/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2007 Nicolas Pennequin, Jonathan Gordon * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include #include #include #include "system.h" #include "audio.h" #include "kernel.h" #include "logf.h" #include "misc.h" #include "screens.h" #include "list.h" #include "action.h" #include "lang.h" #include "debug.h" #include "settings.h" #include "plugin.h" #include "playback.h" #include "cuesheet.h" #include "gui/wps.h" #define CUE_DIR ROCKBOX_DIR "/cue" bool look_for_cuesheet_file(struct mp3entry *track_id3, struct cuesheet_file *cue_file) { /* DEBUGF("look for cue file\n"); */ size_t len; char cuepath[MAX_PATH]; char *dot, *slash, *slash_cuepath; if (track_id3->has_embedded_cuesheet) { cue_file->pos = track_id3->embedded_cuesheet.pos; cue_file->size = track_id3->embedded_cuesheet.size; cue_file->encoding = track_id3->embedded_cuesheet.encoding; strlcpy(cue_file->path, track_id3->path, MAX_PATH); return true; } cue_file->pos = 0; cue_file->size = 0; cue_file->path[0] = '\0'; slash = strrchr(track_id3->path, '/'); if (!slash) return false; len = strlcpy(cuepath, track_id3->path, MAX_PATH); slash_cuepath = &cuepath[slash - track_id3->path]; dot = strrchr(slash_cuepath, '.'); if (dot) strlcpy(dot, ".cue", MAX_PATH - (dot-cuepath)); if (!dot || !file_exists(cuepath)) { strcpy(cuepath, CUE_DIR); if (strlcat(cuepath, slash, MAX_PATH) >= MAX_PATH) goto skip; /* overflow */ char *dot = strrchr(cuepath, '.'); strcpy(dot, ".cue"); if (!file_exists(cuepath)) { skip: if ((len+4) >= MAX_PATH) return false; strlcpy(cuepath, track_id3->path, MAX_PATH); strlcat(cuepath, ".cue", MAX_PATH); if (!file_exists(cuepath)) return false; } } strlcpy(cue_file->path, cuepath, MAX_PATH); return true; } static char *get_string(const char *line) { char *start, *end; start = strchr(line, '"'); if (!start) { start = strchr(line, ' '); if (!start) return NULL; } end = strchr(++start, '"'); if (end) *end = '\0'; return start; } /* parse cuesheet "cue_file" and store the information in "cue" */ bool parse_cuesheet(struct cuesheet_file *cue_file, struct cuesheet *cue) { char line[MAX_PATH]; char *s; unsigned char char_enc = CHAR_ENC_ISO_8859_1; bool is_embedded = false; int line_len; int bytes_left = 0; int read_bytes = MAX_PATH; unsigned char utf16_buf[MAX_PATH]; int fd = open(cue_file->path, O_RDONLY, 0644); if(fd < 0) return false; if (cue_file->pos > 0) { is_embedded = true; lseek(fd, cue_file->pos, SEEK_SET); bytes_left = cue_file->size; char_enc = cue_file->encoding; } /* Look for a Unicode BOM */ unsigned char bom_read = 0; read(fd, line, BOM_UTF_8_SIZE); if(!memcmp(line, BOM_UTF_8, BOM_UTF_8_SIZE)) { char_enc = CHAR_ENC_UTF_8; bom_read = BOM_UTF_8_SIZE; } else if(!memcmp(line, BOM_UTF_16_LE, BOM_UTF_16_SIZE)) { char_enc = CHAR_ENC_UTF_16_LE; bom_read = BOM_UTF_16_SIZE; } else if(!memcmp(line, BOM_UTF_16_BE, BOM_UTF_16_SIZE)) { char_enc = CHAR_ENC_UTF_16_BE; bom_read = BOM_UTF_16_SIZE; } if (bom_read < BOM_UTF_8_SIZE) lseek(fd, cue_file->pos + bom_read, SEEK_SET); if (is_embedded) { if (bom_read > 0) bytes_left -= bom_read; if (read_bytes > bytes_left) read_bytes = bytes_left; } /* Initialization */ memset(cue, 0, sizeof(struct cuesheet)); strcpy(cue->path, cue_file->path); cue->curr_track = cue->tracks; while ((line_len = read_line(fd, line, read_bytes)) > 