/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 Björn Stenberg * * 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. * ****************************************************************************/ /* ID3 formatting based on code from the MAD Winamp plugin (in_mad.dll), * Copyright (C) 2000-2001 Robert Leslie. * See http://www.mars.org/home/rob/proj/mpeg/ for more information. */ #include #include #include #include "lcd.h" #include "hwcompat.h" #include "font.h" #include "mpeg.h" #include "id3.h" #include "settings.h" #include "playlist.h" #include "kernel.h" #include "system.h" #include "status.h" #include "wps-display.h" #include "debug.h" #include "mas.h" #include "lang.h" #include "powermgmt.h" #include "sprintf.h" #include "backlight.h" #ifdef HAVE_LCD_BITMAP #include "icons.h" #include "widgets.h" #include "peakmeter.h" #endif #define WPS_CONFIG ROCKBOX_DIR "/default.wps" #ifdef HAVE_LCD_BITMAP #define MAX_LINES 13 #define FORMAT_BUFFER_SIZE 800 #else #define MAX_LINES 2 #define FORMAT_BUFFER_SIZE 400 #endif #define MAX_SUBLINES 12 #define DEFAULT_SUBLINE_TIME_MULTIPLIER 20 /* (10ths of sec) */ #define BASE_SUBLINE_TIME 10 /* base time that multiplier is applied to (1/HZ sec, or 100ths of sec) */ #define SUBLINE_RESET -1 #ifdef HAVE_LCD_CHARCELLS static unsigned char wps_progress_pat[8]={0,0,0,0,0,0,0,0}; static bool full_line_progressbar=0; static bool draw_player_progress(const struct mp3entry* id3, int ff_rewwind_count); static void draw_player_fullbar(char* buf, int buf_size, const struct mp3entry* id3, int ff_rewwind_count); static char map_fullbar_char(char ascii_val); #endif static char format_buffer[FORMAT_BUFFER_SIZE]; static char* format_lines[MAX_LINES][MAX_SUBLINES]; static unsigned char line_type[MAX_LINES][MAX_SUBLINES]; static unsigned short time_mult[MAX_LINES][MAX_SUBLINES]; static long subline_expire_time[MAX_LINES]; static int curr_subline[MAX_LINES]; static int ff_rewind_count; bool wps_time_countup = true; static bool wps_loaded = false; /* Set format string to use for WPS, splitting it into lines */ static void wps_format(const char* fmt) { char* buf = format_buffer; char* start_of_line = format_buffer; int line = 0; int subline; strncpy(format_buffer, fmt, sizeof(format_buffer)); format_buffer[sizeof(format_buffer) - 1] = 0; for (line=0; line= 0) { int numread = read(fd, buffer, sizeof(buffer) - 1); if (numread > 0) { buffer[numread] = 0; wps_format(buffer); } close(fd); if ( display ) { bool any_defined_line; lcd_clear_display(); #ifdef HAVE_LCD_BITMAP lcd_setmargins(0,0); #endif for (s=0; s 0; } return false; } /* Format time into buf. * * buf - buffer to format to. * buf_size - size of buffer. * time - time to format, in milliseconds. */ static void format_time(char* buf, int buf_size, long time) { if ( time < 3600000 ) { snprintf(buf, buf_size, "%d:%02d", (int) (time % 3600000 / 60000), (int) (time % 60000 / 1000)); } else { snprintf(buf, buf_size, "%d:%02d:%02d", (int) (time / 3600000), (int) (time % 3600000 / 60000), (int) (time % 60000 / 1000)); } } /* Extract a part from a path. * * buf - buffer extract part to. * buf_size - size of buffer. * path - path to extract from. * level - what to extract. 