mpd/src/output/Source.cxx

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/*
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* Copyright 2003-2017 The Music Player Daemon Project
* http://www.musicpd.org
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "config.h"
#include "Source.hxx"
#include "MusicChunk.hxx"
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#include "filter/Filter.hxx"
#include "filter/Prepared.hxx"
#include "filter/plugins/ReplayGainFilterPlugin.hxx"
#include "pcm/PcmMix.hxx"
#include "thread/Mutex.hxx"
#include "util/ConstBuffer.hxx"
#include "util/RuntimeError.hxx"
#include <string.h>
AudioOutputSource::AudioOutputSource() noexcept {}
AudioOutputSource::~AudioOutputSource() noexcept = default;
AudioFormat
AudioOutputSource::Open(const AudioFormat audio_format, const MusicPipe &_pipe,
PreparedFilter *prepared_replay_gain_filter,
PreparedFilter *prepared_other_replay_gain_filter,
PreparedFilter &prepared_filter)
{
assert(audio_format.IsValid());
if (!IsOpen() || &_pipe != &pipe.GetPipe())
pipe.Init(_pipe);
/* (re)open the filter */
if (filter && audio_format != in_audio_format)
/* the filter must be reopened on all input format
changes */
CloseFilter();
if (filter == nullptr)
/* open the filter */
OpenFilter(audio_format,
prepared_replay_gain_filter,
prepared_other_replay_gain_filter,
prepared_filter);
in_audio_format = audio_format;
return filter->GetOutAudioFormat();
}
void
AudioOutputSource::Close() noexcept
{
assert(in_audio_format.IsValid());
in_audio_format.Clear();
Cancel();
CloseFilter();
}
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void
AudioOutputSource::Cancel() noexcept
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{
current_chunk = nullptr;
pipe.Cancel();
if (replay_gain_filter)
replay_gain_filter->Reset();
if (other_replay_gain_filter)
other_replay_gain_filter->Reset();
if (filter)
filter->Reset();
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}
void
AudioOutputSource::OpenFilter(AudioFormat audio_format,
PreparedFilter *prepared_replay_gain_filter,
PreparedFilter *prepared_other_replay_gain_filter,
PreparedFilter &prepared_filter)
try {
assert(audio_format.IsValid());
/* the replay_gain filter cannot fail here */
if (prepared_replay_gain_filter) {
replay_gain_serial = 0;
replay_gain_filter =
prepared_replay_gain_filter->Open(audio_format);
}
if (prepared_other_replay_gain_filter) {
other_replay_gain_serial = 0;
other_replay_gain_filter =
prepared_other_replay_gain_filter->Open(audio_format);
}
filter = prepared_filter.Open(audio_format);
} catch (...) {
CloseFilter();
throw;
}
void
AudioOutputSource::CloseFilter() noexcept
{
replay_gain_filter.reset();
other_replay_gain_filter.reset();
filter.reset();
}
ConstBuffer<void>
AudioOutputSource::GetChunkData(const MusicChunk &chunk,
Filter *current_replay_gain_filter,
unsigned *replay_gain_serial_p)
{
assert(!chunk.IsEmpty());
assert(chunk.CheckFormat(in_audio_format));
ConstBuffer<void> data(chunk.data, chunk.length);
assert(data.size % in_audio_format.GetFrameSize() == 0);
if (!data.empty() && current_replay_gain_filter != nullptr) {
replay_gain_filter_set_mode(*current_replay_gain_filter,
replay_gain_mode);
if (chunk.replay_gain_serial != *replay_gain_serial_p &&
chunk.replay_gain_serial != MusicChunk::IGNORE_REPLAY_GAIN) {
replay_gain_filter_set_info(*current_replay_gain_filter,
chunk.replay_gain_serial != 0
? &chunk.replay_gain_info
: nullptr);
*replay_gain_serial_p = chunk.replay_gain_serial;
}
data = current_replay_gain_filter->FilterPCM(data);
}
return data;
}
ConstBuffer<void>
AudioOutputSource::FilterChunk(const MusicChunk &chunk)
{
auto data = GetChunkData(chunk, replay_gain_filter.get(),
&replay_gain_serial);
if (data.empty())
return data;
/* cross-fade */
if (chunk.other != nullptr) {
auto other_data = GetChunkData(*chunk.other,
other_replay_gain_filter.get(),
&other_replay_gain_serial);
if (other_data.empty())
return data;
/* if the "other" chunk is longer, then that trailer
is used as-is, without mixing; it is part of the
"next" song being faded in, and if there's a rest,
it means cross-fading ends here */
if (data.size > other_data.size)
data.size = other_data.size;
float mix_ratio = chunk.mix_ratio;
if (mix_ratio >= 0)
/* reverse the mix ratio (because the
arguments to pcm_mix() are reversed), but
only if the mix ratio is non-negative; a
negative mix ratio is a MixRamp special
case */
mix_ratio = 1.0 - mix_ratio;
void *dest = cross_fade_buffer.Get(other_data.size);
memcpy(dest, other_data.data, other_data.size);
if (!pcm_mix(cross_fade_dither, dest, data.data, data.size,
in_audio_format.format,
mix_ratio))
throw FormatRuntimeError("Cannot cross-fade format %s",
sample_format_to_string(in_audio_format.format));
data.data = dest;
data.size = other_data.size;
}
/* apply filter chain */
return filter->FilterPCM(data);
}
bool
AudioOutputSource::Fill(Mutex &mutex)
{
if (current_chunk != nullptr && pending_tag == nullptr &&
pending_data.empty())
pipe.Consume(*std::exchange(current_chunk, nullptr));
if (current_chunk != nullptr)
return true;
current_chunk = pipe.Get();
if (current_chunk == nullptr)
return false;
pending_tag = current_chunk->tag.get();
try {
/* release the mutex while the filter runs, because
that may take a while */
const ScopeUnlock unlock(mutex);
pending_data = pending_data.FromVoid(FilterChunk(*current_chunk));
} catch (...) {
current_chunk = nullptr;
throw;
}
return true;
}
void
AudioOutputSource::ConsumeData(size_t nbytes) noexcept
{
pending_data.skip_front(nbytes);
if (pending_data.empty())
pipe.Consume(*std::exchange(current_chunk, nullptr));
}
ConstBuffer<void>
AudioOutputSource::Flush()
{
return filter
? filter->Flush()
: nullptr;
}