blob: 253c82b147c96b0304ce49d83ec7c4334bb78fdb [file] [log] [blame]
// Copyright (c) 2012 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/audio_decoder_config.h"
#include "base/logging.h"
#include "media/base/limits.h"
namespace media {
AudioDecoderConfig::AudioDecoderConfig()
: codec_(kUnknownAudioCodec),
sample_format_(kUnknownSampleFormat),
bytes_per_channel_(0),
channel_layout_(CHANNEL_LAYOUT_UNSUPPORTED),
samples_per_second_(0),
bytes_per_frame_(0),
codec_delay_(0) {}
AudioDecoderConfig::AudioDecoderConfig(
AudioCodec codec,
SampleFormat sample_format,
ChannelLayout channel_layout,
int samples_per_second,
const std::vector<uint8_t>& extra_data,
const EncryptionScheme& encryption_scheme) {
Initialize(codec, sample_format, channel_layout, samples_per_second,
extra_data, encryption_scheme, base::TimeDelta(), 0);
}
AudioDecoderConfig::AudioDecoderConfig(const AudioDecoderConfig& other) =
default;
void AudioDecoderConfig::Initialize(AudioCodec codec,
SampleFormat sample_format,
ChannelLayout channel_layout,
int samples_per_second,
const std::vector<uint8_t>& extra_data,
const EncryptionScheme& encryption_scheme,
base::TimeDelta seek_preroll,
int codec_delay) {
codec_ = codec;
channel_layout_ = channel_layout;
samples_per_second_ = samples_per_second;
sample_format_ = sample_format;
bytes_per_channel_ = SampleFormatToBytesPerChannel(sample_format);
extra_data_ = extra_data;
encryption_scheme_ = encryption_scheme;
seek_preroll_ = seek_preroll;
codec_delay_ = codec_delay;
int channels = ChannelLayoutToChannelCount(channel_layout_);
bytes_per_frame_ = channels * bytes_per_channel_;
}
AudioDecoderConfig::~AudioDecoderConfig() {}
bool AudioDecoderConfig::IsValidConfig() const {
return codec_ != kUnknownAudioCodec &&
channel_layout_ != CHANNEL_LAYOUT_UNSUPPORTED &&
bytes_per_channel_ > 0 &&
bytes_per_channel_ <= limits::kMaxBytesPerSample &&
samples_per_second_ > 0 &&
samples_per_second_ <= limits::kMaxSampleRate &&
sample_format_ != kUnknownSampleFormat &&
seek_preroll_ >= base::TimeDelta() &&
codec_delay_ >= 0;
}
bool AudioDecoderConfig::Matches(const AudioDecoderConfig& config) const {
return ((codec() == config.codec()) &&
(bytes_per_channel() == config.bytes_per_channel()) &&
(channel_layout() == config.channel_layout()) &&
(samples_per_second() == config.samples_per_second()) &&
(extra_data() == config.extra_data()) &&
(encryption_scheme().Matches(config.encryption_scheme())) &&
(sample_format() == config.sample_format()) &&
(seek_preroll() == config.seek_preroll()) &&
(codec_delay() == config.codec_delay()));
}
std::string AudioDecoderConfig::AsHumanReadableString() const {
std::ostringstream s;
s << "codec: " << GetCodecName(codec())
<< " bytes_per_channel: " << bytes_per_channel()
<< " channel_layout: " << channel_layout()
<< " samples_per_second: " << samples_per_second()
<< " sample_format: " << sample_format()
<< " bytes_per_frame: " << bytes_per_frame()
<< " seek_preroll: " << seek_preroll().InMilliseconds() << "ms"
<< " codec_delay: " << codec_delay() << " has extra data? "
<< (extra_data().empty() ? "false" : "true") << " encrypted? "
<< (is_encrypted() ? "true" : "false");
return s.str();
}
} // namespace media