cobalt/media/filters/h264_bit_reader.cc - cobalt - Git at Google

 // Copyright 2014 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 "cobalt/media/filters/h264_bit_reader.h"

 #include "base/logging.h"

 namespace cobalt {
 namespace media {

 H264BitReader::H264BitReader()
     : data_(NULL),
       bytes_left_(0),
       curr_byte_(0),
       num_remaining_bits_in_curr_byte_(0),
       prev_two_bytes_(0),
       emulation_prevention_bytes_(0) {}

 H264BitReader::~H264BitReader() {}

 bool H264BitReader::Initialize(const uint8_t* data, off_t size) {
   DCHECK(data);

   if (size < 1) return false;

   data_ = data;
   bytes_left_ = size;
   num_remaining_bits_in_curr_byte_ = 0;
   // Initially set to 0xffff to accept all initial two-byte sequences.
   prev_two_bytes_ = 0xffff;
   emulation_prevention_bytes_ = 0;

   return true;
 }

 bool H264BitReader::UpdateCurrByte() {
   if (bytes_left_ < 1) return false;

   // Emulation prevention three-byte detection.
   // If a sequence of 0x000003 is found, skip (ignore) the last byte (0x03).
   if (*data_ == 0x03 && (prev_two_bytes_ & 0xffff) == 0) {
     // Detected 0x000003, skip last byte.
     ++data_;
     --bytes_left_;
     ++emulation_prevention_bytes_;
     // Need another full three bytes before we can detect the sequence again.
     prev_two_bytes_ = 0xffff;

     if (bytes_left_ < 1) return false;
   }

   // Load a new byte and advance pointers.
   curr_byte_ = *data_++ & 0xff;
   --bytes_left_;
   num_remaining_bits_in_curr_byte_ = 8;

   prev_two_bytes_ = ((prev_two_bytes_ & 0xff) << 8) | curr_byte_;

   return true;
 }

 // Read |num_bits| (1 to 31 inclusive) from the stream and return them
 // in |out|, with first bit in the stream as MSB in |out| at position
 // (|num_bits| - 1).
 bool H264BitReader::ReadBits(int num_bits, int* out) {
   int bits_left = num_bits;
   *out = 0;
   DCHECK_GE(31, num_bits);

   while (num_remaining_bits_in_curr_byte_ < bits_left) {
     // Take all that's left in current byte, shift to make space for the rest.
     *out |= (curr_byte_ << (bits_left - num_remaining_bits_in_curr_byte_));
     bits_left -= num_remaining_bits_in_curr_byte_;

     if (!UpdateCurrByte()) return false;
   }

   *out |= (curr_byte_ >> (num_remaining_bits_in_curr_byte_ - bits_left));
   *out &= ((1u << num_bits) - 1u);
   num_remaining_bits_in_curr_byte_ -= bits_left;

   return true;
 }

 off_t H264BitReader::NumBitsLeft() {
   return (num_remaining_bits_in_curr_byte_ + bytes_left_ * 8);
 }

 bool H264BitReader::HasMoreRBSPData() {
   // Make sure we have more bits, if we are at 0 bits in current byte and
   // updating current byte fails, we don't have more data anyway.
   if (num_remaining_bits_in_curr_byte_ == 0 && !UpdateCurrByte()) return false;

   // If there is no more RBSP data, then |curr_byte_| contains the stop bit and
   // zero padding. Check to see if there is other data instead.
   // (We don't actually check for the stop bit itself, instead treating the
   // invalid case of all trailing zeros identically).
   if ((curr_byte_ & ((1 << (num_remaining_bits_in_curr_byte_ - 1)) - 1)) != 0)
     return true;

   // While the spec disallows it (7.4.1: "The last byte of the NAL unit shall
   // not be equal to 0x00"), some streams have trailing null bytes anyway. We
   // don't handle emulation prevention sequences because HasMoreRBSPData() is
   // not used when parsing slices (where cabac_zero_word elements are legal).
   for (off_t i = 0; i < bytes_left_; i++) {
     if (data_[i] != 0) return true;
   }

   bytes_left_ = 0;
   return false;
 }

 size_t H264BitReader::NumEmulationPreventionBytesRead() {
   return emulation_prevention_bytes_;
 }