0 is file name, 1 is parent of file, 2 is * parent of parent, etc. * * Returns buf if the desired level was found, NULL otherwise. */ static char* get_dir(char* buf, int buf_size, const char* path, int level) { const char* sep; const char* last_sep; int len; sep = path + strlen(path); last_sep = sep; while (sep > path) { if ('/' == *(--sep)) { if (!level) { break; } level--; last_sep = sep - 1; } } if (level || (last_sep <= sep)) { return NULL; } len = MIN(last_sep - sep, buf_size - 1); strncpy(buf, sep + 1, len); buf[len] = 0; return buf; } /* Get the tag specified by the two characters at fmt. * * id3 - ID3 data to get tag values from. * nid3 - next-song ID3 data to get tag values from. * tag - string (of two characters) specifying the tag to get. * buf - buffer to certain tags, such as track number, play time or * directory name. * buf_size - size of buffer. * flags - returns the type of the line. See constants i wps-display.h * * Returns the tag. NULL indicates the tag wasn't available. */ static char* get_tag(struct mp3entry* cid3, struct mp3entry* nid3, const char* tag, char* buf, int buf_size, unsigned char* tag_len, unsigned short* subline_time_mult, unsigned char* flags) { struct mp3entry *id3 = cid3; /* default to current song */ if ((0 == tag[0]) || (0 == tag[1])) { *tag_len = 0; return NULL; } *tag_len = 2; switch (tag[0]) { case 'I': /* ID3 Information */ id3 = nid3; /* display next-song data */ *flags |= WPS_REFRESH_DYNAMIC; if(!id3) return NULL; /* no such info (yet) */ /* fall-through */ case 'i': /* ID3 Information */ *flags |= WPS_REFRESH_STATIC; switch (tag[1]) { case 't': /* ID3 Title */ return id3->title; case 'a': /* ID3 Artist */ return id3->artist; case 'n': /* ID3 Track Number */ if (id3->track_string) return id3->track_string; if (id3->tracknum) { snprintf(buf, buf_size, "%d", id3->tracknum); return buf; } return NULL; case 'd': /* ID3 Album/Disc */ return id3->album; case 'c': /* ID3 Composer */ return id3->composer; case 'y': /* year */ if( id3->year_string ) return id3->year_string; if (id3->year) { snprintf(buf, buf_size, "%d", id3->year); return buf; } return NULL; case 'g': /* genre */ return id3_get_genre(id3); case 'v': /* id3 version */ switch (id3->id3version) { case ID3_VER_1_0: return "1"; case ID3_VER_1_1: return "1.1"; case ID3_VER_2_2: return "2.2"; case ID3_VER_2_3: return "2.3"; case ID3_VER_2_4: return "2.4"; default: return NULL; } } break; case 'F': /* File Information */ id3 = nid3; *flags |= WPS_REFRESH_DYNAMIC; if(!id3) return NULL; /* no such info (yet) */ /* fall-through */ case 'f': /* File Information */ *flags |= WPS_REFRESH_STATIC; switch(tag[1]) { case 'v': /* VBR file? */ return id3->vbr ? "(avg)" : NULL; case 'b': /* File Bitrate */ if(id3->bitrate) snprintf(buf, buf_size, "%d", id3->bitrate); else snprintf(buf, buf_size, "?"); return buf; case 'f': /* File Frequency */ snprintf(buf, buf_size, "%d", id3->frequency); return buf; case 'p': /* File Path */ return id3->path; case 'm': /* File Name - With Extension */ return get_dir(buf, buf_size, id3->path, 0); case 'n': /* File Name */ if (get_dir(buf, buf_size, id3->path, 0)) { /* Remove extension */ char* sep = strrchr(buf, '.'); if (NULL != sep) { *sep = 0; } return buf; } else { return NULL; } case 's': /* File Size (in kilobytes) */ snprintf(buf, buf_size, "%d", id3->filesize / 1024); return buf; } break; case 'p': /* Playlist/Song Information */ switch(tag[1]) { case 'b': /* progress bar */ *flags |= WPS_REFRESH_PLAYER_PROGRESS; #ifdef HAVE_LCD_CHARCELLS snprintf(buf, buf_size, "%c", wps_progress_pat[0]); full_line_progressbar=0; return buf; #else return "\x01"; #endif case 'f': /* full-line progress bar */ #ifdef HAVE_LCD_CHARCELLS if(is_new_player()) { *flags |= WPS_REFRESH_PLAYER_PROGRESS; *flags |= WPS_REFRESH_DYNAMIC; full_line_progressbar=1; /* we need 11 characters (full line) for progress-bar */ snprintf(buf, buf_size, " "); } else { /* Tell the user if we have an OldPlayer */ snprintf(buf, buf_size, " "); } return buf; #endif case 'p': /* Playlist Position */ *flags |= WPS_REFRESH_STATIC; snprintf(buf, buf_size, "%d", playlist_get_display_index()); return buf; case 'n': /* Playlist Name (without path) */ *flags |= WPS_REFRESH_STATIC; return playlist_name(NULL, buf, buf_size); case 'e': /* Playlist Total Entries */ *flags |= WPS_REFRESH_STATIC; snprintf(buf, buf_size, "%d", playlist_amount()); return buf; case 'c': /* Current Time in Song */ *flags |= WPS_REFRESH_DYNAMIC; format_time(buf, buf_size, id3->elapsed + ff_rewind_count); return buf; case 'r': /* Remaining Time in Song */ *flags |= WPS_REFRESH_DYNAMIC; format_time(buf, buf_size, id3->length - id3->elapsed - ff_rewind_count); return buf; case 't': /* Total Time */ *flags |= WPS_REFRESH_STATIC; format_time(buf, buf_size, id3->length); return buf; #ifdef HAVE_LCD_BITMAP case 'm': /* Peak Meter */ *flags |= WPS_REFRESH_PEAK_METER; return "\x01"; #endif case 's': /* shuffle */ if ( global_settings.playlist_shuffle ) return "s"; else return NULL; break; case 'v': /* volume */ *flags |= WPS_REFRESH_DYNAMIC; snprintf(buf, buf_size, "%d%%", global_settings.volume); return buf; } break; case 'b': /* battery info */ *flags |= WPS_REFRESH_DYNAMIC; switch (tag[1]) { case 'l': /* battery level */ { int l = battery_level(); if (l > -1) snprintf(buf, buf_size, "%d%%", l); else return "?%"; return buf; } case 't': /* estimated battery time */ { int t = battery_time(); if (t >= 0) snprintf(buf, buf_size, "%dh %dm", t / 60, t % 60); else strncpy(buf, "?h ?m", buf_size); return buf; } } break; case 'D': /* Directory path information */ id3 = nid3; /* next song please! */ *flags |= WPS_REFRESH_DYNAMIC; if(!id3) return NULL; /* no such info (yet) */ /* fall-through */ case 'd': /* Directory path information */ { int level = tag[1] - '0'; *flags |= WPS_REFRESH_STATIC; /* d1 through d9 */ if ((0 < level) && (9 > level)) { return get_dir(buf, buf_size, id3->path, level); } } break; case 't': /* set sub line time multiplier */ { int d = 1; int time_mult = 0; bool have_point = false; bool have_tenth = false; while (((tag[d] >= '0') && (tag[d] <= '9')) || (tag[d] == '.')) { if (tag[d] != '.') { time_mult = time_mult * 10; time_mult = time_mult + tag[d] - '0'; if (have_point) { have_tenth = true; d++; break; } } else { have_point = true; } d++; } if (have_tenth == false) time_mult *= 10; *subline_time_mult = time_mult; *tag_len = d; buf[0] = 0; return buf; } break; } return NULL; } /* Skip to the end of the current %? conditional. * * fmt - string to skip it. Should point to somewhere after the leading * "<" char (and before or at the last ">"). * to_else - if true, skip to the else part (after the "|", if any), else skip * to the end (the ">"). * * Returns the new position in fmt. */ static const char* skip_conditional(const char* fmt, bool to_else) { int level = 1; while (*fmt) { switch (*fmt++) { case '%': break; case '|': if (to_else && (1 == level)) return fmt; continue; case '>': if (0 == --level) { if (to_else) fmt--; return fmt; } continue; default: continue; } switch (*fmt++) { case 0: case '%': case '|': case '<': case '>': break; case '?': while (*fmt && ('<' != *fmt)) fmt++; if ('<' == *fmt) fmt++; level++; break; default: break; } } return fmt; } /* Generate the display based on id3 information and format string. * * buf - char buffer to write the display to. * buf_size - the size of buffer. * id3 - the ID3 data to format with. * nid3 - the ID3 data of