Add the ability to set the header row colour to button tables and wps tag tables.
[maemo-rb.git] / apps / playlist.c
blobb70fdc8a1f6afb4c5d1ae90641b8b8d9d35e902e
1 /***************************************************************************
2 * __________ __ ___.
3 * Open \______ \ ____ ____ | | _\_ |__ _______ ___
4 * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
5 * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
6 * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
7 * \/ \/ \/ \/ \/
8 * $Id$
10 * Copyright (C) 2002 by wavey@wavey.org
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation; either version 2
15 * of the License, or (at your option) any later version.
17 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
18 * KIND, either express or implied.
20 ****************************************************************************/
23 Dynamic playlist design (based on design originally proposed by ricII)
25 There are two files associated with a dynamic playlist:
26 1. Playlist file : This file contains the initial songs in the playlist.
27 The file is created by the user and stored on the hard
28 drive. NOTE: If we are playing the contents of a
29 directory, there will be no playlist file.
30 2. Control file : This file is automatically created when a playlist is
31 started and contains all the commands done to it.
33 The first non-comment line in a control file must begin with
34 "P:VERSION:DIR:FILE" where VERSION is the playlist control file version,
35 DIR is the directory where the playlist is located and FILE is the
36 playlist filename. For dirplay, FILE will be empty. An empty playlist
37 will have both entries as null.
39 Control file commands:
40 a. Add track (A:<position>:<last position>:<path to track>)
41 - Insert a track at the specified position in the current
42 playlist. Last position is used to specify where last insertion
43 occurred.
44 b. Queue track (Q:<position>:<last position>:<path to track>)
45 - Queue a track at the specified position in the current
46 playlist. Queued tracks differ from added tracks in that they
47 are deleted from the playlist as soon as they are played and
48 they are not saved to disk as part of the playlist.
49 c. Delete track (D:<position>)
50 - Delete track from specified position in the current playlist.
51 d. Shuffle playlist (S:<seed>:<index>)
52 - Shuffle entire playlist with specified seed. The index
53 identifies the first index in the newly shuffled playlist
54 (needed for repeat mode).
55 e. Unshuffle playlist (U:<index>)
56 - Unshuffle entire playlist. The index identifies the first index
57 in the newly unshuffled playlist.
58 f. Reset last insert position (R)
59 - Needed so that insertions work properly after resume
61 Resume:
62 The only resume info that needs to be saved is the current index in the
63 playlist and the position in the track. When resuming, all the commands
64 in the control file will be reapplied so that the playlist indices are
65 exactly the same as before shutdown. To avoid unnecessary disk
66 accesses, the shuffle mode settings are also saved in settings and only
67 flushed to disk when required.
70 #include <stdio.h>
71 #include <stdlib.h>
72 #include <string.h>
73 #include <ctype.h>
74 #include "playlist.h"
75 #include "ata_idle_notify.h"
76 #include "file.h"
77 #include "action.h"
78 #include "dir.h"
79 #include "sprintf.h"
80 #include "debug.h"
81 #include "audio.h"
82 #include "lcd.h"
83 #include "kernel.h"
84 #include "settings.h"
85 #include "status.h"
86 #include "applimits.h"
87 #include "screens.h"
88 #include "buffer.h"
89 #include "misc.h"
90 #include "button.h"
91 #include "filetree.h"
92 #include "abrepeat.h"
93 #include "thread.h"
94 #include "usb.h"
95 #include "filetypes.h"
96 #ifdef HAVE_LCD_BITMAP
97 #include "icons.h"
98 #endif
99 #include "system.h"
101 #include "lang.h"
102 #include "talk.h"
103 #include "splash.h"
104 #include "rbunicode.h"
105 #include "root_menu.h"
107 #define PLAYLIST_CONTROL_FILE ROCKBOX_DIR "/.playlist_control"
108 #define PLAYLIST_CONTROL_FILE_VERSION 2
111 Each playlist index has a flag associated with it which identifies what
112 type of track it is. These flags are stored in the 4 high order bits of
113 the index.
115 NOTE: This limits the playlist file size to a max of 256M.
117 Bits 31-30:
118 00 = Playlist track
119 01 = Track was prepended into playlist
120 10 = Track was inserted into playlist
121 11 = Track was appended into playlist
122 Bit 29:
123 0 = Added track
124 1 = Queued track
125 Bit 28:
126 0 = Track entry is valid
127 1 = Track does not exist on disk and should be skipped
129 #define PLAYLIST_SEEK_MASK 0x0FFFFFFF
130 #define PLAYLIST_INSERT_TYPE_MASK 0xC0000000
131 #define PLAYLIST_QUEUE_MASK 0x20000000
133 #define PLAYLIST_INSERT_TYPE_PREPEND 0x40000000
134 #define PLAYLIST_INSERT_TYPE_INSERT 0x80000000
135 #define PLAYLIST_INSERT_TYPE_APPEND 0xC0000000
137 #define PLAYLIST_QUEUED 0x20000000
138 #define PLAYLIST_SKIPPED 0x10000000
140 struct directory_search_context {
141 struct playlist_info* playlist;
142 int position;
143 bool queue;
144 int count;
147 static struct playlist_info current_playlist;
148 static char now_playing[MAX_PATH+1];
150 static void empty_playlist(struct playlist_info* playlist, bool resume);
151 static void new_playlist(struct playlist_info* playlist, const char *dir,
152 const char *file);
153 static void create_control(struct playlist_info* playlist);
154 static int check_control(struct playlist_info* playlist);
155 static int recreate_control(struct playlist_info* playlist);
156 static void update_playlist_filename(struct playlist_info* playlist,
157 const char *dir, const char *file);
158 static int add_indices_to_playlist(struct playlist_info* playlist,
159 char* buffer, size_t buflen);
160 static int add_track_to_playlist(struct playlist_info* playlist,
161 const char *filename, int position,
162 bool queue, int seek_pos);
163 static int directory_search_callback(char* filename, void* context);
164 static int remove_track_from_playlist(struct playlist_info* playlist,
165 int position, bool write);
166 static int randomise_playlist(struct playlist_info* playlist,
167 unsigned int seed, bool start_current,
168 bool write);
169 static int sort_playlist(struct playlist_info* playlist, bool start_current,
170 bool write);
171 static int get_next_index(const struct playlist_info* playlist, int steps,
172 int repeat_mode);
173 static void find_and_set_playlist_index(struct playlist_info* playlist,
174 unsigned int seek);
175 static int compare(const void* p1, const void* p2);
176 static int get_filename(struct playlist_info* playlist, int index, int seek,
177 bool control_file, char *buf, int buf_length);
178 static int get_next_directory(char *dir);
179 static int get_next_dir(char *dir, bool is_forward, bool recursion);
180 static int get_previous_directory(char *dir);
181 static int check_subdir_for_music(char *dir, const char *subdir, bool recurse);
182 static int format_track_path(char *dest, char *src, int buf_length, int max,
183 const char *dir);
184 static void display_playlist_count(int count, const unsigned char *fmt,
185 bool final);
186 static void display_buffer_full(void);
187 static int flush_cached_control(struct playlist_info* playlist);
188 static int update_control(struct playlist_info* playlist,
189 enum playlist_command command, int i1, int i2,
190 const char* s1, const char* s2, void* data);
191 static void sync_control(struct playlist_info* playlist, bool force);
192 static int rotate_index(const struct playlist_info* playlist, int index);
194 #ifdef HAVE_DIRCACHE
195 #define PLAYLIST_LOAD_POINTERS 1
197 static struct event_queue playlist_queue;
198 static long playlist_stack[(DEFAULT_STACK_SIZE + 0x800)/sizeof(long)];
199 static const char playlist_thread_name[] = "playlist cachectrl";
200 #endif
202 /* Check if the filename suggests M3U or M3U8 format. */
203 static bool is_m3u8(const char* filename)
205 int len = strlen(filename);
207 /* Default to M3U8 unless explicitly told otherwise. */
208 return !(len > 4 && strcasecmp(&filename[len - 4], ".m3u") == 0);
212 /* Convert a filename in an M3U playlist to UTF-8.
214 * buf - the filename to convert; can contain more than one line from the
215 * playlist.
216 * buf_len - amount of buf that is used.
217 * buf_max - total size of buf.
218 * temp - temporary conversion buffer, at least buf_max bytes.
220 * Returns the length of the converted filename.
222 static int convert_m3u(char* buf, int buf_len, int buf_max, char* temp)
224 int i = 0;
225 char* dest;
227 /* Locate EOL. */
228 while ((buf[i] != '\n') && (buf[i] != '\r') && (i < buf_len))
230 i++;
233 /* Work back killing white space. */
234 while ((i > 0) && isspace(buf[i - 1]))
236 i--;
239 buf_len = i;
240 dest = temp;
242 /* Convert char by char, so as to not overflow temp (iso_decode should
243 * preferably handle this). No more than 4 bytes should be generated for
244 * each input char.
246 for (i = 0; i < buf_len && dest < (temp + buf_max - 4); i++)
248 dest = iso_decode(&buf[i], dest, -1, 1);
251 *dest = 0;
252 strcpy(buf, temp);
253 return dest - temp;
257 * remove any files and indices associated with the playlist
259 static void empty_playlist(struct playlist_info* playlist, bool resume)
261 playlist->filename[0] = '\0';
262 playlist->utf8 = true;
264 if(playlist->fd >= 0)
265 /* If there is an already open playlist, close it. */
266 close(playlist->fd);
267 playlist->fd = -1;
269 if(playlist->control_fd >= 0)
270 close(playlist->control_fd);
271 playlist->control_fd = -1;
272 playlist->control_created = false;
274 playlist->in_ram = false;
276 if (playlist->buffer)
277 playlist->buffer[0] = 0;
279 playlist->buffer_end_pos = 0;
281 playlist->index = 0;
282 playlist->first_index = 0;
283 playlist->amount = 0;
284 playlist->last_insert_pos = -1;
285 playlist->seed = 0;
286 playlist->shuffle_modified = false;
287 playlist->deleted = false;
288 playlist->num_inserted_tracks = 0;
289 playlist->started = false;
291 playlist->num_cached = 0;
292 playlist->pending_control_sync = false;
294 if (!resume && playlist->current)
296 /* start with fresh playlist control file when starting new
297 playlist */
298 create_control(playlist);
303 * Initialize a new playlist for viewing/editing/playing. dir is the
304 * directory where the playlist is located and file is the filename.
