Can people recommend quick and simple ways to combine the hash codes of two objects. I am not too worried about collisions since I have a Hash Table which will handle that efficiently I just want something that generates a code quickly as possible.

Reading around SO and the web there seem to be a few main candidates:

  1. XORing
  2. XORing with Prime Multiplication
  3. Simple numeric operations like multiplication/division (with overflow checking or wrapping around)
  4. Building a String and then using the String classes Hash Code method

What would people recommend and why?

10 Answers 10


I would personally avoid XOR - it means that any two equal values will result in 0 - so hash(1, 1) == hash(2, 2) == hash(3, 3) etc. Also hash(5, 0) == hash(0, 5) etc which may come up occasionally. I have deliberately used it for set hashing - if you want to hash a sequence of items and you don't care about the ordering, it's nice.

I usually use:

    int hash = 17;
    hash = hash * 31 + firstField.GetHashCode();
    hash = hash * 31 + secondField.GetHashCode();
    return hash;

That's the form that Josh Bloch suggests in Effective Java. Last time I answered a similar question I managed to find an article where this was discussed in detail - IIRC, no-one really knows why it works well, but it does. It's also easy to remember, easy to implement, and easy to extend to any number of fields.

  • 4
    Looks like Dan Bernstein's (or Chris Torek's) hash, just with different constants. Nobody knows why that works well either. – ephemient Oct 29 '09 at 22:27
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    A word of warning, this is (a variation of) the Berstein hash, and because nobody knows why it does well in tests it is not advisable when hashing is critical. See eternallyconfuzzled.com/tuts/algorithms/jsw_tut_hashing.aspx. Also, you should wrap this code in an unchecked { } block. GetHashCode() should not throw any exceptions. – Henk Holterman Dec 31 '09 at 16:38
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    @tofutim: The 31 is a good choice as multiplication by 31 can be optimized to a shift and subtract. Whether it is optimized that way depends on the platform. As for why those numbers work well for hashing - as Henk says, it's a bit of a mystery. – Jon Skeet Sep 21 '12 at 5:44
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    @rory.ap: I think it's an excellent piece of work, and I'd be perfectly happy to use those numbers. While I hate to admit to using constants "because someone else said to" that's basically what the 17/31 pair is about. – Jon Skeet Jan 26 '18 at 15:02
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    Starting with .NET Core 2.1 you can use the System.HashCode type's Combine method to do this docs.microsoft.com/en-us/dotnet/api/system.hashcode.combine – Cosmin Sontu Jan 11 '19 at 9:45

If you are using .NET Core 2.1 or later or .NET Framework 4.6.1 or later, consider using the System.HashCode struct to help with producing composite hash codes. It has two modes of operation: Add and Combine.

An example using Combine, which is usually simpler and works for up to eight items:

public override int GetHashCode()
    return HashCode.Combine(object1, object2);

An example of using Add:

public override int GetHashCode()
    var hash = new HashCode();
    return hash.ToHashCode();


  • Part of .NET itself, as of .NET Core 2.1/.NET Standard 2.1 (though, see con below)
    • For .NET Framework 4.6.1 and later, the Microsoft.Bcl.HashCode NuGet package can be used to backport this type.
  • Looks to have good performance and mixing characteristics, based on the work the author and the reviewers did before merging this into the corefx repo
  • Handles nulls automatically
  • Overloads that take IEqualityComparer instances



While the template outlined in Jon Skeet's answer works well in general as a hash function family, the choice of the constants is important and the seed of 17 and factor of 31 as noted in the answer do not work well at all for common use cases. In most use cases, the hashed values are much closer to zero than int.MaxValue, and the number of items being jointly hashed are a few dozen or less.

