/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) Robert E. Hak (2002), Linus Nielsen Feltzing (2002) * * 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 "config.h" #include "font.h" #include "kernel.h" #include "string.h" /* for memcmp oO*/ #include "sound.h" #include "settings.h" #include "viewport.h" #include "metadata.h" #include "icons.h" #include "powermgmt.h" #include "usb.h" #include "led.h" #include "screen_access.h" #include "status.h" /* needed for battery_state global var */ #include "action.h" /* for keys_locked */ #include "statusbar.h" #ifdef HAVE_RECORDING #include "audio.h" #include "recording.h" #include "pcm_record.h" #endif #include "appevents.h" #include "timefuncs.h" /* FIXME: should be removed from icon.h to avoid redefinition, but still needed for compatibility with old system */ #define ICONS_SPACING 2 #define STATUSBAR_BATTERY_X_POS 0*ICONS_SPACING #define STATUSBAR_BATTERY_WIDTH (2+(2*SYSFONT_WIDTH)) #define STATUSBAR_PLUG_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ ICONS_SPACING #define STATUSBAR_BATTERY_HEIGHT SB_ICON_HEIGHT - 1 #define STATUSBAR_PLUG_WIDTH 7 #define STATUSBAR_VOLUME_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ 2*ICONS_SPACING #define STATUSBAR_VOLUME_WIDTH (2+(2*SYSFONT_WIDTH)) #define STATUSBAR_ENCODER_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ 2*ICONS_SPACING - 1 #define STATUSBAR_ENCODER_WIDTH 18 #define STATUSBAR_PLAY_STATE_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ 3*ICONS_SPACING #define STATUSBAR_PLAY_STATE_WIDTH 7 #define STATUSBAR_PLAY_MODE_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ 4*ICONS_SPACING #define STATUSBAR_PLAY_MODE_WIDTH 7 #define STATUSBAR_RECFREQ_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ 3*ICONS_SPACING #define STATUSBAR_RECFREQ_WIDTH 12 #define STATUSBAR_RECCHANNELS_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ STATUSBAR_RECFREQ_WIDTH + \ 4*ICONS_SPACING #define STATUSBAR_RECCHANNELS_WIDTH 5 #define STATUSBAR_SHUFFLE_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ STATUSBAR_PLAY_MODE_WIDTH + \ 5*ICONS_SPACING #define STATUSBAR_SHUFFLE_WIDTH 7 #define STATUSBAR_LOCKM_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ STATUSBAR_PLAY_MODE_WIDTH + \ STATUSBAR_SHUFFLE_WIDTH + \ 6*ICONS_SPACING #define STATUSBAR_LOCKM_WIDTH 5 #define STATUSBAR_LOCKR_X_POS STATUSBAR_X_POS + \ STATUSBAR_BATTERY_WIDTH + \ STATUSBAR_PLUG_WIDTH + \ STATUSBAR_VOLUME_WIDTH + \ STATUSBAR_PLAY_STATE_WIDTH + \ STATUSBAR_PLAY_MODE_WIDTH + \ STATUSBAR_SHUFFLE_WIDTH + \ STATUSBAR_LOCKM_WIDTH + \ 7*ICONS_SPACING #define STATUSBAR_LOCKR_WIDTH 5 #if (CONFIG_LED == LED_VIRTUAL) || defined(HAVE_REMOTE_LCD) #define STATUSBAR_DISK_WIDTH 12 #define STATUSBAR_DISK_X_POS(statusbar_width) statusbar_width - \ STATUSBAR_DISK_WIDTH #else #define STATUSBAR_DISK_WIDTH 0 #endif #define STATUSBAR_TIME_X_END(statusbar_width) statusbar_width - 1 - \ STATUSBAR_DISK_WIDTH struct gui_syncstatusbar statusbars; /* Prototypes */ static void gui_statusbar_icon_battery(struct screen * display, int percent, int batt_charge_step); static bool