26

I want to implement a Stream<T>.

I don't want to just use implements Stream<T>, because I would have to implement a ton of methods.

Can this be avoided?

To be more concrete, how can I stream t1, t2 and t3 for example:

class Foo<T> {
    T t1, t2, t3;

    Foo(T t1, T t2, T t3) {
        this.t1 = t1;
        this.t2 = t2;
        this.t3 = t3;
    }
}
35

The JDK's standard implementation of Stream is the internal class java.util.stream.ReferencePipeline, you cannot instantiate it directly.

Instead you can use java.util.stream.Stream.builder(), java.util.stream.StreamSupport.stream(Spliterator<T>, boolean) and various1, 2 other static factory methods to create an instance of the default implementation.

Using a spliterator is probably the most powerful approach as it allows you to provide objects lazily while also enabling efficient parallelization if your source can be divided into multiple chunks.

Additionally you can also convert streams back into spliterators, wrap them in a custom spliterator and then convert them back into a stream if you need to implement your own stateful intermediate operations - e.g. due to shortcomings in the standard APIs - since most available intermediate ops are not allowed to be stateful.
See this SO answer for an example.

In principle you could write your own implementation of the stream interface, but that would be quite tedious.

11

You usually do not need to write your own stream class. Instead you can create stream by existing methods. For instance, here is how to create a stream of the value 1, 100:

  AtomicInteger n = new AtomicInteger(0);
  Stream<Integer> stream = Stream.generate(() -> n.incrementAndGet()).limit(100);

so in here we created an infinite stream of integers: 1, 2, 3, .... then we used limit(100) on that infinite stream to get back a stream of 100 elements.

For clarity, if you want a stream of integers (at fixed intervals) you should use IntStream.range(). This is just an example to show how streams can be defined using Stream.generate() which gives you more flexibility as it allows you to use arbitrary logic for determining steam's elements.

  • 2
    IntStream.range(0,100) would be more efficient in this case. – the8472 Jun 6 '15 at 18:00
  • 1
    This can be shortened to Stream.generate(n::incrementAndGet).limit(100) – Nathan Villaescusa Aug 12 '17 at 0:07
  • Use n::getAndIncrement if you want the stream to start at 0. – Nathan Villaescusa Aug 12 '17 at 0:34
11

If you're wanting to make your own Stream because you want custom close() logic, the simplest solution is to create a Stream from an Iterator, and call onClose(Runnable). For instance, to stream from a Reader via Jackson:

MappingIterator<?> values = objectMapper.reader(type).readValues(reader);
return StreamSupport
        .stream(Spliterators.spliteratorUnknownSize(values, Spliterator.ORDERED), false)
        .onClose(() -> {
            try {
                reader.close();
            } catch (IOException e) {
                throw new RuntimeException(e);
            }
        });
7

For the sake of completeness, as I did not find this directly among the answers here on SO: If you want to transform an existing Iterator into a Stream (e.g., because you want to generate elements successively), use this:

StreamSupport.stream(
    Spliterators.spliterator(myIterator, /* initial size*/ 0L, Spliterator.NONNULL), 
    /* not parallel */ false);

I found this a bit hard to find, as you need to know StreamSupport, Spliterators and Spliterator

  • This is useful, thanks! Note that the parameter you've called "initial size" is actually the stream's estimated size. Not exactly sure what that is used for but it seems to play a role in whether a stream is parallelisable and I think that passing 0 here rules out concurrency entirely. Spliterators.spliteratorUnknownSize(myIterator, Spliterator.NONNULL) would use Long.MAX_VALUE as the estimate instead. – sqweek Mar 19 at 8:42
6

Others have answered how to provide a general-purpose Stream implementation. Regarding your specific requirement, just do this:

class Foo<T> {

    T t1, t2, t3;

    Foo(T t1, T t2, T t3) {
        this.t1 = t1;
        this.t2 = t2;
        this.t3 = t3;
    }

    Stream<T> stream() {
        return Stream.of(t1, t2, t3);
    }
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.