306 static void new_playlist(struct playlist_info* playlist, const char *dir,
307 const char *file)
309 const char *fileused = file;
310 const char *dirused = dir;
311 empty_playlist(playlist, false);
313 if (!fileused)
315 fileused = "";
317 if (dirused && playlist->current) /* !current cannot be in_ram */
318 playlist->in_ram = true;
319 else
320 dirused = ""; /* empty playlist */
323 update_playlist_filename(playlist, dirused, fileused);
325 if (playlist->control_fd >= 0)
327 update_control(playlist, PLAYLIST_COMMAND_PLAYLIST,
328 PLAYLIST_CONTROL_FILE_VERSION, -1, dirused, fileused, NULL);
329 sync_control(playlist, false);
334 * create control file for playlist
336 static void create_control(struct playlist_info* playlist)
338 playlist->control_fd = open(playlist->control_filename,
339 O_CREAT|O_RDWR|O_TRUNC);
340 if (playlist->control_fd < 0)
342 if (check_rockboxdir())
344 cond_talk_ids_fq(LANG_PLAYLIST_CONTROL_ACCESS_ERROR);
345 splashf(HZ*2, (unsigned char *)"%s (%d)",
346 str(LANG_PLAYLIST_CONTROL_ACCESS_ERROR),
347 playlist->control_fd);
349 playlist->control_created = false;
351 else
353 playlist->control_created = true;
358 * validate the control file. This may include creating/initializing it if
359 * necessary;
361 static int check_control(struct playlist_info* playlist)
363 if (!playlist->control_created)
365 create_control(playlist);
367 if (playlist->control_fd >= 0)
369 char* dir = playlist->filename;
370 char* file = playlist->filename+playlist->dirlen;
371 char c = playlist->filename[playlist->dirlen-1];
373 playlist->filename[playlist->dirlen-1] = '\0';
375 update_control(playlist, PLAYLIST_COMMAND_PLAYLIST,
376 PLAYLIST_CONTROL_FILE_VERSION, -1, dir, file, NULL);
377 sync_control(playlist, false);
378 playlist->filename[playlist->dirlen-1] = c;
382 if (playlist->control_fd < 0)
383 return -1;
385 return 0;
389 * recreate the control file based on current playlist entries
391 static int recreate_control(struct playlist_info* playlist)
393 char temp_file[MAX_PATH+1];
394 int temp_fd = -1;
395 int i;
396 int result = 0;
398 if(playlist->control_fd >= 0)
400 char* dir = playlist->filename;
401 char* file = playlist->filename+playlist->dirlen;
402 char c = playlist->filename[playlist->dirlen-1];
404 close(playlist->control_fd);
406 snprintf(temp_file, sizeof(temp_file), "%s_temp",
407 playlist->control_filename);
409 if (rename(playlist->control_filename, temp_file) < 0)
410 return -1;
412 temp_fd = open(temp_file, O_RDONLY);
413 if (temp_fd < 0)
414 return -1;
416 playlist->control_fd = open(playlist->control_filename,
417 O_CREAT|O_RDWR|O_TRUNC);
418 if (playlist->control_fd < 0)
419 return -1;
421 playlist->filename[playlist->dirlen-1] = '\0';
423 /* cannot call update_control() because of mutex */
424 result = fdprintf(playlist->control_fd, "P:%d:%s:%s\n",
425 PLAYLIST_CONTROL_FILE_VERSION, dir, file);
427 playlist->filename[playlist->dirlen-1] = c;
429 if (result < 0)
431 close(temp_fd);
432 return result;
436 playlist->seed = 0;
437 playlist->shuffle_modified = false;
438 playlist->deleted = false;
439 playlist->num_inserted_tracks = 0;
441 for (i=0; i<playlist->amount; i++)
443 if (playlist->indices[i] & PLAYLIST_INSERT_TYPE_MASK)
445 bool queue = playlist->indices[i] & PLAYLIST_QUEUE_MASK;
446 char inserted_file[MAX_PATH+1];
448 lseek(temp_fd, playlist->indices[i] & PLAYLIST_SEEK_MASK,
449 SEEK_SET);
450 read_line(temp_fd, inserted_file, sizeof(inserted_file));
452 result = fdprintf(playlist->control_fd, "%c:%d:%d:",
453 queue?'Q':'A', i, playlist->last_insert_pos);
454 if (result > 0)
456 /* save the position in file where name is written */
457 int seek_pos = lseek(playlist->control_fd, 0, SEEK_CUR);
459 result = fdprintf(playlist->control_fd, "%s\n",
460 inserted_file);
462 playlist->indices[i] =
463 (playlist->indices[i] & ~PLAYLIST_SEEK_MASK) | seek_pos;
466 if (result < 0)
467 break;
469 playlist->num_inserted_tracks++;
473 close(temp_fd);
474 remove(temp_file);
475 fsync(playlist->control_fd);
477 if (result < 0)
478 return result;
480 return 0;
484 * store directory and name of playlist file
486 static void update_playlist_filename(struct playlist_info* playlist,
487 const char *dir, const char *file)
489 char *sep="";
490 int dirlen = strlen(dir);
492 playlist->utf8 = is_m3u8(file);
494 /* If the dir does not end in trailing slash, we use a separator.
495 Otherwise we don't. */
496 if('/' != dir[dirlen-1])
498 sep="/";
499 dirlen++;
502 playlist->dirlen = dirlen;
504 snprintf(playlist->filename, sizeof(playlist->filename),
505 "%s%s%s", dir, sep, file);
509 * calculate track offsets within a playlist file
511 static int add_indices_to_playlist(struct playlist_info* playlist,
512 char* buffer, size_t buflen)
514 unsigned int nread;
515 unsigned int i = 0;
516 unsigned int count = 0;
517 bool store_index;
518 unsigned char *p;
519 int result = 0;
521 if(-1 == playlist->fd)
522 playlist->fd = open_utf8(playlist->filename, O_RDONLY);
523 if(playlist->fd < 0)
524 return -1; /* failure */
525 if((i = lseek(playlist->fd, 0, SEEK_CUR)) > 0)
526 playlist->utf8 = true; /* Override any earlier indication. */
528 splash(0, ID2P(LANG_WAIT));
530 if (!buffer)
532 /* use mp3 buffer for maximum load speed */
533 audio_stop();
534 #if CONFIG_CODEC != SWCODEC
535 talk_buffer_steal(); /* we use the mp3 buffer, need to tell */
536 buflen = (audiobufend - audiobuf);
537 buffer = (char *)audiobuf;
538 #else
539 buffer = (char *)audio_get_buffer(false, &buflen);
540 #endif
543 store_index = true;
545 while(1)
547 nread = read(playlist->fd, buffer, buflen);
548 /* Terminate on EOF */
549 if(nread <= 0)
550 break;
552 p = (unsigned char *)buffer;
554 for(count=0; count < nread; count++,p++) {
556 /* Are we on a new line? */
557 if((*p == '\n') || (*p == '\r'))
559 store_index = true;
561 else if(store_index)
563 store_index = false;
565 if(*p != '#')
567 if ( playlist->amount >= playlist->max_playlist_size ) {
568 display_buffer_full();
569 result = -1;
570 goto exit;
573 /* Store a new entry */
574 playlist->indices[ playlist->amount ] = i+count;
575 #ifdef HAVE_DIRCACHE
576 if (playlist->filenames)
577 playlist->filenames[ playlist->amount ] = NULL;
578 #endif
579 playlist->amount++;
584 i+= count;
587 exit:
588 #ifdef HAVE_DIRCACHE
589 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
590 #endif
592 return result;
596 * Utility function to create a new playlist, fill it with the next or
597 * previous directory, shuffle it if needed, and start playback.
598 * If play_last is true and direction zero or negative, start playing
599 * the last file in the directory, otherwise start playing the first.
601 static int create_and_play_dir(int direction, bool play_last)
603 char dir[MAX_PATH + 1];
604 int res;
605 int index = -1;
607 if(direction > 0)
608 res = get_next_directory(dir);
609 else
610 res = get_previous_directory(dir);
612 if (!res)
614 if (playlist_create(dir, NULL) != -1)
616 ft_build_playlist(tree_get_context(), 0);
618 if (global_settings.playlist_shuffle)
619 playlist_shuffle(current_tick, -1);
621 if (play_last && direction <= 0)
622 index = current_playlist.amount - 1;
623 else
624 index = 0;
626 #if (CONFIG_CODEC != SWCODEC)
627 playlist_start(index, 0);
628 #endif
631 /* we've overwritten the dircache when getting the next/previous dir,
632 so the tree browser context will need to be reloaded */
633 reload_directory();
636 return index;
640 * Removes all tracks, from the playlist, leaving the presently playing
641 * track queued.
643 int playlist_remove_all_tracks(struct playlist_info *playlist)
645 int result;
647 if (playlist == NULL)
648 playlist = &current_playlist;
650 while (playlist->index > 0)
651 if ((result = remove_track_from_playlist(playlist, 0, true)) < 0)
652 return result;
654 while (playlist->amount > 1)
655 if ((result = remove_track_from_playlist(playlist, 1, true)) < 0)
656 return result;
658 if (playlist->amount == 1) {
659 playlist->indices[0] |= PLAYLIST_QUEUED;
662 return 0;
667 * Add track to playlist at specified position. There are five special
668 * positions that can be specified:
669 * PLAYLIST_PREPEND - Add track at beginning of playlist
670 * PLAYLIST_INSERT - Add track after current song. NOTE: If
671 * there are already inserted tracks then track
672 * is added to the end of the insertion list
673 * PLAYLIST_INSERT_FIRST - Add track immediately after current song, no
674 * matter what other tracks have been inserted
675 * PLAYLIST_INSERT_LAST - Add track to end of playlist
676 * PLAYLIST_INSERT_SHUFFLED - Add track at some random point between the
677 * current playing track and end of playlist
678 * PLAYLIST_REPLACE - Erase current playlist, Cue the current track
679 * and inster this track at the end.
681 static int add_track_to_playlist(struct playlist_info* playlist,
682 const char *filename, int position,
683 bool queue, int seek_pos)
685 int insert_position, orig_position;
686 unsigned long flags = PLAYLIST_INSERT_TYPE_INSERT;
687 int i;
689 insert_position = orig_position = position;
691 if (playlist->amount >= playlist->max_playlist_size)
693 display_buffer_full();
694 return -1;
697 switch (position)
699 case PLAYLIST_PREPEND:
700 position = insert_position = playlist->first_index;
701 break;
702 case PLAYLIST_INSERT:
703 /* if there are already inserted tracks then add track to end of
704 insertion list else add after current playing track */
705 if (playlist->last_insert_pos >= 0 &&
706 playlist->last_insert_pos < playlist->amount &&
707 (playlist->indices[playlist->last_insert_pos]&
708 PLAYLIST_INSERT_TYPE_MASK) == PLAYLIST_INSERT_TYPE_INSERT)
709 position = insert_position = playlist->last_insert_pos+1;
710 else if (playlist->amount > 0)
711 position = insert_position = playlist->index + 1;
712 else
713 position = insert_position = 0;
715 playlist->last_insert_pos = position;
716 break;
717 case PLAYLIST_INSERT_FIRST:
718 if (playlist->amount > 0)
719 position = insert_position = playlist->index + 1;
720 else
721 position = insert_position = 0;
723 playlist->last_insert_pos = position;
724 break;
725 case PLAYLIST_INSERT_LAST:
726 if (playlist->first_index > 0)
727 position = insert_position = playlist->first_index;
728 else
729 position = insert_position = playlist->amount;
731 playlist->last_insert_pos = position;
732 break;
733 case PLAYLIST_INSERT_SHUFFLED:
735 if (playlist->started)
737 int offset;
738 int n = playlist->amount -
739 rotate_index(playlist, playlist->index);
741 if (n > 0)
742 offset = rand() % n;
743 else
744 offset = 0;
746 position = playlist->index + offset + 1;
747 if (position >= playlist->amount)
748 position -= playlist->amount;
750 insert_position = position;
752 else
753 position = insert_position = (rand() % (playlist->amount+1));
754 break;
756 case PLAYLIST_REPLACE:
757 if (playlist_remove_all_tracks(playlist) < 0)
758 return -1;
760 playlist->last_insert_pos = position = insert_position = playlist->index + 1;
761 break;
764 if (queue)
765 flags |= PLAYLIST_QUEUED;
767 /* shift indices so that track can be added */
768 for (i=playlist->amount; i>insert_position; i--)
770 playlist->indices[i] = playlist->indices[i-1];
771 #ifdef HAVE_DIRCACHE
772 if (playlist->filenames)
773 playlist->filenames[i] = playlist->filenames[i-1];
774 #endif
777 /* update stored indices if needed */
778 if (playlist->amount > 0 && insert_position <= playlist->index &&
779 playlist->started)
780 playlist->index++;
782 if (playlist->amount > 0 && insert_position <= playlist->first_index &&
783 orig_position != PLAYLIST_PREPEND && playlist->started)
785 playlist->first_index++;
789 if (insert_position < playlist->last_insert_pos ||
790 (insert_position == playlist->last_insert_pos && position < 0))
791 playlist->last_insert_pos++;
793 if (seek_pos < 0 && playlist->control_fd >= 0)
795 int result = update_control(playlist,
796 (queue?PLAYLIST_COMMAND_QUEUE:PLAYLIST_COMMAND_ADD), position,
797 playlist->last_insert_pos, filename, NULL, &seek_pos);
799 if (result < 0)
800 return result;
803 playlist->indices[insert_position] = flags | seek_pos;
805 #ifdef HAVE_DIRCACHE
806 if (playlist->filenames)
807 playlist->filenames[insert_position] = NULL;
808 #endif
810 playlist->amount++;
811 playlist->num_inserted_tracks++;
813 return insert_position;
817 * Callback for playlist_directory_tracksearch to insert track into
818 * playlist.
