What is the equivalent of of Scala's great foldLeft in Java 8?

I was tempted to think it was reduce, but reduce has to return something of identical type to what it reduces on.


import java.util.List;

public class Foo {

    // this method works pretty well
    public int sum(List<Integer> numbers) {
        return numbers.stream()
                      .reduce(0, (acc, n) -> (acc + n));

    // this method makes the file not compile
    public String concatenate(List<Character> chars) {
        return chars.stream()
                    .reduce(new StringBuilder(""), (acc, c) -> acc.append(c)).toString();

The problem in the code above is the accumulator: new StringBuilder("")

Thus, could anyone point me to the proper equivalent of the foldLeft/fix my code?

  • 2
    FYI: The name of the language is "Scala", not "SCALA". (I believe there is a different language called "SCALA", which is probably not the one you mean.) – Jörg W Mittag Dec 20 '16 at 11:01
  • Related stackoverflow.com/questions/30736587/… – Tunaki Dec 20 '16 at 13:13
  • @JörgWMittag unless you have a source for there being a different language with the same name but capitalized, I would be very surprised. I would think the capitalized spelling comes from old managers who are used to languages being capitalized, like BASIC and FORTRAN :D – nafg Jan 3 at 18:24
  • @nafg: I tried googling for it, but it's kind of hard, since googling for "SCALA" also returns results for "Scala". I believe, I saw it in the context of what we would today called "big data analysis" on IBM midrange systems, but before "big data" (or Scala) were a thing. However, I personally never worked on IBM midrange systems, so I cannot remember the names of the associated tools, frameworks, libraries, or languages, to perform a better google query. The fact that Scala is used in big data, and IBM is heavily pushing Scala doesn't exactly help either. – Jörg W Mittag Jan 3 at 18:33


Here is initial attempt to get your code fixed:

public static String concatenate(List<Character> chars) {
        return chars
                .reduce(new StringBuilder(),

It uses the following reduce method:

<U> U reduce(U identity,
                 BiFunction<U, ? super T, U> accumulator,
                 BinaryOperator<U> combiner);

It may sound confusing but if you look at the javadocs there is a nice explanation that may help you quickly grasp the details. The reduction is equivalent to the following code:

U result = identity;
for (T element : this stream)
     result = accumulator.apply(result, element)
return result;

For a more in-depth explanation please check this source.

This usage is not correct though because it violates the contract of reduce which states that the accumulator should be an associative, non-interfering, stateless function for incorporating an additional element into a result. In other words since the identity is mutable the result will be broken in case of parallel execution.

As pointed in the comments below a correct option is using the reduction as follows:

return chars.stream().collect(

The supplier StringBuilder::new will be used to create reusable containers which will be later combined.

  • 9
    Same as with the other answer: Don’t use reduce this way. The functions are not allowed to modify their parameters. The correct usage is .collect(StringBuilder::new, StringBuilder::append, StringBuilder::append). See Mutable reduction. – Holger Dec 20 '16 at 11:03
  • @Holger: thanks, that is true. The answer is updated. – Lachezar Balev Dec 20 '16 at 11:18
  • 3
    This is not about efficiency, it’s about correctness. Using reduce this way violates the contract and must be considered broken, even if it may do the intended thing under certain circumstances. Most notably, it will break for sure when using a parallel stream. – Holger Dec 20 '16 at 11:22
  • Do you address the order of the concatenated characters or the statefulness of the builder? – Lachezar Balev Dec 20 '16 at 11:28
  • 2
    It’s about the modification of the StringBuilder. There is no problem with the order. – Holger Dec 20 '16 at 11:40

There is no equivalent of foldLeft in Java 8's Stream API. As others noted, reduce(identity, accumulator, combiner) comes close, but it's not equivalent with foldLeft because it requires the resulting type B to combine with itself and be associative (in other terms, be monoid-like), a property that not every type has.

There is also an enhancement request for this: add Stream.foldLeft() terminal operation

To see why reduce won't work, consider the following code, where you intend to execute a series of arithmetic operations starting with given number:

val arithOps = List(('+', 1), ('*', 4), ('-', 2), ('/', 5))
val fun: (Int, (Char, Int)) => Int = {
  case (x, ('+', y)) => x + y
  case (x, ('-', y)) => x - y
  case (x, ('*', y)) => x * y
  case (x, ('/', y)) => x / y
val number = 2
arithOps.foldLeft(number)(fun) // ((2 + 1) * 4 - 2) / 5

If you tried writing reduce(2, fun, combine), what combiner function could you pass that combines two numbers? Adding the two numbers together clearly does not solve it. Also, the value 2 is clearly not an identity element.

Note that no operation that requires a sequential execution can be expressed in terms of reduce. foldLeft is actually more generic than reduce: you can implement reduce with foldLeft but you cannot implement foldLeft with reduce.


The method you are looking for is java.util.Stream.reduce, particularly the overload with three parameters, identity, accumulator, and binary function. That is the correct equivalent to Scala's foldLeft.

However, you are not allowed to use Java's reduce that way, and also not Scala's foldLeft for that matter. Use collect instead.

  • 4
    While I like your answer, "you are not allowed" seems a bit wrong. Can you rephrase that? – Sean Patrick Floyd Dec 20 '16 at 11:18
  • 2
    It would be a type error if Java's type system were expressive enough to express that constraint. But it isn't and so, the constraint is only mentioned in the JavaDocs. The JavaDocs say which kinds of objects you are allowed to pass, and the objects the OP passes do not satisfy those constraints, ergo she is not allowed to call reduce. How else would you phrase that? – Jörg W Mittag Dec 20 '16 at 11:32
  • 2
    Well, there is no restriction on the type, only on how you use the objects. If you use accumulator and combiner functions like (a,b) -> new StringBuilder().append(a).append(b), it would be a legal usage, though not very efficient, compared to the collect solution. – Holger Dec 20 '16 at 11:44
  • 6
    @SeanPatrickFloyd: except it is not just an antipattern. It is simply not allowed by the method documentation. Antipatterns may or may not lead to hard to maintain code. The OP's code is simply broken. Kaput. Doesn't work. – Jörg W Mittag Dec 20 '16 at 13:35
  • 4
    This response is plain wrong. Stream's reduce(identity, accumulator, combiner) requires an associative combiner function, which is not a requirement of foldLeft, therefore, not every foldLeft construct can be rewritten to reduce. Take the following example, where subtraction and division are not associative: val ops = List(('+', 1), ('*', 4), ('-', 2), ('/', 5)) val fun: (Int, (Char, Int)) => Int = { case (x, ('+', y)) => x + y case (x, ('-', y)) => x - y case (x, ('*', y)) => x * y case (x, ('/', y)) => x / y } ops.foldLeft(2)(fun) // ((2 + 1) * 4 - 2) / 5 – dzs May 14 '17 at 8:58

Others are correct there's no equivalent though. Here's a util that comes close-

<U, T> U foldLeft(Collection<T> sequence, U identity, BiFunction<U, ? super T, U> accumulator) {
    U result = identity;
    for (T element : sequence)
        result = accumulator.apply(result, element);
    return result;

your case using the above method would look like-

public String concatenate(List<Character> chars) {
    return foldLeft(chars, new StringBuilder(""), StringBuilder::append).toString();

Or without the lambda method ref sugar,

public String concatenate(List<Character> chars) {
    return foldLeft(chars, new StringBuilder(""), (stringBuilder, character) -> stringBuilder.append(character)).toString();

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