/*************************************************************************** * __________ __ ___. * 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. * ****************************************************************************/ #include "config.h" #include #include #include "system.h" #include "kernel.h" #include "lcd.h" #include "menu.h" #include "button.h" #include "mp3_playback.h" #include "settings.h" #include "status.h" #include "screens.h" #ifdef HAVE_LCD_BITMAP #include "icons.h" #include "font.h" #include "widgets.h" #endif #include "lang.h" #include "sprintf.h" #include "talk.h" #include "misc.h" #include "sound.h" #if CONFIG_CODEC == MAS3587F #include "peakmeter.h" #include "mas.h" #endif static const char* const fmt[] = { "", /* no decimals */ "%d.%d %s ", /* 1 decimal */ "%d.%02d %s " /* 2 decimals */ }; bool set_sound(const char* string, int* variable, int setting) { bool done = false; bool changed = true; int min, max; int val; int numdec; int integer; int dec; const char* unit; char str[32]; int talkunit = UNIT_INT; int steps; int button; unit = sound_unit(setting); numdec = sound_numdecimals(setting); steps = sound_steps(setting); min = sound_min(setting); max = sound_max(setting); if (*unit == 'd') /* crude reconstruction */ talkunit = UNIT_DB; else if (*unit == '%') talkunit = UNIT_PERCENT; else if (*unit == 'H') talkunit = UNIT_HERTZ; #ifdef HAVE_LCD_BITMAP if(global_settings.statusbar) lcd_setmargins(0, STATUSBAR_HEIGHT); else lcd_setmargins(0, 0); #endif lcd_clear_display(); lcd_puts_scroll(0,0,string); while (!done) { if (changed) { val = sound_val2phys(setting, *variable); if(numdec) { integer = val / (10 * numdec); dec = val % (10 * numdec); snprintf(str,sizeof str, fmt[numdec], integer, dec, unit); } else { snprintf(str,sizeof str,"%d %s ", val, unit); } if (global_settings.talk_menu) talk_value(val, talkunit, false); /* speak it */ } lcd_puts(0,1,str); status_draw(true); lcd_update(); changed = false; button = button_get_w_tmo(HZ/2); switch( button ) { case SETTINGS_INC: case SETTINGS_INC | BUTTON_REPEAT: (*variable)+=steps; if(*variable > max ) *variable = max; changed = true; break; case SETTINGS_DEC: case SETTINGS_DEC | BUTTON_REPEAT: (*variable)-=steps; if(*variable < min ) *variable = min; changed = true; break; case SETTINGS_OK: case SETTINGS_CANCEL: #ifdef SETTINGS_OK2 case SETTINGS_OK2: #endif #ifdef SETTINGS_CANCEL2 case SETTINGS_CANCEL2: #endif done = true; break; default: if(default_event_handler(button) == SYS_USB_CONNECTED) return true; break; } if (changed) sound_set(setting, *variable); } lcd_stop_scroll(); return false; } static bool volume(void) { return set_sound(str(LANG_VOLUME), &global_settings.volume, SOUND_VOLUME); } static bool balance(void) { return set_sound(str(LANG_BALANCE), &global_settings.balance, SOUND_BALANCE); } static bool bass(void) { return set_sound(str(LANG_BASS), &global_settings.bass, SOUND_BASS); } static bool treble(void) { return set_sound(str(LANG_TREBLE), &global_settings.treble, SOUND_TREBLE); } #if (CONFIG_CODEC == MAS3587F) || (CONFIG_CODEC == MAS3539F) static bool loudness(void) { return set_sound(str(LANG_LOUDNESS), &global_settings.loudness, SOUND_LOUDNESS); } static bool mdb_strength(void) { return