/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 Robert Hak * * 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 "lcd.h" #include "menu.h" #include "mpeg.h" #include "button.h" #include "kernel.h" #include "thread.h" #include "sprintf.h" #include "settings.h" #include "settings_menu.h" #include "backlight.h" #include "playlist.h" /* for playlist_shuffle */ #include "fat.h" /* For dotfile settings */ #include "sleeptimer.h" #include "powermgmt.h" #include "rtc.h" #include "ata.h" #include "tree.h" #include "screens.h" #include "talk.h" #ifdef HAVE_LCD_BITMAP #include "peakmeter.h" #endif #include "lang.h" #ifdef HAVE_MAS3507D void dac_line_in(bool enable); #endif #ifdef HAVE_ALARM_MOD #include "alarm_menu.h" #endif static bool car_adapter_mode(void) { return set_bool_options( str(LANG_CAR_ADAPTER_MODE), &global_settings.car_adapter_mode, STR(LANG_SET_BOOL_YES), STR(LANG_SET_BOOL_NO), set_car_adapter_mode); } static bool contrast(void) { return set_int( str(LANG_CONTRAST), "", UNIT_INT, &global_settings.contrast, lcd_set_contrast, 1, MIN_CONTRAST_SETTING, MAX_CONTRAST_SETTING ); } static bool caption_backlight(void) { bool rc = set_bool( str(LANG_CAPTION_BACKLIGHT), &global_settings.caption_backlight); return rc; } /** * Menu to set icon visibility */ static bool show_icons(void) { return set_bool( str(LANG_SHOW_ICONS), &global_settings.show_icons ); } #ifdef HAVE_LCD_BITMAP /** * Menu to set LCD Mode (normal/inverse) */ static bool invert(void) { bool rc = set_bool_options(str(LANG_INVERT), &global_settings.invert, STR(LANG_INVERT_LCD_INVERSE), STR(LANG_INVERT_LCD_NORMAL), lcd_set_invert_display); return rc; } /** * Menu to set Line Selector Type (Pointer/Bar) */ static bool invert_cursor(void) { return set_bool_options(str(LANG_INVERT_CURSOR), &global_settings.invert_cursor, STR(LANG_INVERT_CURSOR_BAR), STR(LANG_INVERT_CURSOR_POINTER), NULL); } /** * Menu to turn the display+buttons by 180 degrees */ static bool flip_display(void) { bool rc = set_bool( str(LANG_FLIP_DISPLAY), &global_settings.flip_display); button_set_flip(global_settings.flip_display); lcd_set_flip(global_settings.flip_display); return rc; } /** * Menu to configure the battery display on status bar */ static bool battery_type(void) { struct opt_items names[] = { { STR(LANG_DISPLAY_GRAPHIC) }, { STR(LANG_DISPLAY_NUMERIC) } }; return set_option( str(LANG_BATTERY_DISPLAY), &global_settings.battery_type, INT, names, 2, NULL); } /** * Menu to configure the volume display on status bar */ static bool volume_type(void) { struct opt_items names[] = { { STR(LANG_DISPLAY_GRAPHIC) }, { STR(LANG_DISPLAY_NUMERIC) } }; return set_option( str(LANG_VOLUME_DISPLAY), &global_settings.volume_type, INT, names, 2, NULL); } #ifdef PM_DEBUG static bool peak_meter_fps_menu(void) { bool retval = false; retval = set_int( "Refresh rate", "/s", UNIT_PER_SEC, &peak_meter_fps, NULL, 1, 5, 40); return retval; } #endif /* PM_DEBUG */ /** * Menu to set the hold time of normal peaks. */ static bool peak_meter_hold(void) { bool retval = false; struct opt_items names[] = { { STR(LANG_OFF) }, { "200 ms " , TALK_ID(200, UNIT_MS) }, { "300 ms " , TALK_ID(300, UNIT_MS) }, { "500 ms " , TALK_ID(500, UNIT_MS) }, { "1 s" , TALK_ID(1, UNIT_SEC) }, { "2 s" , TALK_ID(2, UNIT_SEC) }, { "3 s" , TALK_ID(3, UNIT_SEC) }, { "4 s" , TALK_ID(4, UNIT_SEC) }, { "5 s" , TALK_ID(5, UNIT_SEC) }, { "6 s" , TALK_ID(6, UNIT_SEC) }, { "7 