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Quick Question... Can collections in Java hold more than one type? Or do they all have to be the same type?


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The problem of this kind of question is: 1) they have been asked several times. 2) they attract a lot of low quality answers, because it is a topic where even a novice knows something about. As a result (on top of it) most answers here contain mistakes, just because they are posted by novice developers. In my opinion this question should be closed. – bvdb Jan 24 at 18:46
Possible duplicate of Defining a type for a Java Collection – bvdb Jan 24 at 18:49
up vote 6 down vote accepted

Simple answer


More detailed answer

You can either use generic collection, without <T> value, for example:

ArrayList a = new ArrayList();

Using collections without <T> is a bad habit and most IDEs / compilers give a warning here. You can circumvent it by using a collection of Object, i.e.:

ArrayList<Object> a = new ArrayList<Object>();

Or you can find some common interface or supertype that these element must have in, for example ArrayList<Number> - and you can store various objects that have common Number superclass, i.e. BigDecimal, BigInteger, Byte, Double, Float, Integer, Long, Short:

ArrayList<Number> a = new ArrayList<Number>();
a.add(2); // integer
a.add(42L); // long
a.add(123.45d); // double
System.out.println(a.toString()); // => [2, 42, 123.45]

Note that it essentially means that a elements are of Number class — i.e. you can't ask to execute subclass-specific methods (for example, Double#isInfinite(), which doesn't exist in Number superclass), although you can typecast in run-time if you somehow know it's safe to typecast:

a.get(2).isInfinite()          // compile-time error
((Double) a.get(2)).isInfinite() // => false
((Double) a.get(1)).isInfinite() // run-time error (ClassCastException)

Run-time typecasting is also generally frowned upon, as it effectively circumvents proper compile-time type safety.

Also note that it's impossible to assign (or use) ArrayList<Number> in place of ArrayList<Integer> and vice-versa, i.e. this will fail to compile:

public void printNumbers(ArrayList<Number> list) {
ArrayList<Integer> a = new ArrayList<Integer>();
printNumbers(a); // "incompatible types"

as well as this:

public void printIntegers(ArrayList<Integer> list) {
ArrayList<Number> a = new ArrayList<Number>();
printIntegers(a); // "incompatible types"

To declare a variable to be able to accept both ArrayList<Number> or any of its subclasses, one can use ArrayList<? extends Number> or ArrayList<? super Number> syntax. extends is generally used when you're going to consume (i.e. read) from the object in your method, super is used when you're going to produce (i.e. write). Given that printout is consuming, it's safe to use extends:

public void printNumbers(ArrayList<? extends Number> list) {

ArrayList<Integer> listInt = new ArrayList<Integer>();
printNumbers(listInt); // works
ArrayList<Double> listDbl = new ArrayList<Double>();
printNumbers(listDbl); // also works

There is a good answer in Difference between <? super T> and <? extends T> in Java for more in-depth explanation.

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Unfortunately, this is not entirely correct. You cannot store a Double in an ArrayList<? extends Number>. Why not? Because an ArrayList<? extends Number> could be an ArrayList<Integer>. On the other hand, you can in fact store a Double in an ArrayList<? super Number> – bvdb Jan 24 at 18:39
Sorry for the confusion. A simple collection that allows addition of both integers and doubles is in fact just ArrayList<Number>. <? extends Number> or <? super Number> is a fancy way to reference semi-unknown type, which would be known to be either in compile-time (in extends) or run-time (in super) — and they both don't really allow you to store both integers and doubles in the same collection as topic starter requests. I'll try to clarify answer now. – GreyCat Jan 25 at 7:44
In a List<? super Number> you can in fact store both integers and doubles at the same time. In the same collection. For example: List<? super Number> list = new ArrayList<Object>(); – bvdb Jan 25 at 20:55

If you want them to hold any more than one type, use Collection<Object>. However, you won't know what you're getting without doing some if (x instanceof MyType) calls, which are rather inefficient.

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So a collection can contain two strings and two integers? – Jake Nov 23 '10 at 22:42
if you call it Vector<Object> (for instance) and store your int as Integer. – Actorclavilis Nov 23 '10 at 22:42
Yeah, sure, as long as these two share the same supertype, i.e. Object. Strictly speaking, you can't put int into collection, but you can put a String and Integer there. – GreyCat Nov 23 '10 at 22:44

They have to be of the same Supertype. So if you have objects of type A, then a Collection<A> can store objects of type A and of every subtype of A.

If you want to allow arbitrary types, then use Collection<Object>, otherwise take the most general appropriate super-class.

However, you will then have to manually cast from the most general type (Object) to the specific type you have in mind. You can use the typeof operator to find out what the type is.

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Yes they can but they should not (that's why generics have been put in place since 5th version of jdk) in general store different types, as this is the straight way to errors.

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I believe you can also use Collection<?>.

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You can, but you can't add anything to it. – Jorn Nov 23 '10 at 23:05

The question is why you want to do that? Then retrieving and manipulating them would not be easy.

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Every Collection classes can contains heterogeneous objects except TreeSet and TreeMap. Since TreeSet and TreeMap stores elements according to some sorting order. so, if objects are of different type it will not be able to sort it because comparison between the objects will not be possible for sorting.

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TreeMap is not a collection. – bvdb Jan 24 at 18:54

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