What is the best method of splitting a String into a Stream?

I saw these variations:

  1. Arrays.stream("b,l,a".split(","))
  2. Stream.of("b,l,a".split(","))
  3. Pattern.compile(",").splitAsStream("b,l,a")

My priorities are:

  • Robustness
  • Readability
  • Performance

A complete, compilable example:

import java.util.Arrays;
import java.util.regex.Pattern;
import java.util.stream.Stream;

public class HelloWorld {

    public static void main(String[] args) {

    private static Stream<String> stream1() {
        return Arrays.stream("b,l,a".split(","));

    private static Stream<String> stream2() {
        return Stream.of("b,l,a".split(","));

    private static Stream<String> stream3() {
        return Pattern.compile(",").splitAsStream("b,l,a");

  • 4
    Do you think that there is so much difference that it makes sense to spend time wondering about the "best" way, or have you identified this as a performance hotspot in your program making it at least somewhat justified to try to find the "best" way?
    – Kayaman
    Dec 2 '16 at 13:02
  • 5
    Note that Stream.of() will call Arrays.stream() internally, so clearly that's not the "best".
    – Kayaman
    Dec 2 '16 at 13:04
  • 2
    IMHO, the last one is best. No nested parens, clear that it's about regex, and it does not create an intermediate list or array of all segments. But that's just my opinion.
    – tobias_k
    Dec 2 '16 at 13:05
  • 1
    I don`t think we can particularly judge his reasoning for wanting to know this information. Though best is an opinion do you mean fastest ?
    – Heavy Gray
    Aug 21 '18 at 23:29
  • 1
    @Prospero OP clearly spelled out what he's looking for: robustness, readability, and performance.
    – shmosel
    Aug 21 '18 at 23:32


Since String.split returns an array String[], I always recommend Arrays.stream as the canonical idiom for streaming over an array.

String input = "dog,cat,bird";
Stream<String> stream = Arrays.stream(input.split( "," ));


Stream.of is a varargs method which just happens to accept an array, due to the fact that varargs methods are implemented via arrays and there were compatibility concerns when varargs were introduced to Java and existing methods retrofitted to accept variable arguments.

Stream<String> stream = Stream.of(input.split(","));     // works, but is non-idiomatic
Stream<String> stream = Stream.of("dog", "cat", "bird"); // intended use case


Pattern.compile(",").splitAsStream(string) has the advantage of streaming directly rather than creating an intermediate array. So for a large number of sub-strings, this can have a performance benefit. On the other hand, if the delimiter is trivial, i.e. a single literal character, the String.split implementation will go through a fast path instead of using the regex engine. So in this case, the answer is not trivial.

Stream<String> stream = Pattern.compile(",").splitAsStream(input);

If the streaming happens inside another stream, e.g. .flatMap(Pattern.compile(pattern) ::splitAsStream) there is the advantage that the pattern has to be analyzed only once, rather than for every string of the outer stream.

Stream<String> stream = Stream.of("a,b", "c,d,e", "f", "g,h,i,j")

This is a property of method references of the form expression::name, which will evaluate the expression and capture the result when creating the instance of the functional interface, as explained in What is the equivalent lambda expression for System.out::println and java.lang.NullPointerException is thrown using a method-reference but not a lambda expression

  • .flatMap(Pattern.compile(pattern) why has the pattern to be analyzed only once? Is there caching? If yes, is this written in the docs somewhere?
    – Roland
    Sep 25 '17 at 9:16
  • 19
    @Roland: that’s a property of method references of the form expression::name, the expression will get evaluated and the result captured by the created function instance. With Pattern.compile(pattern)::splitAsStream, the expression is Pattern.compile(pattern). That’s fundamentally different to, e.g. (string) -> Pattern.compile(pattern).splitAsStream(string) which would reevaluate the pattern on each function evaluation. See here and here
    – Holger
    Sep 25 '17 at 9:28
  • 2
    @Benj the problem is that it is even calling subSequence(…).toString(), so using a different CharSequence implementation (i.e. a non-copying CharBuffer.wrap(string)) would only defer the copying to the subsequent toString() call. But for tokenizing, you’d rather want Java 9’s Matcher.results() or Scanner.findAll(…) anyway, so consider the backports of this answer. Since MatchResult provides start() and end(), you can build copy-free operations atop of it.
    – Holger
    Aug 21 '18 at 14:32
  • 2
    @Benj you may also consider the second half of this answer, which contains code examples of a tokenization which creates only a single String instance for each unique token, which dramatically reduces time and memory footprint when parsing something with lots of occurrences of common keywords.
    – Holger
    Aug 21 '18 at 14:41
  • 2
    It seems Guava's Splitter has an interesting way of doing this, i stumbled upon this more or less randomly.
    – Benj
    Aug 22 '18 at 12:24

Regarding (1) and (2) there shouldn't be much difference, as your code is almost the same.
Regarding (3), that would be much more effective it terms of memory (not necessarily CPU), but in my opinion, a bit harder to read.



I can see no difference in the robustness of the three approaches.


I am not aware of any credible scientific studies on code readability involving experienced Java programmers, so readability is a matter of opinion. Even then, you never know if someone giving their opinion is making an objective distinction between actual readability, what they have been taught about readability, and their own personal taste.

So I will leave it to you to make your own judgements on readability ... noting that you do consider this to be a high priority.

FWIW, the only people whose opinions on this matter are you and your team.


I think that the answer to that is to carefully benchmark the three alternatives. Holger provides an analysis based on his study of some versions of Java. But:

  1. He was not able to come to a definite conclusion on which was fastest.
  2. Strictly speaking, his analysis only applies to the versions of Java he looked at. (Some aspects of his analysis could be different on (say) Android Java, or some future Oracle / OpenJDK version.)
  3. The relative performance is likely depend on the length of the string being split, the number of fields, and the complexity of the separator regex.
  4. In a real application, the relative performance may also depend what you do with the Stream object, what garbage collector you have selected (since the different versions apparently generate different amounts of garbage), and other issues.

So if you (or anyone else) are really concerned with the performance, you should write a micro-benchmark and run it on your production platform(s). Then do some application specific benchmarking. And you should consider looking at solutions that don't involve streams.

  • I agree to your point of view: it is hard to scientifically prove robustness, readability and Java performance. A minor note, though: readability should not only be a personal taste of the current team, because future team members will have to read the code, too.
    – slartidan
    Oct 21 '19 at 3:56
  • I tried to make it clear that readability and personal taste are not the same thing.
    – Stephen C
    Oct 21 '19 at 12:00

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