/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 by Miika Pekkarinen * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ /** * Basic structure on this file was copied from dbtree.c and modified to * support the tag cache interface. */ #include #include #include #include "system.h" #include "kernel.h" #include "splash.h" #include "icons.h" #include "tree.h" #include "action.h" #include "settings.h" #include "tagcache.h" #include "tagtree.h" #include "lang.h" #include "logf.h" #include "playlist.h" #include "keyboard.h" #include "gui/list.h" #include "buffer.h" #include "atoi.h" #include "playback.h" #include "yesno.h" #include "misc.h" #define FILE_SEARCH_INSTRUCTIONS ROCKBOX_DIR "/tagnavi.config" static int tagtree_play_folder(struct tree_context* c); static char searchstring[128]; enum variables { var_sorttype = 100, var_limit, var_strip, var_menu_start, var_include, var_rootmenu, var_format, menu_next, menu_load, }; /* Capacity 10 000 entries (for example 10k different artists) */ #define UNIQBUF_SIZE (64*1024) static long *uniqbuf; #define MAX_TAGS 5 static struct tagcache_search tcs, tcs2; static bool sort_inverse; /* * "%3d. %s" autoscore title %sort = "inverse" %limit = "100" * * valid = true * formatstr = "%-3d. %s" * tags[0] = tag_autoscore * tags[1] = tag_title * tag_count = 2 * * limit = 100 * sort_inverse = true */ struct display_format { char name[32]; struct tagcache_search_clause *clause[TAGCACHE_MAX_CLAUSES]; int clause_count; char *formatstr; int group_id; int tags[MAX_TAGS]; int tag_count; int limit; int strip; bool sort_inverse; bool sort; }; static struct display_format *formats[TAGMENU_MAX_FMTS]; static int format_count; struct search_instruction { char name[64]; int tagorder[MAX_TAGS]; int tagorder_count; struct tagcache_search_clause *clause[MAX_TAGS][TAGCACHE_MAX_CLAUSES]; int format_id[MAX_TAGS]; int clause_count[MAX_TAGS]; int result_seek[MAX_TAGS]; }; struct menu_entry { char name[64]; int type; struct search_instruction *si; int link; }; struct root_menu { char title[64]; char id[32]; int itemcount; struct root_menu *parent; struct menu_entry *items[TAGMENU_MAX_ITEMS]; }; /* Statusbar text of the current view. */ static char current_title[MAX_TAGS][128]; static struct root_menu *menus[TAGMENU_MAX_MENUS]; static struct root_menu *menu; static struct search_instruction *csi; static const char *strp; static int menu_count; static int root_menu; static int current_offset; static int current_entry_count; static int format_count; static struct tree_context *tc; static int get_token_str(char *buf, int size) { /* Find the start. */ while (*strp != '"' && *strp != '\0') strp++; if (*strp == '\0' || *(++strp) == '\0') return -1; /* Read the data. */ while (*strp != '"' && *strp != '\0' && --size > 0) *(buf++) = *(strp++); *buf = '\0'; if (*strp != '"') return -2; strp++; return 0; } #define MATCH(tag,str1,str2,settag) \ if (!strcasecmp(str1, str2)) { \ *tag = settag; \ return 1; \ } static int get_tag(int *tag) { char buf[128]; int i; /* Find the start. */ while ((*strp == ' ' || *strp == '>') && *strp != '\0') strp++; if (*strp == '\0' || *strp == '?') return 0; for (i = 0; i < (int)sizeof(buf)-1; i++) { if (*strp == '\0' || *strp == ' ') break ; buf[i] = *strp; strp++; } buf[i] = '\0'; MATCH(tag, buf, "album", tag_album); MATCH(tag, buf, "artist", tag_artist); MATCH(tag, buf, "bitrate", tag_bitrate); MATCH(tag, buf, "composer", tag_composer); MATCH(tag, buf, "comment", tag_comment); MATCH(tag, buf, "albumartist", tag_albumartist); MATCH(tag, buf, "ensemble", tag_albumartist); MATCH(tag, buf, "genre", tag_genre); MATCH(tag, buf, "length", tag_length); MATCH(tag, buf, "title", tag_title); MATCH(tag, buf, "filename", tag_filename); MATCH(tag, buf, "tracknum", tag_tracknumber); MATCH(tag, buf, "year", tag_year); MATCH(tag, buf, "playcount", tag_playcount); MATCH(tag, buf, "lastplayed", tag_lastplayed); MATCH(tag, buf, "autoscore", tag_virt_autoscore); MATCH(tag, buf, "%sort", var_sorttype); MATCH(tag, buf, "%limit", var_limit); MATCH(tag, buf, "%strip", var_strip); MATCH(tag, buf, "%menu_start", var_menu_start); MATCH(tag, buf, "%include", var_include); MATCH(tag, buf, "%root_menu", var_rootmenu); MATCH(tag, buf, "%format", var_format); MATCH(tag, buf, "->", menu_next); MATCH(tag, buf, "==>", menu_load); logf("NO MATCH: %s\n", buf); if (buf[0] == '?') return 0; return -1; } static int get_clause(int *condition) { char buf[4]; int i; /* Find the start. */ while (*strp == ' ' && *strp != '\0') strp++; if (*strp == '\0') return 0; for (i = 0; i < (int)sizeof(buf)-1; i++) { if (*strp == '\0' || *strp == ' ') break ; buf[i] = *strp; strp++; } buf[i] = '\0'; MATCH(condition, buf, "=", clause_is); MATCH(condition, buf, "==", clause_is); MATCH(condition, buf, "!=", clause_is_not); MATCH(condition, buf, ">", clause_gt); MATCH(condition, buf, ">=", clause_gteq); MATCH(condition, buf, "<", clause_lt); MATCH(condition, buf, "<=", clause_lteq); MATCH(condition, buf, "~", clause_contains); MATCH(condition, buf, "!~", clause_not_contains); MATCH(condition, buf, "^", clause_begins_with); MATCH(condition, buf, "!^", clause_not_begins_with); MATCH(condition, buf, "$", clause_ends_with); MATCH(condition, buf, "!$", clause_not_ends_with); MATCH(condition, buf, "@", clause_oneof); return 0; } static bool read_clause(struct tagcache_search_clause *clause) { char buf[256]; if (get_tag(&clause->tag) <= 0) return false; if (get_clause(&clause->type) <= 0) return false; if (get_token_str(buf, sizeof buf) < 0) return false; clause->str = buffer_alloc(strlen(buf)+1); strcpy(clause->str, buf); logf("got clause: %d/%d [%s]", clause->tag, clause->type, clause->str); if (*(clause->str) == '\0') clause->input = true; else clause->input = false; if (tagcache_is_numeric_tag(clause->tag)) { clause->numeric = true; clause->numeric_data = atoi(clause->str); } else clause->numeric = false; return true; } static bool read_variable(char *buf, int size) { int condition; if (!get_clause(&condition)) return false; if (condition != clause_is) return false; if (get_token_str(buf, size) < 0) return false; return true; } /* "%3d. %s" autoscore title %sort = "inverse" %limit = "100" */ static int get_format_str(struct display_format *fmt) { int ret; char buf[128]; int i; memset(fmt, 0, sizeof(struct display_format)); if (get_token_str(fmt->name, sizeof fmt->name) < 0) return -10; /* Determine the group id */ fmt->group_id = 0; for (i = 0; i < format_count; i++) { if (!strcasecmp(formats[i]->name, fmt->name)) { fmt->group_id = formats[i]->group_id; break; } if (formats[i]->group_id > fmt->group_id) fmt->group_id = formats[i]->group_id; } if (i == format_count) fmt->group_id++; logf("format: (%d) %s", fmt->group_id, fmt->name); if (get_token_str(buf, sizeof buf) < 0) return -10; fmt->formatstr = buffer_alloc(strlen(buf) + 1); strcpy(fmt->formatstr, buf); while (fmt->tag_count < MAX_TAGS) { ret = get_tag(&fmt->tags[fmt->tag_count]); if (ret < 0) return -11; if (ret == 0) break; switch (fmt->tags[fmt->tag_count]) { case var_sorttype: if (!read_variable(buf, sizeof buf)) return -12; if (!strcasecmp("inverse", buf)) fmt->sort_inverse = true; fmt->sort = true; break; case var_limit: if (!read_variable(buf, sizeof buf)) return -13; fmt->limit = atoi(buf); break; case var_strip: if (!read_variable(buf, sizeof buf)) return -14; fmt->strip = atoi(buf); break; default: fmt->tag_count++; } } return 1; } static int add_format(const char *buf) { strp = buf; if (formats[format_count] == NULL) formats[format_count] = buffer_alloc(sizeof(struct