2 * Copyright (C) 2007-2013 Andre Noll <maan@systemlinux.org>
4 * Licensed under the GPL v2. For licencing details see COPYING.
7 /** \file mood.c Paraslash's mood handling functions. */
23 * Contains statistical data of the currently admissible audio files.
25 * It is used to assign normalized score values to each admissible audio file.
27 struct afs_statistics {
28 /** Sum of num played over all admissible files. */
29 int64_t num_played_sum;
30 /** Sum of last played times over all admissible files. */
31 int64_t last_played_sum;
32 /** Quadratic deviation of num played time. */
33 int64_t num_played_qd;
34 /** Quadratic deviation of last played time. */
35 int64_t last_played_qd;
36 /** Number of admissible files */
39 static struct afs_statistics statistics;
42 * Each line of the current mood corresponds to a mood_item.
45 /** The method this line is referring to. */
46 const struct mood_method *method;
47 /** The data structure computed by the mood parser. */
49 /** The given score value, or zero if none was given. */
51 /** Non-zero if random scoring was requested. */
53 /** Whether the "not" keyword was given in the mood line. */
55 /** The position in the list of items. */
56 struct list_head mood_item_node;
60 * Created from the mood definition by mood_open().
62 * When a mood is opened, each line of its definition is investigated, and a
63 * corresponding mood item is produced. Each mood line starts with \p accept,
64 * \p deny, or \p score which determines the type of the mood line. For each
65 * such type a linked list is maintained whose entries are the mood items.
67 * \sa mood_item, mood_open().
70 /** The name of this mood. */
72 /** The list of mood items of type \p accept. */
73 struct list_head accept_list;
74 /** The list of mood items of type \p deny. */
75 struct list_head deny_list;
76 /** The list of mood items of type \p score. */
77 struct list_head score_list;
81 * If current_mood is NULL then no mood is currently open. If
82 * current_mood->name is NULL, the dummy mood is currently open
84 static struct mood *current_mood;
87 * Rough approximation to sqrt.
89 * \param x Integer of which to calculate the sqrt.
91 * \return An integer res with res * res <= x.
93 __a_const static uint64_t int_sqrt(uint64_t x)
95 uint64_t op, res, one = 1;
104 if (op >= res + one) {
105 op = op - (res + one);
111 // PARA_NOTICE_LOG("sqrt(%llu) = %llu\n", x, res);
116 * Returns true if row matches, false if it does not match. In any case score
117 * and score_arg_sum are set/increased accordingly.
119 static bool get_item_score(struct mood_item *item, const struct afs_info *afsi,
120 const struct afh_info *afhi, const char *path, long *score,
126 *score_arg_sum += item->random_score? 100 : PARA_ABS(item->score_arg);
129 ret = item->method->score_function(path, afsi, afhi,
131 if ((ret < 0 && !item->logical_not) || (ret >= 0 && item->logical_not))
134 if (item->random_score)
135 *score = PARA_ABS(ret) * para_random(100);
137 *score = PARA_ABS(ret) * item->score_arg;
141 /* returns 1 if row admissible, 0 if not, negative on errors */
142 static int compute_mood_score(const struct osl_row *aft_row, struct mood *m,
145 struct mood_item *item;
148 long score_arg_sum = 0, score = 0, item_score;
149 struct afs_info afsi;
150 struct afh_info afhi;
155 ret = get_afsi_of_row(aft_row, &afsi);
158 ret = get_afhi_of_row(aft_row, &afhi);
161 ret = get_audio_file_path_of_row(aft_row, &path);
164 /* reject audio file if it matches any entry in the deny list */
165 list_for_each_entry(item, &m->deny_list, mood_item_node) {
166 match = get_item_score(item, &afsi, &afhi, path, &item_score,
168 if (match) /* not admissible */
173 list_for_each_entry(item, &m->accept_list, mood_item_node) {
174 ret = get_item_score(item, &afsi, &afhi, path, &item_score,
181 /* reject if there is no matching entry in the accept list */
182 if (!match && !list_empty(&m->accept_list))
184 list_for_each_entry(item, &m->score_list, mood_item_node) {
185 match = get_item_score(item, &afsi, &afhi, path, &item_score,
191 score /= score_arg_sum;
196 static void cleanup_list_entry(struct mood_item *item)