gui_statusbar_icon_volume(struct gui_statusbar * bar, int volume); static void gui_statusbar_icon_play_state(struct screen * display, int state); static void gui_statusbar_icon_play_mode(struct screen * display, int mode); static void gui_statusbar_icon_shuffle(struct screen * display); static void gui_statusbar_icon_lock(struct screen * display); #ifdef HAS_REMOTE_BUTTON_HOLD static void gui_statusbar_icon_lock_remote(struct screen * display); #endif #if (CONFIG_LED == LED_VIRTUAL) || defined(HAVE_REMOTE_LCD) static void gui_statusbar_led(struct screen * display); #endif #ifdef HAVE_RECORDING static void gui_statusbar_icon_recording_info(struct screen * display); #endif #if CONFIG_RTC static void gui_statusbar_time(struct screen * display, struct tm *time); #endif /* End prototypes */ /* * Initializes a status bar * - bar : the bar to initialize */ static void gui_statusbar_init(struct gui_statusbar * bar) { bar->redraw_volume = true; bar->volume_icon_switch_tick = bar->battery_icon_switch_tick = current_tick; memset((void*)&(bar->lastinfo), 0, sizeof(struct status_info)); #if CONFIG_RTC bar->last_tm_min = 0; #endif } #define GET_RECT(vp, vals,display) do { \ viewport_set_fullscreen(&(vp), (display)->screen_type); \ (vp).flags &= ~VP_FLAG_ALIGN_RIGHT; \ (vp).height = STATUSBAR_HEIGHT; \ (vp).x = STATUSBAR_X_POS; \ if ((vals) != STATUSBAR_BOTTOM) \ (vp).y = 0; \ else \ (vp).y = (display)->lcdheight - STATUSBAR_HEIGHT; \ } while(0) void gui_statusbar_draw(struct gui_statusbar * bar, bool force_redraw, struct viewport *vp) { struct screen * display = bar->display; struct viewport *last_vp = NULL; if (!display) return; bar->info.battlevel = battery_level(); #ifdef HAVE_USB_POWER bar->info.usb_inserted = usb_inserted(); #endif #if CONFIG_CHARGING bar->info.inserted = (charger_input_state == CHARGER); if (bar->info.inserted) { bar->info.battery_state = true; #if CONFIG_CHARGING >= CHARGING_MONITOR /* zero battery run time if charging */ if (charge_state > DISCHARGING) lasttime = current_tick; /* animate battery if charging */ if ((charge_state == DISCHARGING) || (charge_state == TRICKLE)) { bar->info.batt_charge_step = -1; } else { #else /* CONFIG_CHARGING < CHARGING_MONITOR */ lasttime = current_tick; { #endif /* CONFIG_CHARGING < CHARGING_MONITOR */ /* animate in (max.) 4 steps, starting near the current charge level */ if (TIME_AFTER(current_tick, bar->battery_icon_switch_tick)) { if (++bar->info.batt_charge_step > 3) bar->info.batt_charge_step = bar->info.battlevel / 34; bar->battery_icon_switch_tick = current_tick + HZ; } } } else #endif /* CONFIG_CHARGING */ { bar->info.batt_charge_step = -1; if (battery_level_safe()) bar->info.battery_state = true; else /* blink battery if level is low */ if (TIME_AFTER(current_tick, bar->battery_icon_switch_tick) && (bar->info.battlevel > -1)) { bar->info.battery_state = !bar->info.battery_state; bar->battery_icon_switch_tick = current_tick + HZ; } } bar->info.volume = global_settings.volume; bar->info.shuffle = global_settings.playlist_shuffle; #ifdef HAS_BUTTON_HOLD bar->info.keylock = button_hold(); #else bar->info.keylock = is_keys_locked(); #endif /* HAS_BUTTON_HOLD */ #ifdef HAS_REMOTE_BUTTON_HOLD bar->info.keylockremote = remote_button_hold(); #endif bar->info.repeat = global_settings.repeat_mode; bar->info.playmode = current_playmode(); #if (CONFIG_LED == LED_VIRTUAL) || defined(HAVE_REMOTE_LCD) if(!display->has_disk_led) bar->info.led = led_read(HZ/2); /* delay should match polling interval */ #endif #if CONFIG_RTC bar->time = get_time(); #endif /* CONFIG_RTC */ /* only redraw if forced to, or info has changed */ if (force_redraw || bar->redraw_volume || #if CONFIG_RTC (bar->time->tm_min != bar->last_tm_min) || #endif memcmp(&(bar->info), &(bar->lastinfo), sizeof(struct status_info))) { last_vp = display->set_viewport(vp); display->set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID); display->fill_viewport(); display->set_drawmode(DRMODE_SOLID); if (bar->info.battery_state) gui_statusbar_icon_battery(display, bar->info.battlevel, bar->info.batt_charge_step); #ifdef HAVE_USB_POWER if (bar->info.usb_inserted) display->mono_bitmap(bitmap_icons_7x8[Icon_USBPlug], STATUSBAR_PLUG_X_POS, STATUSBAR_Y_POS, STATUSBAR_PLUG_WIDTH, SB_ICON_HEIGHT); #endif /* HAVE_USB_POWER */ #if CONFIG_CHARGING #ifdef HAVE_USB_POWER else #endif /* draw power plug if charging */ if (bar->info.inserted) display->mono_bitmap(bitmap_icons_7x8[Icon_Plug], STATUSBAR_PLUG_X_POS, STATUSBAR_Y_POS, STATUSBAR_PLUG_WIDTH, SB_ICON_HEIGHT); #endif /* CONFIG_CHARGING */ #ifdef HAVE_RECORDING /* turn off volume display in recording screen */ bool recscreen_on = in_recording_screen(); if (!recscreen_on) #endif bar->redraw_volume = gui_statusbar_icon_volume(bar, bar->info.volume); gui_statusbar_icon_play_state(display, current_playmode() + Icon_Play); #ifdef HAVE_RECORDING /* If in recording screen, replace repeat mode, volume and shuffle icons with recording info */ if (recscreen_on) gui_statusbar_icon_recording_info(display); else #endif { switch (bar->info.repeat) { #ifdef AB_REPEAT_ENABLE case REPEAT_AB: gui_statusbar_icon_play_mode(display, Icon_RepeatAB); break; #endif /* AB_REPEAT_ENABLE */ case REPEAT_ONE: gui_statusbar_icon_play_mode(display, Icon_RepeatOne); break; case REPEAT_ALL: case REPEAT_SHUFFLE: gui_statusbar_icon_play_mode(display, Icon_Repeat); break; } if (bar->info.shuffle) gui_statusbar_icon_shuffle(display); } if (bar->info.keylock) gui_statusbar_icon_lock(display); #ifdef HAS_REMOTE_BUTTON_HOLD if (bar->info.keylockremote) gui_statusbar_icon_lock_remote(display); #endif #if CONFIG_RTC gui_statusbar_time(display, bar->time); bar->last_tm_min = bar->time->tm_min; #endif /* CONFIG_RTC */ #if (CONFIG_LED == LED_VIRTUAL) || defined(HAVE_REMOTE_LCD) if(!display->has_disk_led && bar->info.led) gui_statusbar_led(display); #endif display->update_viewport(); display->set_viewport(last_vp); bar->lastinfo = bar->info; } } /* from icon.c */ /* * Print battery icon to status bar */ static void gui_statusbar_icon_battery(struct screen * display, int percent, int batt_charge_step) { int fill, endfill; char buffer[5]; unsigned int width, height; #if LCD_DEPTH > 1 unsigned int prevfg = 0; #endif #if CONFIG_CHARGING if (batt_charge_step >= 0) { fill = percent * (STATUSBAR_BATTERY_WIDTH-3) / 100; endfill = 34 * batt_charge_step * (STATUSBAR_BATTERY_WIDTH-3) / 100; } else #else (void)batt_charge_step; #endif { fill = endfill = (percent * (STATUSBAR_BATTERY_WIDTH-3) + 50) / 100; } #if CONFIG_CHARGING == CHARGING_MONITOR && !defined(SIMULATOR) /* Certain charge controlled targets */ /* show graphical animation when charging instead of numbers */ if ((global_settings.battery_display) && (charge_state != CHARGING) && (percent > -1) && (percent <= 100)) { #else /* all others */ if (global_settings.battery_display && (percent > -1) && (percent <= 100)) { #endif /* Numeric display */ display->setfont(FONT_SYSFIXED); snprintf(buffer, sizeof(buffer), "%3d", percent); display->getstringsize(buffer, &width, &height); if (height <= STATUSBAR_HEIGHT) display->putsxy(STATUSBAR_BATTERY_X_POS + STATUSBAR_BATTERY_WIDTH / 2 - width/2, STATUSBAR_Y_POS, buffer); display->setfont(FONT_UI); } else { /* draw battery */ display->drawrect(STATUSBAR_BATTERY_X_POS, STATUSBAR_Y_POS, STATUSBAR_BATTERY_WIDTH - 1, STATUSBAR_BATTERY_HEIGHT); display->vline(STATUSBAR_BATTERY_X_POS + STATUSBAR_BATTERY_WIDTH - 1, STATUSBAR_Y_POS + 2, STATUSBAR_Y_POS + 4); display->fillrect(STATUSBAR_BATTERY_X_POS + 1, STATUSBAR_Y_POS + 1, fill, STATUSBAR_BATTERY_HEIGHT - 2); #if LCD_DEPTH > 1 if (display->depth > 1) { prevfg = display->get_foreground(); display->set_foreground(LCD_DARKGRAY); } #endif display->fillrect(STATUSBAR_BATTERY_X_POS + 1 + fill, STATUSBAR_Y_POS + 1, endfill - fill, STATUSBAR_BATTERY_HEIGHT - 2); #if LCD_DEPTH > 1 if (display->depth > 1) display->set_foreground(prevfg); #endif } if (percent == -1 || percent > 100) { display->setfont(FONT_SYSFIXED); display->putsxy(STATUSBAR_BATTERY_X_POS + STATUSBAR_BATTERY_WIDTH / 2 - 4, STATUSBAR_Y_POS, "?"); display->setfont(FONT_UI); } } /* * Print volume gauge to status bar */ static bool gui_statusbar_icon_volume(struct gui_statusbar * bar, int volume) { int i; int vol; char buffer[4]; unsigned int width, height; bool needs_redraw = false; int type = global_settings.volume_type; struct screen * display=bar->display; const int minvol = sound_min(SOUND_VOLUME); const int maxvol = sound_max(SOUND_VOLUME); const int num_decimals = sound_numdecimals(SOUND_VOLUME); if (volume < minvol) volume = minvol; if (volume > maxvol) volume = maxvol; if (volume == minvol) { display->mono_bitmap(bitmap_icons_7x8[Icon_Mute], STATUSBAR_VOLUME_X_POS + STATUSBAR_VOLUME_WIDTH / 2 - 4, STATUSBAR_Y_POS, 7, SB_ICON_HEIGHT); } else { /* We want to redraw the icon later on */ if (bar->last_volume != volume && bar->last_volume >= minvol) { bar->volume_icon_switch_tick = current_tick + HZ; } /* If the timeout hasn't yet been reached, we show it numerically and tell the caller that we want to be called again */ if (TIME_BEFORE(current_tick,bar->volume_icon_switch_tick)) { type = 1; needs_redraw = true; } /* display volume level numerical? */ if (type) { if (num_decimals) volume /= 10 * num_decimals; display->setfont(FONT_SYSFIXED); snprintf(buffer, sizeof(buffer), "%2d", volume); display->getstringsize(buffer, &width, &height); if (height <= STATUSBAR_HEIGHT) { display->putsxy(STATUSBAR_VOLUME_X_POS + STATUSBAR_VOLUME_WIDTH / 2 - width/2, STATUSBAR_Y_POS, buffer); } display->setfont(FONT_UI); } else { /* display volume bar */ vol = (volume - minvol) * 14 / (maxvol - minvol); for(i=0; i < vol; i++) { display->vline(STATUSBAR_VOLUME_X_POS + i, STATUSBAR_Y_POS + 6 - i / 2, STATUSBAR_Y_POS + 6); } } } bar->last_volume = volume; return needs_redraw; } /* * Print play state to status bar */ static void gui_statusbar_icon_play_state(struct screen * display, int state) { display->mono_bitmap(bitmap_icons_7x8[state], STATUSBAR_PLAY_STATE_X_POS, STATUSBAR_Y_POS, STATUSBAR_PLAY_STATE_WIDTH, SB_ICON_HEIGHT); } /* * Print play mode to status bar */ static void gui_statusbar_icon_play_mode(struct screen * display, int mode) { display->mono_bitmap(bitmap_icons_7x8[mode], STATUSBAR_PLAY_MODE_X_POS, STATUSBAR_Y_POS, STATUSBAR_PLAY_MODE_WIDTH, SB_ICON_HEIGHT); } /* * Print shuffle mode to status bar */ static void gui_statusbar_icon_shuffle(struct screen * display) { display->mono_bitmap(bitmap_icons_7x8[Icon_Shuffle], STATUSBAR_SHUFFLE_X_POS, STATUSBAR_Y_POS, STATUSBAR_SHUFFLE_WIDTH, SB_ICON_HEIGHT); } /* * Print lock when keys are locked */ static void gui_statusbar_icon_lock(struct screen * display) { display->mono_bitmap(bitmap_icons_5x8[Icon_Lock_Main], STATUSBAR_LOCKM_X_POS, STATUSBAR_Y_POS, STATUSBAR_LOCKM_WIDTH, SB_ICON_HEIGHT); } #ifdef HAS_REMOTE_BUTTON_HOLD /* * Print remote lock when remote hold is enabled */ static void gui_statusbar_icon_lock_remote(struct screen * display) { display->mono_bitmap(bitmap_icons_5x8[Icon_Lock_Remote], STATUSBAR_LOCKR_X_POS, STATUSBAR_Y_POS, STATUSBAR_LOCKR_WIDTH, SB_ICON_HEIGHT); } #endif #if (CONFIG_LED == LED_VIRTUAL) || defined(HAVE_REMOTE_LCD) /* * no real LED: disk activity in status bar */ static void gui_statusbar_led(struct screen * display) { display->mono_bitmap(bitmap_icon_disk, STATUSBAR_DISK_X_POS(display->getwidth()), STATUSBAR_Y_POS, STATUSBAR_DISK_WIDTH, SB_ICON_HEIGHT); } #endif #if CONFIG_RTC /* * Print time to status bar */ static void gui_statusbar_time(struct screen * display, struct tm *time) { unsigned char buffer[6]; const unsigned char *p = buffer; unsigned int width, height; int hour, minute; if ( valid_time(time) ) { hour = time->tm_hour; minute = time->tm_min; if ( global_settings.timeformat ) { /* 12 hour clock */ hour %= 12; if ( hour == 0 ) { hour += 12; } } snprintf(buffer, sizeof(buffer), "%02d:%02d", hour, minute); } else { p = "--:--"; } display->setfont(FONT_SYSFIXED); display->getstringsize(p, &width, &height); if (height <= STATUSBAR_HEIGHT) { display->putsxy(STATUSBAR_TIME_X_END(display->getwidth()) - width, STATUSBAR_Y_POS, p); } display->setfont(FONT_UI); } #endif #ifdef HAVE_RECORDING /** * Write a number to the display using bitmaps and return new position */ static int write_bitmap_number(struct screen * display, int value, int x, int y) { char buf[12], *ptr; snprintf(buf, sizeof(buf), "%d", value); for (ptr = buf; *ptr != '\0'; ptr++, x += BM_GLYPH_WIDTH) display->mono_bitmap(bitmap_glyphs_4x8[*ptr - '0'], x, y, BM_GLYPH_WIDTH, SB_ICON_HEIGHT); return x; } /** * Write format info bitmaps - right justified */ static void gui_statusbar_write_format_info(struct screen * display) { /* Can't fit info for sw codec targets in statusbar using FONT_SYSFIXED so must use icons */ int rec_format = global_settings.rec_format; unsigned bitrk = 0; /* compiler warns about unitialized use !! */ int xpos = STATUSBAR_ENCODER_X_POS; int width = STATUSBAR_ENCODER_WIDTH; const unsigned char *bm = bitmap_formats_18x8[rec_format]; if (rec_format == REC_FORMAT_MPA_L3) { /* Special handling for mp3 */ bitrk = global_settings.mp3_enc_config.bitrate; bitrk = mp3_enc_bitr[bitrk]; width = BM_MPA_L3_M_WIDTH; /* Slide 'M' to right if fewer than three digits used */ if (bitrk > 999) bitrk = 999; /* neurotic safety check if corrupted */ else { if (bitrk < 100) xpos += BM_GLYPH_WIDTH; if (bitrk < 10) xpos += BM_GLYPH_WIDTH; } } /* Show bitmap - clipping right edge if needed */ display->mono_bitmap_part(bm, 0, 0, STATUSBAR_ENCODER_WIDTH, xpos, STATUSBAR_Y_POS, width, SB_ICON_HEIGHT); if (rec_format == REC_FORMAT_MPA_L3) { xpos += BM_MPA_L3_M_WIDTH; /* to right of 'M' */ write_bitmap_number(display, bitrk, xpos, STATUSBAR_Y_POS); } } /** * Write sample rate using bitmaps - left justified */ static void gui_statusbar_write_samplerate_info(struct screen * display) { unsigned long samprk; int xpos; #ifdef SIMULATOR samprk = 44100; #else #ifdef HAVE_SPDIF_REC if (global_settings.rec_source == AUDIO_SRC_SPDIF) /* Use rate in use, not current measured rate if it changed */ samprk = pcm_rec_sample_rate(); else #endif samprk = rec_freq_sampr[global_settings.rec_frequency]; #endif /* SIMULATOR */ samprk /= 1000; if (samprk > 99) samprk = 99; /* Limit to 3 glyphs */ xpos = write_bitmap_number(display, (unsigned)samprk, STATUSBAR_RECFREQ_X_POS, STATUSBAR_Y_POS); /* write the 'k' */ display->mono_bitmap(bitmap_glyphs_4x8[Glyph_4x8_k], xpos, STATUSBAR_Y_POS, BM_GLYPH_WIDTH, SB_ICON_HEIGHT); } static void gui_statusbar_icon_recording_info(struct screen * display) { /* Display Codec info in statusbar */ gui_statusbar_write_format_info(display); /* Display Samplerate info in statusbar */ gui_statusbar_write_samplerate_info(display); /* Display Channel status in status bar */ if(global_settings.rec_channels) { display->mono_bitmap(bitmap_icons_5x8[Icon_Mono], STATUSBAR_RECCHANNELS_X_POS , STATUSBAR_Y_POS, STATUSBAR_RECCHANNELS_WIDTH, SB_ICON_HEIGHT); } else { display->mono_bitmap(bitmap_icons_5x8[Icon_Stereo], STATUSBAR_RECCHANNELS_X_POS, STATUSBAR_Y_POS, STATUSBAR_RECCHANNELS_WIDTH, SB_ICON_HEIGHT); } } #endif /* HAVE_RECORDING */ void gui_syncstatusbar_init(struct gui_syncstatusbar * bars) { FOR_NB_SCREENS(i) { gui_statusbar_init( &(bars->statusbars[i]) ); gui_statusbar_set_screen( &(bars->statusbars[i]), &(screens[i]) ); } } #ifdef HAVE_REMOTE_LCD enum statusbar_values statusbar_position(int screen) { if (screen == SCREEN_REMOTE) return global_settings.remote_statusbar; return global_settings.statusbar; } #endif