mpd/src/playlist.c
Max Kellermann 616dc9d465 playlist_control: use GTimer in previousSongInPlaylist()
To determine whether to rewind the current song or to go to the
previous song, use a GTimer instead of manually diffing time(NULL).
2009-04-25 14:08:31 +02:00

423 lines
9.9 KiB
C

/*
* Copyright (C) 2003-2009 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 "playlist_internal.h"
#include "playlist_save.h"
#include "player_control.h"
#include "command.h"
#include "tag.h"
#include "song.h"
#include "conf.h"
#include "stored_playlist.h"
#include "idle.h"
#include <glib.h>
#include <assert.h>
#undef G_LOG_DOMAIN
#define G_LOG_DOMAIN "playlist"
void playlistVersionChange(struct playlist *playlist)
{
queue_modify_all(&playlist->queue);
idle_add(IDLE_PLAYLIST);
}
void
playlist_tag_changed(struct playlist *playlist)
{
if (!playlist->playing)
return;
assert(playlist->current >= 0);
queue_modify(&playlist->queue, playlist->current);
idle_add(IDLE_PLAYLIST);
}
void
playlist_init(struct playlist *playlist)
{
queue_init(&playlist->queue,
config_get_positive(CONF_MAX_PLAYLIST_LENGTH,
DEFAULT_PLAYLIST_MAX_LENGTH));
playlist->queued = -1;
playlist->current = -1;
playlist->prev_elapsed = g_timer_new();
}
void
playlist_finish(struct playlist *playlist)
{
queue_finish(&playlist->queue);
g_timer_destroy(playlist->prev_elapsed);
}
/**
* Queue a song, addressed by its order number.
*/
static void
playlist_queue_song_order(struct playlist *playlist, unsigned order)
{
struct song *song;
char *uri;
assert(queue_valid_order(&playlist->queue, order));
playlist->queued = order;
song = queue_get_order(&playlist->queue, order);
uri = song_get_uri(song);
g_debug("queue song %i:\"%s\"", playlist->queued, uri);
g_free(uri);
queueSong(song);
}
/**
* Check if the player thread has already started playing the "queued"
* song.
*/
static void syncPlaylistWithQueue(struct playlist *playlist)
{
if (pc.next_song == NULL && playlist->queued != -1) {
/* queued song has started: copy queued to current,
and notify the clients */
int current = playlist->current;
playlist->current = playlist->queued;
playlist->queued = -1;
if(playlist->queue.consume)
deleteFromPlaylist(playlist, queue_order_to_position(&playlist->queue, current));
idle_add(IDLE_PLAYER);
}
}
const struct song *
playlist_get_queued_song(struct playlist *playlist)
{
if (!playlist->playing || playlist->queued < 0)
return NULL;
return queue_get_order(&playlist->queue, playlist->queued);
}
void
playlist_update_queued_song(struct playlist *playlist, const struct song *prev)
{
int next_order;
const struct song *next_song;
if (!playlist->playing)
return;
assert(!queue_is_empty(&playlist->queue));
assert((playlist->queued < 0) == (prev == NULL));
next_order = playlist->current >= 0
? queue_next_order(&playlist->queue, playlist->current)
: 0;
if (next_order == 0 && playlist->queue.random) {
/* shuffle the song order again, so we get a different
order each time the playlist is played
completely */
unsigned current_position =
queue_order_to_position(&playlist->queue,
playlist->current);
queue_shuffle_order(&playlist->queue);
/* make sure that the playlist->current still points to
the current song, after the song order has been
shuffled */
playlist->current =
queue_position_to_order(&playlist->queue,
current_position);
}
if (next_order >= 0)
next_song = queue_get_order(&playlist->queue, next_order);
else
next_song = NULL;
if (prev != NULL && next_song != prev) {
/* clear the currently queued song */
pc_cancel();
playlist->queued = -1;
}
if (next_order >= 0) {
if (next_song != prev)
playlist_queue_song_order(playlist, next_order);
else
playlist->queued = next_order;
}
}
void
playPlaylistOrderNumber(struct playlist *playlist, int orderNum)
{
struct song *song;
char *uri;
playlist->playing = true;
playlist->queued = -1;
song = queue_get_order(&playlist->queue, orderNum);
uri = song_get_uri(song);
g_debug("play %i:\"%s\"", orderNum, uri);
g_free(uri);
playerPlay(song);
playlist->current = orderNum;
}
static void
playPlaylistIfPlayerStopped(struct playlist *playlist);
/**
* This is the "PLAYLIST" event handler. It is invoked by the player
* thread whenever it requests a new queued song, or when it exits.
