablePtr(&write_ptr, &write_size);

   if (write_size < size) {
     char* read_ptr = NULL;
     int read_size = 0;
     GetReadablePtr(&read_ptr, &read_size);
     if (size <= BytesFree()) {
       // The fact that the total Free size is big enough but writable size is
       // not means that the writeable region is broken into two pieces: only
       // possible if the read_idx < write_idx. If write_idx < read_idx, then
       // the writeable region must be contiguous: [write_idx, read_idx). There
       // is no work to be done for the latter.
       DCHECK_LE(read_idx_, write_idx_);
       DCHECK_EQ(read_size, ReadableBytes());
       if (read_idx_ < write_idx_) {
         // Writeable area fragmented, consolidate it.
         memmove(buffer_.get(), read_ptr, read_size);
         read_idx_ = 0;
         write_idx_ = read_size;
       } else if (read_idx_ == write_idx_) {
         // No unconsumed data in the buffer, simply reset the indexes.
         DCHECK_EQ(ReadableBytes(), 0);
         read_idx_ = 0;
         write_idx_ = 0;
       }
     } else {
       Resize(ReadableBytes() + size);
     }
   }
   DCHECK_LE(size, buffer_size_ - write_idx_);
   return true;
 }

 void RingBuffer::AdvanceReadablePtr(int amount_to_consume) {
   CHECK_GE(amount_to_consume, 0);
   if (amount_to_consume >= bytes_used_) {
     Clear();
     return;
   }
   read_idx_ += amount_to_consume;
   read_idx_ %= buffer_size_;
   bytes_used_ -= amount_to_consume;
 }

 void RingBuffer::AdvanceWritablePtr(int amount_to_produce) {
   CHECK_GE(amount_to_produce, 0);
   CHECK_LE(amount_to_produce, BytesFree());
   write_idx_ += amount_to_produce;
   write_idx_ %= buffer_size_;
   bytes_used_ += amount_to_produce;
 }

 void RingBuffer::Resize(int buffer_size) {
   CHECK_GE(buffer_size, 0);
   if (buffer_size == buffer_size_)
     return;

   char* new_buffer = new char[buffer_size];
   if (buffer_size < bytes_used_) {
     // consume the oldest data.
     AdvanceReadablePtr(bytes_used_ - buffer_size);
   }

   int bytes_written = 0;
   int bytes_used = bytes_used_;
   while (true) {
     int size;
     char* ptr;
     GetReadablePtr(&ptr, &size);
     if (size == 0)
       break;
     if (size > buffer_size) {
       size = buffer_size;
     }
     memcpy(new_buffer + bytes_written, ptr, size);
     bytes_written += size;
     AdvanceReadablePtr(size);
   }
   buffer_.reset(new_buffer);

   buffer_size_ = buffer_size;
   bytes_used_ = bytes_used;
   read_idx_ = 0;
   write_idx_ = bytes_used_ % buffer_size_;
 }

 }  // namespace net
	// Copyright (c) 2009 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/tools/flip_server/ring_buffer.h"
	#include "base/logging.h"

	namespace net {

	RingBuffer::RingBuffer(int buffer_size)
	: buffer_(new char[buffer_size]),
	buffer_size_(buffer_size),
	bytes_used_(0),
	read_idx_(0),
	write_idx_(0) {}

	RingBuffer::~RingBuffer() {}

	int RingBuffer::ReadableBytes() const { return bytes_used_; }

	int RingBuffer::BufferSize() const { return buffer_size_; }

	int RingBuffer::BytesFree() const { return BufferSize() - ReadableBytes(); }

	bool RingBuffer::Empty() const { return ReadableBytes() == 0; }

	bool RingBuffer::Full() const { return ReadableBytes() == BufferSize(); }

	// Returns the number of characters written.
	// Appends up-to-'size' bytes to the ringbuffer.
	int RingBuffer::Write(const char* bytes, int size) {
	CHECK_GE(size, 0);
	#if 1
	char* wptr;
	int wsize;
	GetWritablePtr(&wptr, &wsize);
	int bytes_remaining = size;
	int bytes_written = 0;

	while (wsize && bytes_remaining) {
	if (wsize > bytes_remaining) {
	wsize = bytes_remaining;
	}
	memcpy(wptr, bytes + bytes_written, wsize);
	bytes_written += wsize;
	bytes_remaining -= wsize;
	AdvanceWritablePtr(wsize);
	GetWritablePtr(&wptr, &wsize);
	}
	return bytes_written;
	#else
	const char* p = bytes;

	int bytes_to_write = size;
	int bytes_available = BytesFree();
	if (bytes_available < bytes_to_write) {
	bytes_to_write = bytes_available;
	}
	const char* end = bytes + bytes_to_write;

	while (p != end) {
	this->buffer_[this->write_idx_] = *p;
	++p;
	++this->write_idx_;
	if (this->write_idx_ >= this->buffer_size_) {
	this->write_idx_ = 0;
	}
	}
	bytes_used_ += bytes_to_write;
	return bytes_to_write;
	#endif
	}

