I was wondering if there is a way of temporary storing/carrying a value within a java-stream?

List<Department> departments = (ArrayList<Department>) departmentRepository.findAll();

departments.parallelStream()
        .filter(e -> e.getUnderstuffCount(date) > 0)
        .forEach(e -> {
            holidaysPlaningProblemManager.addProblem(e, date, e.getUnderstuffCount(date));
        });

the multiple calls for e.getUnderstuffCount(date) seams "dirty" and I was wondering if there is a way to avoid it by carrying the result of a single call?



EDIT:

Please consider this as a java-stream question. There are a lot of ways to solve this, for example a @Transient field in the Department @Entity can store the value and a simple getter can return it.

But i'm interested if this can be done using the java-stream

  • 1
    Why is it "dirty"? You call the method on different instances so you probably expect different results, no? – assylias Dec 6 '17 at 16:16
  • 1
    @assylias In this case the method is called twice on each instance, once when filtering and again when addProblem is called. – Dima Maligin Dec 6 '17 at 16:18
  • A popular solution is mapping e and e.getUnderstuffCount(date) to a Pair (for example AbstractMap.SimpleEntry or a two element array). You'd then have e and the method result available. Though I don't think that this would make it much "nicer", it can help if the method call is expensive. Another possibility is to pull the filter into the forEach (as an if), but then it's little more than a for loop (but parallel...). – Malte Hartwig Dec 6 '17 at 16:33
  • @MalteHartwig I actually tried it. I mapped it to a HashMap unfortunately I wasn't able to make it work since the forEach was only returning the Integer value and not the Map it self. I might have been doing it wrong though, so please feel free to elaborate with an example for this approach. – Dima Maligin Dec 6 '17 at 16:38
up vote 3 down vote accepted

As I mentioned in my comment, there is a popular suggestion for questions like this to map a stream element to a pair containing the element itself and whichever intermediate value you need. First, let's find a simpler example (that also compiles for me):

Stream.of("Hello", "World", "!")
      .filter(s -> s.length() > 1)
      .forEach(s -> System.out.println(s + ": " + s.length()));
// Hello: 5
// World: 5

If we now take either a simple array or an AbstractMap.SimpleEntry as a pair object, we can add one mapping step:

Stream.of("Hello", "World", "!")
      .map(s -> new Object[] {s, s.length()})
      .filter(a -> ((int) a[1]) > 1)
      .forEach(a -> System.out.println(a[0] + ": " + a[1]));

Stream.of("Hello", "World", "!")
      .map(s -> new AbstractMap.SimpleEntry<>(s, s.length()))
      .filter(e -> e.getValue() > 1)
      .forEach(e -> System.out.println(e.getKey() + ": " + e.getValue()));

The array variant is a bit shorter to write, but not type-safe. I'd use the second posibility. Or maybe you could add an actual Pair<L, R> class to your project with short method names and a nice factory method (Pair.of(s, s.length())). Whichever way you choose, it is better than collecting into a map with a collector (stream.collect(toMap()).entrySet().stream().filter(e).forEach(e)), as you do not materialize the whole map into memory.


The other possibility I mentioned is to pull the check into the forEach. Given your (possibily simplified) example, I'd say this is the most easy to read way, but is of course not as "stream-y" or "lambda-y".

Stream.of("Hello", "World", "!").forEach(s -> {
    int length = s.length();
    if (length > 1)
    {
        System.out.println(s + ": " + length);
    }
});

In this simple example, you don't even need to have a stream. Just call Collection.forEach().


In the end you have to see whether using streams here is even worth it. You use parallel stream, but does it actually speed things up (e.g. is your holidaysPlaningProblemManager thread-safe or does it just synchronize all threads again, making the parallel stream pointless)? If not, you could just refactor to a normal for loop or Collection.forEach.

  • Thanks for the example. Its interesting, when I tried the same approach It didn't work for me. I assume I needed to create a Map.Entry instead of just a Map. Now that I look at it is obvious. Thank you for the example. Will try it out later. – Dima Maligin Dec 6 '17 at 17:47
  • 1
    Oh, yes. I thought you meant somthing like collect(toMap()).entrySet().stream().filter().forEach(). If you call map and return a real map, then it will get really difficult. – Malte Hartwig Dec 6 '17 at 17:52
  • Thank you again, this is exactly what I was looking for.. – Dima Maligin Dec 6 '17 at 17:56

If you want to filter the departments, I think you should filter it first before retrieving it from the database and have the problem manager accept a list.

List<Department> departments = departmentRepository.someMethod(date);
holidaysPlaningProblemManager.addProblems(date, departments);

Unless you still have something to do with the elements in the collection.

  • I think this should be a comment rather than an answer, but it makes a lot of sense. – Mena Dec 6 '17 at 16:20
  • The Departments in the List also serve as solutions for understaffed Departments. Also the DB has no info if the Department is understaffed or not, so it's not possible to filter with a quarry. – Dima Maligin Dec 6 '17 at 16:22

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