29

Which is the best way to create a stream out of a collection:

    final Collection<String> entities = someService.getArrayList();
  1. entities.stream();

  2. Stream.of(entities);

5 Answers 5

45

The second one does not do what you think it does! It does not give you a stream with the elements of the collection; instead, it will give you a stream with a single element, which is the collection itself (not its elements).

If you need to have a stream containing the elements of the collection, then you must use entities.stream().

8
  • 3
    if he turns the entities to an array, it will have a matter Commented Oct 5, 2016 at 12:46
  • 3
    @AndrewTobilko Yes, Stream.of(...) would work if entities would be an array, but in aurelius' question it is a Collection, not an array.
    – Jesper
    Commented Oct 5, 2016 at 12:48
  • 4
    @Andrew Tobilko: if entities is an array, the recommended way to construct a stream is Arrays.stream(entities) as otherwise, you risk to get a stream of a single array element, depending on the circumstances. Stream.of is intended for elements directly named in the invocation. Of course, if you want a single element stream, Stream.of(…) is the right choice.
    – Holger
    Commented Oct 5, 2016 at 13:53
  • 1
    @Jesper: the outcome differs, depending on which type is inferred. Or, in other words, Stream.<String>of(array) will produce a different outcome as Stream.<String[]>of(array). We got used to the limited type inference for chained method invocation we have today, but even today, using Stream.of for existing arrays will backfire when it is an array of primitive type and Arrays.stream semantics was actually desired…
    – Holger
    Commented Oct 5, 2016 at 14:17
  • 1
    @Jesper: the explicitly written types were examples for the otherwise invisibly inferred types. As said, this appears to be no issue today (unless primitive arrays are involved), as streams are usually composed of chained invocations and the currently limited type inference stops at chained invocations. But developers should think ahead. There is a way to expression the intention without ambiguity, Arrays.stream, so there’s no reason not to it…
    – Holger
    Commented Oct 5, 2016 at 14:45
7

1)

Stream<String> stream1 = entities.stream()

2)

Stream<Collection<String>> stream2 = Stream.of(entities)

So use 1, or for 2

Stream<String> stream3 = Stream.of("String1", "String2")
5

We can take a look at the source code:

/**
 * Returns a sequential {@code Stream} containing a single element.
 *
 * @param t the single element
 * @param <T> the type of stream elements
 * @return a singleton sequential stream
 */
public static<T> Stream<T> of(T t) {
    return StreamSupport.stream(new Streams.StreamBuilderImpl<>(t), false);
}

/**
 * Returns a sequential ordered stream whose elements are the specified values.
 *
 * @param <T> the type of stream elements
 * @param values the elements of the new stream
 * @return the new stream
 */
@SafeVarargs
@SuppressWarnings("varargs") // Creating a stream from an array is safe
public static<T> Stream<T> of(T... values) {
    return Arrays.stream(values);
}

As for Stream.of():

  1. When the input variable is an array, it will call the second function, and return a stream containing the elements of the array.
  2. When the input variable is a list, it will call the first function, and your input collection will be treated as a single element, not a collection.

So the right usage is :

List<Integer> list = Arrays.asList(3,4,5,7,8,9);
List<Integer> listRight = list.stream().map(i -> i*i).collect(Collectors.toList());
    
Integer[] integer = list.toArray(new Integer[0]);

List<Integer> listRightToo = Stream.of(integer).map(i ->i*i).collect(Collectors.toList());
1

I myself keep getting confused about this so I might as well leave this here for future reference:

import java.util.stream.IntStream;
import java.util.stream.Stream;

import static java.util.Arrays.*;
import static java.util.stream.Stream.*;

class Foo {
    void foo() {
        Stream<Foo> foo; 

        foo =     of(new Foo(), new Foo());
     // foo = stream(new Foo(), new Foo()); not possible

        foo =     of(new Foo[]{new Foo(), new Foo()});
        foo = stream(new Foo[]{new Foo(), new Foo()});

        Stream<Integer> integerStream; 

        integerStream =     of(1, 2);
     // integerStream = stream(1, 2); not possible

        integerStream =     of(new Integer[]{1, 2});
        integerStream = stream(new Integer[]{1, 2});

        Stream<int[]> intArrayStream =     of(new int[]{1, 2}); // count = 1!
        IntStream intStream          = stream(new int[]{1, 2}); // count = 2!
    }
}
0

Stream.of() is generic whereas Arrays.stream is not: Arrays.stream() method only works for primitive arrays of int[], long[], and double[] type, and returns IntStream, LongStream and DoubleStream respectively. For other primitive types, Arrays.stream() won’t work. On the other hand, Stream.of() returns a generic Stream of type T (Stream). Hence, it can be used with any type.

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