I used to develop in Java and I did not fully understand the callback concept until I began programming with C# and its delegates.
The reason of that is because as @Denilson Sá perfectly mentioned Java does not use pointers to functions.
In other words, in Java you can call a method and pass some arguments such as primitive values (int, long, char, boolean, etc.) and objects (String or any instance of any class as when you passs an object you are basically passing the address in memory of the real object that lives somewhere in memory).
The callback concept in Java could be implemented by using interfaces and passing them (the object that implements them) as arguments. Imagine you have the following interface that defines 2 methods that ANY class that wants to behave as a ResultListener must implement.
interface ResultListener {
void onSuccessOperation(String description);
void onFailedOperation(String description);
}
Now imagine you have a main program that is running inside the showScreen method
class MyMainScreen implements ResultListener {
public void showScreen() {
//do some things..
SmartClass smartClass = new SmartClass();
smartClass.divideAndNotify(5, 0, this);
}
public void onSuccessOperation(String description) {
System.out.println("SUCCESS!!. " + description);
}
public void onFailedOperation(String description) {
System.out.println("FAILED. " + description);
}
}
And this is the SmartClass that knows how to divide.
class SmartClass {
public void divideAndNotify(int numerador, int denominador, ResultListener resultListener) {
if (denominador == 0) {
resultListener.onFailedOperation("Nobody can divide by zero!!");
} else {
int total = numerador / denominador;
resultListener.onSuccessOperation("The result is " + total);
}
}
}
The interesting part here is that MyMainScreen is behaving as a ResultListener so it needs to implement the methods defined in the interface ResultListener.
MyMainScreen knows how to print messages on console, but it does not know anything about calculations, and that is why it instantiates the SmartClass to use its method divideAndNotify that accepts 2 numbers and a reference to the instance that will listen to the result (in our case this instance is the MyMainScreen instance itself, and that's why it passes itself with the word this)
The SmartClass method divideAndNotify knows maths and will notify whoever is listening with the result of the operation. Its method knows that resultListener will contain the reference to an object that knows what to do when the result is successful or unsuccessful.
The callback concept here is that SmartClass is delegating the functionality on what to do with the result, it is like "calling back" something in the instance that it received as a parameter.
As a summary: A callback is simply a DELEGATION of a task.
PS: With C# this concept is much more straightforward because C# has delegate types that are variables that store addresses of memory where functions reside (the functions that store must match the signature defined in the delegate).