set_sound(str(LANG_MDB_STRENGTH), &global_settings.mdb_strength, SOUND_MDB_STRENGTH); } static bool mdb_harmonics(void) { return set_sound(str(LANG_MDB_HARMONICS), &global_settings.mdb_harmonics, SOUND_MDB_HARMONICS); } static bool mdb_center(void) { return set_sound(str(LANG_MDB_CENTER), &global_settings.mdb_center, SOUND_MDB_CENTER); } static bool mdb_shape(void) { return set_sound(str(LANG_MDB_SHAPE), &global_settings.mdb_shape, SOUND_MDB_SHAPE); } static void set_mdb_enable(bool value) { sound_set(SOUND_MDB_ENABLE, (int)value); } static bool mdb_enable(void) { return set_bool_options(str(LANG_MDB_ENABLE), &global_settings.mdb_enable, STR(LANG_SET_BOOL_YES), STR(LANG_SET_BOOL_NO), set_mdb_enable); } static void set_superbass(bool value) { sound_set(SOUND_SUPERBASS, (int)value); } static bool superbass(void) { return set_bool_options(str(LANG_SUPERBASS), &global_settings.superbass, STR(LANG_SET_BOOL_YES), STR(LANG_SET_BOOL_NO), set_superbass); } static void set_avc(int val) { sound_set(SOUND_AVC, val); } static bool avc(void) { static const struct opt_items names[] = { { STR(LANG_OFF) }, { "20ms", TALK_ID(20, UNIT_MS) }, { "2s", TALK_ID(2, UNIT_SEC) }, { "4s", TALK_ID(4, UNIT_SEC) }, { "8s", TALK_ID(8, UNIT_SEC) } }; return set_option(str(LANG_DECAY), &global_settings.avc, INT, names, 5, set_avc); } #endif #ifdef HAVE_RECORDING static bool recsource(void) { static const struct opt_items names[] = { { STR(LANG_RECORDING_SRC_MIC) }, { STR(LANG_RECORDING_SRC_LINE) }, #ifdef HAVE_SPDIF_IN { STR(LANG_RECORDING_SRC_DIGITAL) }, #endif }; return set_option(str(LANG_RECORDING_SOURCE), &global_settings.rec_source, INT, names, sizeof(names)/sizeof(struct opt_items), NULL ); } static bool recfrequency(void) { static const struct opt_items names[] = { { "44.1kHz", TALK_ID(44, UNIT_KHZ) }, { "48kHz", TALK_ID(48, UNIT_KHZ) }, { "32kHz", TALK_ID(32, UNIT_KHZ) }, { "22.05kHz", TALK_ID(22, UNIT_KHZ) }, { "24kHz", TALK_ID(24, UNIT_KHZ) }, { "16kHz", TALK_ID(16, UNIT_KHZ) } }; return set_option(str(LANG_RECORDING_FREQUENCY), &global_settings.rec_frequency, INT, names, 6, NULL ); } static bool recchannels(void) { static const struct opt_items names[] = { { STR(LANG_CHANNEL_STEREO) }, { STR(LANG_CHANNEL_MONO) } }; return set_option(str(LANG_RECORDING_CHANNELS), &global_settings.rec_channels, INT, names, 2, NULL ); } static bool recquality(void) { return set_int(str(LANG_RECORDING_QUALITY), "", UNIT_INT, &global_settings.rec_quality, NULL, 1, 0, 7, NULL ); } static bool receditable(void) { return set_bool(str(LANG_RECORDING_EDITABLE), &global_settings.rec_editable); } static bool rectimesplit(void) { static const struct opt_items names[] = { { STR(LANG_OFF) }, { "00:05" , TALK_ID(5, UNIT_MIN) }, { "00:10" , TALK_ID(10, UNIT_MIN) }, { "00:15" , TALK_ID(15, UNIT_MIN) }, { "00:30" , TALK_ID(30, UNIT_MIN) }, { "01:00" , TALK_ID(1, UNIT_HOUR) }, { "01:14" , TALK_ID(74, UNIT_MIN) }, { "01:20" , TALK_ID(80, UNIT_MIN) }, { "02:00" , TALK_ID(2, UNIT_HOUR) }, { "04:00" , TALK_ID(4, UNIT_HOUR) }, { "06:00" , TALK_ID(6, UNIT_HOUR) }, { "08:00" , TALK_ID(8, UNIT_HOUR) }, { "10:00" , TALK_ID(10, UNIT_HOUR) }, { "12:00" , TALK_ID(12, UNIT_HOUR) }, { "18:00" , TALK_ID(18, UNIT_HOUR) }, { "24:00" , TALK_ID(24, UNIT_HOUR) } }; return