Ejemplo n.º 1
0
/*
 * Runs the user operator control code. This function will be started in its own task with the
 * default priority and stack size whenever the robot is enabled via the Field Management System
 * or the VEX Competition Switch in the operator control mode. If the robot is disabled or
 * communications is lost, the operator control task will be stopped by the kernel. Re-enabling
 * the robot will restart the task, not resume it from where it left off.
 *
 * If no VEX Competition Switch or Field Management system is plugged in, the VEX Cortex will
 * run the operator control task. Be warned that this will also occur if the VEX Cortex is
 * tethered directly to a computer via the USB A to A cable without any VEX Joystick attached.
 *
 * Code running in this task can take almost any action, as the VEX Joystick is available and
 * the scheduler is operational. However, proper use of delay() or taskDelayUntil() is highly
 * recommended to give other tasks (including system tasks such as updating LCDs) time to run.
 *
 * This task should never exit; it should end with some kind of infinite loop, even if empty.
 */
void operatorControl() {
	bool *lcdBacklight = initLcdVals();
	taskResume(catTask);
	while (1) {
		// Joystick control of drive
		checkDrive();

		// Tower and intake control (Y-cabled into ports 3 and 8)
		setTowerAndIntake();

		// Manual catapult control
		setCatapultMotors();

		// Perform battery checks and update LCD
		showBatteryOnLcd(uart1 );

		// Show potentiometer values on second LCD
		showPotVals(uart2, 1);

		// Toggle backlight using buttons
		bool newBacklight = checkBacklight(uart1, lcdBacklight[0]);
		bool newSecondBacklight = checkBacklight(uart2, lcdBacklight[1]);
		lcdBacklight[0] = newBacklight;
		lcdBacklight[1] = newSecondBacklight;

		// Delay 20 ms to concede to other tasks
		delay(20);
	}

}
Ejemplo n.º 2
0
void perMain()
{
#if defined(PCBSKY9X) && !defined(REVA)
  calcConsumption();
#endif
  checkSpeakerVolume();
  checkEeprom();
  sdMountPoll();
  writeLogs();
  handleUsbConnection();
  checkTrainerSettings();
  checkBattery();

  uint8_t evt = getEvent(false);
  if (evt && (g_eeGeneral.backlightMode & e_backlight_mode_keys)) backlightOn(); // on keypress turn the light on
  checkBacklight();
#if defined(NAVIGATION_STICKS)
  uint8_t sticks_evt = getSticksNavigationEvent();
  if (sticks_evt) evt = sticks_evt;
#endif

#if defined(USB_MASS_STORAGE)
  if (usbPlugged()) {
    // disable access to menus
    lcd_clear();
    menuMainView(0);
    lcdRefresh();
    return;
  }
#endif

#if defined(LUA)
  uint32_t t0 = get_tmr10ms();
  static uint32_t lastLuaTime = 0;
  uint16_t interval = (lastLuaTime == 0 ? 0 : (t0 - lastLuaTime));
  lastLuaTime = t0;
  if (interval > maxLuaInterval) {
    maxLuaInterval = interval;
  }

  // run Lua scripts that don't use LCD (to use CPU time while LCD DMA is running)
  luaTask(0, RUN_MIX_SCRIPT | RUN_FUNC_SCRIPT | RUN_TELEM_BG_SCRIPT, false);

  // wait for LCD DMA to finish before continuing, because code from this point 
  // is allowed to change the contents of LCD buffer
  // 
  // WARNING: make sure no code above this line does any change to the LCD display buffer!
  //
  lcdRefreshWait();

  // draw LCD from menus or from Lua script
  // run Lua scripts that use LCD

  bool standaloneScriptWasRun = luaTask(evt, RUN_STNDAL_SCRIPT, true);
  bool refreshScreen = true;
  if (!standaloneScriptWasRun) {
    refreshScreen = !luaTask(evt, RUN_TELEM_FG_SCRIPT, true);
  }

  t0 = get_tmr10ms() - t0;
  if (t0 > maxLuaDuration) {
    maxLuaDuration = t0;
  }

  if (!standaloneScriptWasRun)
#else
  lcdRefreshWait();   // WARNING: make sure no code above this line does any change to the LCD display buffer!
  const bool refreshScreen = true;
#endif
  {
    // normal GUI from menus
    const char *warn = s_warning;
    uint8_t menu = s_menu_count;
    if (refreshScreen) {
      lcd_clear();
    }
    if (menuEvent) {
      m_posVert = menuEvent == EVT_ENTRY_UP ? g_menuPos[g_menuStackPtr] : 0;
      m_posHorz = 0;
      evt = menuEvent;
      menuEvent = 0;
      AUDIO_MENUS();
    }
    g_menuStack[g_menuStackPtr]((warn || menu) ? 0 : evt);
    if (warn) DISPLAY_WARNING(evt);
    if (menu) {
      const char * result = displayMenu(evt);
      if (result) {
        menuHandler(result);
        putEvent(EVT_MENU_UP);
      }
    }
    drawStatusLine();
  }

  lcdRefresh();

#if defined(REV9E) && !defined(SIMU)
  topLcdRefreshStart();
  setTopFirstTimer(getValue(MIXSRC_FIRST_TIMER+g_model.topLcdTimer));
  setTopSecondTimer(g_eeGeneral.globalTimer + sessionTimer);
  setTopRssi(TELEMETRY_RSSI());
  setTopBatteryValue(g_vbat100mV);
  setTopBatteryState(GET_TXBATT_BARS(), IS_TXBATT_WARNING());
  topLcdRefreshEnd();
#endif

#if defined(REV9E) && !defined(SIMU)
  bluetoothWakeup();
#endif

#if defined(PCBTARANIS)
  if (requestScreenshot) {
    requestScreenshot = false;
    writeScreenshot();
  }
#endif

}