// 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 "media/base/bit_reader_core.h" #include #include "base/sys_byteorder.h" namespace { const int kRegWidthInBits = sizeof(uint64) * 8; } 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* 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 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* 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) 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* 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* 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(®_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