	// Sets ptr to the beginning of writable memory, and sets size to the size
	// available for writing using this pointer.
	void RingBuffer::GetWritablePtr(char** ptr, int* size) const {
	*ptr = buffer_.get() + write_idx_;

	if (bytes_used_ == buffer_size_) {
	*size = 0;
	} else if (read_idx_ > write_idx_) {
	*size = read_idx_ - write_idx_;
	} else {
	*size = buffer_size_ - write_idx_;
	}
	}

	// Sets ptr to the beginning of readable memory, and sets size to the size
	// available for reading using this pointer.
	void RingBuffer::GetReadablePtr(char** ptr, int* size) const {
	*ptr = buffer_.get() + read_idx_;

	if (bytes_used_ == 0) {
	*size = 0;
	} else if (write_idx_ > read_idx_) {
	*size = write_idx_ - read_idx_;
	} else {
	*size = buffer_size_ - read_idx_;
	}
	}

	// returns the number of bytes read into
	int RingBuffer::Read(char* bytes, int size) {
	CHECK_GE(size, 0);
	#if 1
	char* rptr;
	int rsize;
	GetReadablePtr(&rptr, &rsize);
	int bytes_remaining = size;
	int bytes_read = 0;

	while (rsize && bytes_remaining) {
	if (rsize > bytes_remaining) {
	rsize = bytes_remaining;
	}
	memcpy(bytes + bytes_read, rptr, rsize);
	bytes_read += rsize;
	bytes_remaining -= rsize;
	AdvanceReadablePtr(rsize);
	GetReadablePtr(&rptr, &rsize);
	}
	return bytes_read;
	#else
	char* p = bytes;
	int bytes_to_read = size;
	int bytes_used = ReadableBytes();
	if (bytes_used < bytes_to_read) {
	bytes_to_read = bytes_used;
	}
	char* end = bytes + bytes_to_read;

	while (p != end) {
	*p = this->buffer_[this->read_idx_];
	++p;
	++this->read_idx_;
	if (this->read_idx_ >= this->buffer_size_) {
	this->read_idx_ = 0;
	}
	}
	this->bytes_used_ -= bytes_to_read;
	return bytes_to_read;
	#endif
	}

	void RingBuffer::Clear() {
	bytes_used_ = 0;
	write_idx_ = 0;
	read_idx_ = 0;
	}

	bool RingBuffer::Reserve(int size) {
	DCHECK_GT(size, 0);
	char* write_ptr = NULL;
	int write_size = 0;
	GetWritablePtr(&write_ptr, &write_size);

	if (write_size < size) {
	char* read_ptr = NULL;
	int read_size = 0;
	GetReadablePtr(&read_ptr, &read_size);
	if (size <= BytesFree()) {
	// The fact that the total Free size is big enough but writable size is
	// not means that the writeable region is broken into two pieces: only
	// possible if the read_idx < write_idx. If write_idx < read_idx, then
	// the writeable region must be contiguous: [write_idx, read_idx). There
	// is no work to be done for the latter.
	DCHECK_LE(read_idx_, write_idx_);
	DCHECK_EQ(read_size, ReadableBytes());
	if (read_idx_ < write_idx_) {
	// Writeable area fragmented, consolidate it.
	memmove(buffer_.get(), read_ptr, read_size);
	read_idx_ = 0;
	write_idx_ = read_size;
	} else if (read_idx_ == write_idx_) {
	// No unconsumed data in the buffer, simply reset the indexes.
	DCHECK_EQ(ReadableBytes(), 0);
	read_idx_ = 0;
	write_idx_ = 0;
	}
	} else {
	Resize(ReadableBytes() + size);
	}
	}
	DCHECK_LE(size, buffer_size_ - write_idx_);
	return true;
	}

	void RingBuffer::AdvanceReadablePtr(int amount_to_consume) {
	CHECK_GE(amount_to_consume, 0);
	if (amount_to_consume >= bytes_used_) {
	Clear();
	return;
	}
	read_idx_ += amount_to_consume;
	read_idx_ %= buffer_size_;
	bytes_used_ -= amount_to_consume;
	}

	void RingBuffer::AdvanceWritablePtr(int amount_to_produce) {
	CHECK_GE(amount_to_produce, 0);
	CHECK_LE(amount_to_produce, BytesFree());
	write_idx_ += amount_to_produce;
	write_idx_ %= buffer_size_;
	bytes_used_ += amount_to_produce;
	}

	void RingBuffer::Resize(int buffer_size) {
	CHECK_GE(buffer_size, 0);
	if (buffer_size == buffer_size_)
	return;

	char* new_buffer = new char[buffer_size];
	if (buffer_size < bytes_used_) {
	// consume the oldest data.
	AdvanceReadablePtr(bytes_used_ - buffer_size);
	}

	int bytes_written = 0;
	int bytes_used = bytes_used_;
	while (true) {
	int size;
	char* ptr;
	GetReadablePtr(&ptr, &size);
	if (size == 0)
	break;
	if (size > buffer_size) {
	size = buffer_size;
	}
	memcpy(new_buffer + bytes_written, ptr, size);
	bytes_written += size;
	AdvanceReadablePtr(size);
	}
	buffer_.reset(new_buffer);

	buffer_size_ = buffer_size;
	bytes_used_ = bytes_used;
	read_idx_ = 0;
	write_idx_ = bytes_used_ % buffer_size_;
	}

	} // namespace net