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1. Overview

Method overloading and overriding are key concepts of the Java programming language, and as such, they deserve an in-depth look.

In this article, we’ll learn the basics of these concepts and see in what situations they can be useful.

2. Method Overloading

Method overloading is a powerful mechanism that allows us to define cohesive class APIs. To better understand why method overloading is such a valuable feature, let’s see a simple example.

Suppose that we’ve written a naive utility class that implements different methods for multiplying two numbers, three numbers, and so on.

If we’ve given the methods misleading or ambiguous names, such as multiply2(), multiply3(), multiply4(), then that would be a badly designed class API. Here’s where method overloading comes into play.

Simply put, we can implement method overloading in two different ways:

  • implementing two or more methods that have the same name but take different numbers of arguments
  • implementing two or more methods that have the same name but take arguments of different types

2.1. Different Numbers of Arguments

The Multiplier class shows, in a nutshell, how to overload the multiply() method by simply defining two implementations that take different numbers of arguments:

public class Multiplier {
    
    public int multiply(int a, int b) {
        return a * b;
    }
    
    public int multiply(int a, int b, int c) {
        return a * b * c;
    }
}

2.2. Arguments of Different Types

Similarly, we can overload the multiply() method by making it accept arguments of different types:

public class Multiplier {
    
    public int multiply(int a, int b) {
        return a * b;
    }
    
    public double multiply(double a, double b) {
        return a * b;
    }
}

Furthermore, it’s legitimate to define the Multiplier class with both types of method overloading:

public class Multiplier {
    
    public int multiply(int a, int b) {
        return a * b;
    }
    
    public int multiply(int a, int b, int c) {
        return a * b * c;
    }
    
    public double multiply(double a, double b) {
        return a * b;
    }
}

It’s worth noting, however, that it’s not possible to have two method implementations that differ only in their return types.

To understand why – let’s consider the following example:

public int multiply(int a, int b) { 
    return a * b; 
}
 
public double multiply(int a, int b) { 
    return a * b; 
}

In this case, the code simply wouldn’t compile because of the method call ambiguity – the compiler wouldn’t know which implementation of multiply() to call.

2.3. Type Promotion

One neat feature provided by method overloading is the so-called type promotion, a.k.a. widening primitive conversion.

In simple terms, one given type is implicitly promoted to another one when there’s no matching between the types of the arguments passed to the overloaded method and a specific method implementation.

To understand more clearly how type promotion works, consider the following implementations of the multiply() method:

public double multiply(int a, long b) {
    return a * b;
}

public int multiply(int a, int b, int c) {
    return a * b * c;
}

Now, calling the method with two int arguments will result in the second argument being promoted to long, as in this case there’s not a matching implementation of the method with two int arguments.

Let’s see a quick unit test to demonstrate type promotion:

@Test
public void whenCalledMultiplyAndNoMatching_thenTypePromotion() {
    assertThat(multiplier.multiply(10, 10)).isEqualTo(100.0);
}

Conversely, if we call the method with a matching implementation, type promotion just doesn’t take place:

@Test
public void whenCalledMultiplyAndMatching_thenNoTypePromotion() {
    assertThat(multiplier.multiply(10, 10, 10)).isEqualTo(1000);
}

Here’s a summary of the type promotion rules that apply for method overloading:

  • byte can be promoted to short, int, long, float, or double
  • short can be promoted to int, long, float, or double
  • char can be promoted to int, long, float, or double
  • int can be promoted to long, float, or double
  • long can be promoted to float or double
  • float can be promoted to double

2.4. Static Binding

The ability to associate a specific method call to the method’s body is known as binding.

In the case of method overloading, the binding is performed statically at compile time, hence it’s called static binding.

The compiler can effectively set the binding at compile time by simply checking the methods’ signatures.

3. Method Overriding

Method overriding allows us to provide fine-grained implementations in subclasses for methods defined in a base class.

While method overriding is a powerful feature – considering that is a logical consequence of using inheritance, one of the biggest pillars of OOPwhen and where to utilize it should be analyzed carefully, on a per-use-case basis.

Let’s see now how to use method overriding by creating a simple, inheritance-based (“is-a”) relationship.