For hashing an integer tuple {x, y} where -1000 <= x <= 1000 and -1000 <= y <= 1000, it has an abysmal collision rate of almost 98.5%. For example, {1, 0} -> {0, 31}, {1, 1} -> {0, 32}, etc. If we expand the coverage to also include n-tuples where 3 <= n <= 25, it does less terrible with a collision rate of about 38%. But we can do much better.

public static int CustomHash(int seed, int factor, params int[] vals)
    int hash = seed;
    foreach (int i in vals)
        hash = (hash * factor) + i;
    return hash;

I wrote a Monte Carlo sampling search loop that tested the method above with various values for seed and factor over various random n-tuples of random integers i. Allowed ranges were 2 <= n <= 25 (where n was random but biased toward the lower end of the range) and -1000 <= i <= 1000. At least 12 million unique collision tests were performed for each seed and factor pair.

After about 7 hours running, the best pair found (where the seed and factor were both limited to 4 digits or less) was: seed = 1009, factor = 9176, with a collision rate of 0.1131%. In the 5- and 6-digit areas, even better options exist. But I selected the top 4-digit performer for brevity, and it peforms quite well in all common int and char hashing scenarios. It also seems to work fine with integers of much greater magnitudes.

It is worth noting that "being prime" did not seem to be a general prerequisite for good performance as a seed and/or factor although it likely helps. 1009 noted above is in fact prime, but 9176 is not. I explicitly tested variations on this where I changed factor to various primes near 9176 (while leaving seed = 1009) and they all performed worse than the above solution.

Lastly, I also compared against the generic ReSharper recommendation function family of hash = (hash * factor) ^ i; and the original CustomHash() as noted above seriously outperforms it. The ReSharper XOR style seems to have collision rates in the 20-30% range for common use case assumptions and should not be used in my opinion.

  • 8
    Wow. I love the work that went into this answer. Impressive, well done! – Tom Leys Feb 15 '17 at 20:57
  • Seems to be the best but there is 2 remarks: First and easy one, why not moving "seed" and "factor" to the end and give them a default value (1009 and 9176) where it shuold do the job for most peoples. Second point: like Jon Skeet algo, that is order dependant and you can get a different hash if you feed in a different order. I wonder if it would not be safer to sort that array first in order to ensure to have the same final hash at the end either if you feed the algo in different way. That would become safer. – Eric Ouellet Oct 3 '19 at 15:13
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    @EricOuellet Because the params int[] vals must come at the end of all function arguments, I was not able to make the seed and factor defaulted parameters. If you don't care about the params syntax convenience, you could remove it and then reorder the parameters to allow the defaults as you suggested. – Special Sauce Oct 9 '19 at 21:42
  • @EricOuellet The default hashing for an array should be to consider permutations (this is the more general case) and thus the hash would be different for different orderings (just as the hash for string "abc" is different than the hash for "acb"). If you specifically wanted a hash function for combinations only, you should probably accept a HashSet<int> argument (assuming no duplicates). Otherwise you could rename the function to CustomHashCombination() to prevent confusion, and do the internal pre-sort as suggested. – Special Sauce Oct 9 '19 at 21:44
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    I like this answer, but I wouldn't use params because it has to allocate an array on every call. So it may be faster computations-wise, but it creates GC pressure for later. – Gru Jan 20 '20 at 9:13

Use the combination logic in tuple. The example is using c#7 tuples.

(field1, field2).GetHashCode();
  • Nice idea though I suspect that this might have issues with GC churn since you are implicitly creating a short lived object – RobV Nov 27 '17 at 10:50
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    @RobV Tuples are value types, so they are stack allocated and exert no GC pressure. – Mike Pedersen Feb 13 '18 at 10:34
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    One problem... (0,1,2).GetHashCode() and (0,0,1,2).GetHashCode() both yield the same value: 35. Whereas the method in the most upvoted answer yields unique values 0, 1, 2: 506480 and 0, 0, 1, 2: 15699890 – dynamichael Jun 17 '18 at 22:23
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    Hashcodes aren't guaranteed to be unique. You found a case where it isn't... It doesn't make it a bad choice unless there are a lot of collisions(in that case it would be a good idea to submit a bug). I personally prefer to use something from the framework instead of implementing something different. – Yepeekai Jun 24 '18 at 15:08
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    It's actually ValueTuple type of a struct (MSDN). Be careful that Tuple type is a class and it has GC pressure. I like this way. Internally it's similar to @Stipo 's post but very easy to understand and to review. It would be good choice in most cases. – cactuaroid Aug 16 '18 at 10:05