the next song (might by NULL) * fmt - format description. * flags - returns the type of the line. See constants i wps-display.h */ static void format_display(char* buf, int buf_size, struct mp3entry* id3, struct mp3entry* nid3, /* next song's id3 */ const char* fmt, unsigned short* subline_time_mult, unsigned char* flags) { char temp_buf[128]; char* buf_start = buf; char* buf_end = buf + buf_size - 1; /* Leave room for end null */ char* value = NULL; int level = 0; unsigned char tag_length; *subline_time_mult = DEFAULT_SUBLINE_TIME_MULTIPLIER; while (fmt && *fmt && buf < buf_end) { switch (*fmt) { case '%': ++fmt; break; case '|': case '>': if (level > 0) { fmt = skip_conditional(fmt, false); level--; continue; } /* Else fall through */ default: *buf++ = *fmt++; continue; } switch (*fmt) { case 0: *buf++ = '%'; break; case 's': *flags |= WPS_REFRESH_SCROLL; ++fmt; break; case '%': case '|': case '<': case '>': case ';': *buf++ = *fmt++; break; case '?': fmt++; value = get_tag(id3, nid3, fmt, temp_buf, sizeof(temp_buf), &tag_length, subline_time_mult, flags); while (*fmt && ('<' != *fmt)) fmt++; if ('<' == *fmt) fmt++; /* No value, so skip to else part */ if ((!value) || (!strlen(value))) fmt = skip_conditional(fmt, true); level++; break; default: value = get_tag(id3, nid3, fmt, temp_buf, sizeof(temp_buf), &tag_length, subline_time_mult, flags); fmt += tag_length; if (value) { while (*value && (buf < buf_end)) *buf++ = *value++; } } } *buf = 0; /* if resulting line is an empty line, set the subline time to 0 */ if (*buf_start == 0) *subline_time_mult = 0; /* If no flags have been set, the line didn't contain any format codes. We still want to refresh it. */ if(*flags == 0) *flags = WPS_REFRESH_STATIC; } bool wps_refresh(struct mp3entry* id3, struct mp3entry* nid3, int ffwd_offset, unsigned char refresh_mode) { char buf[MAX_PATH]; unsigned char flags; int i; bool update_line; bool only_one_subline; bool new_subline_refresh; int search; int search_start; #ifdef HAVE_LCD_BITMAP int h = font_get(FONT_UI)->height; int offset = global_settings.statusbar ? STATUSBAR_HEIGHT : 0; /* to find out wether the peak meter is enabled we assume it wasn't until we find a line that contains the peak meter. We can't use peak_meter_enabled itself because that would mean to turn off the meter thread temporarily. (That shouldn't matter unless yield or sleep is called but who knows...) */ bool enable_pm = false; #endif /* reset to first subline if refresh all flag is set */ if (refresh_mode == WPS_REFRESH_ALL) { for (i=0; i 0 is found or we get back to the subline we started with */ if (curr_subline[i] == SUBLINE_RESET) search_start = 0; else search_start = curr_subline[i]; for (search=0; search 0) && (curr_subline[i] == search_start)) || only_one_subline) { /* no other subline with a time > 0 exists */ subline_expire_time[i] = current_tick + 100 * HZ; break; } else { /* get initial time multiplier and line type flags for this subline */ format_display(buf, sizeof(buf), id3, nid3, format_lines[i][curr_subline[i]], &time_mult[i][curr_subline[i]], &line_type[i][curr_subline[i]]); /* only use this subline if subline time > 0 */ if (time_mult[i][curr_subline[i]] > 0) { new_subline_refresh = true; subline_expire_time[i] = current_tick + BASE_SUBLINE_TIME * time_mult[i][curr_subline[i]]; break; } } } } update_line = false; if ( !format_lines[i][curr_subline[i]] ) break; if ((line_type[i][curr_subline[i]] & refresh_mode) || (refresh_mode == WPS_REFRESH_ALL) || new_subline_refresh) { flags = 