s" , TALK_ID(7, UNIT_SEC) }, { "8 s" , TALK_ID(8, UNIT_SEC) }, { "9 s" , TALK_ID(9, UNIT_SEC) }, { "10 s" , TALK_ID(10, UNIT_SEC) }, { "15 s" , TALK_ID(15, UNIT_SEC) }, { "20 s" , TALK_ID(20, UNIT_SEC) }, { "30 s" , TALK_ID(30, UNIT_SEC) }, { "1 min" , TALK_ID(1, UNIT_MIN) } }; retval = set_option( str(LANG_PM_PEAK_HOLD), &global_settings.peak_meter_hold, INT, names, 18, NULL); peak_meter_init_times(global_settings.peak_meter_release, global_settings.peak_meter_hold, global_settings.peak_meter_clip_hold); return retval; } /** * Menu to set the hold time of clips. */ static bool peak_meter_clip_hold(void) { bool retval = false; struct opt_items names[] = { { STR(LANG_PM_ETERNAL) }, { "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) }, { "15s" , TALK_ID(15, UNIT_SEC) }, { "20s" , TALK_ID(20, UNIT_SEC) }, { "25s" , TALK_ID(25, UNIT_SEC) }, { "30s" , TALK_ID(30, UNIT_SEC) }, { "45s" , TALK_ID(45, UNIT_SEC) }, { "60s" , TALK_ID(60, UNIT_SEC) }, { "90s" , TALK_ID(90, UNIT_SEC) }, { "2min" , TALK_ID(2, UNIT_MIN) }, { "3min" , TALK_ID(3, UNIT_MIN) }, { "5min" , TALK_ID(5, UNIT_MIN) }, { "10min" , TALK_ID(10, UNIT_MIN) }, { "20min" , TALK_ID(20, UNIT_MIN) }, { "45min" , TALK_ID(45, UNIT_MIN) }, { "90min" , TALK_ID(90, UNIT_MIN) } }; retval = set_option( str(LANG_PM_CLIP_HOLD), &global_settings.peak_meter_clip_hold, INT, names, 25, peak_meter_set_clip_hold); peak_meter_init_times(global_settings.peak_meter_release, global_settings.peak_meter_hold, global_settings.peak_meter_clip_hold); return retval; } /** * Menu to set the release time of the peak meter. */ static bool peak_meter_release(void) { bool retval = false; /* The range of peak_meter_release is restricted so that it fits into a 7 bit number. The 8th bit is used for storing something else in the rtc ram. Also, the max value is 0x7e, since the RTC value 0xff is reserved */ retval = set_int( str(LANG_PM_RELEASE), STR(LANG_PM_UNITS_PER_READ), &global_settings.peak_meter_release, NULL, 1, 1, 0x7e); peak_meter_init_times(global_settings.peak_meter_release, global_settings.peak_meter_hold, global_settings.peak_meter_clip_hold); return retval; } /** * Menu to select wether the scale of the meter * displays dBfs of linear values. */ static bool peak_meter_scale(void) { bool retval = false; bool use_dbfs = global_settings.peak_meter_dbfs; retval = set_bool_options(str(LANG_PM_SCALE), &use_dbfs, STR(LANG_PM_DBFS), STR(LANG_PM_LINEAR), NULL); /* has the user really changed the scale? */ if (use_dbfs != global_settings.peak_meter_dbfs) { /* store the change */ global_settings.peak_meter_dbfs = use_dbfs; peak_meter_set_use_dbfs(use_dbfs); /* If the user changed the scale mode the meaning of peak_meter_min (peak_meter_max) has changed. Thus we have to convert the values stored in global_settings. */ if (use_dbfs) { /* we only store -dBfs */ global_settings.peak_meter_min = -peak_meter_get_min() / 100; global_settings.peak_meter_max = -peak_meter_get_max() / 100; } else { int max; /* linear percent */ global_settings.peak_meter_min = peak_meter_get_min(); /* converting dBfs -> percent results in a precision loss. I assume that the user doesn't bother that conversion dBfs <-> percent isn't symmetrical for odd values but that he wants 0 dBfs == 100%. Thus I 'correct' the percent value resulting from dBfs -> percent manually here */ max = peak_meter_get_max(); global_settings.peak_meter_max = max < 99 ? max : 100; } settings_apply_pm_range(); } return retval; } /** * Adjust the min value of the value range that * the peak meter shall visualize. */ static bool peak_meter_min(void) { bool retval = false; if (global_settings.peak_meter_dbfs) { /* for dBfs scale */ int range_max = -global_settings.peak_meter_max; int min = -global_settings.peak_meter_min; retval = set_int(str(LANG_PM_MIN), str(LANG_PM_DBFS), UNIT_DB, &min, NULL, 1, -89, range_max); global_settings.peak_meter_min = - min; } /* for linear scale */ else { int min = global_settings.peak_meter_min; retval = set_int(str(LANG_PM_MIN), "%", UNIT_PERCENT, &min, NULL, 1, 0, global_settings.peak_meter_max - 1); global_settings.peak_meter_min = (unsigned char)min; } settings_apply_pm_range(); return retval; } /** * Adjust the max value of the value range that * the peak meter shall visualize. */ static bool peak_meter_max(void) { bool retval = false; if (global_settings.peak_meter_dbfs) { /* for dBfs scale */ int range_min = -global_settings.peak_meter_min; int max = -global_settings.peak_meter_max;; retval = set_int(str(LANG_PM_MAX), str(LANG_PM_DBFS), UNIT_DB, &max, NULL, 1, range_min, 0); global_settings.peak_meter_max = - max; } /* for linear scale */ else { int max = global_settings.peak_meter_max; retval = set_int(str(LANG_PM_MAX), "%", UNIT_PERCENT, &max, NULL, 1, global_settings.peak_meter_min + 1, 100); global_settings.peak_meter_max = (unsigned char)max; } settings_apply_pm_range(); return retval; } /** * Menu to select wether the meter is in * precision or in energy saver mode */ static bool peak_meter_performance(void) { bool retval = false; retval = set_bool_options(str(LANG_PM_PERFORMANCE), &global_settings.peak_meter_performance, STR(LANG_PM_HIGH_PERFORMANCE), STR(LANG_PM_ENERGY_SAVER), NULL); if (global_settings.peak_meter_performance) { peak_meter_fps = 25; } else { peak_meter_fps = 20; } return retval; } /** * Menu to configure the peak meter */ static bool peak_meter_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_PM_RELEASE) , peak_meter_release }, { STR(LANG_PM_PEAK_HOLD), peak_meter_hold }, { STR(LANG_PM_CLIP_HOLD), peak_meter_clip_hold }, { STR(LANG_PM_PERFORMANCE), peak_meter_performance }, #ifdef PM_DEBUG { "Refresh rate" , -1 , peak_meter_fps_menu }, #endif { STR(LANG_PM_SCALE) , peak_meter_scale }, { STR(LANG_PM_MIN) , peak_meter_min }, { STR(LANG_PM_MAX) , peak_meter_max }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL ); result = menu_run(m); menu_exit(m); return result; } #endif /* HAVE_LCD_BITMAP */ static bool shuffle(void) { return set_bool( str(LANG_SHUFFLE), &global_settings.playlist_shuffle ); } static bool repeat_mode(void) { bool result; struct opt_items names[] = { { STR(LANG_OFF) }, { STR(LANG_REPEAT_ALL) }, { STR(LANG_REPEAT_ONE) } }; int old_repeat = global_settings.repeat_mode; result = set_option( str(LANG_REPEAT), &global_settings.repeat_mode, INT, names, 3, NULL ); if (old_repeat != global_settings.repeat_mode) mpeg_flush_and_reload_tracks(); return result; } static bool play_selected(void) { return set_bool( str(LANG_PLAY_SELECTED), &global_settings.play_selected ); } static bool dir_filter(void) { struct opt_items names[] = { { STR(LANG_FILTER_ALL) }, { STR(LANG_FILTER_SUPPORTED) }, { STR(LANG_FILTER_MUSIC) }, { STR(LANG_FILTER_PLAYLIST) } }; return set_option( str(LANG_FILTER), &global_settings.dirfilter, INT, names, 