set_option(str(LANG_RECORD_TIMESPLIT), &global_settings.rec_timesplit, INT, names, 16, NULL ); } static bool recprerecord(void) { static const struct opt_items names[] = { { STR(LANG_OFF) }, { "1s", TALK_ID(1, UNIT_SEC) }, { "2s", TALK_ID(2, UNIT_SEC) }, { "3s", TALK_ID(3, UNIT_SEC) }, { "4s", TALK_ID(4, UNIT_SEC) }, { "5s", TALK_ID(5, UNIT_SEC) }, { "6s", TALK_ID(6, UNIT_SEC) }, { "7s", TALK_ID(7, UNIT_SEC) }, { "8s", TALK_ID(8, UNIT_SEC) }, { "9s", TALK_ID(9, UNIT_SEC) }, { "10s", TALK_ID(10, UNIT_SEC) }, { "11s", TALK_ID(11, UNIT_SEC) }, { "12s", TALK_ID(12, UNIT_SEC) }, { "13s", TALK_ID(13, UNIT_SEC) }, { "14s", TALK_ID(14, UNIT_SEC) }, { "15s", TALK_ID(15, UNIT_SEC) }, { "16s", TALK_ID(16, UNIT_SEC) }, { "17s", TALK_ID(17, UNIT_SEC) }, { "18s", TALK_ID(18, UNIT_SEC) }, { "19s", TALK_ID(19, UNIT_SEC) }, { "20s", TALK_ID(20, UNIT_SEC) }, { "21s", TALK_ID(21, UNIT_SEC) }, { "22s", TALK_ID(22, UNIT_SEC) }, { "23s", TALK_ID(23, UNIT_SEC) }, { "24s", TALK_ID(24, UNIT_SEC) }, { "25s", TALK_ID(25, UNIT_SEC) }, { "26s", TALK_ID(26, UNIT_SEC) }, { "27s", TALK_ID(27, UNIT_SEC) }, { "28s", TALK_ID(28, UNIT_SEC) }, { "29s", TALK_ID(29, UNIT_SEC) }, { "30s", TALK_ID(30, UNIT_SEC) } }; return set_option(str(LANG_RECORD_PRERECORD_TIME), &global_settings.rec_prerecord_time, INT, names, 31, NULL ); } static bool recdirectory(void) { static const struct opt_items names[] = { { rec_base_directory, -1 }, { STR(LANG_RECORD_CURRENT_DIR) } }; return set_option(str(LANG_RECORD_DIRECTORY), &global_settings.rec_directory, INT, names, 2, NULL ); } static bool reconstartup(void) { return set_bool(str(LANG_RECORD_STARTUP), &global_settings.rec_startup); } #endif /* MAS3587F */ static void set_chanconf(int val) { sound_set(SOUND_CHANNELS, val); } static bool chanconf(void) { static const struct opt_items names[] = { { STR(LANG_CHANNEL_STEREO) }, { STR(LANG_CHANNEL_MONO) }, { STR(LANG_CHANNEL_CUSTOM) }, { STR(LANG_CHANNEL_LEFT) }, { STR(LANG_CHANNEL_RIGHT) }, { STR(LANG_CHANNEL_KARAOKE) } }; return set_option(str(LANG_CHANNEL), &global_settings.channel_config, INT, names, 6, set_chanconf ); } static bool stereo_width(void) { return set_sound(str(LANG_STEREO_WIDTH), &global_settings.stereo_width, SOUND_STEREO_WIDTH); } bool sound_menu(void) { int m; bool result; static const struct menu_item items[] = { { ID2P(LANG_VOLUME), volume }, { ID2P(LANG_BASS), bass }, { ID2P(LANG_TREBLE), treble }, { ID2P(LANG_BALANCE), balance }, { ID2P(LANG_CHANNEL_MENU), chanconf }, { ID2P(LANG_STEREO_WIDTH), stereo_width }, #if (CONFIG_CODEC == MAS3587F) || (CONFIG_CODEC == MAS3539F) { ID2P(LANG_LOUDNESS), loudness }, { ID2P(LANG_AUTOVOL), avc }, { ID2P(LANG_SUPERBASS), superbass }, { ID2P(LANG_MDB_ENABLE), mdb_enable }, { ID2P(LANG_MDB_STRENGTH), mdb_strength }, { ID2P(LANG_MDB_HARMONICS), mdb_harmonics }, { ID2P(LANG_MDB_CENTER), mdb_center }, { ID2P(LANG_MDB_SHAPE), mdb_shape }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #ifdef HAVE_RECORDING enum trigger_menu_option { TRIGGER_MODE, PRERECORD_TIME, START_THRESHOLD, START_DURATION, STOP_THRESHOLD, STOP_POSTREC, STOP_GAP, TRIG_OPTION_COUNT, }; #if !defined(SIMULATOR) && CONFIG_CODEC == MAS3587F static char* create_thres_str(int threshold) { static char