display_format)); memset(formats[format_count], 0, sizeof(struct display_format)); if (get_format_str(formats[format_count]) < 0) { logf("get_format_str() parser failed!"); return -4; } while (*strp != '\0' && *strp != '?') strp++; if (*strp == '?') { int clause_count = 0; strp++; while (1) { if (clause_count >= TAGCACHE_MAX_CLAUSES) { logf("too many clauses"); break; } formats[format_count]->clause[clause_count] = buffer_alloc(sizeof(struct tagcache_search_clause)); if (!read_clause(formats[format_count]->clause[clause_count])) break; clause_count++; } formats[format_count]->clause_count = clause_count; } format_count++; return 1; } static int get_condition(struct search_instruction *inst) { int clause_count; char buf[128]; switch (*strp) { case '=': { int i; if (get_token_str(buf, sizeof buf) < 0) return -1; for (i = 0; i < format_count; i++) { if (!strcasecmp(formats[i]->name, buf)) break; } if (i == format_count) { logf("format not found: %s", buf); return -2; } inst->format_id[inst->tagorder_count] = formats[i]->group_id; return 1; } case '?': case ' ': case '&': strp++; return 1; case '-': case '\0': return 0; } clause_count = inst->clause_count[inst->tagorder_count]; if (clause_count >= TAGCACHE_MAX_CLAUSES) { logf("Too many clauses"); return false; } inst->clause[inst->tagorder_count][clause_count] = buffer_alloc(sizeof(struct tagcache_search_clause)); if (!read_clause(inst->clause[inst->tagorder_count][clause_count])) return -1; inst->clause_count[inst->tagorder_count]++; return 1; } /* example search: * "Best" artist ? year >= "2000" & title !^ "crap" & genre = "good genre" \ * : album ? year >= "2000" : songs * ^ begins with * * contains * $ ends with */ static bool parse_search(struct menu_entry *entry, const char *str) { int ret; int type; struct search_instruction *inst = entry->si; char buf[MAX_PATH]; int i; strp = str; /* Parse entry name */ if (get_token_str(entry->name, sizeof entry->name) < 0) { logf("No name found."); return false; } /* Parse entry type */ if (get_tag(&entry->type) <= 0) return false; if (entry->type == menu_load) { if (get_token_str(buf, sizeof buf) < 0) return false; /* Find the matching root menu or "create" it */ for (i = 0; i < menu_count; i++) { if (!strcasecmp(menus[i]->id, buf)) { entry->link = i; menus[i]->parent = menu; return true; } } return false; } if (entry->type != menu_next) return false; while (inst->tagorder_count < MAX_TAGS) { ret = get_tag(&inst->tagorder[inst->tagorder_count]); if (ret < 0) { logf("Parse error #1"); logf("%s", strp); return false; } if (ret == 0) break ; logf("tag: %d", inst->tagorder[inst->tagorder_count]); while ( (ret = get_condition(inst)) > 0 ) ; if (ret < 0) return false; inst->tagorder_count++; if (get_tag(&type) <= 0 || type != menu_next) break; } return true; } static int compare(const void *p1, const void *p2) { struct tagentry *e1 = (struct tagentry *)p1; struct tagentry *e2 = (struct tagentry *)p2; if (sort_inverse) return strncasecmp(e2->name, e1->name, MAX_PATH); return strncasecmp(e1->name, e2->name, MAX_PATH); } static void tagtree_buffer_event(struct mp3entry *id3, bool last_track) { (void)id3; (void)last_track; /* Do not gather data unless proper setting has been enabled. */ if (!global_settings.runtimedb) return; logf("be:%d%s", last_track, id3->path); if (!tagcache_find_index(&tcs, id3->path)) { logf("tc stat: not found: %s", id3->path); return; } id3->playcount = tagcache_get_numeric(&tcs, tag_playcount); id3->lastplayed = tagcache_get_numeric(&tcs, tag_lastplayed); id3->rating = tagcache_get_numeric(&tcs, tag_virt_autoscore) / 10; tagcache_search_finish(&tcs); } static void tagtree_unbuffer_event(struct mp3entry *id3, bool last_track) { (void)last_track; long