9

Do I understand this correctly? Is this how Java developers do it? Or is there a better way?

So if I want to find a key in a map that matches a predicate, I must first get the key set from the map through the conveniently supplied method. THEN, I have to convert the set into a stream through the conveniently supplied method. THEN, I have to filter the stream with my predicate through the conveniently supplied method. THEN, I have to convert the stream into a container of a type of my choosing, possibly supplying a collector to do so, through the conveniently supplied method. THEN, I can at least check the container for empty to know if anything matched. Only then can I use the key(s) to extract the values of interest, or I could have used the entry set from the beginning and spare myself the extra step.

Is this the way, really? Because as far as I can tell, there are no other methods either built into the map or provided as a generic search algorithm over iterators or some other container abstraction.

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  • 6
    Can you provide an example (written in Java) covering your use-case/grievances?
    – nasukkin
    Commented Sep 15, 2016 at 18:25
  • 5
    Why would you be using a predicate to lookup in a map? You're not using the map, but relying on sequential search, so why is it a map in the first place, if you're going to use a predicate? Your premise seems flawed.
    – Andreas
    Commented Sep 15, 2016 at 18:28
  • 3
    basically, yeah. That's pretty easy, though: map.keySet().stream().filter(key -> <your condition here>).findFirst(); that gets you an Optional, you can test if it is empty, then use the key if not. (or simply get the value and catch the exception).
    – njzk2
    Commented Sep 15, 2016 at 18:30
  • 3
    @njzk2 You could then lookup the value using the Optional.map() method. Alternatively, use entrySet(), and you have it all.
    – Andreas
    Commented Sep 15, 2016 at 18:31
  • Does that map.forEach((k, v) -> { if (predicate(k)) { action(v); }}); cover your use case?
    – korolar
    Commented Sep 15, 2016 at 18:41

3 Answers 3

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I prefer entrySet myself as well. You should find this efficient:

Map<String, Integer> map; //Some example Map
//The map is filled here

List<Integer> valuesOfInterest = map.entrySet()
                                 .stream() //Or parallelStream for big maps
                                 .filter(e -> e.getKey().startsWith("word")) //Or some predicate
                                 .map(Map.Entry::getValue) //Get the values
                                 .collect(Collectors.toList()); //Put them in a list

The list is empty if nothing matched. This is useful if multiple keys match the predicate.

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  • 1
    nice! note that all entries are always browsed, no matter how many match the predicate.
    – njzk2
    Commented Sep 15, 2016 at 18:40
4

In a nutshell, it is as simple as:

Predicate<T> predicate = (t -> <your predicate here>);
return myMap.keySet()
    .stream()
    .filter(predicate)
    .findAny()
    .map(myMap::get);

returns an empty Optional if no key matches

(nota: findAny is better than findFirst because it does not prevent parallelization if relevant, and findFirst is useless anyway since the Set of keys is not sorted in any meaningful way, unless your Map is a SortedMap)

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  • Once I have an Optional<> how do I cast it to a map entry type? I'm getting a warning about an unchecked cast. Commented Sep 15, 2016 at 19:24
  • 1
    the optional holds the key. That's what the map(...) does, it optionally calls get on your map to get the value.
    – njzk2
    Commented Sep 15, 2016 at 19:25
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    It’s not correct to assume that a map’s key set has no order. This obviously depends on the map’s type, e.g. SortMaps have an ordering and so has LinkedHashMap. The good news is that the stream knows when it has no intrinsic order, so in these cases findFirst is as good as findAny, not hindering performance. So the reason to use findAny should not be the assumption that there is no ordering anyway, but the intention to get an arbitrary match rather than the first.
    – Holger
    Commented Sep 16, 2016 at 9:43
  • @Holger in this case, findFirst would express specific knowledge on the structure of the map. If the map is declared as SortedMap that's fine, if it's declared simply as Map, it's an assumption that may not hold in the future.
    – njzk2
    Commented Jul 13, 2019 at 18:49
  • It’s the other way round. If you don’t know whether the input has a meaningful order, use findFirst, unless you know that it is not relevant to use the first match for your particular task. It’s your explanation in the answer containing a specific assumption about the source. As said, if the the input has no meaningful order, the stream already knows that and can use an unordered operation even if you use findFirst (of course, whether it actually exploits that property, is implementation dependent).
    – Holger
    Commented Jul 15, 2019 at 11:13
1

It’s not clear why you are shouting “THEN” so often. It’s the standard way of solving problems, to combine tools designed for broad variety of use cases to get your specific result. There is a built-in capability for traversing a sequence of elements and search for matches, the Stream API. Further, the Map interface provides you with the Collection views, keySet(), entrySet(), and values(), to be able to use arbitrary tools operating on Collections, the bridge to the Stream API being one of them.

So if you have a Map<Key,Value> and are interested in the values, whose keys match a predicate, you may use

List<Value> valuesOfInterest = map.entrySet().stream()
    .filter(e -> e.getKey().fulfillsCondition())
    .map(Map.Entry::getValue)
    .collect(Collectors.toList());

which consists of three main steps, filter to select matches, map to specify whether you are interested in the key, value, entry or a converted value of each matche and collect(Collectors.toList()) to specify that you want to collect the results into a List.

Each of these steps could be replaced by a different choice and the entire stream pipeline could be augmented by additional processing steps. Since you want this specific combination of operations, there is nothing wrong with having to specify exactly these three steps instead of getting a convenience method for your specific use case.

The initial step of entrySet().stream() is required as you have to select the entry set as starting point and switch to the Stream API which is the dedicated API for element processing that doesn’t modify the source. The Collection API, on the other hand, provides you with methods with might mutate the source. If you are willing to use that, the alternative to the code above is

map.keySet().removeIf(key -> !key.fulfillsCondition());
Collection<Value> valuesOfInterest=map.values();

which differs in that the nonmatching entries are indeed removed from the source map. Surely, you don’t want to confuse these two, so it should be understandable, why there is a clear separation between the Collection API and the Stream API.

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