Here’s the base class:

public class Vehicle {
    
    public String accelerate(long mph) {
        return "The vehicle accelerates at : " + mph + " MPH.";
    }
    
    public String stop() {
        return "The vehicle has stopped.";
    }
    
    public String run() {
        return "The vehicle is running.";
    }
}

And here’s a contrived subclass:

public class Car extends Vehicle {

    @Override
    public String accelerate(long mph) {
        return "The car accelerates at : " + mph + " MPH.";
    }
}

In the hierarchy above, we’ve simply overridden the accelerate() method in order to provide a more refined implementation for the subtype Car.

Here, it’s clear to see that if an application uses instances of the Vehicle class, then it can work with instances of Car as well, as both implementations of the accelerate() method have the same signature and the same return type.

Let’s write a few unit tests to check the Vehicle and Car classes:

@Test
public void whenCalledAccelerate_thenOneAssertion() {
    assertThat(vehicle.accelerate(100))
      .isEqualTo("The vehicle accelerates at : 100 MPH.");
}
    
@Test
public void whenCalledRun_thenOneAssertion() {
    assertThat(vehicle.run())
      .isEqualTo("The vehicle is running.");
}
    
@Test
public void whenCalledStop_thenOneAssertion() {
    assertThat(vehicle.stop())
      .isEqualTo("The vehicle has stopped.");
}

@Test
public void whenCalledAccelerate_thenOneAssertion() {
    assertThat(car.accelerate(80))
      .isEqualTo("The car accelerates at : 80 MPH.");
}
    
@Test
public void whenCalledRun_thenOneAssertion() {
    assertThat(car.run())
      .isEqualTo("The vehicle is running.");
}
    
@Test
public void whenCalledStop_thenOneAssertion() {
    assertThat(car.stop())
      .isEqualTo("The vehicle has stopped.");
}

Now, let’s see some unit tests that show how the run() and stop() methods, which aren’t overridden, return equal values for both Car and Vehicle:

@Test
public void givenVehicleCarInstances_whenCalledRun_thenEqual() {
    assertThat(vehicle.run()).isEqualTo(car.run());
}
 
@Test
public void givenVehicleCarInstances_whenCalledStop_thenEqual() {
   assertThat(vehicle.stop()).isEqualTo(car.stop());
}

In our case, we have access to the source code for both classes, so we can clearly see that calling the accelerate() method on a base Vehicle instance and calling accelerate() on a Car instance will return different values for the same argument.

Therefore, the following test demonstrates that the overridden method is invoked for an instance of Car:

@Test
public void whenCalledAccelerateWithSameArgument_thenNotEqual() {
    assertThat(vehicle.accelerate(100))
      .isNotEqualTo(car.accelerate(100));
}

3.1. Type Substitutability

A core principle in OOP is that of type substitutability, which is closely associated with the Liskov Substitution Principle (LSP).

Simply put, the LSP states that if an application works with a given base type, then it should also work with any of its subtypes. That way, type substitutability is properly preserved.

The biggest problem with method overriding is that some specific method implementations in the derived classes might not fully adhere to the LSP and therefore fail to preserve type substitutability.

Of course, it’s valid to make an overridden method to return a different type as well, but with full adherence to these rules:

  • If a method in the base class returns void, the overridden method should return void
  • If a method in the base class returns a primitive, the overridden method should return the same primitive
  • If a method in the base class returns a certain type, the overridden method should return the same type or a subtype (a.k.a. covariant return type)
  • If a method in the base class throws an exception, the overridden method must throw the same exception or a subtype of the base class exception

3.2. Dynamic Binding

Considering that method overriding can be only implemented with inheritance, where there is a hierarchy of a base type and subtype(s), the compiler can’t determine at compile time what method to call, as both the base class and the subclasses define the same methods.

As a consequence, the compiler needs to check the type of object to know what method should be invoked.

As this checking happens at runtime, method overriding is a typical example of dynamic binding.

4. Conclusion

In this tutorial, we learned how to implement method overloading and method overriding, and we explored some typical situations where they’re useful.

The code backing this article is available on GitHub. Once you're logged in as a Baeldung Pro Member, start learning and coding on the project.
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