/* * 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 "Control.hxx" #include "Outputs.hxx" #include "Idle.hxx" #include "song/DetachedSong.hxx" #include #include PlayerControl::PlayerControl(PlayerListener &_listener, PlayerOutputs &_outputs, unsigned _buffer_chunks, AudioFormat _configured_audio_format, const ReplayGainConfig &_replay_gain_config) noexcept :listener(_listener), outputs(_outputs), buffer_chunks(_buffer_chunks), configured_audio_format(_configured_audio_format), thread(BIND_THIS_METHOD(RunThread)), replay_gain_config(_replay_gain_config) { } PlayerControl::~PlayerControl() noexcept { assert(!occupied); } bool PlayerControl::WaitOutputConsumed(unsigned threshold) noexcept { bool result = outputs.CheckPipe() < threshold; if (!result && command == PlayerCommand::NONE) { Wait(); result = outputs.CheckPipe() < threshold; } return result; } void PlayerControl::Play(std::unique_ptr song) { if (!thread.IsDefined()) thread.Start(); assert(song != nullptr); const std::lock_guard protect(mutex); SeekLocked(std::move(song), SongTime::zero()); if (state == PlayerState::PAUSE) /* if the player was paused previously, we need to unpause it */ PauseLocked(); } void PlayerControl::LockCancel() noexcept { assert(thread.IsDefined()); LockSynchronousCommand(PlayerCommand::CANCEL); assert(next_song == nullptr); } void PlayerControl::LockStop() noexcept { if (!thread.IsDefined()) return; LockSynchronousCommand(PlayerCommand::CLOSE_AUDIO); assert(next_song == nullptr); idle_add(IDLE_PLAYER); } void PlayerControl::LockUpdateAudio() noexcept { if (!thread.IsDefined()) return; LockSynchronousCommand(PlayerCommand::UPDATE_AUDIO); } void PlayerControl::Kill() noexcept { if (!thread.IsDefined()) return; LockSynchronousCommand(PlayerCommand::EXIT); thread.Join(); idle_add(IDLE_PLAYER); } void PlayerControl::PauseLocked() noexcept { if (state != PlayerState::STOP) { SynchronousCommand(PlayerCommand::PAUSE); idle_add(IDLE_PLAYER); } } void PlayerControl::LockPause() noexcept { const std::lock_guard protect(mutex); PauseLocked(); } void PlayerControl::LockSetPause(bool pause_flag) noexcept { if (!thread.IsDefined()) return; const std::lock_guard protect(mutex); switch (state) { case PlayerState::STOP: break; case PlayerState::PLAY: if (pause_flag) PauseLocked(); break; case PlayerState::PAUSE: if (!pause_flag) PauseLocked(); break; } } void PlayerControl::LockSetBorderPause(bool _border_pause) noexcept { const std::lock_guard protect(mutex); border_pause = _border_pause; } PlayerStatus PlayerControl::LockGetStatus() noexcept { PlayerStatus status; const std::lock_guard protect(mutex); if (!occupied && thread.IsDefined()) SynchronousCommand(PlayerCommand::REFRESH); status.state = state; if (state != PlayerState::STOP) { status.bit_rate = bit_rate; status.audio_format = audio_format; status.total_time = total_time; status.elapsed_time = elapsed_time; } return status; } void PlayerControl::SetError(PlayerError type, std::exception_ptr &&_error) noexcept { assert(type != PlayerError::NONE); assert(_error); error_type = type; error = std::move(_error); } void PlayerControl::LockClearError() noexcept { const std::lock_guard protect(mutex); ClearError(); } void PlayerControl::LockSetTaggedSong(const DetachedSong &song) noexcept { const std::lock_guard protect(mutex); tagged_song.reset(); tagged_song = std::make_unique(song); } void PlayerControl::ClearTaggedSong() noexcept { tagged_song.reset(); } std::unique_ptr PlayerControl::ReadTaggedSong() noexcept { return std::exchange(tagged_song, nullptr); } std::unique_ptr PlayerControl::LockReadTaggedSong() noexcept { const std::lock_guard protect(mutex); return ReadTaggedSong(); } void PlayerControl::LockEnqueueSong(std::unique_ptr song) noexcept { assert(thread.IsDefined()); assert(song != nullptr); const std::lock_guard protect(mutex); EnqueueSongLocked(std::move(song)); } void PlayerControl::EnqueueSongLocked(std::unique_ptr song) noexcept { assert(song != nullptr); assert(next_song == nullptr); next_song = std::move(song); seek_time = SongTime::zero(); SynchronousCommand(PlayerCommand::QUEUE); } void PlayerControl::SeekLocked(std::unique_ptr song, SongTime t) { assert(song != nullptr); /* to issue the SEEK command below, we need to clear the "next_song" attribute with the CANCEL command */ /* optimization TODO: if the decoder happens to decode that song already, don't cancel that */ if (next_song != nullptr) SynchronousCommand(PlayerCommand::CANCEL); assert(next_song == nullptr); ClearError(); next_song = std::move(song); seek_time = t; SynchronousCommand(PlayerCommand::SEEK); assert(next_song == nullptr); /* the SEEK command is asynchronous; until completion, the "seeking" flag is set */ while (seeking) ClientWait(); if (error_type != PlayerError::NONE) { assert(error); std::rethrow_exception(error); } assert(!error); } void PlayerControl::LockSeek(std::unique_ptr song, SongTime t) { if (!thread.IsDefined()) thread.Start(); assert(song != nullptr); { const std::lock_guard protect(mutex); SeekLocked(std::move(song), t); } idle_add(IDLE_PLAYER); } void PlayerControl::SetCrossFade(FloatDuration duration) noexcept { cross_fade.duration = std::max(duration, FloatDuration::zero()); idle_add(IDLE_OPTIONS); } void PlayerControl::SetMixRampDb(float _mixramp_db) noexcept { cross_fade.mixramp_db = _mixramp_db; idle_add(IDLE_OPTIONS); } void PlayerControl::SetMixRampDelay(FloatDuration _mixramp_delay) noexcept { cross_fade.mixramp_delay = _mixramp_delay; idle_add(IDLE_OPTIONS); }