139

Suppose we have a Collection<Foo>. What is the best (shortest in LoC in current context) way to transform it to Foo[]? Any well-known libraries are allowed.

UPD: (one more case in this section; leave comments if you think it's worth to create another thread for it): What about transforming Collection<Foo> to Bar[] where Bar has constructor with 1 parameter of type Foo i.e. public Bar(Foo foo){ ... } ?

1
  • 1
    Made this answer with an alternate API introduced in JDK-11 to perform the same operation with similar performance and the explanation along with it. Plus the syntax matches the existing Stream.toArray API from the JDK.
    – Naman
    Jul 26, 2018 at 18:59

10 Answers 10

274

Where x is the collection:

Foo[] foos = x.toArray(new Foo[x.size()]);
9
  • 39
    simpler (easier) but not best(memory): x.toArray(new Foo[0]) --- documentation: no time to read...
    – user85421
    Jul 20, 2010 at 20:47
  • 7
    @Carlos actually, it uses better memory than (new Foo[0]). As per the Collection.toArray documentation, ` @param a the array into which the elements of this collection are to be stored, if it is big enough` which means it will store them directly in that new array. If you give it a size 0 array, it will make a new array, meaning you have a small array and a large array being made when such is unnecessary.
    – corsiKa
    Jul 20, 2010 at 21:42
  • 4
    @glowcoder - but this can be minimized if you define a empty array once as a static constant. It's just a hint for toArray to create a target array of the correct type. And in this case, honestly, I wouldn't care about one extra single empty array in my application. That's far below noise level. Jul 21, 2010 at 6:28
  • 2
    @glowcoder - that's exactly why I (tried to) wrote that using new Foo[0] is simpler "but not best (memory)"... that is, I meant that my solution is easier but not best (that's the reason I used : ).
    – user85421
    Jul 21, 2010 at 7:26
  • 21
    Note that this code is not threadsafe, even if you're using a synchronized collection. It'll behave itself in most situations, but if an item is deleted between the call to x.size() and x.toArray(), the resulting array will contain an extra null element at the end. The new Foo[0] variant proposed by Carlos does not suffer this problem.
    – Jules
    Nov 19, 2013 at 2:33
38

Alternative solution to the updated question using Java 8:

Bar[] result = foos.stream()
    .map(x -> new Bar(x))
    .toArray(size -> new Bar[size]);
3
  • 38
    This can be shortened to Bar[] result = foos.stream().map(Bar::new).toArray(Bar[]::new); Dec 27, 2014 at 13:27
  • Syntax wise I'd much prefer the accepted answer. I wish people can all switch to Python.
    – Eric Chen
    Sep 12, 2017 at 19:40
  • @EricChen Switch to Python - an interpreted and dynamically typed language from Java - 'compiled and statically typed language' because of coding syntax and number lines differ? Not a good idea.
    – RafiAlhamd
    Feb 21, 2020 at 4:50
11

If you use it more than once or in a loop, you could define a constant

public static final Foo[] FOO = new Foo[]{};

and do the conversion it like

Foo[] foos = fooCollection.toArray(FOO);

The toArray method will take the empty array to determine the correct type of the target array and create a new array for you.


Here's my proposal for the update:

Collection<Foo> foos = new ArrayList<Foo>();
Collection<Bar> temp = new ArrayList<Bar>();
for (Foo foo:foos) 
    temp.add(new Bar(foo));
Bar[] bars = temp.toArray(new Bar[]{});
5
  • 1
    ups, const is not Java! public static final Foo[] FOO = {}
    – user85421
    Jul 20, 2010 at 20:55
  • 1
    why would it be public?
    – Zoltán
    Jul 25, 2013 at 19:14
  • @Zoltán - why not? It's immutable, so doesn't present a safety issue. It's a little bit of clutter, but could be useful in other code, so is generally harmless. Maybe even create a central class with all of these constants, and then use import static to get at them.
    – Jules
    Nov 19, 2013 at 2:36
  • @Jules the reference to the array is immutable, but the contents of it aren't. Anyone outside the class can replace the elements of the array freely. And on the other hand, as a rule of thumb, I believe all fields should be made private until they are needed outside the class.
    – Zoltán
    Nov 19, 2013 at 8:53
  • 2
    Being zero length, there are no contents that can be changed
    – Jules
    Nov 19, 2013 at 12:51
7

With JDK/11, an alternate way of converting a Collection<Foo> to an Foo[] could be to make use of Collection.toArray(IntFunction<T[]> generator) as:

Foo[] foos = fooCollection.toArray(new Foo[0]); // before JDK 11
Foo[] updatedFoos = fooCollection.toArray(Foo[]::new); // after JDK 11

As explained by @Stuart on the mailing list(emphasis mine), the performance of this should essentially be the same as that of the existing Collection.toArray(new T[0]) --

The upshot is that implementations that use Arrays.copyOf() are the fastest, probably because it's an intrinsic.

It can avoid zero-filling the freshly allocated array because it knows the entire array contents will be overwritten. This is true regardless of what the public API looks like.

The implementation of the API within the JDK reads:

default <T> T[] toArray(IntFunction<T[]> generator) {
    return toArray(generator.apply(0));
}

The default implementation calls generator.apply(0) to get a zero-length array and then simply calls toArray(T[]). This goes through the Arrays.copyOf() fast path, so it's essentially the same speed as toArray(new T[0]).


Note:- Just that the API use shall be guided along with a backward incompatibility when used for code with null values e.g. toArray(null) since these calls would now be ambiguous because of existing toArray(T[] a) and would fail to compile.

6

If you use Guava in your project you can use Iterables::toArray.

Foo[] foos = Iterables.toArray(x, Foo.class);
3

Here's the final solution for the case in update section (with the help of Google Collections):

Collections2.transform (fooCollection, new Function<Foo, Bar>() {
    public Bar apply (Foo foo) {
        return new Bar (foo);
    }
}).toArray (new Bar[fooCollection.size()]);

But, the key approach here was mentioned in the doublep's answer (I forgot for toArray method).

1
  • 1
    See my comment on doublep's answer about thread safety, which also applies to this solution. new Bar[0] avoids the issue.
    – Jules
    Nov 19, 2013 at 2:44
2

For the original see doublep answer:

Foo[] a = x.toArray(new Foo[x.size()]);

As for the update:

int i = 0;
Bar[] bars = new Bar[fooCollection.size()];
for( Foo foo : fooCollection ) { // where fooCollection is Collection<Foo>
    bars[i++] = new Bar(foo);
}    
0

Actually in modern Java, the version without setting the explicit size is faster. See this SO answer:

.toArray(new MyClass[0]) or .toArray(new MyClass[myList.size()])?

This is backed up by independent research and the team at IntelliJ.

That is, this is the fastest approach today:

Foo[] foos = x.toArray(new Foo[0])

Or, even better, with a bit of safety:

Foo[] foos = x == null ? null : x.toArray(new Foo[0])
0

Foo[] foos = x.toArray(new Foo[0]);

-1

For example, you have collection ArrayList with elements Student class:

List stuList = new ArrayList();
Student s1 = new Student("Raju");
Student s2 = new Student("Harish");
stuList.add(s1);
stuList.add(s2);
//now you can convert this collection stuList to Array like this
Object[] stuArr = stuList.toArray();           // <----- toArray() function will convert collection to array

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