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Consider this generic method taken from Effective Java:

  // Generic method
    public static <E> Set<E> union(Set<E> s1, Set<E> s2) {
     Set<E> result = new HashSet<E>(s1);
     return result;

And this method to to exercise the generic method above :

// Simple program to exercise generic method
public static void main(String[] args) {
 Set<String> guys = new HashSet<String>(
 Arrays.asList("Tom", "Dick", "Harry"));
 Set<String> stooges = new HashSet<String>(
 Arrays.asList("Larry", "Moe", "Curly"));
 Set<String> aflCio = union(guys, stooges); //What does the type parameter help here?

if we didn't provide the type parameter ie <E> between the modifier and the return type can we still not assign the reference aflCio which is of type Set<String> to the return value of union method ? What is the type parameter buying us here ?

I am having difficulty understanding the following paragraph:

One noteworthy feature of generic methods is that you needn’t specify the value of the type parameter explicitly as you must when invoking generic con- structors. The compiler figures out the value of the type parameters by examining the types of the method arguments. In the case of the program above, the compiler sees that both arguments to union are of type Set, so it knows that the type parameter E must be String. This process is called type inference.

Are we not mentioning the type parameter in the return type as Set<E>. So why do we need to add it again ?

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The type parameter (together with the rest of the generics system) buys you type safety: As long as you have no warnings in your entire code base, the type system provided by generics is a strong guarantee. Without generics you could return a Set containing Integer, String and HashMap objects all mixed into one. –  Joachim Sauer Feb 21 '13 at 10:10
@JoachimSauer I want to understand how this type parameter is providing type safety . Can you explain please ? –  Geek Feb 21 '13 at 10:12
without the parameter, how could you ensure that you're creating an appropriate Set<String>? You could only create a Set<?> or Set<Object> or a raw Set. None of those would give you the necessary guarantees. –  Joachim Sauer Feb 21 '13 at 10:20

4 Answers 4

up vote 4 down vote accepted

Perhaps the easiest way to understand this is to consider the alternatives. Without using a generic method, one would have to choose a suitable type for the Set.

Object is not a valid choice, because you don't want to receive a Set<Object> from your method - you can't assign that to a Set<String>:

// Nope 
public static Set<Object> union(Set<Object> s1, Set<Object> s2) {
  Set<Object> result = new HashSet<Object>(s1);
  return result;

Nor is a wildcard ? type appropriate. Again, you are unable to assign this to a Set<String>.

Instead, Java has defined a syntax for a generic method which is designed for exactly this scenario.

public static <E> Set<E> union(Set<E> s1, Set<E> s2) {
  Set<E> result = new HashSet<E>(s1);
  return result;

Now we don't care what type is stored in the Set, provided the same type is used in both inputs. The compiler then knows the return type will be Set<String> if the inputs are Set<String>s.

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please see the edited title ?are we already not mentioning about type parameter in the return type ? Why do we need to it include the same again ? –  Geek Feb 21 '13 at 11:15
That is the Java syntax! I'm afraid there is no other answer. –  Duncan Feb 21 '13 at 11:31

If you're asking why you have to write <E> at all, it's because this is just how Java generic syntax is defined. It won't compile otherwise since the type paramter has to be declared in this case.

If you're asking what the bound accomplishes: the most relevant thing it does is ensure that the two arguments are Sets of the same thing and that the return value contains the same type of thing.

Without this, you can of course still manage to union two sets of strings. After all people managed it way back in the days of Java 1.4. But the compiler can't check that for you. Without this, you can still cast the result to the right generic type, but, then you have to cast.

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Parameter <E> let the compiler know that you are not going to specify real class name in List<E> like List<String>, but use a type variable E

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This brings you TypeSafety. TypeSafety ensures that

  • Arguments passed and Return type of a function are of correct Data Type.
  • A class deals with objects of correct datatype.

This is really important in large projects where you'l have to use classes and functions written by other developers. Without looking deep into function, or class definition you can pass/get objects of correct datatypes, without fear of crashing the app due to ClassCastExceptions.

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