playcount; long playtime; long lastplayed; /* Do not gather data unless proper setting has been enabled. */ if (!global_settings.runtimedb) { logf("runtimedb gathering not enabled"); return; } /* Don't process unplayed tracks. */ if (id3->elapsed == 0) { logf("not logging unplayed track"); return; } if (!tagcache_find_index(&tcs, id3->path)) { logf("tc stat: not found: %s", id3->path); return; } playcount = tagcache_get_numeric(&tcs, tag_playcount); playtime = tagcache_get_numeric(&tcs, tag_playtime); lastplayed = tagcache_get_numeric(&tcs, tag_lastplayed); playcount++; lastplayed = tagcache_increase_serial(); if (lastplayed < 0) { logf("incorrect tc serial:%d", lastplayed); tagcache_search_finish(&tcs); return; } /* Ignore the last 15s (crossfade etc.) */ playtime += MIN(id3->length, id3->elapsed + 15 * 1000); logf("ube:%s", id3->path); logf("-> %d/%d/%d", last_track, playcount, playtime); logf("-> %d/%d/%d", id3->elapsed, id3->length, MIN(id3->length, id3->elapsed + 15 * 1000)); /* lastplayed not yet supported. */ if (!tagcache_modify_numeric_entry(&tcs, tag_playcount, playcount) || !tagcache_modify_numeric_entry(&tcs, tag_playtime, playtime) || !tagcache_modify_numeric_entry(&tcs, tag_lastplayed, lastplayed)) { logf("tc stat: modify failed!"); tagcache_search_finish(&tcs); return; } tagcache_search_finish(&tcs); } bool tagtree_export(void) { gui_syncsplash(0, true, str(LANG_CREATING)); if (!tagcache_create_changelog(&tcs)) { gui_syncsplash(HZ*2, true, str(LANG_FAILED)); } return false; } bool tagtree_import(void) { gui_syncsplash(0, true, str(LANG_WAIT)); if (!tagcache_import_changelog()) { gui_syncsplash(HZ*2, true, str(LANG_FAILED)); } return false; } static bool parse_menu(const char *filename); static int parse_line(int n, const char *buf, void *parameters) { char data[256]; int variable; static bool read_menu; int i; (void)parameters; logf("parse:%d/%s", n, buf); /* First line, do initialisation. */ if (n == 0) { if (strcasecmp(TAGNAVI_VERSION, buf)) { logf("Version mismatch"); return -1; } read_menu = false; } if (buf[0] == '#') return 0; if (buf[0] == '\0') { if (read_menu) { /* End the menu */ menu_count++; read_menu = false; } return 0; } if (!read_menu) { strp = buf; if (get_tag(&variable) <= 0) return 0; switch (variable) { case var_format: if (add_format(strp) < 0) { logf("Format add fail: %s", data); } break; case var_include: if (get_token_str(data, sizeof(data)) < 0) { logf("%include empty"); return 0; } if (!parse_menu(data)) { logf("Load menu fail: %s", data); } break; case var_menu_start: if (menu_count >= TAGMENU_MAX_MENUS) { logf("max menucount reached"); return 0; } menus[menu_count] = buffer_alloc(sizeof(struct root_menu)); menu = menus[menu_count]; memset(menu, 0, sizeof(struct root_menu)); if (get_token_str(menu->id, sizeof(menu->id)) < 0) { logf("%menu_start id empty"); return 0; } if (get_token_str(menu->title, sizeof(menu->title)) < 0) { logf("%menu_start title empty"); return 0; } logf("menu: %s", menu->title); menu->itemcount = 0; read_menu = true; break; case var_rootmenu: /* Only set root menu once. */ if (root_menu) break; if (get_token_str(data, sizeof(data)) < 0) { logf("%root_menu empty"); return 0; } for (i = 0; i < menu_count; i++) { if (!strcasecmp(menus[i]->id, data)) { root_menu = i; } } break; } return 0; } if (menu->itemcount >= TAGMENU_MAX_ITEMS) { logf("max itemcount reached"); return 0; } /* Allocate */ if (menu->items[menu->itemcount] == NULL) { menu->items[menu->itemcount] = buffer_alloc(sizeof(struct menu_entry)); memset(menu->items[menu->itemcount], 0, sizeof(struct menu_entry)); menu->items[menu->itemcount]->si = buffer_alloc(sizeof(struct search_instruction)); } memset(menu->items[menu->itemcount]->si, 0, sizeof(struct