820 static int directory_search_callback(char* filename, void* context)
822 struct directory_search_context* c =
823 (struct directory_search_context*) context;
824 int insert_pos;
826 insert_pos = add_track_to_playlist(c->playlist, filename, c->position,
827 c->queue, -1);
829 if (insert_pos < 0)
830 return -1;
832 (c->count)++;
834 /* Make sure tracks are inserted in correct order if user requests
835 INSERT_FIRST */
836 if (c->position == PLAYLIST_INSERT_FIRST || c->position >= 0)
837 c->position = insert_pos + 1;
839 if (((c->count)%PLAYLIST_DISPLAY_COUNT) == 0)
841 unsigned char* count_str;
843 if (c->queue)
844 count_str = ID2P(LANG_PLAYLIST_QUEUE_COUNT);
845 else
846 count_str = ID2P(LANG_PLAYLIST_INSERT_COUNT);
848 display_playlist_count(c->count, count_str, false);
850 if ((c->count) == PLAYLIST_DISPLAY_COUNT &&
851 (audio_status() & AUDIO_STATUS_PLAY) &&
852 c->playlist->started)
853 audio_flush_and_reload_tracks();
856 return 0;
860 * remove track at specified position
862 static int remove_track_from_playlist(struct playlist_info* playlist,
863 int position, bool write)
865 int i;
866 bool inserted;
868 if (playlist->amount <= 0)
869 return -1;
871 inserted = playlist->indices[position] & PLAYLIST_INSERT_TYPE_MASK;
873 /* shift indices now that track has been removed */
874 for (i=position; i<playlist->amount; i++)
876 playlist->indices[i] = playlist->indices[i+1];
877 #ifdef HAVE_DIRCACHE
878 if (playlist->filenames)
879 playlist->filenames[i] = playlist->filenames[i+1];
880 #endif
883 playlist->amount--;
885 if (inserted)
886 playlist->num_inserted_tracks--;
887 else
888 playlist->deleted = true;
890 /* update stored indices if needed */
891 if (position < playlist->index)
892 playlist->index--;
894 if (position < playlist->first_index)
896 playlist->first_index--;
899 if (position <= playlist->last_insert_pos)
900 playlist->last_insert_pos--;
902 if (write && playlist->control_fd >= 0)
904 int result = update_control(playlist, PLAYLIST_COMMAND_DELETE,
905 position, -1, NULL, NULL, NULL);
907 if (result < 0)
908 return result;
910 sync_control(playlist, false);
913 return 0;
917 * randomly rearrange the array of indices for the playlist. If start_current
918 * is true then update the index to the new index of the current playing track
920 static int randomise_playlist(struct playlist_info* playlist,
921 unsigned int seed, bool start_current,
922 bool write)
924 int count;
925 int candidate;
926 long store;
927 unsigned int current = playlist->indices[playlist->index];
929 /* seed 0 is used to identify sorted playlist for resume purposes */
930 if (seed == 0)
931 seed = 1;
933 /* seed with the given seed */
934 srand(seed);
936 /* randomise entire indices list */
937 for(count = playlist->amount - 1; count >= 0; count--)
939 /* the rand is from 0 to RAND_MAX, so adjust to our value range */
940 candidate = rand() % (count + 1);
942 /* now swap the values at the 'count' and 'candidate' positions */
943 store = playlist->indices[candidate];
944 playlist->indices[candidate] = playlist->indices[count];
945 playlist->indices[count] = store;
946 #ifdef HAVE_DIRCACHE
947 if (playlist->filenames)
949 store = (long)playlist->filenames[candidate];
950 playlist->filenames[candidate] = playlist->filenames[count];
951 playlist->filenames[count] = (struct dircache_entry *)store;
953 #endif
956 if (start_current)
957 find_and_set_playlist_index(playlist, current);
959 /* indices have been moved so last insert position is no longer valid */
960 playlist->last_insert_pos = -1;
962 playlist->seed = seed;
963 if (playlist->num_inserted_tracks > 0 || playlist->deleted)
964 playlist->shuffle_modified = true;
966 if (write)
968 update_control(playlist, PLAYLIST_COMMAND_SHUFFLE, seed,
969 playlist->first_index, NULL, NULL, NULL);
972 return 0;
976 * Sort the array of indices for the playlist. If start_current is true then
977 * set the index to the new index of the current song.
979 static int sort_playlist(struct playlist_info* playlist, bool start_current,
980 bool write)
982 unsigned int current = playlist->indices[playlist->index];
984 if (playlist->amount > 0)
985 qsort(playlist->indices, playlist->amount,
986 sizeof(playlist->indices[0]), compare);
988 #ifdef HAVE_DIRCACHE
989 /** We need to re-check the song names from disk because qsort can't
990 * sort two arrays at once :/
991 * FIXME: Please implement a better way to do this. */
992 memset(playlist->filenames, 0, playlist->max_playlist_size * sizeof(int));
993 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
994 #endif
996 if (start_current)
997 find_and_set_playlist_index(playlist, current);
999 /* indices have been moved so last insert position is no longer valid */
1000 playlist->last_insert_pos = -1;
1002 if (!playlist->num_inserted_tracks && !playlist->deleted)
1003 playlist->shuffle_modified = false;
1004 if (write && playlist->control_fd >= 0)
1006 update_control(playlist, PLAYLIST_COMMAND_UNSHUFFLE,
1007 playlist->first_index, -1, NULL, NULL, NULL);
1010 return 0;
1013 /* Calculate how many steps we have to really step when skipping entries
1014 * marked as bad.
1016 static int calculate_step_count(const struct playlist_info *playlist, int steps)
1018 int i, count, direction;
1019 int index;
1020 int stepped_count = 0;
1022 if (steps < 0)
1024 direction = -1;
1025 count = -steps;
1027 else
1029 direction = 1;
1030 count = steps;
1033 index = playlist->index;
1034 i = 0;
1035 do {
1036 /* Boundary check */
1037 if (index < 0)
1038 index += playlist->amount;
1039 if (index >= playlist->amount)
1040 index -= playlist->amount;
1042 /* Check if we found a bad entry. */
1043 if (playlist->indices[index] & PLAYLIST_SKIPPED)
1045 steps += direction;
1046 /* Are all entries bad? */
1047 if (stepped_count++ > playlist->amount)
1048 break ;
1050 else
1051 i++;
1053 index += direction;
1054 } while (i <= count);
1056 return steps;
1059 /* Marks the index of the track to be skipped that is "steps" away from
1060 * current playing track.
1062 void playlist_skip_entry(struct playlist_info *playlist, int steps)
1064 int index;
1066 if (playlist == NULL)
1067 playlist = &current_playlist;
1069 /* need to account for already skipped tracks */
1070 steps = calculate_step_count(playlist, steps);
1072 index = playlist->index + steps;
1073 if (index < 0)
1074 index += playlist->amount;
1075 else if (index >= playlist->amount)
1076 index -= playlist->amount;
1078 playlist->indices[index] |= PLAYLIST_SKIPPED;
1082 * returns the index of the track that is "steps" away from current playing
1083 * track.
1085 static int get_next_index(const struct playlist_info* playlist, int steps,
1086 int repeat_mode)
1088 int current_index = playlist->index;
1089 int next_index = -1;
1091 if (playlist->amount <= 0)
1092 return -1;
1094 if (repeat_mode == -1)
1095 repeat_mode = global_settings.repeat_mode;
1097 if (repeat_mode == REPEAT_SHUFFLE && playlist->amount <= 1)
1098 repeat_mode = REPEAT_ALL;
1100 steps = calculate_step_count(playlist, steps);
1101 switch (repeat_mode)
1103 case REPEAT_SHUFFLE:
1104 /* Treat repeat shuffle just like repeat off. At end of playlist,
1105 play will be resumed in playlist_next() */
1106 case REPEAT_OFF:
1108 current_index = rotate_index(playlist, current_index);
1109 next_index = current_index+steps;
1110 if ((next_index < 0) || (next_index >= playlist->amount))
1111 next_index = -1;
1112 else
1113 next_index = (next_index+playlist->first_index) %
1114 playlist->amount;
1116 break;
1119 case REPEAT_ONE:
1120 #ifdef AB_REPEAT_ENABLE
1121 case REPEAT_AB:
1122 #endif
1123 next_index = current_index;
1124 break;
1126 case REPEAT_ALL:
1127 default:
1129 next_index = (current_index+steps) % playlist->amount;
1130 while (next_index < 0)
1131 next_index += playlist->amount;
1133 if (steps >= playlist->amount)
1135 int i, index;
1137 index = next_index;
1138 next_index = -1;
1140 /* second time around so skip the queued files */
1141 for (i=0; i<playlist->amount; i++)
1143 if (playlist->indices[index] & PLAYLIST_QUEUE_MASK)
1144 index = (index+1) % playlist->amount;
1145 else
1147 next_index = index;
1148 break;
1152 break;
1156 /* No luck if the whole playlist was bad. */
1157 if (playlist->indices[next_index] & PLAYLIST_SKIPPED)
1158 return -1;
1160 return next_index;
1164 * Search for the seek track and set appropriate indices. Used after shuffle
1165 * to make sure the current index is still pointing to correct track.
1167 static void find_and_set_playlist_index(struct playlist_info* playlist,
1168 unsigned int seek)
1170 int i;
1172 /* Set the index to the current song */
1173 for (i=0; i<playlist->amount; i++)
1175 if (playlist->indices[i] == seek)
1177 playlist->index = playlist->first_index = i;
1179 break;
1185 * used to sort track indices. Sort order is as follows:
1186 * 1. Prepended tracks (in prepend order)
1187 * 2. Playlist/directory tracks (in playlist order)
1188 * 3. Inserted/Appended tracks (in insert order)
1190 static int compare(const void* p1, const void* p2)
1192 unsigned long* e1 = (unsigned long*) p1;
1193 unsigned long* e2 = (unsigned long*) p2;
1194 unsigned long flags1 = *e1 & PLAYLIST_INSERT_TYPE_MASK;
1195 unsigned long flags2 = *e2 & PLAYLIST_INSERT_TYPE_MASK;
1197 if (flags1 == flags2)
1198 return (*e1 & PLAYLIST_SEEK_MASK) - (*e2 & PLAYLIST_SEEK_MASK);
1199 else if (flags1 == PLAYLIST_INSERT_TYPE_PREPEND ||
1200 flags2 == PLAYLIST_INSERT_TYPE_APPEND)
1201 return -1;
1202 else if (flags1 == PLAYLIST_INSERT_TYPE_APPEND ||
1203 flags2 == PLAYLIST_INSERT_TYPE_PREPEND)
1204 return 1;
1205 else if (flags1 && flags2)
1206 return (*e1 & PLAYLIST_SEEK_MASK) - (*e2 & PLAYLIST_SEEK_MASK);
1207 else
1208 return *e1 - *e2;
1211 #ifdef HAVE_DIRCACHE
1213 * Thread to update filename pointers to dircache on background
1214 * without affecting playlist load up performance. This thread also flushes
1215 * any pending control commands when the disk spins up.
