src/cobalt/media/base/bit_reader_core.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/base/bit_reader_core.h"

 #include "base/sys_byteorder.h"
 #include "starboard/memory.h"
 #include "starboard/types.h"

 namespace {
 const int kRegWidthInBits = sizeof(uint64_t) * 8;
 }

 namespace cobalt {
 namespace media {

 BitReaderCore::ByteStreamProvider::ByteStreamProvider() {}

 BitReaderCore::ByteStreamProvider::~ByteStreamProvider() {}

 BitReaderCore::BitReaderCore(ByteStreamProvider* byte_stream_provider)
     : byte_stream_provider_(byte_stream_provider),
       bits_read_(0),
       nbits_(0),
       reg_(0),
       nbits_next_(0),
       reg_next_(0) {}

 BitReaderCore::~BitReaderCore() {}

 bool BitReaderCore::ReadFlag(bool* flag) {
   if (nbits_ == 0 && !Refill(1)) return false;

   *flag = (reg_ & (UINT64_C(1) << (kRegWidthInBits - 1))) != 0;
   reg_ <<= 1;
   nbits_--;
   bits_read_++;
   return true;
 }

 int BitReaderCore::PeekBitsMsbAligned(int num_bits, uint64_t* out) {
   // Try to have at least |num_bits| in the bit register.
   if (nbits_ < num_bits) Refill(num_bits);

   *out = reg_;
   return nbits_;
 }

 bool BitReaderCore::SkipBitsSmall(int num_bits) {
   DCHECK_GE(num_bits, 0);
   uint64_t dummy;
   while (num_bits >= kRegWidthInBits) {
     if (!ReadBitsInternal(kRegWidthInBits, &dummy)) return false;
     num_bits -= kRegWidthInBits;
   }
   return ReadBitsInternal(num_bits, &dummy);
 }

 bool BitReaderCore::SkipBits(int num_bits) {
   DCHECK_GE(num_bits, 0);

   const int remaining_bits = nbits_ + nbits_next_;
   if (remaining_bits >= num_bits) return SkipBitsSmall(num_bits);

   // Skip first the remaining available bits.
   num_bits -= remaining_bits;
   bits_read_ += remaining_bits;
   nbits_ = 0;
   reg_ = 0;
   nbits_next_ = 0;
   reg_next_ = 0;

   // Next, skip an integer number of bytes.
   const int nbytes = num_bits / 8;
   if (nbytes > 0) {
     const uint8_t* byte_stream_window;
     const int window_size =
         byte_stream_provider_->GetBytes(nbytes, &byte_stream_window);
     DCHECK_GE(window_size, 0);
     DCHECK_LE(window_size, nbytes);
     if (window_size < nbytes) {
       // Note that some bytes were consumed.
       bits_read_ += 8 * window_size;
       return false;
     }
     num_bits -= 8 * nbytes;
     bits_read_ += 8 * nbytes;
   }

   // Skip the remaining bits.
   return SkipBitsSmall(num_bits);
 }

 int BitReaderCore::bits_read() const { return bits_read_; }

 bool BitReaderCore::ReadBitsInternal(int num_bits, uint64_t* out) {
   DCHECK_GE(num_bits, 0);

   if (num_bits == 0) {
     *out = 0;
     return true;
   }

   if (num_bits > nbits_ && !Refill(num_bits)) {
     // Any subsequent ReadBits should fail:
     // empty the current bit register for that purpose.
     nbits_ = 0;
     reg_ = 0;
     return false;
   }

   bits_read_ += num_bits;

   if (num_bits == kRegWidthInBits) {
     // Special case needed since for example for a 64 bit integer "a"
     // "a << 64" is not defined by the C/C++ standard.
     *out = reg_;
     reg_ = 0;
     nbits_ = 0;
     return true;
   }

   *out = reg_ >> (kRegWidthInBits - num_bits);
   reg_ <<= num_bits;
   nbits_ -= num_bits;
   return true;
 }

 bool BitReaderCore::Refill(int min_nbits) {
   DCHECK_LE(min_nbits, kRegWidthInBits);

   // Transfer from the next to the current register.
   RefillCurrentRegister();
   if (min_nbits <= nbits_) return true;
   DCHECK_EQ(nbits_next_, 0);
   DCHECK_EQ(reg_next_, 0u);

   // Max number of bytes to refill.
   int max_nbytes = sizeof(reg_next_);

   // Refill.
   const uint8_t* byte_stream_window;
   int window_size =
       byte_stream_provider_->GetBytes(max_nbytes, &byte_stream_window);
   DCHECK_GE(window_size, 0);
   DCHECK_LE(window_size, max_nbytes);
   if (window_size == 0) return false;

   reg_next_ = 0;
   memcpy(&reg_next_, byte_stream_window, window_size);
   reg_next_ = base::NetToHost64(reg_next_);
   nbits_next_ = window_size * 8;

   // Transfer from the next to the current register.
   RefillCurrentRegister();

   return (nbits_ >= min_nbits);
 }

 void BitReaderCore::RefillCurrentRegister() {
   // No refill possible if the destination register is full
   // or the source register is empty.
   if (nbits_ == kRegWidthInBits || nbits_next_ == 0) return;

   reg_ |= (reg_next_ >> nbits_);

   int free_nbits = kRegWidthInBits - nbits_;
   if (free_nbits >= nbits_next_) {
     nbits_ += nbits_next_;
     reg_next_ = 0;
     nbits_next_ = 0;
     return;
   }

   nbits_ += free_nbits;
   reg_next_ <<= free_nbits;
   nbits_next_ -= free_nbits;
 }

