A Comparator I used in my TreeMap broke the behavior I intended for that TreeMap. Look at the following code:

TreeMap<String, String> treeMap = new TreeMap<>(new Comparator<String>() {
    public int compare(String o1, String o2) {
        return o1.toLowerCase().compareTo(o2.toLowerCase());
treeMap.put("abc", "Element1");
treeMap.put("ABC", "Element2");

What I think I have done is that I have created a map that is sorted by its keys, case-insensitive. The two distinct elements have non-equal keys (abc and ABC) whose comparison will return 0. I expected just a random ordering of the two elements. Yet, the command:

System.out.println("treeMap: " + treeMap);

resulted in:

treeMap: {abc=Element2}

The key abc has been re-assigned the value Element2!

Can anyone explain how could this happen and if it's a valid, documented behavior of TreeMap?

  • Comparator is a total order. What does it even mean for "abc" and "ABC" to be in your map? Which comes first? – Solomonoff's Secret Oct 24 '17 at 16:49
  • 2
    you got your intended (if unexpected) behaviour; your comparator is case-insensitive, your map uses that comparator - so it is also, by extension, case-insensitive (w.r.t. keys). You just figured how to make map that's case-insensitive - kudos to you, but I see nothing "shocking" or "illegal" here... it's doing exactly what you told it to do. – vaxquis Oct 24 '17 at 21:53
up vote 35 down vote accepted

It happens because TreeMap considers elements equal if a.compareTo(b) == 0. It's documented in the JavaDoc for TreeMap (emphasis mine):

Note that the ordering maintained by a tree map, like any sorted map, and whether or not an explicit comparator is provided, must be consistent with equals if this sorted map is to correctly implement the Map interface. (See Comparable or Comparator for a precise definition of consistent with equals.) This is so because the Map interface is defined in terms of the equals operation, but a sorted map performs all key comparisons using its compareTo (or compare) method, so two keys that are deemed equal by this method are, from the standpoint of the sorted map, equal. The behavior of a sorted map is well-defined even if its ordering is inconsistent with equals; it just fails to obey the general contract of the Map interface.

Your comparator isn't consistent with equals.

If you want to keep not-equal-but-equal-ignoring-case elements, put a second level of checking into your comparator, to use case-sensitive ordering:

    public int compare(String o1, String o2) {
        int cmp = o1.toLowerCase().compareTo(o2.toLowerCase());
        if (cmp != 0) return cmp;

        return o1.compareTo(o2);
  • Thanks, guys, for quick answers! Now I see it stated clearly in the docs, though I still consider this behavior counterintuitive on the Java side. After all, TreeMap is for sorting, and sorting is probably most often performed on texts in a case-insensitive manner. – javaxian Oct 24 '17 at 14:07
  • 1
    @javaxian TreeMap is for maintaining items in a map backed by a tree, the sorting is more of a side effect of tree usage. But yes, it is counterintuitive because it violates the guarantees of the Map interface. Not very nice of the Java devs. – JAB Oct 24 '17 at 15:16
  • 7
    @JAB: I'm not sure that I agree. The TreeMap class adheres to the guarantees of the Map interface, provided that you adhere to the guarantees of its interface! Its documentation clearly states the comparator must be consistent with equals. Similarly, any HashMap will misbehave if equals and hashCode are not consistent—do you also think that this is "not very nice"? My point is: contracts go both ways. – wchargin Oct 24 '17 at 16:33
  • @wchargin that behavior of HashMap isn't very nice, simply because it puts the onus on the user to do it right. We could have checks everywhere for consistency (similarly to "comparator violates general contract"); but the additional cost of these checks is unnecessary if you've read the docs and implemented the comparator accordingly. (I agree with your comment, BTW) – Andy Turner Oct 24 '17 at 16:55
  • I have to admit, it would be convenient to annotate properties as Identifiable and then have equals, hashcode, and compareTo be calculated automatically by those (obviously compare to would need to know the order in which to compare them) - yes you need the ability to do it the old fashioned way, but let's face it, in 99% of cases, hashcode and equals only ever use one or two fields. – corsiKa Oct 24 '17 at 18:19

The Comparator you pass to a TreeMap determines not just the ordering of the keys inside the Map, it also determines whether two keys are considered identical (they are considered identical when compare() returns 0).

Therefore, in your TreeMap, "abc" and "ABC" are considered identical keys. Maps don't allow identical keys, so the second value Element2 overwrites the first value Element1.

You need to ensure that the equality of that map's elements is consistent with the comparator. Quoting from the class comment:

Note that the ordering maintained by a tree map, like any sorted map, and whether or not an explicit comparator is provided, must be consistent with equals if this sorted map is to correctly implement the interface.

The accepted answer is technically correct, but misses the idiomatic solution to the problem.

You should be using the static String.CASE_INSENSITIVE_ORDER comparator provided or at least using String.compareToIgnoreCase() inside your own to consider what is .equal().

For locale sensitive comparisons, you should use something from java.text.Collator

  • 5
    It’s correct that developers should use existing comparators or use dedicated comparison methods instead of the expensive “convert to lowercase” anti-pattern. But it doesn't solve the problem. You still need a two step comparator. The Java 8 solution would be String.CASE_INSENSITIVE_ORDER.thenComparing(Comparator.naturalOrder()). – Holger Oct 24 '17 at 21:07
  • @AndyTurner you're absolutely right about using built-in comparators (or a Collator in this case) rather than writing my own ones. In my production code, however, I was comparing objects using their presentationOrder integer fields that had the same value in some cases. I didn't want to make my example here overly complex, so I went with a case-insensitive String comparator. – javaxian Oct 25 '17 at 15:28

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