1217 static bool playlist_flush_callback(void)
1219 struct playlist_info *playlist;
1220 playlist = &current_playlist;
1221 if (playlist->control_fd >= 0)
1223 if (playlist->num_cached > 0)
1225 mutex_lock(&playlist->control_mutex);
1226 flush_cached_control(playlist);
1227 mutex_unlock(&playlist->control_mutex);
1229 sync_control(playlist, true);
1231 return true;
1234 static void playlist_thread(void)
1236 struct queue_event ev;
1237 bool dirty_pointers = false;
1238 static char tmp[MAX_PATH+1];
1240 struct playlist_info *playlist;
1241 int index;
1242 int seek;
1243 bool control_file;
1245 int sleep_time = 5;
1247 #ifdef HAVE_DISK_STORAGE
1248 if (global_settings.disk_spindown > 1 &&
1249 global_settings.disk_spindown <= 5)
1250 sleep_time = global_settings.disk_spindown - 1;
1251 #endif
1253 while (1)
1255 queue_wait_w_tmo(&playlist_queue, &ev, HZ*sleep_time);
1257 switch (ev.id)
1259 case PLAYLIST_LOAD_POINTERS:
1260 dirty_pointers = true;
1261 break ;
1263 /* Start the background scanning after either the disk spindown
1264 timeout or 5s, whichever is less */
1265 case SYS_TIMEOUT:
1266 playlist = &current_playlist;
1267 if (playlist->control_fd >= 0)
1269 if (playlist->num_cached > 0)
1270 register_storage_idle_func(playlist_flush_callback);
1273 if (!dirty_pointers)
1274 break ;
1276 if (!dircache_is_enabled() || !playlist->filenames
1277 || playlist->amount <= 0)
1278 break ;
1280 #ifdef HAVE_ADJUSTABLE_CPU_FREQ
1281 cpu_boost(true);
1282 #endif
1283 for (index = 0; index < playlist->amount
1284 && queue_empty(&playlist_queue); index++)
1286 /* Process only pointers that are not already loaded. */
1287 if (playlist->filenames[index])
1288 continue ;
1290 control_file = playlist->indices[index] & PLAYLIST_INSERT_TYPE_MASK;
1291 seek = playlist->indices[index] & PLAYLIST_SEEK_MASK;
1293 /* Load the filename from playlist file. */
1294 if (get_filename(playlist, index, seek, control_file, tmp,
1295 sizeof(tmp)) < 0)
1296 break ;
1298 /* Set the dircache entry pointer. */
1299 playlist->filenames[index] = dircache_get_entry_ptr(tmp);
1301 /* And be on background so user doesn't notice any delays. */
1302 yield();
1305 #ifdef HAVE_ADJUSTABLE_CPU_FREQ
1306 cpu_boost(false);
1307 #endif
1308 dirty_pointers = false;
1309 break ;
1311 #ifndef SIMULATOR
1312 case SYS_USB_CONNECTED:
1313 usb_acknowledge(SYS_USB_CONNECTED_ACK);
1314 usb_wait_for_disconnect(&playlist_queue);
1315 break ;
1316 #endif
1320 #endif
1323 * gets pathname for track at seek index
1325 static int get_filename(struct playlist_info* playlist, int index, int seek,
1326 bool control_file, char *buf, int buf_length)
1328 int fd;
1329 int max = -1;
1330 char tmp_buf[MAX_PATH+1];
1331 char dir_buf[MAX_PATH+1];
1332 bool utf8 = playlist->utf8;
1334 if (buf_length > MAX_PATH+1)
1335 buf_length = MAX_PATH+1;
1337 #ifdef HAVE_DIRCACHE
1338 if (dircache_is_enabled() && playlist->filenames)
1340 if (playlist->filenames[index] != NULL)
1342 dircache_copy_path(playlist->filenames[index], tmp_buf, sizeof(tmp_buf)-1);
1343 max = strlen(tmp_buf) + 1;
1346 #else
1347 (void)index;
1348 #endif
1350 if (playlist->in_ram && !control_file && max < 0)
1352 strlcpy(tmp_buf, &playlist->buffer[seek], sizeof(tmp_buf));
1353 max = strlen(tmp_buf) + 1;
1355 else if (max < 0)
1357 mutex_lock(&playlist->control_mutex);
1359 if (control_file)
1361 fd = playlist->control_fd;
1362 utf8 = true;
1364 else
1366 if(-1 == playlist->fd)
1367 playlist->fd = open(playlist->filename, O_RDONLY);
1369 fd = playlist->fd;
1372 if(-1 != fd)
1375 if (lseek(fd, seek, SEEK_SET) != seek)
1376 max = -1;
1377 else
1379 max = read(fd, tmp_buf, MIN((size_t) buf_length, sizeof(tmp_buf)));
1381 if ((max > 0) && !utf8)
1383 /* Use dir_buf as a temporary buffer. Note that dir_buf must
1384 * be as large as tmp_buf.
1386 max = convert_m3u(tmp_buf, max, sizeof(tmp_buf), dir_buf);
1391 mutex_unlock(&playlist->control_mutex);
1393 if (max < 0)
1395 if (control_file)
1396 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
1397 else
1398 splash(HZ*2, ID2P(LANG_PLAYLIST_ACCESS_ERROR));
1400 return max;
1404 strlcpy(dir_buf, playlist->filename, playlist->dirlen);
1406 return (format_track_path(buf, tmp_buf, buf_length, max, dir_buf));
1409 static int get_next_directory(char *dir){
1410 return get_next_dir(dir,true,false);
1413 static int get_previous_directory(char *dir){
1414 return get_next_dir(dir,false,false);
1418 * search through all the directories (starting with the current) to find
1419 * one that has tracks to play
1421 static int get_next_dir(char *dir, bool is_forward, bool recursion)
1423 struct playlist_info* playlist = &current_playlist;
1424 int result = -1;
1425 char *start_dir = NULL;
1426 bool exit = false;
1427 int i;
1428 struct tree_context* tc = tree_get_context();
1429 int saved_dirfilter = *(tc->dirfilter);
1431 /* process random folder advance */
1432 if (global_settings.next_folder == FOLDER_ADVANCE_RANDOM)
1434 int fd = open(ROCKBOX_DIR "/folder_advance_list.dat", O_RDONLY);
1435 if (fd >= 0)
1437 char buffer[MAX_PATH];
1438 int folder_count = 0;
1439 srand(current_tick);
1440 *(tc->dirfilter) = SHOW_MUSIC;
1441 tc->sort_dir = global_settings.sort_dir;
1442 read(fd,&folder_count,sizeof(int));
1443 if (!folder_count)
1444 exit = true;
1445 while (!exit)
1447 i = rand()%folder_count;
1448 lseek(fd,sizeof(int) + (MAX_PATH*i),SEEK_SET);
1449 read(fd,buffer,MAX_PATH);
1450 if (check_subdir_for_music(buffer, "", false) ==0)
1451 exit = true;
1453 if (folder_count)
1454 strcpy(dir,buffer);
1455 close(fd);
1456 *(tc->dirfilter) = saved_dirfilter;
1457 tc->sort_dir = global_settings.sort_dir;
1458 reload_directory();
1459 return 0;
1463 /* not random folder advance (or random folder advance unavailable) */
1464 if (recursion)
1466 /* start with root */
1467 dir[0] = '\0';
1469 else
1471 /* start with current directory */
1472 strlcpy(dir, playlist->filename, playlist->dirlen);
1475 /* use the tree browser dircache to load files */
1476 *(tc->dirfilter) = SHOW_ALL;
1478 /* set up sorting/direction */
1479 tc->sort_dir = global_settings.sort_dir;
1480 if (!is_forward)
1482 static const char sortpairs[] =
1484 [SORT_ALPHA] = SORT_ALPHA_REVERSED,
1485 [SORT_DATE] = SORT_DATE_REVERSED,
1486 [SORT_TYPE] = SORT_TYPE_REVERSED,
1487 [SORT_ALPHA_REVERSED] = SORT_ALPHA,
1488 [SORT_DATE_REVERSED] = SORT_DATE,
1489 [SORT_TYPE_REVERSED] = SORT_TYPE,
1492 if ((unsigned)tc->sort_dir < sizeof(sortpairs))
1493 tc->sort_dir = sortpairs[tc->sort_dir];
1496 while (!exit)
1498 struct entry *files;
1499 int num_files = 0;
1500 int i;
1502 if (ft_load(tc, (dir[0]=='\0')?"/":dir) < 0)
1504 exit = true;
1505 result = -1;
1506 break;
1509 files = (struct entry*) tc->dircache;
1510 num_files = tc->filesindir;
1512 for (i=0; i<num_files; i++)
1514 /* user abort */
1515 if (action_userabort(TIMEOUT_NOBLOCK))
1517 result = -1;
1518 exit = true;
1519 break;
1522 if (files[i].attr & ATTR_DIRECTORY)
1524 if (!start_dir)
1526 result = check_subdir_for_music(dir, files[i].name, true);
1527 if (result != -1)
1529 exit = true;
1530 break;
1533 else if (!strcmp(start_dir, files[i].name))
1534 start_dir = NULL;
1538 if (!exit)
1540 /* move down to parent directory. current directory name is
1541 stored as the starting point for the search in parent */
1542 start_dir = strrchr(dir, '/');
1543 if (start_dir)
1545 *start_dir = '\0';
1546 start_dir++;
1548 else
1549 break;
1553 /* restore dirfilter */
1554 *(tc->dirfilter) = saved_dirfilter;
1555 tc->sort_dir = global_settings.sort_dir;
1557 /* special case if nothing found: try start searching again from root */
1558 if (result == -1 && !recursion){
1559 result = get_next_dir(dir, is_forward, true);
1562 return result;
1566 * Checks if there are any music files in the dir or any of its
1567 * subdirectories. May be called recursively.
1569 static int check_subdir_for_music(char *dir, const char *subdir, bool recurse)
1571 int result = -1;
1572 int dirlen = strlen(dir);
1573 int num_files = 0;
1574 int i;
1575 struct entry *files;
1576 bool has_music = false;
1577 bool has_subdir = false;
1578 struct tree_context* tc = tree_get_context();
1580 snprintf(dir+dirlen, MAX_PATH-dirlen, "/%s", subdir);
1582 if (ft_load(tc, dir) < 0)
1584 return -2;
1587 files = (struct entry*) tc->dircache;
1588 num_files = tc->filesindir;
1590 for (i=0; i<num_files; i++)
1592 if (files[i].attr & ATTR_DIRECTORY)
1593 has_subdir = true;
1594 else if ((files[i].attr & FILE_ATTR_MASK) == FILE_ATTR_AUDIO)
1596 has_music = true;
1597 break;
1601 if (has_music)
1602 return 0;
1604 if (has_subdir && recurse)
1606 for (i=0; i<num_files; i++)
1608 if (action_userabort(TIMEOUT_NOBLOCK))
1610 result = -2;
1611 break;
1614 if (files[i].attr & ATTR_DIRECTORY)
1616 result = check_subdir_for_music(dir, files[i].name, true);
1617 if (!result)
1618 break;
1623 if (result < 0)
1625 if (dirlen)
1627 dir[dirlen] = '\0';
1629 else
1631 strcpy(dir, "/");
1634 /* we now need to reload our current directory */
1635 if(ft_load(tc, dir) < 0)
1636 splash(HZ*2, ID2P(LANG_PLAYLIST_DIRECTORY_ACCESS_ERROR));
1638 return result;
1642 * Returns absolute path of track
1644 static int format_track_path(char *dest, char *src, int buf_length, int max,
1645 const char *dir)
1647 int i = 0;
1648 int j;
1649 char *temp_ptr;
1651 /* Zero-terminate the file name */
1652 while((src[i] != '\n') &&
1653 (src[i] != '\r') &&
1654 (i < max))
1655 i++;
1657 /* Now work back killing white space */
1658 while((src[i-1] == ' ') ||
1659 (src[i-1] == '\t'))
1660 i--;
1662 src[i]=0;
1664 /* replace backslashes with forward slashes */
1665 for ( j=0; j<i; j++ )
1666 if ( src[j] == '\\' )
1667 src[j] = '/';
1669 if('/' == src[0])
1671 strlcpy(dest, src, buf_length);
1673 else
1675 /* handle dos style drive letter */
1676 if (':' == src[1])
1677 strlcpy(dest, &src[2], buf_length);
1678 else if (!strncmp(src, "../", 3))
1680 /* handle relative paths */
1681 i=3;
1682 while(!strncmp(&src[i], "../", 3))
1683 i += 3;
1684 for (j=0; j<i/3; j++) {
1685 temp_ptr = strrchr(dir, '/');
1686 if (temp_ptr)
1687 *temp_ptr = '\0';
1688 else
1689 break;
1691 snprintf(dest, buf_length, "%s/%s", dir, &src[i]);
1693 else if ( '.' == src[0] && '/' == src[1] ) {
1694 snprintf(dest, buf_length, "%s/%s", dir, &src[2]);
1696 else {
1697 snprintf(dest, buf_length, "%s/%s", dir, src);
1701 return 0;
1705 * Display splash message showing progress of playlist/directory insertion or
1706 * save.
1708 static void display_playlist_count(int count, const unsigned char *fmt,
1709 bool final)
1711 static long talked_tick = 0;
1712 long id = P2ID(fmt);
1713 if(global_settings.talk_menu && id>=0)
1715 if(final || (count && (talked_tick == 0
1716 || TIME_AFTER(current_tick, talked_tick+5*HZ))))
1718 talked_tick = current_tick;
1719 talk_number(count, false);
1720 talk_id(id, true);
1723 fmt = P2STR(fmt);
1725 splashf(0, fmt, count, str(LANG_OFF_ABORT));
1729 * Display buffer full message
1731 static void display_buffer_full(void)
1733 splash(HZ*2, ID2P(LANG_PLAYLIST_BUFFER_FULL));
1737 * Flush any cached control commands to disk. Called when playlist is being
1738 * modified. Returns 0 on success and -1 on failure.