4, NULL ); } static bool sort_case(void) { return set_bool( str(LANG_SORT_CASE), &global_settings.sort_case ); } static bool resume(void) { struct opt_items names[] = { { STR(LANG_SET_BOOL_NO) }, { STR(LANG_RESUME_SETTING_ASK) }, { STR(LANG_RESUME_SETTING_ASK_ONCE) }, { STR(LANG_SET_BOOL_YES) } }; return set_option( str(LANG_RESUME), &global_settings.resume, INT, names, 4, NULL ); } static bool autocreatebookmark(void) { struct opt_items names[] = { { STR(LANG_SET_BOOL_NO) }, { STR(LANG_SET_BOOL_YES) }, { STR(LANG_RESUME_SETTING_ASK) }, { STR(LANG_BOOKMARK_SETTINGS_RECENT_ONLY_YES) }, { STR(LANG_BOOKMARK_SETTINGS_RECENT_ONLY_ASK) } }; return set_option( str(LANG_BOOKMARK_SETTINGS_AUTOCREATE), &global_settings.autocreatebookmark, INT, names, 5, NULL ); } static bool autoloadbookmark(void) { struct opt_items names[] = { { STR(LANG_SET_BOOL_NO) }, { STR(LANG_SET_BOOL_YES) }, { STR(LANG_RESUME_SETTING_ASK) } }; return set_option( str(LANG_BOOKMARK_SETTINGS_AUTOLOAD), &global_settings.autoloadbookmark, INT, names, 3, NULL ); } static bool useMRB(void) { struct opt_items names[] = { { STR(LANG_SET_BOOL_NO) }, { STR(LANG_SET_BOOL_YES) }, { STR(LANG_BOOKMARK_SETTINGS_UNIQUE_ONLY) } }; return set_option( str(LANG_BOOKMARK_SETTINGS_MAINTAIN_RECENT_BOOKMARKS), &global_settings.usemrb, INT, names, 3, NULL ); } static bool backlight_on_when_charging(void) { bool result = set_bool(str(LANG_BACKLIGHT_ON_WHEN_CHARGING), &global_settings.backlight_on_when_charging); backlight_set_on_when_charging(global_settings.backlight_on_when_charging); return result; } static bool backlight_timer(void) { struct opt_items names[] = { { STR(LANG_OFF) }, { STR(LANG_ON) }, { "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) }, { "15s", TALK_ID(15, UNIT_SEC) }, { "20s", TALK_ID(20, UNIT_SEC) }, { "25s", TALK_ID(25, UNIT_SEC) }, { "30s", TALK_ID(30, UNIT_SEC) }, { "45s", TALK_ID(45, UNIT_SEC) }, { "60s", TALK_ID(60, UNIT_SEC) }, { "90s", TALK_ID(90, UNIT_SEC) } }; return set_option(str(LANG_BACKLIGHT), &global_settings.backlight_timeout, INT, names, 19, backlight_set_timeout ); } static bool poweroff_idle_timer(void) { struct opt_items names[] = { { STR(LANG_OFF) }, { "1m ", TALK_ID(1, UNIT_MIN) }, { "2m ", TALK_ID(2, UNIT_MIN) }, { "3m ", TALK_ID(3, UNIT_MIN) }, { "4m ", TALK_ID(4, UNIT_MIN) }, { "5m ", TALK_ID(5, UNIT_MIN) }, { "6m ", TALK_ID(6, UNIT_MIN) }, { "7m ", TALK_ID(7, UNIT_MIN) }, { "8m ", TALK_ID(8, UNIT_MIN) }, { "9m ", TALK_ID(9, UNIT_MIN) }, { "10m", TALK_ID(10, UNIT_MIN) }, { "15m", TALK_ID(15, UNIT_MIN) }, { "30m", TALK_ID(30, UNIT_MIN) }, { "45m", TALK_ID(45, UNIT_MIN) }, { "60m", TALK_ID(60, UNIT_MIN) } }; return set_option(str(LANG_POWEROFF_IDLE), &global_settings.poweroff, INT, names, 15, set_poweroff_timeout); } static bool scroll_speed(void) { return set_int(str(LANG_SCROLL), "Hz", UNIT_HERTZ, &global_settings.scroll_speed, &lcd_scroll_speed, 1, 1, 10 ); } static bool scroll_delay(void) { int dummy = global_settings.scroll_delay * (HZ/10); int rc = set_int(str(LANG_SCROLL_DELAY), "ms", UNIT_MS, &dummy, &lcd_scroll_delay, 100, 0, 2500 ); global_settings.scroll_delay = dummy / (HZ/10); return rc; } #ifdef HAVE_LCD_BITMAP static bool scroll_step(void) { return set_int(str(LANG_SCROLL_STEP_EXAMPLE), "pixels", UNIT_PIXEL, &global_settings.scroll_step, &lcd_scroll_step, 1, 1, LCD_WIDTH ); } #endif static bool bidir_limit(void) { return