198 if (item->method && item->method->cleanup)
199 item->method->cleanup(item->parser_data);
201 free(item->parser_data);
202 list_del(&item->mood_item_node);
206 static void destroy_mood(struct mood *m)
208 struct mood_item *tmp, *item;
212 list_for_each_entry_safe(item, tmp, &m->accept_list, mood_item_node)
213 cleanup_list_entry(item);
214 list_for_each_entry_safe(item, tmp, &m->deny_list, mood_item_node)
215 cleanup_list_entry(item);
216 list_for_each_entry_safe(item, tmp, &m->score_list, mood_item_node)
217 cleanup_list_entry(item);
222 static struct mood *alloc_new_mood(const char *name)
224 struct mood *m = para_calloc(sizeof(struct mood));
226 m->name = para_strdup(name);
227 INIT_LIST_HEAD(&m->accept_list);
228 INIT_LIST_HEAD(&m->deny_list);
229 INIT_LIST_HEAD(&m->score_list);
233 /** The different types of a mood line. */
234 enum mood_line_type {
245 /** Data passed to the parser of a mood line. */
246 struct mood_line_parser_data {
247 /** The mood this mood line belongs to. */
249 /** The line number in the mood definition. */
254 * <accept [with score <score>] | deny [with score <score>] | score <score>>
255 * [if] [not] <mood_method> [options]
256 * <score> is either an integer or "random" which assigns a random score to
260 static int parse_mood_line(char *mood_line, void *data)
262 struct mood_line_parser_data *mlpd = data;
267 enum mood_line_type mlt = ML_INVALID;
268 struct mood_item *mi = NULL;
271 ret = create_argv(mood_line, " \t", &argv);
275 if (!num_words) /* empty line */
278 if (**w == '#') /* comment */
280 if (!strcmp(*w, "accept"))
282 else if (!strcmp(*w, "deny"))
284 else if (!strcmp(*w, "score"))
286 ret = -E_MOOD_SYNTAX;
287 if (mlt == ML_INVALID)
289 mi = para_calloc(sizeof(struct mood_item));
290 if (mlt != ML_SCORE) {
291 ret = -E_MOOD_SYNTAX;
295 if (strcmp(*w, "with"))
300 if (strcmp(*w, "score"))
303 if (mlt == ML_SCORE || !strcmp(*w, "score")) {
304 ret = -E_MOOD_SYNTAX;
308 if (strcmp(*w, "random")) {
309 mi->random_score = 0;
310 ret = para_atoi32(*w, &mi->score_arg);
314 mi->random_score = 1;
316 goto success; /* the line "score random" is valid */
320 ret = -E_MOOD_SYNTAX;
325 if (!strcmp(*w, "if")) {
326 ret = -E_MOOD_SYNTAX;
331 if (!strcmp(*w, "not")) {
332 ret = -E_MOOD_SYNTAX;
339 for (i = 0; mood_methods[i].parser; i++) {
340 if (strcmp(*w, mood_methods[i].name))
344 ret = -E_MOOD_SYNTAX;
345 if (!mood_methods[i].parser)
347 ret = mood_methods[i].parser(num_words - 1 - (w - argv), w,
351 mi->method = &mood_methods[i];
354 if (mlt == ML_ACCEPT)
355 para_list_add(&mi->mood_item_node, &mlpd->m->accept_list);
356 else if (mlt == ML_DENY)
357 para_list_add(&mi->mood_item_node, &mlpd->m->deny_list);
359 para_list_add(&mi->mood_item_node, &mlpd->m->score_list);
361 PARA_DEBUG_LOG("%s entry added, method: %p\n", mlt == ML_ACCEPT? "accept" :
362 (mlt == ML_DENY? "deny" : "score"), mi->method);
369 free(mi->parser_data);
375 static int load_mood(const struct osl_row *mood_row, struct mood **m)
378 struct osl_object mood_def;
379 struct mood_line_parser_data mlpd = {.line_num = 0};
383 ret = mood_get_name_and_def_by_row(mood_row, &mood_name, &mood_def);
388 mlpd.m = alloc_new_mood(mood_name);
389 ret = for_each_line(FELF_READ_ONLY, mood_def.data, mood_def.size,
390 parse_mood_line, &mlpd);
391 osl_close_disk_object(&mood_def);
393 PARA_ERROR_LOG("unable to load mood %s: %s\n", mlpd.m->name,
394 para_strerror(-ret));
395 destroy_mood(mlpd.m);
402 static int check_mood(struct osl_row *mood_row, void *data)
404 struct para_buffer *pb = data;
406 struct osl_object mood_def;
407 struct mood_line_parser_data mlpd = {.line_num = 0};
409 int ret = mood_get_name_and_def_by_row(mood_row, &mood_name, &mood_def);
412 para_printf(pb, "failed to get mood definition: %s\n",
413 para_strerror(-ret));
416 if (!*mood_name) /* ignore dummy row */
418 ret = para_printf(pb, "checking mood %s...\n", mood_name);
421 ret = for_each_line(FELF_READ_ONLY, mood_def.data, mood_def.size,
422 parse_mood_line, &mlpd);
424 para_printf(pb, "%s line %u: %s\n", mood_name, mlpd.line_num,
425 para_strerror(-ret));
427 osl_close_disk_object(&mood_def);
432 * Check all moods for syntax errors.
