# IntStream iterate in steps

How do you iterate through a range of numbers (0-100) in steps(3) with IntStream?

I tried `iterate`, but this never stops executing.

``````IntStream.iterate(0, n -> n + 3).filter(x -> x > 0 && x < 100).forEach(System.out::println)
``````
• didn't understand why you ask and answer in the same time ?!? Commented Nov 1, 2016 at 11:07
• @YagamiLight I couldn't find this answer on stackoverflow. Just want to help others and expand the knowledge base. And maybe others have a higher performing solution, since my answer is not 'ideal'. Commented Nov 1, 2016 at 11:09
• i totally understand and really like this why of thinking but you could ask to improve your answer (by adding it in the question) or simplly wait a littble bit longer Commented Nov 1, 2016 at 11:13
• The filter() method, if not otherwise limited, will search through a whole collection (which in your case is effectively infinite). What you're looking for is a takeWhile() method (that iterates only up to a first element that falsifies a predicate). Look for example here: stackoverflow.com/questions/20746429/… Commented Feb 1, 2018 at 16:44

Actually `range` is ideal for this.

``````IntStream.range(0, 100).filter(x -> x % 3 == 0); //107,566 ns/op [Average]
``````

Edit: Holgers's solution is the fastest performing solution.

Since the following lines of code

``````IntStream.range(0, 100).filter(x -> x % 3 == 0).forEach((x) -> x = x + 2);

IntStream.range(0, 100 / 3).map(x -> x * 3).forEach((x) -> x = x + 2);

int limit = ( 100 / 3 ) + 1;
IntStream.iterate(0, n -> n + 3).limit(limit).forEach((x) -> x = x + 2);
``````

show these benchmark results

``````Benchmark                 Mode  Cnt    Score    Error  Units
Benchmark.intStreamTest   avgt    5  485,473 ± 58,402  ns/op
Benchmark.intStreamTest2  avgt    5  202,135 ±  7,237  ns/op
Benchmark.intStreamTest3  avgt    5  280,307 ± 41,772  ns/op
``````
• `IntStream.range(0, 100/3).map(i -> i*3)` might be more efficient… Commented Nov 1, 2016 at 11:16
• @Holger Awesome, your solution performs 2,4 times higher! Commented Nov 1, 2016 at 13:42
• Well, 33 multiplications should be faster than 100 modulo operations. But note that when benchmarking, you have to care that the JIT can’t optimize the consumer to a no-op, i.e. if you use JMH, call `BlackHole.consume` with the `x` in the consumer. Commented Nov 1, 2016 at 14:36
• What if we need range 900 to 1900 with step 5 Commented Feb 15, 2019 at 16:39

Actually you can also achieve the same results with a combination of peek and allMatch:

``````IntStream.iterate(0, n -> n + 3).peek(n -> System.out.printf("%d,", n)).allMatch(n -> n < 100 - 3);
``````

This prints

0,3,6,9,12,15,18,21,24,27,30,33,36,39,42,45,48,51,54,57,60,63,66,69,72,75,78,81,84,87,90,93,96,99,

But nevertheless, this one is faster:

``````IntStream.range(0, 100 / 3 + 1).map(x -> x * 3).forEach((x) -> System.out.printf("%d,", x));
``````

## Java 9 Update:

Now the same iteration easier to achieve with Java 9:

``````Stream.iterate(0, i -> i <= 100, i -> 3 + i).forEach(i -> System.out.printf("%d,", i));
``````
• how do you get rid of the last comma in the printout using the same code? Commented Oct 20, 2019 at 14:36
• @leeCoder Something like: `String joined = IntStream.range(0, 100 / 3 + 1).map(x -> x * 3).mapToObj(Integer::toString).collect(Collectors.joining(","));` Commented Oct 20, 2019 at 19:33

In JDK9 there's `takeWhile` 1

``````IntStream
.iterate(0, n -> n + 3)
.takeWhile(n -> n < 100)
.forEach(System.out::println);
``````

`limit` can also be used

``````int limit = ( 100 / 3 ) + 1;
IntStream.iterate(0, n -> n + 3).limit(limit).forEach(System.out::println);
``````

Elegant Solution:

``````IntStream.iterate(0, n -> n < 100, n -> n + 3).forEach(System.out::println)
``````

Stream.iterate() supports a hasNext() predicate (added in Java 9) which can be used to limit the stream in more natural way.

• Already mentioned in this answer. Commented Oct 22, 2017 at 20:28

If you are ok adding a library dependency, the `IntInterval` class in Eclipse Collections has the step function I think you are looking for. I tried a few different approaches converting `IntInterval` to an `IntStream`, since the original question asked for `IntStream`. Here are the solutions I came up with using `IntInterval` and then converting it to an `IntStream`.

``````IntInterval interval = IntInterval.zeroTo(99).by(3);
interval.each(System.out::print);

IntStream.of(interval.toArray()).forEach(System.out::print);

IntStream.Builder builder = IntStream.builder();
builder.build().forEach(System.out::print);

IntStream.generate(interval.intIterator()::next)
.limit(interval.size()).forEach(System.out::print);
``````

`IntInterval` is inclusive on the from and to like `IntStream.rangeClosed()`.

Note: I am a committer for Eclipse Collections

More generic solution:

``````LongStream.range(0L, (to - from) / step) // +1 depends on inclusve or exclusive
.mapToObj(i -> (from + i * step))
.collect(Collectors.toList());
``````