2

I have a HashMap of the following type: HashMap<LocalDate, ArrayList<String>> which contains values like:

2015-12-26=[John, J.Fox , Barry]
2015-12-24=[Barry, Michael, Martin],
2015-12-20=[McAllister, Barry, Clark]
..............

Now, if I want to search for "Barry" in the HashMap and get the key which is the most recent (in this case Dec 26th), how would I go about doing that?

The .values() method doesn't seem to work as each key has an ArrayList instead of just one element.

  • Why didn't you write an iterator? – Roman C Dec 26 '15 at 19:14
  • I am fairly new to Java. So, i am not exactly sure how to use an iterator here for this. Can you give me some pointers on that? – Durga Swaroop Dec 26 '15 at 19:18
3

In java 8 you could use something like this:

Optional<Map.Entry<LocalDate, List<String>>> first = map
            .entrySet()
            .stream()
            .filter(entry -> entry.getValue().contains("Barry"))
            .sorted(Map.Entry.comparingByKey())
            .findFirst();

This get all the entries from the map, filters them based on the value, sort them based on keys and get the first one, if any. You can then use first.ifPresent() method to do whatever you want with the first entry, here i just printing them to the console:

first.ifPresent(entry -> {
            System.out.println(entry);
        });

Maybe this is NOT the most efficient algorithm but sure it works

Update 1: To sort dates from latest to earliest, use this:

sorted(Map.Entry.<LocalDate, List<String>>comparingByKey().reversed())

Update 2: As Andreas said, you can use max instead of sorted which has better asymptotic behavior. In fact, since you just want the latest item, there is no need for sorting entries in order to get it:

Optional<Map.Entry<LocalDate, List<String>>> found = map
                .entrySet()
                .stream()
                .filter(entry -> entry.getValue().contains("Barry"))
                .max(Map.Entry.comparingByKey());
| improve this answer | |
  • explanation please. if he's new to java, then streams are probably not part of his vocab yet. – Quy Dec 26 '15 at 19:19
  • A Map<K,V> can be seen as a Set<Map.Entry<K,V>>. The code streams that set, picking all entries with value "Barry" (that's the filter call with the lambda function). Then it asks the results to be sorted according to the natural ordering of Map.Entry, and picks the first every according to that ordering. I don't think this pipeline would work since Map.Entry does not implement Comparable. You might want to use .sorted(Map.Entry.comparingByKey()) instead. – Javier Martín Dec 26 '15 at 19:23
  • Thanks javier for explanation – Ali Dehghani Dec 26 '15 at 19:25
  • Lambda expressions. Nice. – LowLevel Dec 27 '15 at 0:12
  • 1
    Wouldn't max(comparator) perform much better than sorted(comparator).findFirst()? Fewer comparisons: n - 1 vs. n * log(n) (probably). – Andreas Jan 2 '16 at 22:43
2

Use the map's Entry Set. For example:

HashMap<String, ArrayList<String>> map = new HashMap<String, ArrayList<String>>();

ArrayList<String> list1 = new ArrayList<String>();
ArrayList<String> list2 = new ArrayList<String>();

list1.add("One");
list1.add("Two");
list1.add("Three");

list2.add("Cat");
list2.add("Dog");
list2.add("Fish");

map.put("Numbers", list1);
map.put("Animals", list2);

for(Map.Entry<String, ArrayList<String>> entry : map.entrySet())
{
    if(entry.getValue().contains("Cat"))
        System.out.println("Found Cat in "+entry.getKey());
}

Output: Found Cat in Animals

Essentially, what we are doing is iterating over the map's Entry Set, checking if each value (which we specified is an ArrayList<String>) contains the String we are looking for, and if it does, we print out the key of the current Entry. (Which, in your case, would be your LocalDate.)

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1

Since you want to find the key while searching for a value, you need to use entrySet().

Given that your keys are dates, and hence have a natural order, and you want latest matching date, you have 3 choices:

  • Keep the HashMap, search entire list, and remember largest key value.
  • Change to TreeMap, search backwards using descendingMap(), and stop on first hit.
  • Change to reverse-order TreeMap, search, and stop on first hit.

If your list is huge and/or you do the search a lot, a TreeMap is preferable, for performance reasons.

Since it is unclear whether LocalDate is from Java 8 or from Joda-Time, the following code uses compareTo, which is implemented by both. Code doesn't use Java 8 specific features.

Here are the 3 versions:

// HashMap
HashMap<LocalDate, ArrayList<String>> map = new HashMap<>();
...
LocalDate matchedKey = null;
for (Entry<LocalDate, ArrayList<String>> entry : map.entrySet())
    if (entry.getValue().contains(valueToFind))
        if (matchedKey == null || entry.getKey().compareTo(matchedKey) > 0)
            matchedKey = entry.getKey();
// TreeMap (descending search)
TreeMap<LocalDate, ArrayList<String>> map = new TreeMap<>();
...
LocalDate matchedKey = null;
for (Entry<LocalDate, ArrayList<String>> entry : map.descendingMap().entrySet())
    if (entry.getValue().contains(valueToFind)) {
        matchedKey = entry.getKey();
        break;
    }
// TreeMap (reverse-order)
TreeMap<LocalDate, ArrayList<String>> map = new TreeMap<>(Collections.reverseOrder()); // or Comparator.reverseOrder() in Java 8
...
LocalDate matchedKey = null;
for (Entry<LocalDate, ArrayList<String>> entry : map.entrySet())
    if (entry.getValue().contains(valueToFind)) {
        matchedKey = entry.getKey();
        break;
    }

Of course, in Java 8, these can also be done using streams and Lambdas.

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