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It's usually said that inserting and finding a string in a hashtable is O(1). But how is hash key of a string made ? Why it's not O(L), length of string? It's clear for me that why for integers it's O(1), but not for strings.

Note that, I understand why in general, inserting into hashtable is O(1), but I am confused about the step before inserting the hash into table; the making hash value phase.

Also is there any difference between how hash keys for strings are generated between hashTable in java vs unordered_map in C++?

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    Why do you concern yourself with the length of the string, but ignore the number of bits in the integer? – Matt Jul 21 '15 at 21:19
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    Ah, the magic "O(1)" that has universal meaning even without any context. – Kerrek SB Jul 21 '15 at 21:22
  • @Matt, Since when the number can be fit into 32 bits or 64 bits, most of the operations can be done in O(1) by CPU. Also, most of the time we have long strings, rather than big integers. (Especially, when it comes to programming competitions!) – MehrdadAP Jul 21 '15 at 21:24
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    I don't think you quite grasp what O(1) means in this context. The time it takes to hash a key has nothing at all to do with the current size of the hash table. – azurefrog Jul 21 '15 at 21:24
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    Java Strings cache their hash code after it's computed the first time, so you don't have to compute it again. – Louis Wasserman Jul 21 '15 at 21:30
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Inserting etc. in a hashtable is O(1) in the sense that it is constant in the number of elements in the table.

The "O(1)" in this context makes no claim about how fast you can compute your hashes. If the effort for this grows in some way, that is the way it is. However, I find it unlikely that the complexity of a decent (i.e. "fit for this application") hash function will ever be worse than linear in the "size" (i.e. the length in our string-example) of the object being hashed.

  • So, is there any way I can realize how fast hashes are computed in C++ and Java? In theory(and programming competitions and interview questions!), it could make a difference in analyzing time complexity of an algorithm. – MehrdadAP Jul 21 '15 at 21:37
  • @MehrdadAP At least in C++, not without looking at the implementation of the hash function you. I would however expect every sensible hash function for this purpose to have linear complexity in the "length" or "size" (whatever that means for the object you are hashing) of the object it hashes. Although I can imagine that there are situations where "slower" hashes have an advantage for some reason. – Baum mit Augen Jul 21 '15 at 21:43
  • @MehrdadAP Can't speak in C++, but the Java hash value is O(N) and N depends on the the size of the string. In C++ most of the time there is no hash. std::map, for example, is usually a red-black tree. – user4581301 Jul 21 '15 at 21:48
  • @user4581301 Well, std::map is indeed not a hash table. std::unordered_set would be use hashes for example. – Baum mit Augen Jul 21 '15 at 21:51
  • Baum mit Augen point taken. @MehrdadAP I had an instructor who once explained it like this: "It might be O(1), but that 1 can still take a million years." – user4581301 Jul 21 '15 at 22:05
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It's usually said that inserting and finding a string in a hashtable is O(1). But how is hash key of a string made ? Why it's not O(L), length of string? It's clear for me that why for integers it's O(1), but not for strings.

The O(1) commonly quoted means the time doesn't grow with the number of elements in the container. As you say, the time to generate a hash value from a string might not itself be O(1) in the length of the string - though for some implementations it is: for example Microsoft's C++ std::hash<std::string> has:

            size_t _Val = 2166136261U;
            size_t _First = 0;
            size_t _Last = _Keyval.size();
            size_t _Stride = 1 + _Last / 10;

            if (_Stride < _Last)
                    _Last -= _Stride;
            for(; _First < _Last; _First += _Stride)
                    _Val = 16777619U * _Val ^ (size_t)_Keyval[_First];
            return (_Val);

The _Stride is a tenth of the string length, so a fixed number of characters that far apart will be incorporated in the hash value. Such a hash function is O(1) in the length of the string.

GCC's C++ Standard library takes a different approach: in v4.7.2 at least, it calls down through a _Hash_impl support class to the static non-member function _Hash_bytes, which does a Murmur hash incorporating every byte. GCC's hash<std::string> is therefore O(N) in the length of the string.

  • GCC's higher prioritorisation of collision minimisation is also evident in its use of prime numbers of buckets for std::unordered_set and std::unordered_map, which MS's implementation doesn't do - at least up until VS2013/VC12; summarily MS's approach will be lighter-weight/faster for keys that aren't collision prone, but degrading earlier and more dramatically otherwise.

And is there any difference between how hash keys for strings are produced between hashTable in java and unordered_map in C++?

How strings are hashed is not specified by the C++ Standard - it's left to the individual compiler implementations. Consequently, different compromises are struck by different compilers - even different versions of the same compiler.

The documentation David Pérez Cabrera's answer links to explains the hashCode function in Java:

Returns a hash code for this string. The hash code for a String object is computed as

 s[0]*31^(n-1) + s[1]*31^(n-2) + ... + s[n-1]

using int arithmetic, where s[i] is the ith character of the string, n is the length of the string, and ^ indicates exponentiation. (The hash value of the empty string is zero.)

That's clearly O(N) in the length of the string.

  • Very interesting thank you for sharing this. – benji Aug 20 '19 at 6:53
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Acording to implementation of Java, Hashtable use the hashCode method of key (String or Integer). Hashtable String.hashCode Integer.hashCode

And C++ use std::hash<std::string> or std::hash<int> according to http://en.cppreference.com/w/cpp/utility/hash and the implementation was in functional file (/path/to/c++... /include/c++/4.8/functional)

  • Interesting to see the Java implementation... thanks! – Tony Delroy Jul 22 '15 at 6:19

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