set_int(str(LANG_BIDIR_SCROLL), "%", UNIT_PERCENT, &global_settings.bidir_limit, &lcd_bidir_scroll, 25, 0, 200 ); } #ifdef HAVE_LCD_CHARCELLS static bool jump_scroll(void) { struct opt_items names[] = { { STR(LANG_OFF) }, { STR(LANG_ONE_TIME) }, { "2", TALK_ID(2, UNIT_INT) }, { "3", TALK_ID(3, UNIT_INT) }, { "4", TALK_ID(4, UNIT_INT) }, { STR(LANG_ALWAYS) } }; bool ret; ret=set_option(str(LANG_JUMP_SCROLL), &global_settings.jump_scroll, INT, names, 6, lcd_jump_scroll); return ret; } static bool jump_scroll_delay(void) { int dummy = global_settings.jump_scroll_delay * (HZ/10); int rc = set_int(str(LANG_JUMP_SCROLL_DELAY), "ms", UNIT_MS, &dummy, &lcd_jump_scroll_delay, 100, 0, 2500 ); global_settings.jump_scroll_delay = dummy / (HZ/10); return rc; } #endif #ifndef SIMULATOR /** * Menu to set the battery capacity */ static bool battery_capacity(void) { return set_int(str(LANG_BATTERY_CAPACITY), "mAh", UNIT_MAH, &global_settings.battery_capacity, &set_battery_capacity, 50, 1500, BATTERY_CAPACITY_MAX ); } #endif #ifdef HAVE_CHARGE_CTRL static bool deep_discharge(void) { bool result; result = set_bool( str(LANG_DISCHARGE), &global_settings.discharge ); charge_restart_level = global_settings.discharge ? CHARGE_RESTART_LO : CHARGE_RESTART_HI; return result; } static bool trickle_charge(void) { bool result; result = set_bool( str(LANG_TRICKLE_CHARGE), &global_settings.trickle_charge ); enable_trickle_charge(global_settings.trickle_charge); return result; } #endif #ifdef HAVE_RTC static bool timedate_set(void) { int timedate[7]; /* hour,minute,second,year,month,day,dayofweek */ bool result; timedate[0] = rtc_read(0x03); /* hour */ timedate[1] = rtc_read(0x02); /* minute */ timedate[2] = rtc_read(0x01); /* second */ timedate[3] = rtc_read(0x07); /* year */ timedate[4] = rtc_read(0x06); /* month */ timedate[5] = rtc_read(0x05); /* day */ /* day of week not read, calculated in set_time() */ /* hour */ timedate[0] = ((timedate[0] & 0x30) >> 4) * 10 + (timedate[0] & 0x0f); /* minute */ timedate[1] = ((timedate[1] & 0x70) >> 4) * 10 + (timedate[1] & 0x0f); /* second */ timedate[2] = ((timedate[2] & 0x70) >> 4) * 10 + (timedate[2] & 0x0f); /* year */ timedate[3] = ((timedate[3] & 0xf0) >> 4) * 10 + (timedate[3] & 0x0f); /* month */ timedate[4] = ((timedate[4] & 0x10) >> 4) * 10 + (timedate[4] & 0x0f); /* day */ timedate[5] = ((timedate[5] & 0x30) >> 4) * 10 + (timedate[5] & 0x0f); /* do some range checks */ /* This prevents problems with time/date setting after a power loss */ if (timedate[0] < 0 || timedate[0] > 23 || timedate[1] < 0 || timedate[1] > 59 || timedate[2] < 0 || timedate[2] > 59 || timedate[3] < 0 || timedate[3] > 99 || timedate[4] < 1 || timedate[4] > 12 || timedate[5] < 1 || timedate[5] > 31) { /* hour */ timedate[0] = 0; /* minute */ timedate[1] = 0; /* second */ timedate[2] = 0; /* year */ timedate[3] = 3; /* month */ timedate[4] = 1; /* day */ timedate[5] = 1; } result = set_time(str(LANG_TIME),timedate); if(timedate[0] != -1) { /* hour */ timedate[0] = ((timedate[0]/10) << 4 | timedate[0]%10) & 0x3f; /* minute */ timedate[1] = ((timedate[1]/10) << 4 | timedate[1]%10) & 0x7f; /* second */ timedate[2] = ((timedate[2]/10) << 4 | timedate[2]%10) & 0x7f; /* year */ timedate[3] = ((timedate[3]/10) << 4 | timedate[3]%10) & 0xff; /* month */ timedate[4] = ((timedate[4]/10) << 4 | timedate[4]%10) & 0x1f; /* day */ timedate[5] = ((timedate[5]/10) << 4 | timedate[5]%10) & 