 }  // 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/base/bit_reader_core.h"

	#include "base/sys_byteorder.h"
	#include "starboard/memory.h"
	#include "starboard/types.h"

	namespace {
	const int kRegWidthInBits = sizeof(uint64_t) * 8;
	}

	namespace cobalt {
	namespace media {

	BitReaderCore::ByteStreamProvider::ByteStreamProvider() {}

	BitReaderCore::ByteStreamProvider::~ByteStreamProvider() {}

	BitReaderCore::BitReaderCore(ByteStreamProvider* byte_stream_provider)
	: byte_stream_provider_(byte_stream_provider),
	bits_read_(0),
	nbits_(0),
	reg_(0),
	nbits_next_(0),
	reg_next_(0) {}

	BitReaderCore::~BitReaderCore() {}

	bool BitReaderCore::ReadFlag(bool* flag) {
	if (nbits_ == 0 && !Refill(1)) return false;

	*flag = (reg_ & (UINT64_C(1) << (kRegWidthInBits - 1))) != 0;
	reg_ <<= 1;
	nbits_--;
	bits_read_++;
	return true;
	}

	int BitReaderCore::PeekBitsMsbAligned(int num_bits, uint64_t* out) {
	// Try to have at least \|num_bits\| in the bit register.
	if (nbits_ < num_bits) Refill(num_bits);

	*out = reg_;
	return nbits_;
	}

	bool BitReaderCore::SkipBitsSmall(int num_bits) {
	DCHECK_GE(num_bits, 0);
	uint64_t dummy;
	while (num_bits >= kRegWidthInBits) {
	if (!ReadBitsInternal(kRegWidthInBits, &dummy)) return false;
	num_bits -= kRegWidthInBits;
	}
	return ReadBitsInternal(num_bits, &dummy);
	}

	bool BitReaderCore::SkipBits(int num_bits) {
	DCHECK_GE(num_bits, 0);

	const int remaining_bits = nbits_ + nbits_next_;
	if (remaining_bits >= num_bits) return SkipBitsSmall(num_bits);

	// Skip first the remaining available bits.
	num_bits -= remaining_bits;
	bits_read_ += remaining_bits;
	nbits_ = 0;
	reg_ = 0;
	nbits_next_ = 0;
	reg_next_ = 0;

	// Next, skip an integer number of bytes.
	const int nbytes = num_bits / 8;
	if (nbytes > 0) {
	const uint8_t* byte_stream_window;
	const int window_size =
	byte_stream_provider_->GetBytes(nbytes, &byte_stream_window);
	DCHECK_GE(window_size, 0);
	DCHECK_LE(window_size, nbytes);
	if (window_size < nbytes) {
	// Note that some bytes were consumed.
	bits_read_ += 8 * window_size;
	return false;
	}
	num_bits -= 8 * nbytes;
	bits_read_ += 8 * nbytes;
	}

	// Skip the remaining bits.
	return SkipBitsSmall(num_bits);
	}

	int BitReaderCore::bits_read() const { return bits_read_; }

	bool BitReaderCore::ReadBitsInternal(int num_bits, uint64_t* out) {
	DCHECK_GE(num_bits, 0);

	if (num_bits == 0) {
	*out = 0;
	return true;
	}

	if (num_bits > nbits_ && !Refill(num_bits)) {
	// Any subsequent ReadBits should fail:
	// empty the current bit register for that purpose.
	nbits_ = 0;
	reg_ = 0;
	return false;
	}

	bits_read_ += num_bits;

	if (num_bits == kRegWidthInBits) {
	// Special case needed since for example for a 64 bit integer "a"
	// "a << 64" is not defined by the C/C++ standard.
	*out = reg_;
	reg_ = 0;
	nbits_ = 0;
	return true;
	}

	*out = reg_ >> (kRegWidthInBits - num_bits);
	reg_ <<= num_bits;
	nbits_ -= num_bits;
	return true;
	}

	bool BitReaderCore::Refill(int min_nbits) {
	DCHECK_LE(min_nbits, kRegWidthInBits);

	// Transfer from the next to the current register.
	RefillCurrentRegister();
	if (min_nbits <= nbits_) return true;
	DCHECK_EQ(nbits_next_, 0);
	DCHECK_EQ(reg_next_, 0u);

	// Max number of bytes to refill.
	int max_nbytes = sizeof(reg_next_);

	// Refill.
	const uint8_t* byte_stream_window;
	int window_size =
	byte_stream_provider_->GetBytes(max_nbytes, &byte_stream_window);
	DCHECK_GE(window_size, 0);
	DCHECK_LE(window_size, max_nbytes);
	if (window_size == 0) return false;

	reg_next_ = 0;
	memcpy(&reg_next_, byte_stream_window, window_size);
	reg_next_ = base::NetToHost64(reg_next_);
	nbits_next_ = window_size * 8;

	// Transfer from the next to the current register.
	RefillCurrentRegister();

	return (nbits_ >= min_nbits);
	}

	void BitReaderCore::RefillCurrentRegister() {
	// No refill possible if the destination register is full
	// or the source register is empty.
	if (nbits_ == kRegWidthInBits \|\| nbits_next_ == 0) return;

	reg_ \|= (reg_next_ >> nbits_);

	int free_nbits = kRegWidthInBits - nbits_;
	if (free_nbits >= nbits_next_) {
	nbits_ += nbits_next_;
	reg_next_ = 0;
	nbits_next_ = 0;
	return;
	}

	nbits_ += free_nbits;
	reg_next_ <<= free_nbits;
	nbits_next_ -= free_nbits;
	}

	} // namespace media
	} // namespace cobalt