Random numbers vs. GetHashCode() in CompreTo()?

Question

I'm using the Random class in my struct's CompareTo() to pick, with equal probability, one of the structs when both have the same field values. The Random class is instantiated with a fixed seed to get a reproducible sequence of pseudo-random values, to ensure that my program would give the same exact comparison results no matter how many times I run it with the same input.

I'm thinking of replacing the random numbers with a memory reference or GetHashCode() instead. Will doing so guarantee that:

(1) the selection is made with equal probability, and

(2) that I would end up with the same results if I run the program again ?

struct MyStruct : IComparable<MyStruct>
{
        private readonly float _param1;
        private readonly float _param2;
        private readonly int _randValue;

        public MyStruct(float param1, float param2)
        {
                _param1 = param1;
                _param2 = param2;
                _randValue = _random.Next();
        }

        public int CompareTo(MyStruct other)
        {
            if (_param1 < other._param1)
            {
                return -1;
            }
            else if (_param1 > other._param1)
            {
                return 1;
            }
            else if (_param2 > other._param2)
            {
                return -1;
            }
            else if (_param2 < other._param2)
            {
                return 1;
            }
            // If both params are equal, then select one of the structs with
            // equal probability
            else if (_randValue < other._randValue)
            {
                return -1;
            }
            else if (_randValue > other._randValue)
            {
                return 1;
            }

            return 0;
        }
}

Thanks !

Answer 1

I'm using the Random class in my struct's CompareTo() to pick, with equal probability, one of the structs when both have the same field values.

First off, that's a completely bizarre thing to do. That's like saying "When I'm asked to sort a bunch of numbers, and two of them are both 12, I pick one of the 12's at random to be smaller". That doesn't make a lick of sense. Those two twelves are identical. You don't have a way to tell one twelve from another!

Why are you doing this strange thing? If the two values are identical then say they are identical.

Upon reading your code more carefully, I see that you're persisting the random number into the state of the structure. If you want to do this strange thing, that's the right way to go about it.

I originally thought that you were randomizing the comparison operator itself. That is an extremely dangerous thing to do. Sorting algorithms are allowed to take strong dependencies on the sort being a total order sort. A comparison is required to find a total ordering that is self consistent. You must absolutely never say that the first item is bigger than the second, the second is bigger than the third, and the third is bigger than the first. That violates the required transitivity of the comparison, and a sort algorithm is permitted to go into an infinite loop or do any other odd behaviour when given a comparison operation that is ill-behaved.

I'm thinking of replacing the random numbers with a memory reference or GetHashCode() instead.

That is an even worse idea. GetHashCode is useful for one thing and one thing only: balancing a hash table. If you're not balancing a hash table and you call GetHashCode you are doing something wrong.

Moreover, think it through. The situation you're in is that two structs otherwise compare as equal. GetHashCode is contractually required to return the same result for any two structs that compare as equal. GetHashCode is explicitly not a source of disambiguation between two identical things! It is in fact the opposite of that.

Will this guarantee that the selection is made with equal probability?

Nope. GetHashCode is not a source of randomness and no guarantees whatsoever are made about the distribution of hash codes.

Will this guarantee that I would end up with the same results if I run the program again ?

Absolutely not.

Answer 2

Your code isn't dangerous as some suspect, because you are consistent in the use of the numbers (they're random only on object creation).

What I can't see though, is why on earth this could give any benefit.

Consider the case without _randValue. Say you've one struct (we'll call it x) where _param1 equals 2.0 and _param2 equals .12, and another struct (we'll call it y) where _param1 equals 2.0 and _param2 equals .12.

Well, the only way that makes anything different between x and y is that you've added a _randValue to them.

Because they're structs, they don't even have a persistent identity between assignments and boxings. If we do MyStruct z = x we don't have another pointer to x we have a brand new MyStruct.

And even besides that, it makes no difference.

The sole effect of your changes are:

1. You've added extra memory usage to all cases of the structure.
2. You've made sorting more expensive.
3. You've made construction more expensive.
4. You've made construction a multi-threading bottleneck, because you have to lock on Random.Next().

None of these are likely to be particularly significant, but premature pessimisation is the root much weirdness.

Answer 3

By "Memory Reference" do you mean the address of the struct? If you want predictability then you can't use memory addresses.

What are you proposing to hash? If you hash properties of the struct that are equal the hash codes will be equal as well.

I guess I'm confused by 1) why Random is not working for you and 2) why you don't just call two structs with equal values "equal"?

Answer 4

Since the Random class is doing what you want, and you're able to seed it to ensure that you get the same values every time, why do you want to change it?

I'm not entirely sure what you plan to do using a memory reference, but even if you could point at the same address and see the same data every time you run the code, you couldn't guarantee a fair distribution of values in memory unless you've filled it with with a random function anyway.

A hashing function should return a fair spread of values, but it's not really the tool for the job — if you want a random number, user a random number generator!

Answer 5

I'd personally prefer just a pure random number, but to answer your points:

1. Yes, it's a hash algorithm, just like md5 or sha (although this algorithm was not specifically created for the purposes you describe)
2. Yes, the value will be sustained between program launches (@henk-holterman is correct but the value is not guaranteed to stay the same only for strings)
3. GetHashCode will be way faster

Answer 6

My reading of your code says that you are using rand has a tie-breaker. I can't see why you would want identical objects differentiated, or even care as to the order of identical objects.

e.g. in this list-

 A
 B
 B
 C

why would you care or want to know which instance of B is first?

I would suggest the better solution would be to add fine grained field that makes sense to the user, say a date created or modified timestamp. You would then have a meaningful tie-breaker, though ties could still occur, I just don't think they would be a problem.