CEN-3024-Code-Implementation/Climate.java

//for all arrays, index 0 is driver's side, index 1 is passenger's side

public class Climate implements Runnable {
    private int[] targetTemp = new int[2]; //array to store temp preference entered by user
    private int[] currentTemp = new int[2]; //stores current internal temp from last check
    private int externalTemp; //stores current external temp from last check
    private boolean[] coolingActive = new boolean[2]; //whether cooling is toggled on (true) or off (false)
    private boolean[] heatingActive = new boolean[2]; //whether heating is toggled on (true) or off (false)
    public enum fanLevels {OFF, LOW, MED, HI}; //standardization of fan levels
    fanLevels[] fanSpeed = new fanLevels[2];; //array to store fan speeds, zones match temp indices

    public void run() {
    	while (currentTemp[0] != targetTemp[0] || currentTemp[1] != targetTemp[1]) {
    		displayInformation();
    		activateClimate();
    		adjustClimate(0);
    		adjustClimate(1);
    		HelperFunctions.sleep(1);
    	}
    	System.out.println("Climate adjustment complete");
    	HelperFunctions.pressEnterToContinue();
    }
    
    public Climate() {
    	targetTemp = new int[2];
    	currentTemp = new int[2];
    	targetTemp[0] = 72;
    	targetTemp[1] = 74;
    	updateCurrentTemps();
    	fanSpeed = new fanLevels[2];
    	fanSpeed[0] = fanLevels.LOW;
    	fanSpeed[1] = fanLevels.LOW;
    }
    
    public void setTargetTemp(int driverZone, int passengerZone) {
        //temp range should be between 65 F and 90 F, these if statements prohibit temps outside that range
        if (driverZone < 65) {driverZone = 65;}
        if (driverZone > 90) {driverZone = 90;}
        if (passengerZone < 65) {passengerZone = 65;}
        if (passengerZone > 90) {passengerZone = 90;}

        targetTemp[0] = driverZone;
        targetTemp[1] = passengerZone;
    }

    private int avgTargetTemp() { //gets internal target average for ease of calculation
        return (targetTemp[0] + targetTemp[1])/2;
    }

    private void updateCurrentTemps() { //queries temp sensors for current cabin temp
        HelperFunctions tSensor = new HelperFunctions();
        currentTemp = tSensor.internalTempSensors();
        externalTemp = tSensor.externalTempSensors();
    }

    public int[] getTargetTemps() {
        return targetTemp;
    }

    public int[] getCurrentTemps() {
        return currentTemp;
    }

    public void activateClimate() {
        //driver's side
        if (targetTemp[0]+1 < currentTemp[0]) {coolingActive[0] = true;} //provides 1 deg buffer to prevent excessive activation/deactivation
        if (targetTemp[0] >= currentTemp[0]) {coolingActive[0] = false;}
        //passenger's side
        if (targetTemp[1]+1 < currentTemp[1]) {coolingActive[1] = true;}
        if (targetTemp[1] >= currentTemp[1]) {coolingActive[1] = false;}
        //driver's side
        if (targetTemp[0]-1 > currentTemp[0]) {heatingActive[0] = true;}
        if (targetTemp[0] <= currentTemp[0]) {heatingActive[0] = false;}
        //passenger's side
        if (targetTemp[1]-1 > currentTemp[1]) {heatingActive[1] = true;}
        if (targetTemp[1] <= currentTemp[1]) {heatingActive[1] = false;}
    }
    
    private void adjustClimate(int zone) {
    	if (coolingActive[zone]) {
    		currentTemp[zone] = currentTemp[zone] - 1;
    	}
    	if (heatingActive[zone]) {
    		currentTemp[zone] = currentTemp[zone] + 1;
    	}
    }

    public void setFanSpeeds(String driver, String passenger) { //maps a string passed in to the appropriate enum value
        switch (driver) {
            case "OFF": case "1":
                fanSpeed[0] = fanLevels.OFF;
                break;
            case "LOW": case "2":
                fanSpeed[0] = fanLevels.LOW;
                break;
            case "MED": case "3":
                fanSpeed[0] = fanLevels.MED;
                break;
            case "HI": case "4":
                fanSpeed[0] = fanLevels.HI;
                break;
        }

        switch (passenger) {
            case "OFF": case "1":
                fanSpeed[1] = fanLevels.OFF;
                break;
            case "LOW": case "2":
                fanSpeed[1] = fanLevels.LOW;
                break;
            case "MED": case "3":
                fanSpeed[1] = fanLevels.MED;
                break;
            case "HI": case "4":
                fanSpeed[1] = fanLevels.HI;
                break;
        }
    }

    public String[] getFanSpeeds() {
        String[] workingString = {fanSpeed[0].toString(), fanSpeed[1].toString()};
        return workingString;
    }
    
    private void displayInformation() {
    	System.out.print("Left | Current: " + currentTemp[0] + "; Set: " + targetTemp[0] + " || ");
        System.out.print("Right| Current: " + currentTemp[1] + "; Set: " + targetTemp[1] + "\n");
    }
}