This should do the trick - I use this for deterministic mocking:
public static long GetDeterministicId(string m)
{
return (long) m.ToCharArray().Select((c, i) => Math.Pow(i, c%5)*Math.Max(Math.Sqrt(c), i)).Sum();
}
EDIT
if you only want number 0-9, then further mod
it by 10:
public static long GetDeterministicId(string m)
{
return (longg) m.ToCharArray().Select((c, i) => Math.Pow(i, c%5)*Math.Max(Math.Sqrt(c), i)).Sum() % 10;
}
I've ran this for 1000 most commonly used words in English (https://gist.github.com/deekayen/4148741#file-1-1000-txt) and the distribution of 0-9 is:
0 -> 156
1 -> 163
3 -> 114
7 -> 79
6 -> 72
9 -> 55
2 -> 128
8 -> 45
5 -> 89
4 -> 99
which is not perfect, but is OK.
EDIT 2
Further testing shows that replacing the first modulo by 8 (i.e. Math.Pow(i, c%8)*
) produces even better distribution:
0 -> 95
1 -> 113
2 -> 148
3 -> 91
4 -> 68
5 -> 92
6 -> 119
7 -> 79
8 -> 99
9 -> 96
EDIT 3
OK, the winner is
return (int)m.ToCharArray().Select((c, i) => Math.Pow(i+2, c % 8) * Math.Max(Math.Sqrt(c), i+2)).Sum() % 10;
and the distribution of 0 - 9 is
0 -> 90
1 -> 96
2 -> 100
3 -> 99
4 -> 97
5 -> 106
6 -> 110
7 -> 90
8 -> 103
9 -> 109
which is close enough for an even distribution!
GetHashCode
being consistentGetHashCode
is "consistent" (i.e. will return the same value every time for everystring
instance with that string value) during the life-time of your application process. So while a particular instance of your application runs, the hash for a given string value is fixed. If that were not the case,GetHashCode
would be useless. However: If you exit your process, update the .NET Framework to a newer version, and then start your application again, then that string value may have a different hash under the new BCL version.