search_instruction)); if (!parse_search(menu->items[menu->itemcount], buf)) return 0; menu->itemcount++; return 0; } static bool parse_menu(const char *filename) { int fd; char buf[1024]; if (menu_count >= TAGMENU_MAX_MENUS) { logf("max menucount reached"); return false; } fd = open(filename, O_RDONLY); if (fd < 0) { logf("Search instruction file not found."); return false; } /* Now read file for real, parsing into si */ fast_readline(fd, buf, sizeof buf, NULL, parse_line); close(fd); return true; } void tagtree_init(void) { format_count = 0; menu_count = 0; menu = NULL; root_menu = 0; parse_menu(FILE_SEARCH_INSTRUCTIONS); uniqbuf = buffer_alloc(UNIQBUF_SIZE); audio_set_track_buffer_event(tagtree_buffer_event); audio_set_track_unbuffer_event(tagtree_unbuffer_event); } static bool show_search_progress(bool init, int count) { static int last_tick = 0; if (init) { last_tick = current_tick; return true; } if (current_tick - last_tick > HZ/4) { gui_syncsplash(0, true, str(LANG_PLAYLIST_SEARCH_MSG), count, #if CONFIG_KEYPAD == PLAYER_PAD str(LANG_STOP_ABORT) #else str(LANG_OFF_ABORT) #endif ); if (action_userabort(TIMEOUT_NOBLOCK)) return false; last_tick = current_tick; yield(); } return true; } static int format_str(struct tagcache_search *tcs, struct display_format *fmt, char *buf, int buf_size) { char fmtbuf[8]; bool read_format = false; int fmtbuf_pos = 0; int parpos = 0; int buf_pos = 0; int i; memset(buf, 0, buf_size); for (i = 0; fmt->formatstr[i] != '\0'; i++) { if (fmt->formatstr[i] == '%') { read_format = true; fmtbuf_pos = 0; if (parpos >= fmt->tag_count) { logf("too many format tags"); return -1; } } if (read_format) { fmtbuf[fmtbuf_pos++] = fmt->formatstr[i]; if (fmtbuf_pos >= buf_size) { logf("format parse error"); return -2; } if (fmt->formatstr[i] == 's') { fmtbuf[fmtbuf_pos] = '\0'; read_format = false; if (fmt->tags[parpos] == tcs->type) { snprintf(&buf[buf_pos], buf_size - buf_pos, fmtbuf, tcs->result); } else { /* Need to fetch the tag data. */ if (!tagcache_retrieve(tcs, tcs->idx_id, fmt->tags[parpos], &buf[buf_pos], buf_size - buf_pos)) { logf("retrieve failed"); return -3; } } buf_pos += strlen(&buf[buf_pos]); parpos++; } else if (fmt->formatstr[i] == 'd') { fmtbuf[fmtbuf_pos] = '\0'; read_format = false; snprintf(&buf[buf_pos], buf_size - buf_pos, fmtbuf, tagcache_get_numeric(tcs, fmt->tags[parpos])); buf_pos += strlen(&buf[buf_pos]); parpos++; } continue; } buf[buf_pos++] = fmt->formatstr[i]; if (buf_pos - 1 >= buf_size) { logf("buffer overflow"); return -4; } } buf[buf_pos++] = '\0'; return 0; } static int retrieve_entries(struct tree_context *c, struct tagcache_search *tcs, int offset, bool init) { struct tagentry *dptr = (struct tagentry *)c->dircache; struct display_format *fmt; int i; int namebufused = 0; int total_count = 0; int special_entry_count = 0; int level = c->currextra; int tag; bool sort = false; int sort_limit; int strip; if (init #ifdef HAVE_TC_RAMCACHE && !tagcache_is_ramcache() #endif ) { show_search_progress(true, 0); gui_syncsplash(0, true, str(LANG_PLAYLIST_SEARCH_MSG), 0, csi->name); } if (c->currtable == allsubentries) { tag = tag_title; level--; } else tag = csi->tagorder[level]; if (!tagcache_search(tcs, tag)) return -1; /* Prevent duplicate entries in the search list. */ tagcache_search_set_uniqbuf(tcs, uniqbuf, UNIQBUF_SIZE); if (level || csi->clause_count[0] || tagcache_is_numeric_tag(tag)) sort = true; for (i = 0; i < level; i++) { if (tagcache_is_numeric_tag(csi->tagorder[i])) { static struct tagcache_search_clause cc; memset(&cc, 0, sizeof(struct tagcache_search_clause)); cc.tag = csi->tagorder[i]; cc.type = clause_is; cc.numeric = true; cc.numeric_data = csi->result_seek[i]; tagcache_search_add_clause(tcs, &cc); } else { tagcache_search_add_filter(tcs, csi->tagorder[i], csi->result_seek[i]); } } for (i = 0; i <= level; i++) { int j; for (j = 0; j < csi->clause_count[i]; j++) tagcache_search_add_clause(tcs, csi->clause[i][j]); } current_offset = offset; current_entry_count = 0; c->dirfull = false; fmt = NULL; for (i = 0; i < format_count; i++) { if (formats[i]->group_id == csi->format_id[level]) fmt = formats[i]; } if (fmt) { sort_inverse = fmt->sort_inverse; sort_limit = fmt->limit; strip = fmt->strip; /* Check if sorting is forced. */ if (fmt->sort) sort = true; } else { sort_inverse = false; sort_limit = 0; strip = 0; } if (tag != tag_title && tag != tag_filename) { if (offset == 0) { dptr->newtable = allsubentries; dptr->name = str(LANG_TAGNAVI_ALL_TRACKS); dptr++; current_entry_count++; } special_entry_count++; } total_count += special_entry_count; while (tagcache_get_next(tcs)) { if (total_count++ < offset) continue; dptr->newtable = navibrowse; if (tag == tag_title || tag == tag_filename) { dptr->newtable = playtrack; dptr->extraseek = tcs->idx_id; } else dptr->extraseek = tcs->result_seek; fmt = NULL; /* Check the format */ for (i = 0; i < format_count; i++) { if (formats[i]->group_id != csi->format_id[level]) continue; if (tagcache_check_clauses(tcs, formats[i]->clause, formats[i]->clause_count)) { fmt = formats[i]; break; } } if (!tcs->ramresult || fmt) { char buf[MAX_PATH]; if (fmt) { if (format_str(tcs, fmt, buf, sizeof buf) < 0) { logf("format_str() failed"); return 0; } } dptr->name = &c->name_buffer[namebufused]; if (fmt) namebufused += strlen(buf)+1; else namebufused += tcs->result_len; if (namebufused >= c->name_buffer_size) { logf("chunk mode #2: %d", current_entry_count); c->dirfull = true; sort = false; break ; } if (fmt) strcpy(dptr->name, buf); else strcpy(dptr->name, tcs->result); } else dptr->name = tcs->result; dptr++; current_entry_count++; if (current_entry_count >= global_settings.max_files_in_dir) { logf("chunk mode #3: %d", current_entry_count); c->dirfull = true; sort = false; break ; } if (init && !tcs->ramsearch) { if (!show_search_progress(false, i)) { tagcache_search_finish(tcs); return current_entry_count; } } } if (sort) qsort(c->dircache + special_entry_count * c->dentry_size, current_entry_count - special_entry_count, c->dentry_size, compare); if (!init) { tagcache_search_finish(tcs); return current_entry_count; } while (tagcache_get_next(tcs)) { if (!tcs->ramsearch) { if (!show_search_progress(false, total_count)) break; } total_count++; } tagcache_search_finish(tcs); if (!sort && (sort_inverse || sort_limit)) { gui_syncsplash(HZ*4, true, str(LANG_SHOWDIR_BUFFER_FULL), total_count); logf("Too small dir buffer"); return 0; } if (sort_limit) total_count = MIN(total_count, sort_limit); if (strip) { dptr = c->dircache; for (i = 0; i < total_count; i++, dptr++) { int len = strlen(dptr->name); if (len < strip) continue; dptr->name = &dptr->name[strip]; } } return total_count; } static int load_root(struct tree_context *c) { struct tagentry *dptr = (struct tagentry *)c->dircache; int i; tc = c; c->currtable = root; if (c->dirlevel == 0) c->currextra = root_menu; menu = menus[c->currextra]; if (menu == NULL) return 0; for (i = 0; i < menu->itemcount; i++) { dptr->name = menu->items[i]->name; switch (menu->items[i]->type) { case menu_next: dptr->newtable = navibrowse; dptr->extraseek = i; break; case menu_load: dptr->newtable = root; dptr->extraseek = menu->items[i]->link; break; } dptr++; } current_offset = 0; current_entry_count = i; return i; } int tagtree_load(struct tree_context* c) { int count; int table = c->currtable; c->dentry_size = sizeof(struct tagentry); c->dirsindir = 0; if (!table) { c->dirfull = false; table = root; c->currtable = table; c->currextra = root_menu; } switch (table) { case root: count = load_root(c); break; case allsubentries: case navibrowse: logf("navibrowse..."); cpu_boost(true); count = retrieve_entries(c, &tcs, 0, true); cpu_boost(false); break; default: logf("Unsupported table %d\n", table); return -1; } if (count < 0) { c->dirlevel = 0; count = load_root(c); gui_syncsplash(HZ, true, str(LANG_TAGCACHE_BUSY)); } /* The _total_ numer of entries available. */ c->dirlength = c->filesindir = count; return count; } int tagtree_enter(struct tree_context* c) { int rc = 0; struct tagentry *dptr; int newextra; int seek; dptr = tagtree_get_entry(c, c->selected_item); c->dirfull = false; newextra = dptr->newtable; seek = dptr->extraseek; if (c->dirlevel >= MAX_DIR_LEVELS) return 0; c->selected_item_history[c->dirlevel]=c->selected_item; c->table_history[c->dirlevel] = c->currtable; c->extra_history[c->dirlevel] = c->currextra; c->pos_history[c->dirlevel] = c->firstpos; c->dirlevel++; switch (c->currtable) { case root: c->currextra = newextra; if (newextra == root) { menu = menus[seek]; c->currextra = seek; } else if (newextra == navibrowse) { int i, j; csi = menu->items[seek]->si; c->currextra = 0; strncpy(current_title[c->currextra], dptr->name, sizeof(current_title[0]) - 1); /* Read input as necessary. */ for (i = 0; i < csi->tagorder_count; i++) { for (j = 0; j < csi->clause_count[i]; j++) { if (!csi->clause[i][j]->input) continue; rc = kbd_input(searchstring, sizeof(searchstring)); if (rc == -1 || !searchstring[0]) { tagtree_exit(c); return 0; } if (csi->clause[i][j]->numeric) csi->clause[i][j]->numeric_data = atoi(searchstring); else csi->clause[i][j]->str = searchstring; } } } c->currtable = newextra; break; case navibrowse: case allsubentries: if (newextra == playtrack) { c->dirlevel--; /* about to create a new current playlist... allow user to cancel the operation */ if (global_settings.warnon_erase_dynplaylist && !global_settings.party_mode && playlist_modified(NULL)) { char *lines[]={str(LANG_WARN_ERASEDYNPLAYLIST_PROMPT)}; struct text_message message={lines, 1}; if (gui_syncyesno_run(&message, NULL, NULL) != YESNO_YES) break; } if (tagtree_play_folder(c) >= 0) rc = 2; break; } c->currtable = newextra; csi->result_seek[c->currextra] = seek; if (c->currextra < csi->tagorder_count-1) c->currextra++; else c->dirlevel--; /* Update the statusbar title */ strncpy(current_title[c->currextra], dptr->name, sizeof(current_title[0]) - 1); break; default: c->dirlevel--; break; } c->selected_item=0; gui_synclist_select_item(&tree_lists, c->selected_item); return rc; } void tagtree_exit(struct tree_context* c) { c->dirfull = false; if (c->dirlevel > 0) c->dirlevel--; c->selected_item=c->selected_item_history[c->dirlevel]; gui_synclist_select_item(&tree_lists, c->selected_item); c->currtable = c->table_history[c->dirlevel]; c->currextra = c->extra_history[c->dirlevel]; c->firstpos = c->pos_history[c->dirlevel]; } int tagtree_get_filename(struct tree_context* c, char *buf, int buflen) { struct tagentry *entry; entry = tagtree_get_entry(c, c->selected_item); if (!tagcache_search(&tcs, tag_filename)) return -1; if (!tagcache_retrieve(&tcs, entry->extraseek, tcs.type, buf, buflen)) { tagcache_search_finish(&tcs); return -2; } tagcache_search_finish(&tcs); return 0; } static bool insert_all_playlist(struct tree_context *c, int position, bool queue) { int i; char buf[MAX_PATH]; int from, to, direction; int files_left = c->filesindir; cpu_boost(true); if (!tagcache_search(&tcs, tag_filename)) { gui_syncsplash(HZ, true, str(LANG_TAGCACHE_BUSY)); cpu_boost(false); return false; } if (position == PLAYLIST_REPLACE) { if (remove_all_tracks(NULL) == 0) position = PLAYLIST_INSERT_LAST; else return -1; } if (position == PLAYLIST_INSERT_FIRST) { from = c->filesindir - 1; to = -1; direction = -1; } else { from = 0; to = c->filesindir; direction = 1; } for (i = from; i != to; i += direction) { /* Count back to zero */ if (!show_search_progress(false, files_left--)) break; if (!tagcache_retrieve(&tcs, tagtree_get_entry(c, i)->extraseek, tcs.type, buf, sizeof buf)) { continue; } if (playlist_insert_track(NULL, buf, position, queue, false) < 0) { logf("playlist_insert_track failed"); break; } yield(); } playlist_sync(NULL); tagcache_search_finish(&tcs); cpu_boost(false); return true; } bool tagtree_insert_selection_playlist(int position, bool queue) { struct tagentry *dptr; char buf[MAX_PATH]; int dirlevel = tc->dirlevel; /* We need to set the table to allsubentries. */ show_search_progress(true, 0); dptr = tagtree_get_entry(tc, tc->selected_item); /* Insert a single track? */ if (dptr->newtable == playtrack) { if (tagtree_get_filename(tc, buf, sizeof buf) < 0) { logf("tagtree_get_filename failed"); return false; } playlist_insert_track(NULL, buf, position, queue, true); return true; } if (dptr->newtable == navibrowse) { tagtree_enter(tc); tagtree_load(tc); dptr = tagtree_get_entry(tc, tc->selected_item); } else if (dptr->newtable != allsubentries) { logf("unsupported table: %d", dptr->newtable); return false; } /* Now the current table should be allsubentries. */ if (dptr->newtable != playtrack) { tagtree_enter(tc); tagtree_load(tc); dptr = tagtree_get_entry(tc, tc->selected_item); /* And now the newtable should be playtrack. */ if (dptr->newtable != playtrack) { logf("newtable: %d !!", dptr->newtable); tc->dirlevel = dirlevel; return false; } } if (tc->filesindir <= 0) gui_syncsplash(HZ, true, str(LANG_END_PLAYLIST_PLAYER)); else { logf("insert_all_playlist"); if (!insert_all_playlist(tc, position, queue)) gui_syncsplash(HZ*2, true, str(LANG_FAILED)); } /* Finally return the dirlevel to its original value. */ while (tc->dirlevel > dirlevel) tagtree_exit(tc); tagtree_load(tc); return true; } static int tagtree_play_folder(struct tree_context* c) { if (playlist_create(NULL, NULL) < 0) { logf("Failed creating playlist\n"); return -1; } if (!insert_all_playlist(c, PLAYLIST_INSERT_LAST, false)) return -2; if (global_settings.playlist_shuffle) c->selected_item = playlist_shuffle(current_tick, c->selected_item); if (!global_settings.play_selected) c->selected_item = 0; gui_synclist_select_item(&tree_lists, c->selected_item); playlist_start(c->selected_item,0); return 0; } struct tagentry* tagtree_get_entry(struct tree_context *c, int id) { struct tagentry *entry = (struct tagentry *)c->dircache; int realid = id - current_offset; /* Load the next chunk if necessary. */ if (realid >= current_entry_count || realid < 0) { cpu_boost(true); if (retrieve_entries(c, &tcs2, MAX(0, id - (current_entry_count / 2)), false) < 0) { logf("retrieve failed"); cpu_boost(false); return NULL; } realid = id - current_offset; cpu_boost(false); } return &entry[realid]; } char *tagtree_get_title(struct tree_context* c) { switch (c->currtable) { case root: return menu->title; case navibrowse: case allsubentries: return current_title[c->currextra]; } return "?"; } int tagtree_get_attr(struct tree_context* c) { int attr = -1; switch (c->currtable) { case navibrowse: if (csi->tagorder[c->currextra] == tag_title) attr = TREE_ATTR_MPA; else attr = ATTR_DIRECTORY; break; case allsubentries: attr = TREE_ATTR_MPA; break; default: attr = ATTR_DIRECTORY; break; } return attr; } #ifdef HAVE_LCD_BITMAP const unsigned char* tagtree_get_icon(struct tree_context* c) #else int tagtree_get_icon(struct tree_context* c) #endif { int icon = Icon_Folder; if (tagtree_get_attr(c) == TREE_ATTR_MPA) icon = Icon_Audio; #ifdef HAVE_LCD_BITMAP return bitmap_icons_6x8[icon]; #else return icon; #endif }