434 * \param fd The afs socket.
435 * \param query Unused.
437 void mood_check_callback(int fd, __a_unused const struct osl_object *query)
439 struct para_buffer pb = {
440 .max_size = shm_get_shmmax(),
441 .private_data = &(struct afs_max_size_handler_data) {
445 .max_size_handler = afs_max_size_handler
448 int ret = para_printf(&pb, "checking moods...\n");
451 osl_rbtree_loop(moods_table, BLOBCOL_ID, &pb,
454 pass_buffer_as_shm(fd, SBD_OUTPUT, pb.buf, pb.offset);
458 static int64_t normalized_value(int64_t x, int64_t n, int64_t sum, int64_t qd)
462 return 100 * (n * x - sum) / (int64_t)int_sqrt(n * qd);
465 static long compute_num_played_score(struct afs_info *afsi)
467 return -normalized_value(afsi->num_played, statistics.num,
468 statistics.num_played_sum, statistics.num_played_qd);
471 static long compute_last_played_score(struct afs_info *afsi)
473 return -normalized_value(afsi->last_played, statistics.num,
474 statistics.last_played_sum, statistics.last_played_qd);
477 static long compute_dynamic_score(const struct osl_row *aft_row)
479 struct afs_info afsi;
480 int64_t score, nscore = 0, lscore = 0;
483 ret = get_afsi_of_row(aft_row, &afsi);
486 nscore = compute_num_played_score(&afsi);
487 lscore = compute_last_played_score(&afsi);
488 score = nscore + lscore;
492 static int add_afs_statistics(const struct osl_row *row)
495 struct afs_info afsi;
498 ret = get_afsi_of_row(row, &afsi);
502 x = afsi.last_played;
503 s = statistics.last_played_sum;
505 statistics.last_played_qd += (x - s / n) * (x - s / n) * n / (n + 1);
506 statistics.last_played_sum += x;
509 s = statistics.num_played_sum;
511 statistics.num_played_qd += (x - s / n) * (x - s / n) * n / (n + 1);
512 statistics.num_played_sum += x;
517 static int del_afs_statistics(const struct osl_row *row)
519 uint64_t n, s, q, a, new_s;
520 struct afs_info afsi;
522 ret = get_afsi_of_row(row, &afsi);
528 memset(&statistics, 0, sizeof(statistics));
532 s = statistics.last_played_sum;
533 q = statistics.last_played_qd;
534 a = afsi.last_played;
536 statistics.last_played_sum = new_s;
537 statistics.last_played_qd = q + s * s / n - a * a
538 - new_s * new_s / (n - 1);
540 s = statistics.num_played_sum;
541 q = statistics.num_played_qd;
544 statistics.num_played_sum = new_s;
545 statistics.num_played_qd = q + s * s / n - a * a
546 - new_s * new_s / (n - 1);
553 * Structure used during mood_open().
555 * At mood open time, we look at each file in the audio file table in order to
556 * determine whether it is admissible. If a file happens to be admissible, its
557 * mood score is computed by calling each relevant mood_score_function. Next,
558 * we update the afs_statistics and add a struct admissible_file_info to a
561 * If all files have been processed that way, the final score of each
562 * admissible file is computed by adding the dynamic score (which depends on
563 * the afs_statistics) to the mood score. Finally, all audio files in the
564 * array are added to the score table and the admissible array is freed.
566 * \sa mood_method, admissible_array.
568 struct admissible_file_info
570 /** The admissible audio file. */
571 struct osl_row *aft_row;
576 /** The temporary array of admissible files. */
577 struct admissible_array {
578 /** Files are admissible wrt. this mood. */
580 /** The size of the array */
582 /** Pointer to the array of admissible files. */
583 struct admissible_file_info *array;
587 * Add an entry to the array of admissible files.
589 * \param aft_row The audio file to be added.
590 * \param private_data Pointer to a struct admissible_file_info.
592 * \return 1 if row admissible, 0 if not, negative on errors.