*/
void syncPlayerAndPlaylist(struct playlist *playlist)
{
if (!playlist->playing)
/* this event has reached us out of sync: we aren't
playing anymore; ignore the event */
return;
if (getPlayerState() == PLAYER_STATE_STOP)
/* the player thread has stopped: check if playback
should be restarted with the next song. That can
happen if the playlist isn't filling the queue fast
enough */
playPlaylistIfPlayerStopped(playlist);
else {
/* check if the player thread has already started
playing the queued song */
syncPlaylistWithQueue(playlist);
/* make sure the queued song is always set (if
possible) */
if (pc.next_song == NULL)
playlist_update_queued_song(playlist, NULL);
}
}
/**
* The player has stopped for some reason. Check the error, and
* decide whether to re-start playback
*/
static void
playPlaylistIfPlayerStopped(struct playlist *playlist)
{
enum player_error error;
assert(playlist->playing);
assert(getPlayerState() == PLAYER_STATE_STOP);
error = getPlayerError();
if (error == PLAYER_ERROR_NOERROR)
playlist->error_count = 0;
else
++playlist->error_count;
if ((playlist->stop_on_error && error != PLAYER_ERROR_NOERROR) ||
error == PLAYER_ERROR_AUDIO || error == PLAYER_ERROR_SYSTEM ||
playlist->error_count >= queue_length(&playlist->queue))
/* too many errors, or critical error: stop
playback */
stopPlaylist(playlist);
else
/* continue playback at the next song */
nextSongInPlaylist(playlist);
}
bool
getPlaylistRepeatStatus(const struct playlist *playlist)
{
return playlist->queue.repeat;
}
bool
getPlaylistRandomStatus(const struct playlist *playlist)
{
return playlist->queue.random;
}
bool
getPlaylistSingleStatus(const struct playlist *playlist)
{
return playlist->queue.single;
}
bool
getPlaylistConsumeStatus(const struct playlist *playlist)
{
return playlist->queue.consume;
}
void setPlaylistRepeatStatus(struct playlist *playlist, bool status)
{
if (status == playlist->queue.repeat)
return;
playlist->queue.repeat = status;
/* if the last song is currently being played, the "next song"
might change when repeat mode is toggled */
playlist_update_queued_song(playlist,
playlist_get_queued_song(playlist));
idle_add(IDLE_OPTIONS);
}
static void orderPlaylist(struct playlist *playlist)
{
if (playlist->current >= 0)
/* update playlist.current, order==position now */
playlist->current = queue_order_to_position(&playlist->queue,
playlist->current);
queue_restore_order(&playlist->queue);
}
void setPlaylistSingleStatus(struct playlist *playlist, bool status)
{
if (status == playlist->queue.single)
return;
playlist->queue.single = status;
/* if the last song is currently being played, the "next song"
might change when single mode is toggled */
playlist_update_queued_song(playlist,
playlist_get_queued_song(playlist));
idle_add(IDLE_OPTIONS);
}
void setPlaylistConsumeStatus(struct playlist *playlist, bool status)
{
if (status == playlist->queue.consume)
return;
playlist->queue.consume = status;
idle_add(IDLE_OPTIONS);
}
void setPlaylistRandomStatus(struct playlist *playlist, bool status)
{
const struct song *queued;
if (status == playlist->queue.random)
return;
queued = playlist_get_queued_song(playlist);
playlist->queue.random = status;
if (playlist->queue.random) {
/* shuffle the queue order, but preserve
playlist->current */
int current_position =
playlist->playing && playlist->current >= 0
? (int)queue_order_to_position(&playlist->queue,
playlist->current)
: -1;
queue_shuffle_order(&playlist->queue);
if (current_position >= 0) {
/* make sure the current song is the first in
the order list, so the whole rest of the
playlist is played after that */
unsigned current_order =
queue_position_to_order(&playlist->queue,
current_position);
queue_swap_order(&playlist->queue, 0, current_order);
playlist->current = 0;
} else
playlist->current = -1;
} else
orderPlaylist(playlist);
playlist_update_queued_song(playlist, queued);
idle_add(IDLE_OPTIONS);
}
int getPlaylistCurrentSong(const struct playlist *playlist)
{
if (playlist->current >= 0)
return queue_order_to_position(&playlist->queue,
playlist->current);
return -1;
}
int getPlaylistNextSong(const struct playlist *playlist)
{
if (playlist->current >= 0)
{
if (playlist->queue.single == 1)
{
if (playlist->queue.repeat == 1)
return queue_order_to_position(&playlist->queue,
playlist->current);
else
return -1;
}
if (playlist->current + 1 < (int)queue_length(&playlist->queue))
return queue_order_to_position(&playlist->queue,
playlist->current + 1);
else if (playlist->queue.repeat == 1)
return queue_order_to_position(&playlist->queue, 0);
}
return -1;
}
unsigned long
getPlaylistVersion(const struct playlist *playlist)
{
return playlist->queue.version;
}
int
getPlaylistLength(const struct playlist *playlist)
{
return queue_length(&playlist->queue);
}
unsigned
getPlaylistSongId(const struct playlist *playlist, unsigned song)
{
return queue_position_to_id(&playlist->queue, song);
}