0x3f; rtc_write(0x03, timedate[0] | (rtc_read(0x03) & 0xc0)); /* hour */ rtc_write(0x02, timedate[1] | (rtc_read(0x02) & 0x80)); /* minute */ rtc_write(0x01, timedate[2] | (rtc_read(0x01) & 0x80)); /* second */ rtc_write(0x07, timedate[3]); /* year */ rtc_write(0x06, timedate[4] | (rtc_read(0x06) & 0xe0)); /* month */ rtc_write(0x05, timedate[5] | (rtc_read(0x05) & 0xc0)); /* day */ rtc_write(0x04, timedate[6] | (rtc_read(0x04) & 0xf8)); /* dayofweek */ rtc_write(0x00, 0x00); /* 0.1 + 0.01 seconds */ } return result; } static bool timeformat_set(void) { struct opt_items names[] = { { STR(LANG_24_HOUR_CLOCK) }, { STR(LANG_12_HOUR_CLOCK) } }; return set_option(str(LANG_TIMEFORMAT), &global_settings.timeformat, INT, names, 2, NULL); } #endif static bool spindown(void) { return set_int(str(LANG_SPINDOWN), "s", UNIT_SEC, &global_settings.disk_spindown, ata_spindown, 1, 3, 254 ); } #ifdef HAVE_MAS3507D static bool line_in(void) { bool rc = set_bool(str(LANG_LINE_IN), &global_settings.line_in); dac_line_in(global_settings.line_in); return rc; } #endif #ifdef HAVE_ATA_POWER_OFF static bool poweroff(void) { bool rc = set_bool(str(LANG_POWEROFF), &global_settings.disk_poweroff); ata_poweroff(global_settings.disk_poweroff); return rc; } #endif static bool max_files_in_dir(void) { return set_int(str(LANG_MAX_FILES_IN_DIR), "", UNIT_INT, &global_settings.max_files_in_dir, NULL, 50, 50, 10000 ); } static bool max_files_in_playlist(void) { return set_int(str(LANG_MAX_FILES_IN_PLAYLIST), "", UNIT_INT, &global_settings.max_files_in_playlist, NULL, 1000, 1000, 20000 ); } static bool buffer_margin(void) { return set_int(str(LANG_MP3BUFFER_MARGIN), "s", UNIT_SEC, &global_settings.buffer_margin, mpeg_set_buffer_margin, 1, 0, 7 ); } static bool ff_rewind_min_step(void) { struct opt_items names[] = { { "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) }, { "8s", TALK_ID(8, UNIT_SEC) }, { "10s", TALK_ID(10, UNIT_SEC) }, { "15s", TALK_ID(15, UNIT_SEC) }, { "20s", TALK_ID(20, UNIT_SEC) }, { "25s", TALK_ID(25, UNIT_SEC) }, { "30s", TALK_ID(30, UNIT_SEC) }, { "45s", TALK_ID(45, UNIT_SEC) }, { "60s", TALK_ID(60, UNIT_SEC) } }; return set_option(str(LANG_FFRW_STEP), &global_settings.ff_rewind_min_step, INT, names, 14, NULL ); } static bool set_fade_on_stop(void) { return set_bool( str(LANG_FADE_ON_STOP), &global_settings.fade_on_stop ); } static bool ff_rewind_accel(void) { struct opt_items names[] = { { STR(LANG_OFF) }, { "2x/1s", TALK_ID(1, UNIT_SEC) }, { "2x/2s", TALK_ID(2, UNIT_SEC) }, { "2x/3s", TALK_ID(3, UNIT_SEC) }, { "2x/4s", TALK_ID(4, UNIT_SEC) }, { "2x/5s", TALK_ID(5, UNIT_SEC) }, { "2x/6s", TALK_ID(6, UNIT_SEC) }, { "2x/7s", TALK_ID(7, UNIT_SEC) }, { "2x/8s", TALK_ID(8, UNIT_SEC) }, { "2x/9s", TALK_ID(9, UNIT_SEC) }, { "2x/10s", TALK_ID(10, UNIT_SEC) }, { "2x/11s", TALK_ID(11, UNIT_SEC) }, { "2x/12s", TALK_ID(12, UNIT_SEC) }, { "2x/13s", TALK_ID(13, UNIT_SEC) }, { "2x/14s", TALK_ID(14, UNIT_SEC) }, { "2x/15s", TALK_ID(15, UNIT_SEC) } }; return set_option(str(LANG_FFRW_ACCEL), &global_settings.ff_rewind_accel, INT, names, 16, NULL ); } static bool browse_current(void) { return set_bool( str(LANG_FOLLOW), &global_settings.browse_current ); } static bool custom_wps_browse(void) { return rockbox_browse(ROCKBOX_DIR, SHOW_WPS); } static bool custom_cfg_browse(void) { return rockbox_browse(ROCKBOX_DIR, SHOW_CFG); } static bool language_browse(void) { return