I presume that .NET Framework team did a decent job in testing their System.String.GetHashCode() implementation, so I would use it:

// System.String.GetHashCode(): http://referencesource.microsoft.com/#mscorlib/system/string.cs,0a17bbac4851d0d4
// System.Web.Util.StringUtil.GetStringHashCode(System.String): http://referencesource.microsoft.com/#System.Web/Util/StringUtil.cs,c97063570b4e791a
public static int CombineHashCodes(IEnumerable<int> hashCodes)
    int hash1 = (5381 << 16) + 5381;
    int hash2 = hash1;

    int i = 0;
    foreach (var hashCode in hashCodes)
        if (i % 2 == 0)
            hash1 = ((hash1 << 5) + hash1 + (hash1 >> 27)) ^ hashCode;
            hash2 = ((hash2 << 5) + hash2 + (hash2 >> 27)) ^ hashCode;


    return hash1 + (hash2 * 1566083941);

Another implementation is from System.Web.Util.HashCodeCombiner.CombineHashCodes(System.Int32, System.Int32) and System.Array.CombineHashCodes(System.Int32, System.Int32) methods. This one is simpler, but probably doesn't have such a good distribution as the method above:

// System.Web.Util.HashCodeCombiner.CombineHashCodes(System.Int32, System.Int32): http://referencesource.microsoft.com/#System.Web/Util/HashCodeCombiner.cs,21fb74ad8bb43f6b
// System.Array.CombineHashCodes(System.Int32, System.Int32): http://referencesource.microsoft.com/#mscorlib/system/array.cs,87d117c8cc772cca
public static int CombineHashCodes(IEnumerable<int> hashCodes)
    int hash = 5381;

    foreach (var hashCode in hashCodes)
        hash = ((hash << 5) + hash) ^ hashCode;

    return hash;

This is a repackaging of Special Sauce's brilliantly researched solution.
It makes use of Value Tuples (ITuple).
This allows defaults for the parameters seed and factor.

public static int CombineHashes(this ITuple tupled, int seed=1009, int factor=9176)
    var hash = seed;

    for (var i = 0; i < tupled.Length; i++)
            hash = hash * factor + tupled[i].GetHashCode();

    return hash;


var hash1 = ("Foo", "Bar", 42).CombineHashes();    
var hash2 = ("Jon", "Skeet", "Constants").CombineHashes(seed=17, factor=31);

If your input hashes are the same size, evenly distributed and not related to each other then an XOR should be OK. Plus it's fast.

The situation I'm suggesting this for is where you want to do

H = hash(A) ^ hash(B); // A and B are different types, so there's no way A == B.

of course, if A and B can be expected to hash to the same value with a reasonable (non-negligible) probability, then you should not use XOR in this way.

  • how would I tell whether my hash codes are evenly distributed, is there an easy benchmark to do for this? I know the collision rate is pretty low but does that necessarily correspond to an even distribution? – RobV Oct 29 '09 at 22:04

If you're looking for speed and don't have too many collisions, then XOR is fastest. To prevent a clustering around zero, you could do something like this:

finalHash = hash1 ^ hash2;
return finalHash != 0 ? finalHash : hash1;

Of course, some prototyping ought to give you an idea of performance and clustering.


Assuming you have a relevant toString() function (where your different fields shall appear), I would just return its hashcode:


This is not very fast, but it should avoid collisions quite well.


I would recommend using the built-in hash functions in System.Security.Cryptography rather than rolling your own.

  • 13
    No, They have a very different purpose and break the rule that GetHashCode should be fast. – Henk Holterman Oct 30 '09 at 10:20

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