retval[6]; if (threshold < 0) { if (threshold < -88) { snprintf (retval, sizeof retval, "%s", str(LANG_DB_INF)); } else { snprintf (retval, sizeof retval, "%ddb", threshold + 1); } } else { snprintf (retval, sizeof retval, "%d%%", threshold); } return retval; } #define INF_DB (-89) static void change_threshold(int *threshold, int change) { if (global_settings.peak_meter_dbfs) { if (*threshold >= 0) { int db = (calc_db(*threshold * MAX_PEAK / 100) - 9000) / 100; *threshold = db; } *threshold += change; if (*threshold > -1) { *threshold = INF_DB; } else if (*threshold < INF_DB) { *threshold = -1; } } else { if (*threshold < 0) { *threshold = peak_meter_db2sample(*threshold * 100) * 100 / MAX_PEAK; } *threshold += change; if (*threshold > 100) { *threshold = 0; } else if (*threshold < 0) { *threshold = 100; } } } /* Variable button definitions */ #if CONFIG_KEYPAD == RECORDER_PAD #define TRIG_CANCEL BUTTON_OFF #define TRIG_ACCEPT BUTTON_PLAY #define TRIG_RESET_SIM BUTTON_F2 #elif CONFIG_KEYPAD == ONDIO_PAD #define TRIG_CANCEL BUTTON_OFF #define TRIG_ACCEPT BUTTON_MENU #endif /** * Displays a menu for editing the trigger settings. */ bool rectrigger(void) { int exit_request = false; enum trigger_menu_option selected = TRIGGER_MODE; bool retval = false; int old_x_margin, old_y_margin; #define TRIGGER_MODE_COUNT 3 static const unsigned char *trigger_modes[] = { ID2P(LANG_OFF), ID2P(LANG_RECORD_TRIG_NOREARM), ID2P(LANG_RECORD_TRIG_REARM) }; #define PRERECORD_TIMES_COUNT 31 static const unsigned char *prerecord_times[] = { ID2P(LANG_OFF),"1s","2s", "3s", "4s", "5s", "6s", "7s", "8s", "9s", "10s", "11s", "12s", "13s", "14s", "15s", "16s", "17s", "18s", "19s", "20s", "21s", "22s", "23s", "24s", "25s", "26s", "27s", "28s", "29s", "30s" }; static const unsigned char *option_name[] = { [TRIGGER_MODE] = ID2P(LANG_RECORD_TRIGGER_MODE), [PRERECORD_TIME] = ID2P(LANG_RECORD_PRERECORD_TIME), [START_THRESHOLD] = ID2P(LANG_RECORD_START_THRESHOLD), [START_DURATION] = ID2P(LANG_RECORD_MIN_DURATION), [STOP_THRESHOLD] = ID2P(LANG_RECORD_STOP_THRESHOLD), [STOP_POSTREC] = ID2P(LANG_RECORD_STOP_POSTREC), [STOP_GAP] = ID2P(LANG_RECORD_STOP_GAP) }; int old_start_thres = global_settings.rec_start_thres; int old_start_duration = global_settings.rec_start_duration; int old_prerecord_time = global_settings.rec_prerecord_time; int old_stop_thres = global_settings.rec_stop_thres; int old_stop_postrec = global_settings.rec_stop_postrec; int old_stop_gap = global_settings.rec_stop_gap; int old_trigger_mode = global_settings.rec_trigger_mode; int offset = 0; int option_lines; int w, h; /* restart trigger with new values */ settings_apply_trigger(); peak_meter_trigger (global_settings.rec_trigger_mode != TRIG_MODE_OFF); lcd_clear_display(); old_x_margin = lcd_getxmargin(); old_y_margin = lcd_getymargin(); if(global_settings.statusbar) lcd_setmargins(0, STATUSBAR_HEIGHT); else lcd_setmargins(0, 0); lcd_getstringsize("M", &w, &h); // two lines are reserved for peak meter and trigger status option_lines = (LCD_HEIGHT/h) - (global_settings.statusbar ? 