0 && cue->track_count < MAX_TRACKS ) { if (char_enc == CHAR_ENC_UTF_16_LE) { s = utf16LEdecode(line, utf16_buf, line_len); /* terminate the string at the newline */ *s = '\0'; strcpy(line, utf16_buf); /* chomp the trailing 0 after the newline */ lseek(fd, 1, SEEK_CUR); line_len++; } else if (char_enc == CHAR_ENC_UTF_16_BE) { s = utf16BEdecode(line, utf16_buf, line_len); *s = '\0'; strcpy(line, utf16_buf); } s = skip_whitespace(line); if (!strncmp(s, "TRACK", 5)) { cue->track_count++; } else if (!strncmp(s, "INDEX 01", 8)) { s = strchr(s,' '); s = skip_whitespace(s); s = strchr(s,' '); s = skip_whitespace(s); cue->tracks[cue->track_count-1].offset = 60*1000 * atoi(s); s = strchr(s,':') + 1; cue->tracks[cue->track_count-1].offset += 1000 * atoi(s); s = strchr(s,':') + 1; cue->tracks[cue->track_count-1].offset += 13 * atoi(s); } else if (!strncmp(s, "TITLE", 5) || !strncmp(s, "PERFORMER", 9) || !strncmp(s, "SONGWRITER", 10)) { char *dest = NULL; char *string = get_string(s); if (!string) break; switch (*s) { case 'T': /* TITLE */ dest = (cue->track_count <= 0) ? cue->title : cue->tracks[cue->track_count-1].title; break; case 'P': /* PERFORMER */ dest = (cue->track_count <= 0) ? cue->performer : cue->tracks[cue->track_count-1].performer; break; case 'S': /* SONGWRITER */ dest = (cue->track_count <= 0) ? cue->songwriter : cue->tracks[cue->track_count-1].songwriter; break; } if (dest) { if (char_enc == CHAR_ENC_ISO_8859_1) { dest = iso_decode(string, dest, -1, MIN(strlen(string), MAX_NAME)); *dest = '\0'; } else { strlcpy(dest, string, MAX_NAME*3 + 1); } } } if (is_embedded) { bytes_left -= line_len; if (bytes_left <= 0) break; if (bytes_left < read_bytes) read_bytes = bytes_left; } } close(fd); /* If some songs don't have performer info, we copy the cuesheet performer */ int i; for (i = 0; i < cue->track_count; i++) { if (*(cue->tracks[i].performer) == '\0') strlcpy(cue->tracks[i].performer, cue->performer, MAX_NAME*3); if (*(cue->tracks[i].songwriter) == '\0') strlcpy(cue->tracks[i].songwriter, cue->songwriter, MAX_NAME*3); } return true; } /* takes care of seeking to a track in a playlist * returns false if audio isn't playing */ static bool seek(unsigned long pos) { if (!(audio_status() & AUDIO_STATUS_PLAY)) { return false; } else { #if (CONFIG_CODEC == SWCODEC) audio_pre_ff_rewind(); audio_ff_rewind(pos); #else audio_pause(); audio_ff_rewind(pos); audio_resume(); #endif return true; } } /* returns the index of the track currently being played and updates the information about the current track. */ int cue_find_current_track(struct cuesheet *cue, unsigned long curpos) { int i=0; while (i < cue->track_count-1 && cue->tracks[i+1].offset < curpos) i++; cue->curr_track_idx = i; cue->curr_track = cue->tracks + i; return i; } /* callback that gives list item titles for the cuesheet browser */ static const char* list_get_name_cb(int selected_item, void *data, char *buffer, size_t buffer_len) { struct cuesheet *cue = (struct cuesheet *)data; if (selected_item & 1) strlcpy(buffer, cue->tracks[selected_item/2].title, buffer_len); else snprintf(buffer, buffer_len, "%02d. %s", selected_item/2+1, cue->tracks[selected_item/2].performer); return buffer; } void browse_cuesheet(struct cuesheet *cue) { struct gui_synclist lists; int action; bool done = false; int