I have 3 classes called RedAlert, YellowAlert, and BlueAlert.

Within my class AlertController I want to have a method like this:

public void SetAlert(//TAKE IN NAME OF CLASS HERE//)
    CLASSNAME anInstance = new CLASSNAME();

So for example I want to:

AlertController aController = new AlertController();

How do you take in the class name as a parameter, and based on that class name create the appropriate object from the class name?

  • 3
    You need to look into the Java Reflection API , Class ! – NINCOMPOOP Jul 25 '13 at 5:06
  • But why do you want it? What's wrong with SetAlert(new RedAlert())? – Michał Politowski Jul 25 '13 at 5:09

12 Answers 12


Using reflection it is possible. Here for a given className (passed as a string) . This class will be searched in memory ( it should be already loaded).

The name of the class to be instantiated when passed as a string should be fully qualified

void createInstanceOfClass(String className) throws ClassNotFoundException, InstantiationException, IllegalAccessException{

        Class classTemp = Class.forName(className);

        Object obj =classTemp.newInstance();


Instead of passing the class name, you can pass the class itself and use reflection to create a new instance of the class. Here's a basic example (assuming all your XxxAlert classes extend from an Alert class):

public <T extends Alert> void setAlert(Class<T> clazzAlert) {
    Alert alert = clazzAlert.newInstance();
    //use the alert object as you want/need...

Now you just call the method like this:


Note that it would be better using a super class in T parameter, otherwise you (or another programmer) could do this:


which would be plain wrong.

  • 2
    @edwardsmatt that's part of my answer, otherwise OP could make the mistake of calling the method as shown in the last example using Object.class (or any other class) – Luiggi Mendoza Jul 25 '13 at 5:15
  • 1
    For most situations, this is better than the accepted answer. – ToolmakerSteve Sep 26 '15 at 19:15

Why not use a factory pattern approach.

public interface Alert {}

public class RedAlert implements Alert {}
public class YellowAlert implements Alert {}
public class BlueAlert implements Alert {}

public interface AlertFactory {
    Alert create();

public class RedAlertFactory implements AlertFactory {
    public Alert create() {
        return new RedAlert();

public class YellowAlertFactory implements AlertFactory {
    public Alert create() {
        return new YellowAlert();

public class BlueAlertFactory implements AlertFactory {
    public Alert create() {
        return new BlueAlert();

// your setAlert method could probably look like this
public void setAlert(AlertFactory factory) {
    aInstance = factory->create();

Then you could do something like this.

setAlert(new RedAlertFactory()); // or YellowAlertFactory, BlueAlertFactory

It's possible to use your approach using java.lang.Class#newInstance.

  • NOTE: Only one copy of each factory is needed. If AlertFactory were a class rather than an interface, then it could contain static variables, one for each factory; public abstract class AlertFactory { ... public readonly static RedAlertFactory red = new RedAlertFactory(); ... } Then don't need to create a new factory each time it is used: setAlert(AlertFactory.red). – ToolmakerSteve Sep 26 '15 at 19:24

While you can create it using Reflection etc... I'd suggest investigating some Creational Design Patterns.

Specifically the Factory Pattern

Here is a (very) crude example:

public interface Alert {

public class BlueAlert implements Alert {

public class RedAlert implements Alert {

public class YellowAlert implements Alert {

public final class AlertFactory {

    public <T extends Alert> Alert create(Class<T> clazz) {
        Alert toReturn = null;
        if (RedAlert.class.equals(clazz)) {
            toReturn = new RedAlert();
        } else if (YellowAlert.class.equals(clazz)) {
            toReturn = new YellowAlert();
        } else if (BlueAlert.class.equals(clazz)) {
            toReturn = new BlueAlert();
        return toReturn;

And then from your Method you could use:

public void SetAlert(Class alertClass) { 
    Alert theAlert = new AlertFactory().create(alertClass);

Anyway, while this is a really ugly example, I'm trying to highlight that maybe you could look at the Creational Patterns and solve your problem a different way without passing classnames around.

  • This factory can be heavily improved by using equals instead of == and using reflection as you suggested at the beginning. Otherwise, imagine what would happen when new Alert subclasses appear. – Luiggi Mendoza Jul 25 '13 at 5:35
  • I agree totally! It's hard to know exactly what the use cases are, in this example, you should just pass in the instantiated object. – edwardsmatt Jul 25 '13 at 5:36
  • @raniejade's answer is a cleaner Factory design than this one. The answer here uses the non-OO approach of if-testing. raniejade uses subclassing of the factory. – ToolmakerSteve Sep 26 '15 at 19:20

You can have a reference of Class in your method signature, something like this:

public void SetAlert(Class class)

Then in your method you can create the instance of the input class using the newInstance method:

Object obj = class.newInstance();

What about this -

public void SetAlert(Class<?> class){
     Object obj = class.newInstance();
     if(obj isInstanceOf RedAlert){
         RedAlert ra= (RedAlert)obj;

Avoid internal dependencies and initialztions:

AlertController aController = new AlertController(new RedAlert());

Use enums:

public enum AlertType {RED_ALERT, YELLOW_ALERT, BLUE_ALERT};

// ...

public void SetAlert(AlertType type)
    // ...

// ...

AlertController aController = new AlertController();

Many options:

  1. Look at standard factory approach: http://en.wikipedia.org/wiki/Factory_method_pattern
  2. Use enum instead of the class enum Alert{Red, Yellow, Green;}

Use Java Reflection to create object from Class object. Declare your method like this:

public void SetAlert(Class clazz)
    Constructor<?> ctor = clazz.getConstructor();
    Object object = ctor.newInstance();

And then,

 AlertController aController = new AlertController();

This is the way to create an instance using a class name. The concrete type of Alert must have a public constructor that takes no arguments.

private Alert alert;

public void setAlert(String className) 
  try {
    Class<?> raw = Class.forName(className);
    Class<? extends Alert> type = raw.asSubclass(Alert.class);
    Constructor<? extends Alert> ctor = type.getConstructor();
    this.alert = ctor.newInstance();
  } catch (Exception ex) {
    throw new IllegalArgumentException("Invalid Alert implementation.", ex);

The caller would use it like this:

AlertController aController = new AlertController();

If you create a convention for passing a certain set of parameters to the constructor, you can do that too, but you'll need to do a little extra work in the getConstructor() call to find it. You can also use constructors that aren't public, but, again, that takes a bit of extra work.

The suggestions to pass the class literal, RedAlert.class, don't make much sense. If the RedAlert class is available to the caller at compile time, you'd just use its constructor, new RedAlert().


Another way you can do this without using reflection is to have an Interface say Alert and have your classes - RedAlert, YellowAlert, and BlueAlert implement the Alert interface.
So now your method in AlertController looks like:

public void setAlert(Alert alert) {
       // Your code goes here

Now you can do :

setAlert(new RedAlert());
setAlert(new YellowAlert());
setAlert(new BlueAlert());

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