1:0) - 2; while (!exit_request) { int stat_height = global_settings.statusbar ? STATUSBAR_HEIGHT : 0; int button, i; const char *str; char option_value[TRIG_OPTION_COUNT][7]; snprintf( option_value[TRIGGER_MODE], sizeof option_value[TRIGGER_MODE], "%s", P2STR(trigger_modes[global_settings.rec_trigger_mode])); snprintf ( option_value[PRERECORD_TIME], sizeof option_value[PRERECORD_TIME], "%s", P2STR(prerecord_times[global_settings.rec_prerecord_time])); /* due to value range shift (peak_meter_define_trigger) -1 is 0db */ if (global_settings.rec_start_thres == -1) { str = str(LANG_OFF); } else { str = create_thres_str(global_settings.rec_start_thres); } snprintf( option_value[START_THRESHOLD], sizeof option_value[START_THRESHOLD], "%s", str); snprintf( option_value[START_DURATION], sizeof option_value[START_DURATION], "%s", trig_durations[global_settings.rec_start_duration]); if (global_settings.rec_stop_thres <= INF_DB) { str = str(LANG_OFF); } else { str = create_thres_str(global_settings.rec_stop_thres); } snprintf( option_value[STOP_THRESHOLD], sizeof option_value[STOP_THRESHOLD], "%s", str); snprintf( option_value[STOP_POSTREC], sizeof option_value[STOP_POSTREC], "%s", trig_durations[global_settings.rec_stop_postrec]); snprintf( option_value[STOP_GAP], sizeof option_value[STOP_GAP], "%s", trig_durations[global_settings.rec_stop_gap]); lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID); lcd_fillrect(0, stat_height, LCD_WIDTH, LCD_HEIGHT - stat_height); lcd_set_drawmode(DRMODE_SOLID); status_draw(true); /* reselect FONT_SYSFONT as status_draw has changed the font */ /*lcd_setfont(FONT_SYSFIXED);*/ for (i = 0; i < option_lines; i++) { int x, y; str = P2STR(option_name[i + offset]); lcd_putsxy(5, stat_height + i * h, str); str = option_value[i + offset]; lcd_getstringsize(str, &w, &h); y = stat_height + i * h; x = LCD_WIDTH - w; lcd_putsxy(x, y, str); if ((int)selected == (i + offset)) { lcd_set_drawmode(DRMODE_COMPLEMENT); lcd_fillrect(x, y, w, h); lcd_set_drawmode(DRMODE_SOLID); } } scrollbar(0, stat_height, 4, LCD_HEIGHT - 16 - stat_height, TRIG_OPTION_COUNT, offset, offset + option_lines, VERTICAL); peak_meter_draw_trig(0, LCD_HEIGHT - 8 - TRIG_HEIGHT); button = peak_meter_draw_get_btn(0, LCD_HEIGHT - 8, LCD_WIDTH, 8); lcd_update(); switch (button) { case TRIG_CANCEL: splash(50, true, str(LANG_RESET_DONE_CANCEL)); global_settings.rec_start_thres = old_start_thres; global_settings.rec_start_duration = old_start_duration; global_settings.rec_prerecord_time = old_prerecord_time; global_settings.rec_stop_thres = old_stop_thres; global_settings.rec_stop_postrec = old_stop_postrec; global_settings.rec_stop_gap = old_stop_gap; global_settings.rec_trigger_mode = old_trigger_mode; exit_request = true; break; case TRIG_ACCEPT: exit_request = true; break; case BUTTON_UP: selected += TRIG_OPTION_COUNT - 1; selected %= TRIG_OPTION_COUNT; offset = MIN(offset, (int)selected); offset = MAX(offset, (int)selected - option_lines + 1); break; case BUTTON_DOWN: selected ++; selected %= TRIG_OPTION_COUNT; offset = MIN(offset, (int)selected); offset = MAX(offset, (int)selected - option_lines + 1); break; case BUTTON_RIGHT: case BUTTON_RIGHT | BUTTON_REPEAT: switch (selected) { case TRIGGER_MODE: global_settings.rec_trigger_mode ++; global_settings.rec_trigger_mode %= TRIGGER_MODE_COUNT; break; case PRERECORD_TIME: global_settings.rec_prerecord_time ++; global_settings.rec_prerecord_time %= PRERECORD_TIMES_COUNT; break; case START_THRESHOLD: change_threshold(&global_settings.rec_start_thres, 1); break; case START_DURATION: global_settings.rec_start_duration ++; global_settings.rec_start_duration %= TRIG_DURATION_COUNT; break; case STOP_THRESHOLD: change_threshold(&global_settings.rec_stop_thres, 1); break; case STOP_POSTREC: global_settings.rec_stop_postrec ++; global_settings.rec_stop_postrec %= TRIG_DURATION_COUNT; break; case STOP_GAP: global_settings.rec_stop_gap ++; global_settings.rec_stop_gap %= TRIG_DURATION_COUNT; break; case TRIG_OPTION_COUNT: // avoid compiler warnings break; } peak_meter_trigger(global_settings.rec_trigger_mode!=TRIG_OFF); settings_apply_trigger(); break; case BUTTON_LEFT: case BUTTON_LEFT | BUTTON_REPEAT: switch (selected) { case TRIGGER_MODE: global_settings.rec_trigger_mode+=TRIGGER_MODE_COUNT-1; global_settings.rec_trigger_mode %= TRIGGER_MODE_COUNT; break; case PRERECORD_TIME: global_settings.rec_prerecord_time += PRERECORD_TIMES_COUNT - 1; global_settings.rec_prerecord_time %= PRERECORD_TIMES_COUNT; break; case START_THRESHOLD: change_threshold(&global_settings.rec_start_thres, -1); break; case START_DURATION: global_settings.rec_start_duration += TRIG_DURATION_COUNT-1; global_settings.rec_start_duration %= TRIG_DURATION_COUNT; break; case STOP_THRESHOLD: change_threshold(&global_settings.rec_stop_thres, -1); break; case STOP_POSTREC: global_settings.rec_stop_postrec += TRIG_DURATION_COUNT - 1; global_settings.rec_stop_postrec %= TRIG_DURATION_COUNT; break; case STOP_GAP: global_settings.rec_stop_gap += TRIG_DURATION_COUNT - 1; global_settings.rec_stop_gap %= TRIG_DURATION_COUNT; break; case TRIG_OPTION_COUNT: // avoid compiler warnings break; } peak_meter_trigger(global_settings.rec_trigger_mode!=TRIG_OFF); settings_apply_trigger(); break; #ifdef TRIG_RESET_SIM case TRIG_RESET_SIM: peak_meter_trigger(true); break; #endif case SYS_USB_CONNECTED: if(default_event_handler(button) == SYS_USB_CONNECTED) { retval = true; exit_request = true; } break; } } peak_meter_trigger(false); lcd_setfont(FONT_UI); lcd_setmargins(old_x_margin, old_y_margin); return retval; } #endif bool recording_menu(bool no_source) { int m; int i = 0; struct menu_item items[10]; bool result; items[i].desc = ID2P(LANG_RECORDING_QUALITY); items[i++].function = recquality; items[i].desc = ID2P(LANG_RECORDING_FREQUENCY); items[i++].function = recfrequency; if(!no_source) { items[i].desc = ID2P(LANG_RECORDING_SOURCE); items[i++].function = recsource; } items[i].desc = ID2P(LANG_RECORDING_CHANNELS); items[i++].function = recchannels; items[i].desc = ID2P(LANG_RECORDING_EDITABLE); items[i++].function = receditable; items[i].desc = ID2P(LANG_RECORD_TIMESPLIT); items[i++].function = rectimesplit; items[i].desc = ID2P(LANG_RECORD_PRERECORD_TIME); items[i++].function = recprerecord; items[i].desc = ID2P(LANG_RECORD_DIRECTORY); items[i++].function = recdirectory; items[i].desc = ID2P(LANG_RECORD_STARTUP); items[i++].function = reconstartup; #if !defined(SIMULATOR) && CONFIG_CODEC == MAS3587F items[i].desc = ID2P(LANG_RECORD_TRIGGER); items[i++].function = rectrigger; #endif m=menu_init( items, i, NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #endif