sel; char title[MAX_PATH]; struct cuesheet_file cue_file; struct mp3entry *id3 = audio_current_track(); snprintf(title, MAX_PATH, "%s: %s", cue->performer, cue->title); gui_synclist_init(&lists, list_get_name_cb, cue, false, 2, NULL); gui_synclist_set_nb_items(&lists, 2*cue->track_count); gui_synclist_set_title(&lists, title, 0); if (id3) { gui_synclist_select_item(&lists, 2*cue_find_current_track(cue, id3->elapsed)); } while (!done) { gui_synclist_draw(&lists); action = get_action(CONTEXT_LIST,TIMEOUT_BLOCK); if (gui_synclist_do_button(&lists, &action, LIST_WRAP_UNLESS_HELD)) continue; switch (action) { case ACTION_STD_OK: id3 = audio_current_track(); if (id3 && *id3->path && strcmp(id3->path, "No file!")) { look_for_cuesheet_file(id3, &cue_file); if (id3->cuesheet && !strcmp(cue->path, cue_file.path)) { sel = gui_synclist_get_sel_pos(&lists); seek(cue->tracks[sel/2].offset); } } break; case ACTION_STD_CANCEL: done = true; } } } bool display_cuesheet_content(char* filename) { size_t bufsize = 0; struct cuesheet_file cue_file; struct cuesheet *cue = (struct cuesheet *)plugin_get_buffer(&bufsize); if (!cue || bufsize < sizeof(struct cuesheet)) return false; strlcpy(cue_file.path, filename, MAX_PATH); cue_file.pos = 0; cue_file.size = 0; if (!parse_cuesheet(&cue_file, cue)) return false; browse_cuesheet(cue); return true; } /* skips backwards or forward in the current cuesheet * the return value indicates whether we're still in a cusheet after skipping * it also returns false if we weren't in a cuesheet. * direction should be 1 or -1. */ bool curr_cuesheet_skip(struct cuesheet *cue, int direction, unsigned long curr_pos) { int track = cue_find_current_track(cue, curr_pos); if (direction >= 0 && track == cue->track_count - 1) { /* we want to get out of the cuesheet */ return false; } else { if (!(direction <= 0 && track == 0)) { /* If skipping forward, skip to next cuesheet segment. If skipping backward before DEFAULT_SKIP_TRESH milliseconds have elapsed, skip to previous cuesheet segment. If skipping backward after DEFAULT_SKIP_TRESH seconds have elapsed, skip to the start of the current cuesheet segment */ if (direction == 1 || ((curr_pos - cue->tracks[track].offset) < DEFAULT_SKIP_TRESH)) { track += direction; } } seek(cue->tracks[track].offset); return true; } } #ifdef HAVE_LCD_BITMAP static inline void draw_veritcal_line_mark(struct screen * screen, int x, int y, int h) { screen->set_drawmode(DRMODE_COMPLEMENT); screen->vline(x, y, y+h-1); } /* draw the cuesheet markers for a track of length "tracklen", between (x,y) and (x+w,y) */ void cue_draw_markers(struct screen *screen, struct cuesheet *cue, unsigned long tracklen, int x, int y, int w, int h) { int i,xi; unsigned long tracklen_seconds = tracklen/1000; /* duration in seconds */ for (i=1; i < cue->track_count; i++) { /* Convert seconds prior to multiplication to avoid overflow. */ xi = x + (w * (cue->tracks[i].offset/1000)) / tracklen_seconds; draw_veritcal_line_mark(screen, xi, y, h); } } #endif bool cuesheet_subtrack_changed(struct mp3entry *id3) { struct cuesheet *cue = id3->cuesheet; if (cue && (id3->elapsed < cue->curr_track->offset || (cue->curr_track_idx < cue->track_count - 1 && id3->elapsed >= (cue->curr_track+1)->offset))) { cue_find_current_track(cue, id3->elapsed); return true; } return false; }