/** * Draw the GUI screen header * * @param item unused * @param value text to draw at start of header (CPM usually) * */ void update_item_head(screen_item &item,const void *value) { uint16_t new_header_color; if(system_geiger->is_cpm_valid()) new_header_color = HEADER_COLOR_NORMAL; else new_header_color = HEADER_COLOR_CPMINVALID; if(new_header_color != header_color) { draw_text(0,0," ",new_header_color); } header_color = new_header_color; int len = strlen((char *) value); char v[TEMP_STR_LEN]; strcpy(v,(char *) value); for(int n=len;(n<6) && (n<(TEMP_STR_LEN-1));n++) { v[n ] = ' '; v[n+1]=0; } if(len > 6) v[6]=0; draw_text(0,0,v,header_color);//HEADER_COLOR); // a hack! render_battery(0,128-24,power_battery_level(),power_charging()); uint8_t hours,min,sec,day,month; uint16_t year; realtime_getdate_local(hours,min,sec,day,month,year); month+=1; year+=1900; if(year >= 2000) {year-=2000;} else if(year < 2000) {year-=1900;} char time[TEMP_STR_LEN]; char date[TEMP_STR_LEN]; sprintf(time,"%02u:%02u:%02u",hours,min,sec); sprintf(date,"%02u/%02u/%02u",month,day,year); if(year == 0) { sprintf(date,"%02u/%02u/00",month,day); } // pad out time and date int tlen = strlen(time); for(int n=tlen;(n<8) && (n<(TEMP_STR_LEN-1));n++) { time[n ] = ' '; time[n+1]=0; } int dlen = strlen(date); for(int n=dlen;(n<8) && (n<(TEMP_STR_LEN-1));n++) { date[n ] = ' '; date[n+1]=0; } display_draw_tinytext(128-75,2,time,header_color);//HEADER_COLOR); display_draw_tinytext(128-75,9,date,header_color);//HEADER_COLOR); // display_draw_tinytext(0,128-5,OS100VERSION,FOREGROUND_COLOR); }
/** * Displays battery level on OLED for 100 seconds, * updates once per second */ void cmd_batinfodisp(char *line) { for(int n=0;n<100;n++) { int bat = power_battery_level(); char s[20]; sprintf(s,"%d ",bat); display_draw_text(0,0,s,0); delay_us(1000000); } }
int main(void) { Geiger g; power_initialise(); if(power_battery_level() < 1) { power_standby(); } flashstorage_initialise(); buzzer_initialise(); realtime_initialise(); g.initialise(); uint8_t *private_key = ((uint8_t *) &_binary___binary_data_private_key_data_start); if(private_key[0] != 0) delay_us(1000); delay_us(10000); // can be removed? #ifndef DISABLE_ACCEL accel_init(); #endif Controller c(g); switch_initialise(); // if we woke up on an alarm, we're going to be sending the system back. #ifndef NEVERSLEEP if(power_get_wakeup_source() == WAKEUP_RTC) { c.m_sleeping = true; } else { buzzer_nonblocking_buzz(0.05); display_initialise(); const char *devicetag = flashstorage_keyval_get("DEVICETAG"); char revtext[10]; sprintf(revtext,"VERSION: %s ",OS100VERSION); display_splashscreen(devicetag,revtext); delay_us(3000000); display_clear(0); } #endif #ifdef NEVERSLEEP buzzer_nonblocking_buzz(0.05); display_initialise(); #endif GUI m_gui(c); bool full = flashstorage_log_isfull(); if((full == true) && (c.m_sleeping == false)) { m_gui.show_dialog("Flash Log","is full",0,0,0); } c.set_gui(m_gui); UserInput u(m_gui); u.initialise(); serial_initialise(); int8_t utcoffsetmins_n = 0; const char *utcoffsetmins = flashstorage_keyval_get("UTCOFFSETMINS"); if(utcoffsetmins != 0) { unsigned int c; sscanf(utcoffsetmins, "%u", &c); utcoffsetmins_n = c; realtime_setutcoffset_mins(utcoffsetmins_n); } // Need to refactor out stored settings if(c.m_sleeping == false) { const char *sbright = flashstorage_keyval_get("BRIGHTNESS"); if(sbright != 0) { unsigned int c; sscanf(sbright, "%u", &c); display_set_brightness(c); } const char *sbeep = flashstorage_keyval_get("GEIGERBEEP"); if(sbeep != 0) { if(strcmp(sbeep,"true") == 0) { g.set_beep(true); tick_item("Geiger Beep",true); } else g.set_beep(false); } const char *scpmcps = flashstorage_keyval_get("CPMCPSAUTO"); if(scpmcps != 0) { if(strcmp(scpmcps,"true") == 0) { c.m_cpm_cps_switch = true; tick_item("CPM/CPS Auto",true); } } const char *language = flashstorage_keyval_get("LANGUAGE"); if(language != 0) { if(strcmp(language,"English" ) == 0) { m_gui.set_language(LANGUAGE_ENGLISH); tick_item("English" ,true); } else if(strcmp(language,"Japanese") == 0) { m_gui.set_language(LANGUAGE_JAPANESE); tick_item("Japanese" ,true); } } else { m_gui.set_language(LANGUAGE_ENGLISH); tick_item("English",true); } const char *svrem = flashstorage_keyval_get("SVREM"); if(strcmp(svrem,"REM") == 0) { tick_item("Roentgen",true); } else { tick_item("Sievert",true);} } m_gui.jump_to_screen(1); m_gui.push_stack(0,1); for(;;) { if(power_battery_level() < 1) { power_standby(); } //display_draw_text(0,110,"preupdate",0); c.update(); //display_draw_text(0,110,"prerender",0); m_gui.render(); //display_draw_text(0,110,"preserial",0); serial_eventloop(); //display_draw_text(0,110,"preserial",0); // It might be a good idea to move the following code to Controller. // Hack to check that captouch is ok, and reset it if not. bool c = cap_check(); if(c == false) { display_draw_text(0,90,"CAPFAIL",0); cap_init(); } // Screen lock code uint32_t release1_time = cap_last_press(KEY_BACK); uint32_t press1_time = cap_last_release(KEY_BACK); uint32_t release2_time = cap_last_press(KEY_SELECT); uint32_t press2_time = cap_last_release(KEY_SELECT); uint32_t current_time = realtime_get_unixtime(); if((release1_time != 0) && (release2_time != 0) && ((current_time-press1_time) > 3) && ((current_time-press2_time) > 3) && cap_ispressed(KEY_BACK ) && cap_ispressed(KEY_SELECT)) { system_gui->toggle_screen_lock(); cap_clear_press(); } power_wfi(); } // should never get here for(int n=0;n<60;n++) { delay_us(100000); buzzer_blocking_buzz(1000); } return 0; }