1740 static int flush_cached_control(struct playlist_info* playlist)
1742 int result = 0;
1743 int i;
1745 if (!playlist->num_cached)
1746 return 0;
1748 lseek(playlist->control_fd, 0, SEEK_END);
1750 for (i=0; i<playlist->num_cached; i++)
1752 struct playlist_control_cache* cache =
1753 &(playlist->control_cache[i]);
1755 switch (cache->command)
1757 case PLAYLIST_COMMAND_PLAYLIST:
1758 result = fdprintf(playlist->control_fd, "P:%d:%s:%s\n",
1759 cache->i1, cache->s1, cache->s2);
1760 break;
1761 case PLAYLIST_COMMAND_ADD:
1762 case PLAYLIST_COMMAND_QUEUE:
1763 result = fdprintf(playlist->control_fd, "%c:%d:%d:",
1764 (cache->command == PLAYLIST_COMMAND_ADD)?'A':'Q',
1765 cache->i1, cache->i2);
1766 if (result > 0)
1768 /* save the position in file where name is written */
1769 int* seek_pos = (int *)cache->data;
1770 *seek_pos = lseek(playlist->control_fd, 0, SEEK_CUR);
1771 result = fdprintf(playlist->control_fd, "%s\n",
1772 cache->s1);
1774 break;
1775 case PLAYLIST_COMMAND_DELETE:
1776 result = fdprintf(playlist->control_fd, "D:%d\n", cache->i1);
1777 break;
1778 case PLAYLIST_COMMAND_SHUFFLE:
1779 result = fdprintf(playlist->control_fd, "S:%d:%d\n",
1780 cache->i1, cache->i2);
1781 break;
1782 case PLAYLIST_COMMAND_UNSHUFFLE:
1783 result = fdprintf(playlist->control_fd, "U:%d\n", cache->i1);
1784 break;
1785 case PLAYLIST_COMMAND_RESET:
1786 result = fdprintf(playlist->control_fd, "R\n");
1787 break;
1788 default:
1789 break;
1792 if (result <= 0)
1793 break;
1796 if (result > 0)
1798 playlist->num_cached = 0;
1799 playlist->pending_control_sync = true;
1801 result = 0;
1803 else
1805 result = -1;
1806 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_UPDATE_ERROR));
1809 return result;
1813 * Update control data with new command. Depending on the command, it may be
1814 * cached or flushed to disk.
1816 static int update_control(struct playlist_info* playlist,
1817 enum playlist_command command, int i1, int i2,
1818 const char* s1, const char* s2, void* data)
1820 int result = 0;
1821 struct playlist_control_cache* cache;
1822 bool flush = false;
1824 mutex_lock(&playlist->control_mutex);
1826 cache = &(playlist->control_cache[playlist->num_cached++]);
1828 cache->command = command;
1829 cache->i1 = i1;
1830 cache->i2 = i2;
1831 cache->s1 = s1;
1832 cache->s2 = s2;
1833 cache->data = data;
1835 switch (command)
1837 case PLAYLIST_COMMAND_PLAYLIST:
1838 case PLAYLIST_COMMAND_ADD:
1839 case PLAYLIST_COMMAND_QUEUE:
1840 #ifndef HAVE_DIRCACHE
1841 case PLAYLIST_COMMAND_DELETE:
1842 case PLAYLIST_COMMAND_RESET:
1843 #endif
1844 flush = true;
1845 break;
1846 case PLAYLIST_COMMAND_SHUFFLE:
1847 case PLAYLIST_COMMAND_UNSHUFFLE:
1848 default:
1849 /* only flush when needed */
1850 break;
1853 if (flush || playlist->num_cached == PLAYLIST_MAX_CACHE)
1854 result = flush_cached_control(playlist);
1856 mutex_unlock(&playlist->control_mutex);
1858 return result;
1862 * sync control file to disk
1864 static void sync_control(struct playlist_info* playlist, bool force)
1866 #ifdef HAVE_DIRCACHE
1867 if (playlist->started && force)
1868 #else
1869 (void) force;
1871 if (playlist->started)
1872 #endif
1874 if (playlist->pending_control_sync)
1876 mutex_lock(&playlist->control_mutex);
1877 fsync(playlist->control_fd);
1878 playlist->pending_control_sync = false;
1879 mutex_unlock(&playlist->control_mutex);
1885 * Rotate indices such that first_index is index 0
1887 static int rotate_index(const struct playlist_info* playlist, int index)
1889 index -= playlist->first_index;
1890 if (index < 0)
1891 index += playlist->amount;
1893 return index;
1897 * Initialize playlist entries at startup
1899 void playlist_init(void)
1901 struct playlist_info* playlist = &current_playlist;
1903 playlist->current = true;
1904 strlcpy(playlist->control_filename, PLAYLIST_CONTROL_FILE,
1905 sizeof(playlist->control_filename));
1906 playlist->fd = -1;
1907 playlist->control_fd = -1;
1908 playlist->max_playlist_size = global_settings.max_files_in_playlist;
1909 playlist->indices = buffer_alloc(
1910 playlist->max_playlist_size * sizeof(int));
1911 playlist->buffer_size =
1912 AVERAGE_FILENAME_LENGTH * global_settings.max_files_in_dir;
1913 playlist->buffer = buffer_alloc(playlist->buffer_size);
1914 mutex_init(&playlist->control_mutex);
1915 empty_playlist(playlist, true);
1917 #ifdef HAVE_DIRCACHE
1918 playlist->filenames = buffer_alloc(
1919 playlist->max_playlist_size * sizeof(int));
1920 memset(playlist->filenames, 0,
1921 playlist->max_playlist_size * sizeof(int));
1922 create_thread(playlist_thread, playlist_stack, sizeof(playlist_stack),
1923 0, playlist_thread_name IF_PRIO(, PRIORITY_BACKGROUND)
1924 IF_COP(, CPU));
1925 queue_init(&playlist_queue, true);
1926 #endif
1930 * Clean playlist at shutdown
1932 void playlist_shutdown(void)
1934 struct playlist_info* playlist = &current_playlist;
1936 if (playlist->control_fd >= 0)
1938 mutex_lock(&playlist->control_mutex);
1940 if (playlist->num_cached > 0)
1941 flush_cached_control(playlist);
1943 close(playlist->control_fd);
1945 mutex_unlock(&playlist->control_mutex);
1950 * Create new playlist
1952 int playlist_create(const char *dir, const char *file)
1954 struct playlist_info* playlist = &current_playlist;
1956 new_playlist(playlist, dir, file);
1958 if (file)
1959 /* load the playlist file */
1960 add_indices_to_playlist(playlist, NULL, 0);
1962 return 0;
1965 #define PLAYLIST_COMMAND_SIZE (MAX_PATH+12)
1968 * Restore the playlist state based on control file commands. Called to
1969 * resume playback after shutdown.
1971 int playlist_resume(void)
1973 struct playlist_info* playlist = &current_playlist;
1974 char *buffer;
1975 size_t buflen;
1976 int nread;
1977 int total_read = 0;
1978 int control_file_size = 0;
1979 bool first = true;
1980 bool sorted = true;
1982 /* use mp3 buffer for maximum load speed */
1983 #if CONFIG_CODEC != SWCODEC
1984 talk_buffer_steal(); /* we use the mp3 buffer, need to tell */
1985 buflen = (audiobufend - audiobuf);
1986 buffer = (char *)audiobuf;
1987 #else
1988 buffer = (char *)audio_get_buffer(false, &buflen);
1989 #endif
1991 empty_playlist(playlist, true);
1993 splash(0, ID2P(LANG_WAIT));
1994 playlist->control_fd = open(playlist->control_filename, O_RDWR);
1995 if (playlist->control_fd < 0)
1997 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
1998 return -1;
2000 playlist->control_created = true;
2002 control_file_size = filesize(playlist->control_fd);
2003 if (control_file_size <= 0)
2005 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
2006 return -1;
2009 /* read a small amount first to get the header */
2010 nread = read(playlist->control_fd, buffer,
2011 PLAYLIST_COMMAND_SIZE<buflen?PLAYLIST_COMMAND_SIZE:buflen);
2012 if(nread <= 0)
2014 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
2015 return -1;
2018 playlist->started = true;
2020 while (1)
2022 int result = 0;
2023 int count;
2024 enum playlist_command current_command = PLAYLIST_COMMAND_COMMENT;
2025 int last_newline = 0;
2026 int str_count = -1;
2027 bool newline = true;
2028 bool exit_loop = false;
2029 char *p = buffer;
2030 char *str1 = NULL;
2031 char *str2 = NULL;
2032 char *str3 = NULL;
2033 unsigned long last_tick = current_tick;
2034 bool useraborted = false;
2036 for(count=0; count<nread && !exit_loop && !useraborted; count++,p++)
2038 /* So a splash while we are loading. */
2039 if (TIME_AFTER(current_tick, last_tick + HZ/4))
2041 splashf(0, str(LANG_LOADING_PERCENT),
2042 (total_read+count)*100/control_file_size,
2043 str(LANG_OFF_ABORT));
2044 if (action_userabort(TIMEOUT_NOBLOCK))
2046 useraborted = true;
2047 break;
2049 last_tick = current_tick;
2052 /* Are we on a new line? */
2053 if((*p == '\n') || (*p == '\r'))
2055 *p = '\0';
2057 /* save last_newline in case we need to load more data */
2058 last_newline = count;
2060 switch (current_command)
2062 case PLAYLIST_COMMAND_PLAYLIST:
2064 /* str1=version str2=dir str3=file */
2065 int version;
2067 if (!str1)
2069 result = -1;
2070 exit_loop = true;
2071 break;
2074 if (!str2)
2075 str2 = "";
2077 if (!str3)
2078 str3 = "";
2080 version = atoi(str1);
2082 if (version != PLAYLIST_CONTROL_FILE_VERSION)
2083 return -1;
2085 update_playlist_filename(playlist, str2, str3);
2087 if (str3[0] != '\0')
2089 /* NOTE: add_indices_to_playlist() overwrites the
2090 audiobuf so we need to reload control file
2091 data */
2092 add_indices_to_playlist(playlist, NULL, 0);
2094 else if (str2[0] != '\0')
2096 playlist->in_ram = true;
2097 resume_directory(str2);
2100 /* load the rest of the data */
2101 first = false;
2102 exit_loop = true;
2104 break;
2106 case PLAYLIST_COMMAND_ADD:
2107 case PLAYLIST_COMMAND_QUEUE:
2109 /* str1=position str2=last_position str3=file */
2110 int position, last_position;
2111 bool queue;
2113 if (!str1 || !str2 || !str3)
2115 result = -1;
2116 exit_loop = true;
2117 break;
2120 position = atoi(str1);
2121 last_position = atoi(str2);
2123 queue = (current_command == PLAYLIST_COMMAND_ADD)?
