// 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_parameters.h"

#include "base/logging.h"
#include "media/base/limits.h"

namespace media {

base::CheckedNumeric<uint32_t> ComputeAudioInputBufferSizeChecked(
    const AudioParameters& parameters,
    uint32_t shared_memory_count) {
  base::CheckedNumeric<uint32_t> result = AudioBus::CalculateMemorySize(
      parameters.channels(), parameters.frames_per_buffer());
  result += sizeof(media::AudioInputBufferParameters);
  result *= shared_memory_count;
  return result;
}

uint32_t ComputeAudioInputBufferSize(const AudioParameters& parameters,
                                     uint32_t shared_memory_count) {
  return ComputeAudioInputBufferSizeChecked(parameters, shared_memory_count)
      .ValueOrDie();
}

uint32_t ComputeAudioInputBufferSize(int channels,
                                     int frames,
                                     uint32_t shared_memory_count) {
  base::CheckedNumeric<uint32_t> result =
      AudioBus::CalculateMemorySize(channels, frames);
  result += sizeof(media::AudioInputBufferParameters);
  result *= shared_memory_count;
  return result.ValueOrDie();
}

base::CheckedNumeric<uint32_t> ComputeAudioOutputBufferSizeChecked(
    const AudioParameters& parameters) {
  base::CheckedNumeric<uint32_t> result = AudioBus::CalculateMemorySize(
      parameters.channels(), parameters.frames_per_buffer());
  result += sizeof(media::AudioOutputBufferParameters);
  return result;
}

uint32_t ComputeAudioOutputBufferSize(const AudioParameters& parameters) {
  return ComputeAudioOutputBufferSize(parameters.channels(),
                                      parameters.frames_per_buffer());
}

uint32_t ComputeAudioOutputBufferSize(int channels, int frames) {
  base::CheckedNumeric<uint32_t> result =
      AudioBus::CalculateMemorySize(channels, frames);
  result += sizeof(media::AudioOutputBufferParameters);
  return result.ValueOrDie();
}

AudioParameters::AudioParameters()
    : AudioParameters(AUDIO_PCM_LINEAR, CHANNEL_LAYOUT_NONE, 0, 0) {}

AudioParameters::AudioParameters(Format format,
                                 ChannelLayout channel_layout,
                                 int sample_rate,
                                 int frames_per_buffer)
    : latency_tag_(AudioLatency::LATENCY_COUNT) {
  Reset(format, channel_layout, sample_rate, frames_per_buffer);
}

AudioParameters::~AudioParameters() = default;

AudioParameters::AudioParameters(const AudioParameters&) = default;
AudioParameters& AudioParameters::operator=(const AudioParameters&) = default;

void AudioParameters::Reset(Format format,
                            ChannelLayout channel_layout,
                            int sample_rate,
                            int frames_per_buffer) {
  format_ = format;
  channel_layout_ = channel_layout;
  channels_ = ChannelLayoutToChannelCount(channel_layout);
  sample_rate_ = sample_rate;
  frames_per_buffer_ = frames_per_buffer;
  effects_ = NO_EFFECTS;
  mic_positions_.clear();
}

bool AudioParameters::IsValid() const {
  return (channels_ > 0) && (channels_ <= media::limits::kMaxChannels) &&
         (channel_layout_ > CHANNEL_LAYOUT_UNSUPPORTED) &&
         (sample_rate_ >= media::limits::kMinSampleRate) &&
         (sample_rate_ <= media::limits::kMaxSampleRate) &&
         (frames_per_buffer_ > 0) &&
         (frames_per_buffer_ <= media::limits::kMaxSamplesPerPacket) &&
         (channel_layout_ == CHANNEL_LAYOUT_DISCRETE ||
          channels_ == ChannelLayoutToChannelCount(channel_layout_));
}

std::string AudioParameters::AsHumanReadableString() const {
  std::ostringstream s;
  s << "format: " << format() << " channel_layout: " << channel_layout()
    << " channels: " << channels() << " sample_rate: " << sample_rate()
    << " frames_per_buffer: " << frames_per_buffer()
    << " effects: " << effects()
    << " mic_positions: " << PointsToString(mic_positions_);
  return s.str();
}

int AudioParameters::GetBytesPerBuffer(SampleFormat fmt) const {
  return GetBytesPerFrame(fmt) * frames_per_buffer_;
}

int AudioParameters::GetBytesPerFrame(SampleFormat fmt) const {
  return channels_ * SampleFormatToBytesPerChannel(fmt);
}

double AudioParameters::GetMicrosecondsPerFrame() const {
  return static_cast<double>(base::Time::kMicrosecondsPerSecond) / sample_rate_;
}

base::TimeDelta AudioParameters::GetBufferDuration() const {
  return base::TimeDelta::FromMicroseconds(static_cast<int64_t>(
      frames_per_buffer_ * base::Time::kMicrosecondsPerSecond /
      static_cast<float>(sample_rate_)));
}

bool AudioParameters::Equals(const AudioParameters& other) const {
  return format_ == other.format() && sample_rate_ == other.sample_rate() &&
         channel_layout_ == other.channel_layout() &&
         channels_ == other.channels() &&
         frames_per_buffer_ == other.frames_per_buffer() &&
         effects_ == other.effects() && mic_positions_ == other.mic_positions_;
}

bool AudioParameters::IsBitstreamFormat() const {
  return format_ == AUDIO_BITSTREAM_AC3 || format_ == AUDIO_BITSTREAM_EAC3;
}

// static
AudioParameters AudioParameters::UnavailableDeviceParams() {
  // Using 10 ms buffer since WebAudioMediaStreamSource::DeliverRebufferedAudio
  // deals incorrectly with reference time calculation if output buffer size
  // significantly differs from 10 ms used there, see http://crbug/701000.
  return media::AudioParameters(
      media::AudioParameters::AUDIO_FAKE, media::CHANNEL_LAYOUT_STEREO,
      media::AudioParameters::kAudioCDSampleRate,
      media::AudioParameters::kAudioCDSampleRate / 100);
}

}  // namespace media