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I was reading the example in Oracle's online java tutorial that uses HashMap to store anagrams:

    // Read words from file and put into a simulated multimap
    Map<String, List<String>> m = new HashMap<String, List<String>>();

    try {
        Scanner s = new Scanner(new File(args[0]));
        while (s.hasNext()) {
            String word = s.next();
            String alpha = alphabetize(word);
            List<String> l = m.get(alpha);
            if (l == null)
                m.put(alpha, l=new ArrayList<String>());
    } catch (IOException e) {

    // Print all permutation groups above size threshold
    for (List<String> l : m.values())
        if (l.size() >= minGroupSize)
            System.out.println(l.size() + ": " + l);

private static String alphabetize(String s) {
    char[] a = s.toCharArray();
    return new String(a);


Since HashMap is implemented with Hash Table, I think that each sorted alphabetized string should have a unique hash code after compression(otherwise the linked list that stores the values in the HashMap will store a value that's not a anagram of the sorted alphabetized string).

I am not exactly sure how Java's implementation of HashMap can satisfy this - I assume that they use the hash code of a string (a1*31^n-1 + a2*31^n-2 + ... + an). This might guarantee the uniqueness of the hash code if we are talking about strings with only lower case chars. However, one also has to compress the hash code before putting the value of the key to the bucket in the hash table (otherwise you would have a hugggggge hash table that can't be handled in memory, just thinking of how big 31^10 is). Among this compression, I would think that there will be collision. In other words, two different strings that are not true anagram will end up being stored in the same bucket (which should be only used to store a list of true anagrams)...

Could anyone help me to understand what I might be missing? Or if the online tutorial is missing something?



share|improve this question
Thanks for pointing me to that post. I can understand that hash code is used to locate bucket and the equals() method will be used later to retrieve the correct entry. However, I can't image how to store multiple nodes in a linked list without a next node pointer. If there are 2+ nodes in a linked list without a next node pointer, then the list is no longer "linking" all the nodes and thus that shouldn't be a linked list, right? – Eric H. Nov 26 '12 at 21:36
The other question after reading that explanation of how HashMap works is that, for two strings (non anagrams) with same hash code, the example provided in the java tutorial is going to store them in the same bucket. So you are saving something like "abc", "cab" and "def" into the same linked list. Although later you may be able to just print out "abc" and "cab", the "def" is stored at the wrong place and another bucket that expected this "def" is missing the anagram entry. Not sure how this will be addresses by the hashMap implementation. Or maybe that's just the bug from the example? – Eric H. Nov 26 '12 at 21:40
up vote 1 down vote accepted

Never, ever assume that hash codes are unique -- but realize that HashMap already knows that hash codes are non-unique, and deals with them appropriately.

In other words, even if a.hashCode() == b.hashCode(), if !a.equals(b), then a HashMap will not mix up the value associated with a and the value associated with b.

share|improve this answer
I understand the first part of your comment. However, I am not sure how HashMap will make sure "if !a.equals(b), then a HashMap will not mix up the value associated with a and the value associated with b.". This is exactly why I am asking the question. Would you mind explain it a bit more? thanks. :P – Eric H. Nov 26 '12 at 21:41
HashMap doesn't just look at the hash code of a key, it also checks if the key is equals to preexisting keys. So there's no way it could possibly mix up a and b, since it checks not just the hashCode but also equals. – Louis Wasserman Nov 26 '12 at 22:03
I thought HashMap will only check the keys with equals method when it tries to retrieve key/value from the linked list hold at the bucket. Are you saying that when we put key/value to the HashMap, the implementation also checks the key using the equals method? I thought it would only use HashCode(and suppression function) to decide which bucket to put the entry. IN other words, if two strings have the same hash code (doesn't mean they have to be equal), they will end up at the same bucket. Maybe I am wrong? – Eric H. Nov 27 '12 at 4:12
Refer to the source code of HashMap in JDK 1.6 (see stackoverflow.com/questions/4980757/…), I can see that when we tried to get the entry, it will invoke equals method. However, when we add new entry, the implementation will straightly add the new entry at the front of the linked list (and doesn't invoke any equals check). – Eric H. Nov 27 '12 at 4:18
That is just plain false. – Louis Wasserman Nov 27 '12 at 14:43

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