2124 false:true;
2126 /* seek position is based on str3's position in
2127 buffer */
2128 if (add_track_to_playlist(playlist, str3, position,
2129 queue, total_read+(str3-buffer)) < 0)
2130 return -1;
2132 playlist->last_insert_pos = last_position;
2134 break;
2136 case PLAYLIST_COMMAND_DELETE:
2138 /* str1=position */
2139 int position;
2141 if (!str1)
2143 result = -1;
2144 exit_loop = true;
2145 break;
2148 position = atoi(str1);
2150 if (remove_track_from_playlist(playlist, position,
2151 false) < 0)
2152 return -1;
2154 break;
2156 case PLAYLIST_COMMAND_SHUFFLE:
2158 /* str1=seed str2=first_index */
2159 int seed;
2161 if (!str1 || !str2)
2163 result = -1;
2164 exit_loop = true;
2165 break;
2168 if (!sorted)
2170 /* Always sort list before shuffling */
2171 sort_playlist(playlist, false, false);
2174 seed = atoi(str1);
2175 playlist->first_index = atoi(str2);
2177 if (randomise_playlist(playlist, seed, false,
2178 false) < 0)
2179 return -1;
2180 sorted = false;
2181 break;
2183 case PLAYLIST_COMMAND_UNSHUFFLE:
2185 /* str1=first_index */
2186 if (!str1)
2188 result = -1;
2189 exit_loop = true;
2190 break;
2193 playlist->first_index = atoi(str1);
2195 if (sort_playlist(playlist, false, false) < 0)
2196 return -1;
2198 sorted = true;
2199 break;
2201 case PLAYLIST_COMMAND_RESET:
2203 playlist->last_insert_pos = -1;
2204 break;
2206 case PLAYLIST_COMMAND_COMMENT:
2207 default:
2208 break;
2211 newline = true;
2213 /* to ignore any extra newlines */
2214 current_command = PLAYLIST_COMMAND_COMMENT;
2216 else if(newline)
2218 newline = false;
2220 /* first non-comment line must always specify playlist */
2221 if (first && *p != 'P' && *p != '#')
2223 result = -1;
2224 exit_loop = true;
2225 break;
2228 switch (*p)
2230 case 'P':
2231 /* playlist can only be specified once */
2232 if (!first)
2234 result = -1;
2235 exit_loop = true;
2236 break;
2239 current_command = PLAYLIST_COMMAND_PLAYLIST;
2240 break;
2241 case 'A':
2242 current_command = PLAYLIST_COMMAND_ADD;
2243 break;
2244 case 'Q':
2245 current_command = PLAYLIST_COMMAND_QUEUE;
2246 break;
2247 case 'D':
2248 current_command = PLAYLIST_COMMAND_DELETE;
2249 break;
2250 case 'S':
2251 current_command = PLAYLIST_COMMAND_SHUFFLE;
2252 break;
2253 case 'U':
2254 current_command = PLAYLIST_COMMAND_UNSHUFFLE;
2255 break;
2256 case 'R':
2257 current_command = PLAYLIST_COMMAND_RESET;
2258 break;
2259 case '#':
2260 current_command = PLAYLIST_COMMAND_COMMENT;
2261 break;
2262 default:
2263 result = -1;
2264 exit_loop = true;
2265 break;
2268 str_count = -1;
2269 str1 = NULL;
2270 str2 = NULL;
2271 str3 = NULL;
2273 else if(current_command != PLAYLIST_COMMAND_COMMENT)
2275 /* all control file strings are separated with a colon.
2276 Replace the colon with 0 to get proper strings that can be
2277 used by commands above */
2278 if (*p == ':')
2280 *p = '\0';
2281 str_count++;
2283 if ((count+1) < nread)
2285 switch (str_count)
2287 case 0:
2288 str1 = p+1;
2289 break;
2290 case 1:
2291 str2 = p+1;
2292 break;
2293 case 2:
2294 str3 = p+1;
2295 break;
2296 default:
2297 /* allow last string to contain colons */
2298 *p = ':';
2299 break;
2306 if (result < 0)
2308 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_INVALID));
2309 return result;
2312 if (useraborted)
2314 splash(HZ*2, ID2P(LANG_CANCEL));
2315 return -1;
2317 if (!newline || (exit_loop && count<nread))
2319 if ((total_read + count) >= control_file_size)
2321 /* no newline at end of control file */
2322 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_INVALID));
2323 return -1;
2326 /* We didn't end on a newline or we exited loop prematurely.
2327 Either way, re-read the remainder. */
2328 count = last_newline;
2329 lseek(playlist->control_fd, total_read+count, SEEK_SET);
2332 total_read += count;
2334 if (first)
2335 /* still looking for header */
2336 nread = read(playlist->control_fd, buffer,
2337 PLAYLIST_COMMAND_SIZE<buflen?PLAYLIST_COMMAND_SIZE:buflen);
2338 else
2339 nread = read(playlist->control_fd, buffer, buflen);
2341 /* Terminate on EOF */
2342 if(nread <= 0)
2344 break;
2348 #ifdef HAVE_DIRCACHE
2349 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
2350 #endif
2352 return 0;
2356 * Add track to in_ram playlist. Used when playing directories.
2358 int playlist_add(const char *filename)
2360 struct playlist_info* playlist = &current_playlist;
2361 int len = strlen(filename);
2363 if((len+1 > playlist->buffer_size - playlist->buffer_end_pos) ||
2364 (playlist->amount >= playlist->max_playlist_size))
2366 display_buffer_full();
2367 return -1;
2370 playlist->indices[playlist->amount] = playlist->buffer_end_pos;
2371 #ifdef HAVE_DIRCACHE
2372 playlist->filenames[playlist->amount] = NULL;
2373 #endif
2374 playlist->amount++;
2376 strcpy(&playlist->buffer[playlist->buffer_end_pos], filename);
2377 playlist->buffer_end_pos += len;
2378 playlist->buffer[playlist->buffer_end_pos++] = '\0';
2380 return 0;
2383 /* shuffle newly created playlist using random seed. */
2384 int playlist_shuffle(int random_seed, int start_index)
2386 struct playlist_info* playlist = &current_playlist;
2388 unsigned int seek_pos = 0;
2389 bool start_current = false;
2391 if (start_index >= 0 && global_settings.play_selected)
2393 /* store the seek position before the shuffle */
2394 seek_pos = playlist->indices[start_index];
2395 playlist->index = playlist->first_index = start_index;
2396 start_current = true;
2399 randomise_playlist(playlist, random_seed, start_current, true);
2401 return playlist->index;
2404 /* start playing current playlist at specified index/offset */
2405 void playlist_start(int start_index, int offset)
2407 struct playlist_info* playlist = &current_playlist;
2409 /* Cancel FM radio selection as previous music. For cases where we start
2410 playback without going to the WPS, such as playlist insert.. or
2411 playlist catalog. */
2412 previous_music_is_wps();
2414 playlist->index = start_index;
2416 #if CONFIG_CODEC != SWCODEC
2417 talk_buffer_steal(); /* will use the mp3 buffer */
2418 #endif
2420 playlist->started = true;
2421 sync_control(playlist, false);
2422 audio_play(offset);
2425 /* Returns false if 'steps' is out of bounds, else true */
2426 bool playlist_check(int steps)
2428 struct playlist_info* playlist = &current_playlist;
2430 /* always allow folder navigation */
2431 if (global_settings.next_folder && playlist->in_ram)
2432 return true;
2434 int index = get_next_index(playlist, steps, -1);
2436 if (index < 0 && steps >= 0 && global_settings.repeat_mode == REPEAT_SHUFFLE)
2437 index = get_next_index(playlist, steps, REPEAT_ALL);
2439 return (index >= 0);
2442 /* get trackname of track that is "steps" away from current playing track.
2443 NULL is used to identify end of playlist */
2444 char* playlist_peek(int steps)
2446 struct playlist_info* playlist = &current_playlist;
2447 int seek;
2448 char *temp_ptr;
2449 int index;
2450 bool control_file;
2452 index = get_next_index(playlist, steps, -1);
2453 if (index < 0)
2454 return NULL;
2456 control_file = playlist->indices[index] & PLAYLIST_INSERT_TYPE_MASK;
2457 seek = playlist->indices[index] & PLAYLIST_SEEK_MASK;
2459 if (get_filename(playlist, index, seek, control_file, now_playing,
2460 MAX_PATH+1) < 0)
2461 return NULL;
2463 temp_ptr = now_playing;
2465 if (!playlist->in_ram || control_file)
2467 /* remove bogus dirs from beginning of path
2468 (workaround for buggy playlist creation tools) */
2469 while (temp_ptr)
2471 if (file_exists(temp_ptr))
2472 break;
2474 temp_ptr = strchr(temp_ptr+1, '/');
2477 if (!temp_ptr)
2479 /* Even though this is an invalid file, we still need to pass a
2480 file name to the caller because NULL is used to indicate end
2481 of playlist */
2482 return now_playing;
2486 return temp_ptr;
2490 * Update indices as track has changed
2492 int playlist_next(int steps)
2494 struct playlist_info* playlist = &current_playlist;
2495 int index;
2497 if ( (steps > 0)
2498 #ifdef AB_REPEAT_ENABLE
2499 && (global_settings.repeat_mode != REPEAT_AB)
2500 #endif
2501 && (global_settings.repeat_mode != REPEAT_ONE) )
2503 int i, j;
2505 /* We need to delete all the queued songs */
2506 for (i=0, j=steps; i<j; i++)
2508 index = get_next_index(playlist, i, -1);
2510 if (playlist->indices[index] & PLAYLIST_QUEUE_MASK)
2512 remove_track_from_playlist(playlist, index, true);
2513 steps--; /* one less track */
2518 index = get_next_index(playlist, steps, -1);
2520 if (index < 0)
2522 /* end of playlist... or is it */
2523 if (global_settings.repeat_mode == REPEAT_SHUFFLE &&
2524 playlist->amount > 1)
2526 /* Repeat shuffle mode. Re-shuffle playlist and resume play */
2527 playlist->first_index = 0;
2528 sort_playlist(playlist, false, false);
2529 randomise_playlist(playlist, current_tick, false, true);
2530 #if CONFIG_CODEC != SWCODEC
2531 playlist_start(0, 0);
2532 #endif
2533 playlist->index = 0;
2534 index = 0;
2536 else if (playlist->in_ram && global_settings.next_folder)
2538 index = create_and_play_dir(steps, true);
2540 if (index >= 0)
2542 playlist->index = index;
2546 return index;
2549 playlist->index = index;
2551 if (playlist->last_insert_pos >= 0 && steps > 0)
2553 /* check to see if we've gone beyond the last inserted track */
2554 int cur = rotate_index(playlist, index);
2555 int last_pos = rotate_index(playlist, playlist->last_insert_pos);
2557 if (cur > last_pos)
2559 /* reset last inserted track */
2560 playlist->last_insert_pos = -1;
2562 if (playlist->control_fd >= 0)
2564 int result = update_control(playlist, PLAYLIST_COMMAND_RESET,
2565 -1, -1, NULL, NULL, NULL);
2567 if (result < 0)
2568 return result;
2570 sync_control(playlist, false);
2575 return index;
2578 /* try playing next or previous folder */
2579 bool playlist_next_dir(int direction)
2581 /* not to mess up real playlists */
2582 if(!current_playlist.in_ram)
2583 return false;
2585 return create_and_play_dir(direction, false) >= 0;
2588 /* Get resume info for current playing song. If return value is -1 then
2589 settings shouldn't be saved. */
2590 int playlist_get_resume_info(int *resume_index)
2592 struct playlist_info* playlist = &current_playlist;
2594 *resume_index = playlist->index;
2596 return 0;
2599 /* Update resume info for current playing song. Returns -1 on error. */
2600 int playlist_update_resume_info(const struct mp3entry* id3)
2602 struct playlist_info* playlist = &current_playlist;
2604 if (id3)
2606 if (global_status.resume_index != playlist->index ||
2607 global_status.resume_offset != id3->offset)
2609 global_status.resume_index = playlist->index;
2610 global_status.resume_offset = id3->offset;
2611 status_save();
2614 else
2616 global_status.resume_index = -1;
2617 global_status.resume_offset = -1;
2618 status_save();
2621 return 0;
2624 /* Returns index of current playing track for display purposes. This value
2625 should not be used for resume purposes as it doesn't represent the actual
2626 index into the playlist */
2627 int playlist_get_display_index(void)
2629 struct playlist_info* playlist = &current_playlist;
2631 /* first_index should always be index 0 for display purposes */
2632 int index = rotate_index(playlist, playlist->index);
2634 return (index+1);
2637 /* returns number of tracks in current playlist */
2638 int playlist_amount(void)
2640 return playlist_amount_ex(NULL);
2644 * Create a new playlist If playlist is not NULL then we're loading a
2645 * playlist off disk for viewing/editing. The index_buffer is used to store
2646 * playlist indices (required for and only used if !current playlist). The
2647 * temp_buffer (if not NULL) is used as a scratchpad when loading indices.