 }  // namespace media
 }  // namespace cobalt
	// Copyright 2014 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 "cobalt/media/filters/h264_bit_reader.h"

	#include "base/logging.h"

	namespace cobalt {
	namespace media {

	H264BitReader::H264BitReader()
	: data_(NULL),
	bytes_left_(0),
	curr_byte_(0),
	num_remaining_bits_in_curr_byte_(0),
	prev_two_bytes_(0),
	emulation_prevention_bytes_(0) {}

	H264BitReader::~H264BitReader() {}

	bool H264BitReader::Initialize(const uint8_t* data, off_t size) {
	DCHECK(data);

	if (size < 1) return false;

	data_ = data;
	bytes_left_ = size;
	num_remaining_bits_in_curr_byte_ = 0;
	// Initially set to 0xffff to accept all initial two-byte sequences.
	prev_two_bytes_ = 0xffff;
	emulation_prevention_bytes_ = 0;

	return true;
	}

	bool H264BitReader::UpdateCurrByte() {
	if (bytes_left_ < 1) return false;

	// Emulation prevention three-byte detection.
	// If a sequence of 0x000003 is found, skip (ignore) the last byte (0x03).
	if (*data_ == 0x03 && (prev_two_bytes_ & 0xffff) == 0) {
	// Detected 0x000003, skip last byte.
	++data_;
	--bytes_left_;
	++emulation_prevention_bytes_;
	// Need another full three bytes before we can detect the sequence again.
	prev_two_bytes_ = 0xffff;

	if (bytes_left_ < 1) return false;
	}

	// Load a new byte and advance pointers.
	curr_byte_ = *data_++ & 0xff;
	--bytes_left_;
	num_remaining_bits_in_curr_byte_ = 8;

	prev_two_bytes_ = ((prev_two_bytes_ & 0xff) << 8) \| curr_byte_;

	return true;
	}

	// Read \|num_bits\| (1 to 31 inclusive) from the stream and return them
	// in \|out\|, with first bit in the stream as MSB in \|out\| at position
	// (\|num_bits\| - 1).
	bool H264BitReader::ReadBits(int num_bits, int* out) {
	int bits_left = num_bits;
	*out = 0;
	DCHECK_GE(31, num_bits);

	while (num_remaining_bits_in_curr_byte_ < bits_left) {
	// Take all that's left in current byte, shift to make space for the rest.
	*out \|= (curr_byte_ << (bits_left - num_remaining_bits_in_curr_byte_));
	bits_left -= num_remaining_bits_in_curr_byte_;

	if (!UpdateCurrByte()) return false;
	}

	*out \|= (curr_byte_ >> (num_remaining_bits_in_curr_byte_ - bits_left));
	*out &= ((1u << num_bits) - 1u);
	num_remaining_bits_in_curr_byte_ -= bits_left;

	return true;
	}

	off_t H264BitReader::NumBitsLeft() {
	return (num_remaining_bits_in_curr_byte_ + bytes_left_ * 8);
	}

	bool H264BitReader::HasMoreRBSPData() {
	// Make sure we have more bits, if we are at 0 bits in current byte and
	// updating current byte fails, we don't have more data anyway.
	if (num_remaining_bits_in_curr_byte_ == 0 && !UpdateCurrByte()) return false;

	// If there is no more RBSP data, then \|curr_byte_\| contains the stop bit and
	// zero padding. Check to see if there is other data instead.
	// (We don't actually check for the stop bit itself, instead treating the
	// invalid case of all trailing zeros identically).
	if ((curr_byte_ & ((1 << (num_remaining_bits_in_curr_byte_ - 1)) - 1)) != 0)
	return true;

	// While the spec disallows it (7.4.1: "The last byte of the NAL unit shall
	// not be equal to 0x00"), some streams have trailing null bytes anyway. We
	// don't handle emulation prevention sequences because HasMoreRBSPData() is
	// not used when parsing slices (where cabac_zero_word elements are legal).
	for (off_t i = 0; i < bytes_left_; i++) {
	if (data_[i] != 0) return true;
	}

	bytes_left_ = 0;
	return false;
	}

	size_t H264BitReader::NumEmulationPreventionBytesRead() {
	return emulation_prevention_bytes_;
	}

	} // namespace media
	} // namespace cobalt