0; format_display(buf, sizeof(buf), id3, nid3, format_lines[i][curr_subline[i]], &time_mult[i][curr_subline[i]], &flags); line_type[i][curr_subline[i]] = flags; #ifdef HAVE_LCD_BITMAP /* progress */ if (flags & refresh_mode & WPS_REFRESH_PLAYER_PROGRESS) { scrollbar(0, i*h + offset + 1, LCD_WIDTH, 6, id3->length?id3->length:1, 0, id3->length?id3->elapsed + ff_rewind_count:0, HORIZONTAL); update_line = true; } if (flags & refresh_mode & WPS_REFRESH_PEAK_METER) { /* peak meter */ int peak_meter_y; update_line = true; peak_meter_y = i * h + offset; /* The user might decide to have the peak meter in the last line so that it is only displayed if no status bar is visible. If so we neither want do draw nor enable the peak meter. */ if (peak_meter_y + h <= LCD_HEIGHT) { /* found a line with a peak meter -> remember that we must enable it later */ enable_pm = true; peak_meter_draw(0, peak_meter_y, LCD_WIDTH, MIN(h, LCD_HEIGHT - peak_meter_y)); } } #else /* progress */ if (flags & refresh_mode & WPS_REFRESH_PLAYER_PROGRESS) { if (full_line_progressbar) draw_player_fullbar(buf, sizeof(buf), id3, ff_rewind_count); else draw_player_progress(id3, ff_rewind_count); } #endif if (flags & WPS_REFRESH_SCROLL) { /* scroll line */ if ((refresh_mode & WPS_REFRESH_SCROLL) || new_subline_refresh) { lcd_puts_scroll(0, i, buf); update_line = true; } } else if (flags & (WPS_REFRESH_DYNAMIC | WPS_REFRESH_STATIC)) { /* dynamic / static line */ if ((refresh_mode & (WPS_REFRESH_DYNAMIC|WPS_REFRESH_STATIC)) || new_subline_refresh) { update_line = true; lcd_puts(0, i, buf); } } } #ifdef HAVE_LCD_BITMAP if (update_line) { lcd_update_rect(0, i*h + offset, LCD_WIDTH, h); } #endif } #ifdef HAVE_LCD_BITMAP /* Now we know wether the peak meter is used. So we can enable / disable the peak meter thread */ peak_meter_enabled = enable_pm; #endif #if defined(CONFIG_BACKLIGHT) && !defined(SIMULATOR) if (global_settings.caption_backlight && id3) { /* turn on backlight n seconds before track ends, and turn it off n seconds into the new track. n == backlight_timeout, or 5s */ int n = backlight_timeout_value[global_settings.backlight_timeout] * 1000; if ( n < 1000 ) n = 5000; /* use 5s if backlight is always on or off */ if ((id3->elapsed < 1000) || ((id3->length - id3->elapsed) < (unsigned)n)) backlight_on(); } #endif return true; } bool wps_display(struct mp3entry* id3, struct mp3entry* nid3) { lcd_clear_display(); if (!id3 && !(mpeg_status() & MPEG_STATUS_PLAY)) { #ifdef HAVE_LCD_CHARCELLS lcd_puts(0, 0, str(LANG_END_PLAYLIST_PLAYER)); #else lcd_puts(0, 2, str(LANG_END_PLAYLIST_RECORDER)); lcd_update(); #endif global_settings.resume_index = -1; status_draw(true); sleep(HZ); return true; } else { if (!wps_loaded) { if ( !format_buffer[0] ) { #ifdef HAVE_LCD_BITMAP wps_format("%s%?it<%?in<%in. |>%it|%fn>\n" "%s%?ia<%ia|%?d2<%d2|(root)>>\n" "%s%?id<%id|%?d1<%d1|(root)>> %?iy<(%iy)|>\n" "\n" "%pc/%pt [%pp:%pe]\n" "%fbkBit %?fv %?iv<(id3v%iv)|(no id3)>\n" "%pb\n" "%pm\n"); #else wps_format("%s%pp/%pe: %?it<%it|%fn> - %?ia<%ia|%d2> - %?id<%id|%d1>\n" "%pc%?ps<*|/>%pt\n"); #endif } } } yield(); wps_refresh(id3, nid3, 0, WPS_REFRESH_ALL); status_draw(true); lcd_update(); return false; } #ifdef HAVE_LCD_CHARCELLS static bool draw_player_progress(const struct mp3entry* id3, int ff_rewwind_count) { char player_progressbar[7]; char binline[36]; int songpos = 0; int i,j; if (!id3) return false; memset(binline, 1, sizeof binline); memset(player_progressbar, 1, sizeof player_progressbar); if(id3->elapsed >= id3->length) songpos = 0; else { if(wps_time_countup == false) songpos = ((id3->elapsed - ff_rewwind_count) * 36) / id3->length; else songpos = ((id3->elapsed + ff_rewwind_count) * 36) / id3->length; } for (i=0; i < songpos; i++) binline[i] = 0; for (i=0; i<=6; i++) { for (j=0;j<5;j++) { player_progressbar[i] <<= 1; player_progressbar[i] += binline[i*5+j]; } } lcd_define_pattern(wps_progress_pat[0], player_progressbar); return true; } static void draw_player_fullbar(char* buf, int buf_size, const struct mp3entry* id3, int ff_rewwind_count) { int i,j,lcd_char_pos; char player_progressbar[7]; char binline[36]; static const char numbers[12][4][3]={ {{1,1,1},{1,0,1},{1,0,1},{1,1,1}},/*0*/ {{0,1,0},{1,1,0},{0,1,0},{0,1,0}},/*1*/ {{1,1,1},{0,0,1},{0,1,0},{1,1,1}},/*2*/ {{1,1,1},{0,0,1},{0,1,1},{1,1,1}},/*3*/ {{1,0,0},{1,1,0},{1,1,1},{0,1,0}},/*4*/ {{1,1,1},{1,1,0},{0,0,1},{1,1,0}},/*5*/ {{1,1,1},{1,0,0},{1,1,1},{1,1,1}},/*6*/ {{1,1,1},{0,0,1},{0,1,0},{1,0,0}},/*7*/ {{1,1,1},{1,1,1},{1,0,1},{1,1,1}},/*8*/ {{1,1,1},{1,1,1},{0,0,1},{1,1,1}},/*9*/ {{0,0,0},{0,1,0},{0,0,0},{0,1,0}},/*:*/ {{0,0,0},{0,0,0},{0,0,0},{0,0,0}} /**/ }; int songpos = 0; int digits[6]; int time; char timestr[7]; for (i=0; i < buf_size; i++) buf[i] = ' '; if(id3->elapsed >= id3->length) songpos = 55; else { if(wps_time_countup == false) songpos = ((id3->elapsed - ff_rewwind_count) * 55) / id3->length; else songpos = ((id3->elapsed + ff_rewwind_count) * 55) / id3->length; } time=(id3->elapsed + ff_rewind_count); memset(timestr, 0, sizeof(timestr)); format_time(timestr, sizeof(timestr), time); for(lcd_char_pos=0; lcd_char_pos<6; lcd_char_pos++) { digits[lcd_char_pos] = map_fullbar_char(timestr[lcd_char_pos]); } /* build the progressbar-icons */ for (lcd_char_pos=0; lcd_char_pos<6; lcd_char_pos++) { memset(binline, 0, sizeof binline); memset(player_progressbar, 0, sizeof player_progressbar); /* make the character (progressbar & digit)*/ for (i=0; i<7; i++) { for (j=0;j<5;j++) { /* make the progressbar */ if (lcd_char_pos==(songpos/5)) { /* partial */ if ((j<(songpos%5))&&(i>4)) binline[i*5+j] = 1; else binline[i*5+j] = 0; } else { if (lcd_char_pos<(songpos/5)) { /* full character */ if (i>4) binline[i*5+j] = 1; } } /* insert the digit */ if ((j<3)&&(i<4)) { if (numbers[digits[lcd_char_pos]][i][j]==1) binline[i*5+j] = 1; } } } for (i=0; i<=6; i++) { for (j=0;j<5;j++) { player_progressbar[i] <<= 1; player_progressbar[i] += binline[i*5+j]; } } lcd_define_pattern(wps_progress_pat[lcd_char_pos+1],player_progressbar); buf[lcd_char_pos]=wps_progress_pat[lcd_char_pos+1]; } /* make rest of the progressbar if necessary */ if (songpos/5>5) { /* set the characters positions that use the full 5 pixel wide bar */ for (lcd_char_pos=6; lcd_char_pos < (songpos/5); lcd_char_pos++) buf[lcd_char_pos] = 0x86; /* '_' */ /* build the partial bar character for the tail character position */ memset(binline, 0, sizeof binline); memset(player_progressbar, 0, sizeof player_progressbar); for (i=5; i<7; i++) { for (j=0;j<5;j++) { if (j<(songpos%5)) { binline[i*5+j] = 1; } } } for (i=0; i<7; i++) { for (j=0;j<5;j++) { player_progressbar[i] <<= 1; player_progressbar[i] += binline[i*5+j]; } } lcd_define_pattern(wps_progress_pat[7],player_progressbar); buf[songpos/5]=wps_progress_pat[7]; } } static char map_fullbar_char(char ascii_val) { if (ascii_val >= '0' && ascii_val <= '9') { return(ascii_val - '0'); } else if (ascii_val == ':') { return(10); } else return(11); /* anything besides a number or ':' is mapped to */ } #endif /* ----------------------------------------------------------------- * vim: et sw=4 ts=8 sts=4 tw=78 */