594 static int add_if_admissible(struct osl_row *aft_row, void *data)
596 struct admissible_array *aa = data;
600 ret = compute_mood_score(aft_row, aa->m, &score);
603 if (statistics.num >= aa->size) {
606 aa->array = para_realloc(aa->array,
607 aa->size * sizeof(struct admissible_file_info));
609 aa->array[statistics.num].aft_row = aft_row;
610 aa->array[statistics.num].score = score;
611 ret = add_afs_statistics(aft_row);
618 * Compute the new quadratic deviation in case one element changes.
620 * \param n Number of elements.
621 * \param old_qd The quadratic deviation before the change.
622 * \param old_val The value that was replaced.
623 * \param new_val The replacement value.
624 * \param old_sum The sum of all elements before the update.
626 * \return The new quadratic deviation resulting from replacing old_val
629 * Given n real numbers a_1, ..., a_n, their sum S = a_1 + ... + a_n,
630 * their quadratic deviation
632 * q = (a_1 - S/n)^2 + ... + (a_n - S/n)^2,
634 * and a real number b, the quadratic deviation q' of a_1,...a_{n-1}, b (ie.
635 * the last number a_n was replaced by b) may be computed in O(1) time in terms
636 * of n, q, a_n, b, and S as
638 * q' = q + d * s - (2 * S + d) * d / n,
640 * where d = b - a_n, and s = b + a_n.
642 * Example: n = 3, a_1 = 3, a_2 = 5, a_3 = 7, b = 10. Then S = 15, q = 8, d = 3,
645 * q + d * s - (2 * S + d) * d / n = 8 + 51 - 33 = 26,
647 * which equals q' = (3 - 6)^2 + (5 - 6)^2 + (10 - 6)^2.
650 _static_inline_ int64_t update_quadratic_deviation(int64_t n, int64_t old_qd,
651 int64_t old_val, int64_t new_val, int64_t old_sum)
653 int64_t delta = new_val - old_val;
654 int64_t sigma = new_val + old_val;
655 return old_qd + delta * sigma - (2 * old_sum + delta) * delta / n;
658 static int update_afs_statistics(struct afs_info *old_afsi, struct afs_info *new_afsi)
661 int ret = get_num_admissible_files(&n);
667 statistics.last_played_qd = update_quadratic_deviation(n,
668 statistics.last_played_qd, old_afsi->last_played,
669 new_afsi->last_played, statistics.last_played_sum);
670 statistics.last_played_sum += new_afsi->last_played - old_afsi->last_played;
672 statistics.num_played_qd = update_quadratic_deviation(n,
673 statistics.num_played_qd, old_afsi->num_played,
674 new_afsi->num_played, statistics.num_played_sum);
675 statistics.num_played_sum += new_afsi->num_played - old_afsi->num_played;
679 static int add_to_score_table(const struct osl_row *aft_row, long mood_score)
681 long score = (compute_dynamic_score(aft_row) + mood_score) / 3;
682 return score_add(aft_row, score);
685 static int delete_from_statistics_and_score_table(const struct osl_row *aft_row)
687 int ret = del_afs_statistics(aft_row);
690 return score_delete(aft_row);
694 * Delete one entry from the statistics and from the score table.
696 * \param aft_row The audio file which is no longer admissible.
698 * \return Positive on success, negative on errors.
700 * \sa score_delete().
702 static int mood_delete_audio_file(const struct osl_row *aft_row)
706 ret = row_belongs_to_score_table(aft_row, NULL);
709 if (!ret) /* not admissible, nothing to do */
711 return delete_from_statistics_and_score_table(aft_row);
715 * Compute the new score of an audio file wrt. the current mood.
717 * \param aft_row Determines the audio file.
718 * \param old_afsi The audio file selector info before updating.
720 * The \a old_afsi argument may be \p NULL which indicates that no changes to
721 * the audio file info were made.
723 * \return Positive on success, negative on errors.