rockbox_browse(ROCKBOX_DIR LANG_DIR, SHOW_LNG); } #ifdef HAVE_LCD_BITMAP static bool font_browse(void) { return rockbox_browse(ROCKBOX_DIR FONT_DIR, SHOW_FONT); } static bool scroll_bar(void) { return set_bool( str(LANG_SCROLL_BAR), &global_settings.scrollbar ); } static bool status_bar(void) { return set_bool( str(LANG_STATUS_BAR), &global_settings.statusbar ); } static bool button_bar(void) { return set_bool( str(LANG_BUTTON_BAR), &global_settings.buttonbar ); } #endif static bool ff_rewind_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_FFRW_STEP), ff_rewind_min_step }, { STR(LANG_FFRW_ACCEL), ff_rewind_accel }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool playback_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_SHUFFLE), shuffle }, { STR(LANG_REPEAT), repeat_mode }, { STR(LANG_PLAY_SELECTED), play_selected }, { STR(LANG_RESUME), resume }, { STR(LANG_WIND_MENU), ff_rewind_settings_menu }, { STR(LANG_MP3BUFFER_MARGIN), buffer_margin }, { STR(LANG_FADE_ON_STOP), set_fade_on_stop }, }; bool old_shuffle = global_settings.playlist_shuffle; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); if (old_shuffle != global_settings.playlist_shuffle) { if (global_settings.playlist_shuffle) { playlist_randomise(NULL, current_tick, true); } else { playlist_sort(NULL, true); } } return result; } static bool bookmark_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_BOOKMARK_SETTINGS_AUTOCREATE), autocreatebookmark}, { STR(LANG_BOOKMARK_SETTINGS_AUTOLOAD), autoloadbookmark}, { STR(LANG_BOOKMARK_SETTINGS_MAINTAIN_RECENT_BOOKMARKS), useMRB}, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool reset_settings(void) { bool done=false; int line; lcd_clear_display(); #ifdef HAVE_LCD_CHARCELLS line = 0; #else line = 1; lcd_puts(0,0,str(LANG_RESET_ASK_RECORDER)); #endif lcd_puts(0,line,str(LANG_RESET_CONFIRM)); lcd_puts(0,line+1,str(LANG_RESET_CANCEL)); lcd_update(); while(!done) { switch(button_get(true)) { case BUTTON_PLAY: settings_reset(); settings_apply(); lcd_clear_display(); lcd_puts(0,1,str(LANG_RESET_DONE_CLEAR)); done = true; break; #ifdef HAVE_RECORDER_KEYPAD case BUTTON_OFF: #else case BUTTON_STOP: #endif lcd_clear_display(); lcd_puts(0,1,str(LANG_RESET_DONE_CANCEL)); done = true; break; case SYS_USB_CONNECTED: usb_screen(); return true; } } lcd_puts(0,0,str(LANG_RESET_DONE_SETTING)); lcd_update(); sleep(HZ); return false; } static bool fileview_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_CASE_MENU), sort_case }, { STR(LANG_FILTER), dir_filter }, { STR(LANG_FOLLOW), browse_current }, { STR(LANG_SHOW_ICONS), show_icons }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool scroll_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_SCROLL_SPEED), scroll_speed }, { STR(LANG_SCROLL_DELAY), scroll_delay }, #ifdef HAVE_LCD_BITMAP { STR(LANG_SCROLL_STEP), scroll_step }, #endif { STR(LANG_BIDIR_SCROLL), bidir_limit }, #ifdef HAVE_LCD_CHARCELLS { STR(LANG_JUMP_SCROLL), jump_scroll }, { STR(LANG_JUMP_SCROLL_DELAY), jump_scroll_delay }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool lcd_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_BACKLIGHT), backlight_timer }, { STR(LANG_BACKLIGHT_ON_WHEN_CHARGING), backlight_on_when_charging }, { STR(LANG_CAPTION_BACKLIGHT), caption_backlight }, { STR(LANG_CONTRAST), contrast }, #ifdef HAVE_LCD_BITMAP { STR(LANG_INVERT), invert }, { STR(LANG_FLIP_DISPLAY), flip_display }, { STR(LANG_INVERT_CURSOR), invert_cursor }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #ifdef HAVE_LCD_BITMAP static bool bars_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_SCROLL_BAR), scroll_bar }, { STR(LANG_STATUS_BAR), status_bar }, { STR(LANG_BUTTON_BAR), button_bar }, { STR(LANG_VOLUME_DISPLAY), volume_type }, { STR(LANG_BATTERY_DISPLAY), battery_type }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #endif static bool display_settings_menu(void) { int m; bool result; struct menu_item items[] = { #ifdef HAVE_LCD_BITMAP { STR(LANG_CUSTOM_FONT), font_browse }, #endif { STR(LANG_WHILE_PLAYING), custom_wps_browse }, { STR(LANG_LCD_MENU), lcd_settings_menu }, { STR(LANG_SCROLL_MENU), scroll_settings_menu }, #ifdef HAVE_LCD_BITMAP { STR(LANG_BARS_MENU), bars_settings_menu }, { STR(LANG_PM_MENU), peak_meter_menu }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool firmware_browse(void) { return rockbox_browse(ROCKBOX_DIR, SHOW_MOD); } static bool battery_settings_menu(void) { int m; bool result; struct menu_item items[] = { #ifdef HAVE_CHARGE_CTRL { STR(LANG_DISCHARGE), deep_discharge }, { STR(LANG_TRICKLE_CHARGE), trickle_charge }, #endif #ifndef SIMULATOR { STR(LANG_BATTERY_CAPACITY), battery_capacity }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool disk_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_SPINDOWN), spindown }, #ifdef HAVE_ATA_POWER_OFF { STR(LANG_POWEROFF), poweroff }, #endif }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #ifdef HAVE_LCD_BITMAP static bool time_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_TIME), timedate_set }, { STR(LANG_TIMEFORMAT), timeformat_set }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } #endif static bool manage_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_CUSTOM_CFG), custom_cfg_browse }, { STR(LANG_FIRMWARE), firmware_browse }, { STR(LANG_RESET), reset_settings }, { STR(LANG_SAVE_SETTINGS), settings_save_config }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool limits_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_MAX_FILES_IN_DIR), max_files_in_dir }, { STR(LANG_MAX_FILES_IN_PLAYLIST), max_files_in_playlist }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } static bool system_settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_BATTERY_MENU), battery_settings_menu }, { STR(LANG_DISK_MENU), disk_settings_menu }, #ifdef HAVE_RTC { STR(LANG_TIME_MENU), time_settings_menu }, #endif { STR(LANG_POWEROFF_IDLE), poweroff_idle_timer }, { STR(LANG_SLEEP_TIMER), sleeptimer_screen }, #ifdef HAVE_ALARM_MOD { STR(LANG_ALARM_MOD_ALARM_MENU), alarm_screen }, #endif { STR(LANG_LIMITS_MENU), limits_settings_menu }, #ifdef HAVE_MAS3507D { STR(LANG_LINE_IN), line_in }, #endif { STR(LANG_CAR_ADAPTER_MODE), car_adapter_mode }, { STR(LANG_MANAGE_MENU), manage_settings_menu }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; } bool settings_menu(void) { int m; bool result; struct menu_item items[] = { { STR(LANG_PLAYBACK), playback_settings_menu }, { STR(LANG_FILE), fileview_settings_menu }, { STR(LANG_DISPLAY), display_settings_menu }, { STR(LANG_SYSTEM), system_settings_menu }, { STR(LANG_BOOKMARK_SETTINGS),bookmark_settings_menu }, { STR(LANG_LANGUAGE), language_browse }, }; m=menu_init( items, sizeof(items) / sizeof(*items), NULL, NULL, NULL, NULL); result = menu_run(m); menu_exit(m); return result; }