2649 int playlist_create_ex(struct playlist_info* playlist,
2650 const char* dir, const char* file,
2651 void* index_buffer, int index_buffer_size,
2652 void* temp_buffer, int temp_buffer_size)
2654 if (!playlist)
2655 playlist = &current_playlist;
2656 else
2658 /* Initialize playlist structure */
2659 int r = rand() % 10;
2660 playlist->current = false;
2662 /* Use random name for control file */
2663 snprintf(playlist->control_filename, sizeof(playlist->control_filename),
2664 "%s.%d", PLAYLIST_CONTROL_FILE, r);
2665 playlist->fd = -1;
2666 playlist->control_fd = -1;
2668 if (index_buffer)
2670 int num_indices = index_buffer_size / sizeof(int);
2672 #ifdef HAVE_DIRCACHE
2673 num_indices /= 2;
2674 #endif
2675 if (num_indices > global_settings.max_files_in_playlist)
2676 num_indices = global_settings.max_files_in_playlist;
2678 playlist->max_playlist_size = num_indices;
2679 playlist->indices = index_buffer;
2680 #ifdef HAVE_DIRCACHE
2681 playlist->filenames = (const struct dircache_entry **)
2682 &playlist->indices[num_indices];
2683 #endif
2685 else
2687 playlist->max_playlist_size = current_playlist.max_playlist_size;
2688 playlist->indices = current_playlist.indices;
2689 #ifdef HAVE_DIRCACHE
2690 playlist->filenames = current_playlist.filenames;
2691 #endif
2694 playlist->buffer_size = 0;
2695 playlist->buffer = NULL;
2696 mutex_init(&playlist->control_mutex);
2699 new_playlist(playlist, dir, file);
2701 if (file)
2702 /* load the playlist file */
2703 add_indices_to_playlist(playlist, temp_buffer, temp_buffer_size);
2705 return 0;
2709 * Set the specified playlist as the current.
2710 * NOTE: You will get undefined behaviour if something is already playing so
2711 * remember to stop before calling this. Also, this call will
2712 * effectively close your playlist, making it unusable.
2714 int playlist_set_current(struct playlist_info* playlist)
2716 if (!playlist || (check_control(playlist) < 0))
2717 return -1;
2719 empty_playlist(&current_playlist, false);
2721 strlcpy(current_playlist.filename, playlist->filename,
2722 sizeof(current_playlist.filename));
2724 current_playlist.utf8 = playlist->utf8;
2725 current_playlist.fd = playlist->fd;
2727 close(playlist->control_fd);
2728 close(current_playlist.control_fd);
2729 remove(current_playlist.control_filename);
2730 if (rename(playlist->control_filename,
2731 current_playlist.control_filename) < 0)
2732 return -1;
2733 current_playlist.control_fd = open(current_playlist.control_filename,
2734 O_RDWR);
2735 if (current_playlist.control_fd < 0)
2736 return -1;
2737 current_playlist.control_created = true;
2739 current_playlist.dirlen = playlist->dirlen;
2741 if (playlist->indices && playlist->indices != current_playlist.indices)
2743 memcpy(current_playlist.indices, playlist->indices,
2744 playlist->max_playlist_size*sizeof(int));
2745 #ifdef HAVE_DIRCACHE
2746 memcpy(current_playlist.filenames, playlist->filenames,
2747 playlist->max_playlist_size*sizeof(int));
2748 #endif
2751 current_playlist.first_index = playlist->first_index;
2752 current_playlist.amount = playlist->amount;
2753 current_playlist.last_insert_pos = playlist->last_insert_pos;
2754 current_playlist.seed = playlist->seed;
2755 current_playlist.shuffle_modified = playlist->shuffle_modified;
2756 current_playlist.deleted = playlist->deleted;
2757 current_playlist.num_inserted_tracks = playlist->num_inserted_tracks;
2759 memcpy(current_playlist.control_cache, playlist->control_cache,
2760 sizeof(current_playlist.control_cache));
2761 current_playlist.num_cached = playlist->num_cached;
2762 current_playlist.pending_control_sync = playlist->pending_control_sync;
2764 return 0;
2768 * Close files and delete control file for non-current playlist.
2770 void playlist_close(struct playlist_info* playlist)
2772 if (!playlist)
2773 return;
2775 if (playlist->fd >= 0)
2776 close(playlist->fd);
2778 if (playlist->control_fd >= 0)
2779 close(playlist->control_fd);
2781 if (playlist->control_created)
2782 remove(playlist->control_filename);
2785 void playlist_sync(struct playlist_info* playlist)
2787 if (!playlist)
2788 playlist = &current_playlist;
2790 sync_control(playlist, false);
2791 if ((audio_status() & AUDIO_STATUS_PLAY) && playlist->started)
2792 audio_flush_and_reload_tracks();
2794 #ifdef HAVE_DIRCACHE
2795 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
2796 #endif
2800 * Insert track into playlist at specified position (or one of the special
2801 * positions). Returns position where track was inserted or -1 if error.
2803 int playlist_insert_track(struct playlist_info* playlist, const char *filename,
2804 int position, bool queue, bool sync)
2806 int result;
2808 if (!playlist)
2809 playlist = &current_playlist;
2811 if (check_control(playlist) < 0)
2813 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
2814 return -1;
2817 result = add_track_to_playlist(playlist, filename, position, queue, -1);
2819 /* Check if we want manually sync later. For example when adding
2820 * bunch of files from tagcache, syncing after every file wouldn't be
2821 * a good thing to do. */
2822 if (sync && result >= 0)
2823 playlist_sync(playlist);
2825 return result;
2829 * Insert all tracks from specified directory into playlist.
2831 int playlist_insert_directory(struct playlist_info* playlist,
2832 const char *dirname, int position, bool queue,
2833 bool recurse)
2835 int result;
2836 unsigned char *count_str;
2837 struct directory_search_context context;
2839 if (!playlist)
2840 playlist = &current_playlist;
2842 if (check_control(playlist) < 0)
2844 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
2845 return -1;
2848 if (position == PLAYLIST_REPLACE)
2850 if (playlist_remove_all_tracks(playlist) == 0)
2851 position = PLAYLIST_INSERT_LAST;
2852 else
2853 return -1;
2856 if (queue)
2857 count_str = ID2P(LANG_PLAYLIST_QUEUE_COUNT);
2858 else
2859 count_str = ID2P(LANG_PLAYLIST_INSERT_COUNT);
2861 display_playlist_count(0, count_str, false);
2863 context.playlist = playlist;
2864 context.position = position;
2865 context.queue = queue;
2866 context.count = 0;
2868 cpu_boost(true);
2870 result = playlist_directory_tracksearch(dirname, recurse,
2871 directory_search_callback, &context);
2873 sync_control(playlist, false);
2875 cpu_boost(false);
2877 display_playlist_count(context.count, count_str, true);
2879 if ((audio_status() & AUDIO_STATUS_PLAY) && playlist->started)
2880 audio_flush_and_reload_tracks();
2882 #ifdef HAVE_DIRCACHE
2883 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
2884 #endif
2886 return result;
2890 * Insert all tracks from specified playlist into dynamic playlist.
2892 int playlist_insert_playlist(struct playlist_info* playlist, const char *filename,
2893 int position, bool queue)
2895 int fd;
2896 int max;
2897 char *temp_ptr;
2898 const char *dir;
2899 unsigned char *count_str;
2900 char temp_buf[MAX_PATH+1];
2901 char trackname[MAX_PATH+1];
2902 int count = 0;
2903 int result = 0;
2904 bool utf8 = is_m3u8(filename);
2906 if (!playlist)
2907 playlist = &current_playlist;
2909 if (check_control(playlist) < 0)
2911 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
2912 return -1;
2915 fd = open_utf8(filename, O_RDONLY);
2916 if (fd < 0)
2918 splash(HZ*2, ID2P(LANG_PLAYLIST_ACCESS_ERROR));
2919 return -1;
2922 /* we need the directory name for formatting purposes */
2923 dir = filename;
2925 temp_ptr = strrchr(filename+1,'/');
2926 if (temp_ptr)
2927 *temp_ptr = 0;
2928 else
2929 dir = "/";
2931 if (queue)
2932 count_str = ID2P(LANG_PLAYLIST_QUEUE_COUNT);
2933 else
2934 count_str = ID2P(LANG_PLAYLIST_INSERT_COUNT);
2936 display_playlist_count(count, count_str, false);
2938 if (position == PLAYLIST_REPLACE)
2940 if (playlist_remove_all_tracks(playlist) == 0)
2941 position = PLAYLIST_INSERT_LAST;
2942 else return -1;
2945 cpu_boost(true);
2947 while ((max = read_line(fd, temp_buf, sizeof(temp_buf))) > 0)
2949 /* user abort */
2950 if (action_userabort(TIMEOUT_NOBLOCK))
2951 break;
2953 if (temp_buf[0] != '#' && temp_buf[0] != '\0')
2955 int insert_pos;
2957 if (!utf8)
2959 /* Use trackname as a temporay buffer. Note that trackname must
2960 * be as large as temp_buf.
2962 max = convert_m3u(temp_buf, max, sizeof(temp_buf), trackname);
2965 /* we need to format so that relative paths are correctly
2966 handled */
2967 if (format_track_path(trackname, temp_buf, sizeof(trackname), max,
2968 dir) < 0)
2970 result = -1;
2971 break;
2974 insert_pos = add_track_to_playlist(playlist, trackname, position,
2975 queue, -1);
2977 if (insert_pos < 0)
2979 result = -1;
2980 break;
2983 /* Make sure tracks are inserted in correct order if user
2984 requests INSERT_FIRST */
2985 if (position == PLAYLIST_INSERT_FIRST || position >= 0)
2986 position = insert_pos + 1;
2988 count++;
2990 if ((count%PLAYLIST_DISPLAY_COUNT) == 0)
2992 display_playlist_count(count, count_str, false);
2994 if (count == PLAYLIST_DISPLAY_COUNT &&
2995 (audio_status() & AUDIO_STATUS_PLAY) &&
2996 playlist->started)
2997 audio_flush_and_reload_tracks();
3001 /* let the other threads work */
3002 yield();
3005 close(fd);
3007 if (temp_ptr)
3008 *temp_ptr = '/';
3010 sync_control(playlist, false);
3012 cpu_boost(false);
3014 display_playlist_count(count, count_str, true);
3016 if ((audio_status() & AUDIO_STATUS_PLAY) && playlist->started)
3017 audio_flush_and_reload_tracks();
3019 #ifdef HAVE_DIRCACHE
3020 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
3021 #endif
3023 return result;
3027 * Delete track at specified index. If index is PLAYLIST_DELETE_CURRENT then
3028 * we want to delete the current playing track.
3030 int playlist_delete(struct playlist_info* playlist, int index)
3032 int result = 0;
3034 if (!playlist)
3035 playlist = &current_playlist;
3037 if (check_control(playlist) < 0)
3039 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
3040 return -1;
3043 if (index == PLAYLIST_DELETE_CURRENT)
3044 index = playlist->index;
3046 result = remove_track_from_playlist(playlist, index, true);
3048 if (result != -1 && (audio_status() & AUDIO_STATUS_PLAY) &&
3049 playlist->started)
3050 audio_flush_and_reload_tracks();
3052 return result;
3056 * Move track at index to new_index. Tracks between the two are shifted
3057 * appropriately. Returns 0 on success and -1 on failure.
3059 int playlist_move(struct playlist_info* playlist, int index, int new_index)
3061 int result;
3062 int seek;
3063 bool control_file;
3064 bool queue;
3065 bool current = false;
3066 int r;
3067 char filename[MAX_PATH];
3069 if (!playlist)
3070 playlist = &current_playlist;
3072 if (check_control(playlist) < 0)
3074 splash(HZ*2, ID2P(LANG_PLAYLIST_CONTROL_ACCESS_ERROR));
3075 return -1;
3078 if (index == new_index)
3079 return -1;
3081 if (index == playlist->index)
3082 /* Moving the current track */
3083 current = true;
3085 control_file = playlist->indices[index] & PLAYLIST_INSERT_TYPE_MASK;
3086 queue = playlist->indices[index] & PLAYLIST_QUEUE_MASK;
3087 seek = playlist->indices[index] & PLAYLIST_SEEK_MASK;
3089 if (get_filename(playlist, index, seek, control_file, filename,
3090 sizeof(filename)) < 0)
3091 return -1;
3093 /* We want to insert the track at the position that was specified by
3094 new_index. This may be different then new_index because of the
3095 shifting that will occur after the delete.
