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