725 static int mood_update_audio_file(const struct osl_row *aft_row,
726 struct afs_info *old_afsi)
729 int ret, is_admissible, was_admissible = 0;
730 struct afs_info afsi;
734 return 1; /* nothing to do */
735 ret = row_belongs_to_score_table(aft_row, &rank);
738 was_admissible = ret;
739 ret = compute_mood_score(aft_row, current_mood, &score);
742 is_admissible = (ret > 0);
743 if (!was_admissible && !is_admissible)
745 if (was_admissible && !is_admissible)
746 return delete_from_statistics_and_score_table(aft_row);
747 if (!was_admissible && is_admissible) {
748 ret = add_afs_statistics(aft_row);
751 return add_to_score_table(aft_row, score);
754 ret = get_afsi_of_row(aft_row, &afsi);
758 ret = update_afs_statistics(old_afsi, &afsi);
762 score += compute_num_played_score(&afsi);
763 score += compute_last_played_score(&afsi);
765 PARA_DEBUG_LOG("score: %li\n", score);
766 percent = (score + 100) / 3;
769 else if (percent < 0)
771 PARA_DEBUG_LOG("moving from rank %u to %lu%%\n", rank, percent);
772 return score_update(aft_row, percent);
775 static void log_statistics(void)
777 unsigned n = statistics.num;
780 PARA_NOTICE_LOG("no admissible files\n");
783 PARA_INFO_LOG("last_played mean: %lli, last_played sigma: %llu\n",
784 (long long int)(statistics.last_played_sum / n),
785 (long long unsigned)int_sqrt(statistics.last_played_qd / n));
786 PARA_INFO_LOG("num_played mean: %lli, num_played sigma: %llu\n",
787 (long long int)statistics.num_played_sum / n,
788 (long long unsigned)int_sqrt(statistics.num_played_qd / n));
792 * Close the current mood.
794 * Free all resources of the current mood which were allocated during
797 void close_current_mood(void)
799 destroy_mood(current_mood);
801 memset(&statistics, 0, sizeof(statistics));
805 * Change the current mood.
807 * \param mood_name The name of the mood to open.
809 * If \a mood_name is \a NULL, load the dummy mood that accepts every audio file
810 * and uses a scoring method based only on the \a last_played information.
812 * If there is already an open mood, it will be closed first.
814 * \return Positive on success, negative on errors. Loading the dummy mood
817 * \sa struct admissible_file_info, struct admissible_array, struct
818 * afs_info::last_played, mood_close().
820 int change_current_mood(char *mood_name)
823 struct admissible_array aa = {
831 struct osl_object obj = {
833 .size = strlen(mood_name) + 1
835 ret = osl(osl_get_row(moods_table, BLOBCOL_NAME, &obj, &row));
837 PARA_NOTICE_LOG("no such mood: %s\n", mood_name);
840 ret = load_mood(row, &m);
843 close_current_mood();
845 } else { /* load dummy mood */
846 close_current_mood();
847 current_mood = alloc_new_mood(NULL);
850 PARA_NOTICE_LOG("computing statistics of admissible files\n");
851 ret = audio_file_loop(&aa, add_if_admissible);
855 PARA_INFO_LOG("%d admissible files \n", statistics.num);
856 for (i = 0; i < statistics.num; i++) {
857 struct admissible_file_info *a = aa.array + i;
858 ret = add_to_score_table(a->aft_row, a->score);
862 PARA_NOTICE_LOG("loaded mood %s\n", mood_name? mood_name : "(dummy)");
863 ret = statistics.num;
869 * Close and re-open the current mood.
871 * This function is used if changes to the audio file table or the
872 * attribute table were made that render the current list of admissible
873 * files useless. For example, if an attribute is removed from the
874 * attribute table, this function is called.
876 * \return Positive on success, negative on errors. If no mood is currently
877 * open, the function returns success.
879 * \sa mood_open(), mood_close().
881 static int reload_current_mood(void)
884 char *mood_name = NULL;
888 PARA_NOTICE_LOG("reloading %s\n", current_mood->name?
889 current_mood->name : "(dummy)");
890 if (current_mood->name)
891 mood_name = para_strdup(current_mood->name);
892 close_current_mood();
893 ret = change_current_mood(mood_name);
899 * Notification callback for the moods table.
901 * \param event Type of the event just occurred.
903 * \param data Its type depends on the event.
905 * This function performs actions required due to the occurrence of the given
906 * event. Possible actions include reload of the current mood and update of the
907 * score of an audio file.
911 int moods_event_handler(enum afs_events event, __a_unused struct para_buffer *pb,
920 * The three blob events might change the set of admissible files,
921 * so we must reload the score list.
926 if (data == moods_table || data == playlists_table)
927 return 1; /* no reload necessary for these */
928 ret = clear_score_table();
930 PARA_CRIT_LOG("clear score table returned %s\n",
931 para_strerror(-ret));
932 return reload_current_mood();
933 /* these also require reload of the score table */
935 case ATTRIBUTE_REMOVE:
936 case ATTRIBUTE_RENAME:
937 return reload_current_mood();
938 /* changes to the aft only require to re-examine the audio file */
940 struct afsi_change_event_data *aced = data;
941 return mood_update_audio_file(aced->aft_row, aced->old_afsi);
944 case AUDIO_FILE_RENAME:
946 return mood_update_audio_file(data, NULL);
947 case AUDIO_FILE_REMOVE:
948 return mood_delete_audio_file(data);