3096 We calculate this before we do the remove as it depends on the
3097 size of the playlist before the track removal */
3098 r = rotate_index(playlist, new_index);
3100 /* Delete track from original position */
3101 result = remove_track_from_playlist(playlist, index, true);
3103 if (result != -1)
3105 if (r == 0)
3106 /* First index */
3107 new_index = PLAYLIST_PREPEND;
3108 else if (r == playlist->amount)
3109 /* Append */
3110 new_index = PLAYLIST_INSERT_LAST;
3111 else
3112 /* Calculate index of desired position */
3113 new_index = (r+playlist->first_index)%playlist->amount;
3115 result = add_track_to_playlist(playlist, filename, new_index, queue,
3116 -1);
3118 if (result != -1)
3120 if (current)
3122 /* Moved the current track */
3123 switch (new_index)
3125 case PLAYLIST_PREPEND:
3126 playlist->index = playlist->first_index;
3127 break;
3128 case PLAYLIST_INSERT_LAST:
3129 playlist->index = playlist->first_index - 1;
3130 if (playlist->index < 0)
3131 playlist->index += playlist->amount;
3132 break;
3133 default:
3134 playlist->index = new_index;
3135 break;
3139 if ((audio_status() & AUDIO_STATUS_PLAY) && playlist->started)
3140 audio_flush_and_reload_tracks();
3144 #ifdef HAVE_DIRCACHE
3145 queue_post(&playlist_queue, PLAYLIST_LOAD_POINTERS, 0);
3146 #endif
3148 return result;
3151 /* shuffle currently playing playlist */
3152 int playlist_randomise(struct playlist_info* playlist, unsigned int seed,
3153 bool start_current)
3155 int result;
3157 if (!playlist)
3158 playlist = &current_playlist;
3160 check_control(playlist);
3162 result = randomise_playlist(playlist, seed, start_current, true);
3164 if (result != -1 && (audio_status() & AUDIO_STATUS_PLAY) &&
3165 playlist->started)
3166 audio_flush_and_reload_tracks();
3168 return result;
3171 /* sort currently playing playlist */
3172 int playlist_sort(struct playlist_info* playlist, bool start_current)
3174 int result;
3176 if (!playlist)
3177 playlist = &current_playlist;
3179 check_control(playlist);
3181 result = sort_playlist(playlist, start_current, true);
3183 if (result != -1 && (audio_status() & AUDIO_STATUS_PLAY) &&
3184 playlist->started)
3185 audio_flush_and_reload_tracks();
3187 return result;
3190 /* returns true if playlist has been modified */
3191 bool playlist_modified(const struct playlist_info* playlist)
3193 if (!playlist)
3194 playlist = &current_playlist;
3196 if (playlist->shuffle_modified ||
3197 playlist->deleted ||
3198 playlist->num_inserted_tracks > 0)
3199 return true;
3201 return false;
3204 /* returns index of first track in playlist */
3205 int playlist_get_first_index(const struct playlist_info* playlist)
3207 if (!playlist)
3208 playlist = &current_playlist;
3210 return playlist->first_index;
3213 /* returns shuffle seed of playlist */
3214 int playlist_get_seed(const struct playlist_info* playlist)
3216 if (!playlist)
3217 playlist = &current_playlist;
3219 return playlist->seed;
3222 /* returns number of tracks in playlist (includes queued/inserted tracks) */
3223 int playlist_amount_ex(const struct playlist_info* playlist)
3225 if (!playlist)
3226 playlist = &current_playlist;
3228 return playlist->amount;
3231 /* returns full path of playlist (minus extension) */
3232 char *playlist_name(const struct playlist_info* playlist, char *buf,
3233 int buf_size)
3235 char *sep;
3237 if (!playlist)
3238 playlist = &current_playlist;
3240 strlcpy(buf, playlist->filename+playlist->dirlen, buf_size);
3242 if (!buf[0])
3243 return NULL;
3245 /* Remove extension */
3246 sep = strrchr(buf, '.');
3247 if (sep)
3248 *sep = 0;
3250 return buf;
3253 /* returns the playlist filename */
3254 char *playlist_get_name(const struct playlist_info* playlist, char *buf,
3255 int buf_size)
3257 if (!playlist)
3258 playlist = &current_playlist;
3260 strlcpy(buf, playlist->filename, buf_size);
3262 if (!buf[0])
3263 return NULL;
3265 return buf;
3268 /* Fills info structure with information about track at specified index.
3269 Returns 0 on success and -1 on failure */
3270 int playlist_get_track_info(struct playlist_info* playlist, int index,
3271 struct playlist_track_info* info)
3273 int seek;
3274 bool control_file;
3276 if (!playlist)
3277 playlist = &current_playlist;
3279 if (index < 0 || index >= playlist->amount)
3280 return -1;
3282 control_file = playlist->indices[index] & PLAYLIST_INSERT_TYPE_MASK;
3283 seek = playlist->indices[index] & PLAYLIST_SEEK_MASK;
3285 if (get_filename(playlist, index, seek, control_file, info->filename,
3286 sizeof(info->filename)) < 0)
3287 return -1;
3289 info->attr = 0;
3291 if (control_file)
3293 if (playlist->indices[index] & PLAYLIST_QUEUE_MASK)
3294 info->attr |= PLAYLIST_ATTR_QUEUED;
3295 else
3296 info->attr |= PLAYLIST_ATTR_INSERTED;
3300 if (playlist->indices[index] & PLAYLIST_SKIPPED)
3301 info->attr |= PLAYLIST_ATTR_SKIPPED;
3303 info->index = index;
3304 info->display_index = rotate_index(playlist, index) + 1;
3306 return 0;
3309 /* save the current dynamic playlist to specified file */
3310 int playlist_save(struct playlist_info* playlist, char *filename)
3312 int fd;
3313 int i, index;
3314 int count = 0;
3315 char path[MAX_PATH+1];
3316 char tmp_buf[MAX_PATH+1];
3317 int result = 0;
3318 bool overwrite_current = false;
3319 int* index_buf = NULL;
3321 if (!playlist)
3322 playlist = &current_playlist;
3324 if (playlist->amount <= 0)
3325 return -1;
3327 /* use current working directory as base for pathname */
3328 if (format_track_path(path, filename, sizeof(tmp_buf),
3329 strlen(filename)+1, getcwd(NULL, -1)) < 0)
3330 return -1;
3332 if (!strncmp(playlist->filename, path, strlen(path)))
3334 /* Attempting to overwrite current playlist file.*/
3336 if (playlist->buffer_size < (int)(playlist->amount * sizeof(int)))
3338 /* not enough buffer space to store updated indices */
3339 splash(HZ*2, ID2P(LANG_PLAYLIST_ACCESS_ERROR));
3340 return -1;
3343 /* in_ram buffer is unused for m3u files so we'll use for storing
3344 updated indices */
3345 index_buf = (int*)playlist->buffer;
3347 /* use temporary pathname */
3348 snprintf(path, sizeof(path), "%s_temp", playlist->filename);
3349 overwrite_current = true;
3352 if (is_m3u8(path))
3354 fd = open_utf8(path, O_CREAT|O_WRONLY|O_TRUNC);
3356 else
3358 /* some applications require a BOM to read the file properly */
3359 fd = open(path, O_CREAT|O_WRONLY|O_TRUNC);
3361 if (fd < 0)
3363 splash(HZ*2, ID2P(LANG_PLAYLIST_ACCESS_ERROR));
3364 return -1;
3367 display_playlist_count(count, ID2P(LANG_PLAYLIST_SAVE_COUNT), false);
3369 cpu_boost(true);
3371 index = playlist->first_index;
3372 for (i=0; i<playlist->amount; i++)
3374 bool control_file;
3375 bool queue;
3376 int seek;
3378 /* user abort */
3379 if (action_userabort(TIMEOUT_NOBLOCK))
3381 result = -1;
3382 break;
3385 control_file = playlist->indices[index] & PLAYLIST_INSERT_TYPE_MASK;
3386 queue = playlist->indices[index] & PLAYLIST_QUEUE_MASK;
3387 seek = playlist->indices[index] & PLAYLIST_SEEK_MASK;
3389 /* Don't save queued files */
3390 if (!queue)
3392 if (get_filename(playlist, index, seek, control_file, tmp_buf,
3393 MAX_PATH+1) < 0)
3395 result = -1;
3396 break;
3399 if (overwrite_current)
3400 index_buf[count] = lseek(fd, 0, SEEK_CUR);
3402 if (fdprintf(fd, "%s\n", tmp_buf) < 0)
3404 splash(HZ*2, ID2P(LANG_PLAYLIST_ACCESS_ERROR));
3405 result = -1;
3406 break;
3409 count++;
3411 if ((count % PLAYLIST_DISPLAY_COUNT) == 0)
3412 display_playlist_count(count, ID2P(LANG_PLAYLIST_SAVE_COUNT),
3413 false);
3415 yield();
3418 index = (index+1)%playlist->amount;
3421 display_playlist_count(count, ID2P(LANG_PLAYLIST_SAVE_COUNT), true);
3423 close(fd);
3425 if (overwrite_current && result >= 0)
3427 result = -1;
3429 mutex_lock(&playlist->control_mutex);
3431 /* Replace the current playlist with the new one and update indices */
3432 close(playlist->fd);
3433 if (remove(playlist->filename) >= 0)
3435 if (rename(path, playlist->filename) >= 0)
3437 playlist->fd = open_utf8(playlist->filename, O_RDONLY);
3438 if (playlist->fd >= 0)
3440 index = playlist->first_index;
3441 for (i=0, count=0; i<playlist->amount; i++)
3443 if (!(playlist->indices[index] & PLAYLIST_QUEUE_MASK))
3445 playlist->indices[index] = index_buf[count];
3446 count++;
3448 index = (index+1)%playlist->amount;
3451 /* we need to recreate control because inserted tracks are
3452 now part of the playlist and shuffle has been
3453 invalidated */
3454 result = recreate_control(playlist);
3459 mutex_unlock(&playlist->control_mutex);
3463 cpu_boost(false);
3465 return result;
3469 * Search specified directory for tracks and notify via callback. May be
3470 * called recursively.
3472 int playlist_directory_tracksearch(const char* dirname, bool recurse,
3473 int (*callback)(char*, void*),
3474 void* context)
3476 char buf[MAX_PATH+1];
3477 int result = 0;
3478 int num_files = 0;
3479 int i;
3480 struct entry *files;
3481 struct tree_context* tc = tree_get_context();
3482 int old_dirfilter = *(tc->dirfilter);
3484 if (!callback)
3485 return -1;
3487 /* use the tree browser dircache to load files */
3488 *(tc->dirfilter) = SHOW_ALL;
3490 if (ft_load(tc, dirname) < 0)
3492 splash(HZ*2, ID2P(LANG_PLAYLIST_DIRECTORY_ACCESS_ERROR));
3493 *(tc->dirfilter) = old_dirfilter;
3494 return -1;
3497 files = (struct entry*) tc->dircache;
3498 num_files = tc->filesindir;
3500 /* we've overwritten the dircache so tree browser will need to be
3501 reloaded */
3502 reload_directory();
3504 for (i=0; i<num_files; i++)
3506 /* user abort */
3507 if (action_userabort(TIMEOUT_NOBLOCK))
3509 result = -1;
3510 break;
3513 if (files[i].attr & ATTR_DIRECTORY)
3515 if (recurse)
3517 /* recursively add directories */
3518 snprintf(buf, sizeof(buf), "%s/%s", dirname, files[i].name);
3519 result = playlist_directory_tracksearch(buf, recurse,
3520 callback, context);
3521 if (result < 0)
3522 break;
3524 /* we now need to reload our current directory */
3525 if(ft_load(tc, dirname) < 0)
3527 result = -1;
3528 break;
3531 files = (struct entry*) tc->dircache;
3532 num_files = tc->filesindir;
3533 if (!num_files)
3535 result = -1;
3536 break;
3539 else
3540 continue;
3542 else if ((files[i].attr & FILE_ATTR_MASK) == FILE_ATTR_AUDIO)
3544 snprintf(buf, sizeof(buf), "%s/%s", dirname, files[i].name);
3546 if (callback(buf, context) != 0)
3548 result = -1;
3549 break;
3552 /* let the other threads work */
3553 yield();
3557 /* restore dirfilter */
3558 *(tc->dirfilter) = old_dirfilter;
3560 return result;