10

I was trying to write a mkString function in Java8, a la Scala's useful mkString and ran into 2 issues that I could use some help on:

  1. I am unable to make the first argument of mkString a generic Collection reference like Collection<Object> c and have invokers call with ANY type of collection.

  2. Unable to reference the returned result of reduce() in-line to access the result's length to remove the extra leading separator.

Here's the code :

public static void main(String[] args) {
    List<Integer> numbers = Arrays.asList(1, 2, 3, 4, 5);
    System.out.println(mkString(numbers, ","));

}

public static String mkString(Collection<Integer> c, String sep) {
    return c.stream()
            .map(e -> String.valueOf(e))
            .reduce("", (a, b) -> a + sep + b)
            .substring(1, <<>>.length);
}
  • 2
    Using reduce to build strings is remarkably inefficient. Every element requires a full copy of the accumulator string. It's much better to use a dedicated joining function instead, which can use something like a string builder. – Alexander Feb 3 at 6:00
11

Note that if you're doing this not for self-education but to actually use it in some production code, you might want to consider the built-in Collectors.joining collector:

String result = numbers.stream()
    .map(Object::toString)
    // or
    //   .map(x -> x.toString())  // exactly the same
    // or
    //   .map(String::valueOf)    // handles nulls by turning them to the string "null"
    .collect(Collectors.joining(","));

It has several overloads, similar to Scala's mkString. Still, this collector only accepts CharSequences, so you need to convert your values to strings explicitly as a separate map step.

Additionally, there is the String.join method, which also works for a collection of CharSequences. If you specifically have one of those (e.g. List<String>), it might be more convenient to use this method rather than converting the collection to a stream first:

List<String> strings = ...;

String result = String.join(",", strings);

// vs

String result = strings.stream().collect(Collectors.joining(","))
  • this would not compile though. Collectors::joining is expecting a CharSequence, you would also need to provide a mapper – Eugene Feb 3 at 6:52
  • If you are doing this for self-education, consider writing the equivalent collector yourself (or not quite the same to fix the problem Eugene mentions). – Alexey Romanov Feb 3 at 8:01
  • Even though this solution needs the .map, I still think this is the best solution as it is the most performant, since its uses a string builder internally, as opposed to concatenating strings – Ferrybig Feb 3 at 11:30
  • Indeed, I missed that it wants CharSequences, so it's very similar to String.join, actually. I've fixed my answer to include the map call. – Vladimir Matveev Feb 4 at 5:12
  • Even for educational purposes, it's worth pointing to collect(Collectors.joining(",")) as correct solution, compared to reduce("", (a, b) -> a + "," + b) whose function violates the associativity constraint. – Holger Feb 7 at 18:26
6

You can do it like :

public static <T>  String mkString(Collection<T> c, String sep) { // generic impl
    return c.stream()
            .map(String::valueOf)
            .reduce("", (a, b) -> a + sep + b)
            .substring(1); // substring implementation to strip leading character
}
  • Thanks for addressing both issues. However, does this mean that there is no syntax to access the result of reduce() without assignment? – 212 Feb 2 at 20:21
  • 1
    T isn't needed. Collection<?> would work just as well. – John Kugelman Feb 3 at 3:56
  • 1
    @nullpointer this is not associative, and thus breaks the specification... what would you expect to be printed from String s = Stream.of("a", "b", "c", "d") .parallel() .reduce("", (a, b) -> a + "-" + b); System.out.println(s); for example? – Eugene Feb 3 at 6:22
  • @212 well that depends on the operation you want to perform primarily I would say. – nullpointer Feb 3 at 7:18
  • 1
    @nullpointer even if you are not sure about if needed or not: 1) the doc mandates it 2) try the code I gave above and see the result - but first try to see if you can predict it – Eugene Feb 3 at 18:45
5

If I remember my java correctly, you can declare the argument type as Collection<?> to be able to pass a collection of any objects.

As to biting the separator off, I think, just .substring(1) will do what you want.

  • docs.oracle.com/javase/tutorial/extra/generics/methods.html seems to favor generic methods compared to Collection<?> approach. – 212 Feb 2 at 20:25
  • 3
    T and ? is absolutely the same thing in this context. So, it's a matter of taste. I personally prefer ? because it makes it clear that the implementation does not use or need the type information, and that the collection is intended to be mutated. It is also a common indicator of the call-site variance. – Dima Feb 2 at 20:38
  • 1
    @212: I think you must have misread the page that you link to. It's very explicit that "one should use wildcards" in cases where "[t]he return type doesn't depend on the type parameter, nor does any other argument to the method", and dedicates multiple paragraphs to that guidance. So Dima is quite right. – ruakh Feb 3 at 1:18
  • @Dima in simpler words (IIRC that is also present in effective java): if a type parameter is used only once, it can be replaced by a wildcard. – Eugene Feb 3 at 6:30
  • .substring(1) won't work if the separator consists of multiple characters – Bergi Feb 3 at 10:41
1

Any type of collection in java means Collection<?>, which semantically is the same as Collection<T> (in your case), it is said that if the type parameter is used only once) it can safely be replaced with a wildcard. But, since you want to be able to concat any collection, you should also ask for the callers to supply a Function that would transform from that type to a String representation, thus your method would become:

public static <T> String mkString(Collection<T> c,
                                  Function<T, ? extends CharSequence> mapper,
                                  String sep) {
    return c.stream()
            .map(mapper)
            .collect(Collectors.joining(sep));

}
0

You can utilize String.join with a generic type:

public static <T> String mkString(Collection<T> c, String sep) {
    return String.join(sep, c.stream()
                             .map(e -> String.valueOf(e))
                             .collect(Collectors.toList()));
}

Here it is in action with both Strings and other objects.

  • you are collecting to a List, only to be able to call String::join? there is Collectors.joining for that purpose. And you assume that String::valueOf will provide any meaningful String representation of the object, which might not hold true. A better way would be to pass a mapper also. – Eugene Feb 3 at 6:55
  • @Eugene Forgot about collectors.joining, but now it's already an answer, so I'll keep it the way it is. Passing a mapper, while useful, is out of the scope of the question imo. Thanks for the feedback. – Quintec Feb 3 at 16:19

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