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Say I have elements (X, Y, and Z) in a list, I have a function, that generates a percentage, of how much two objects resemble each other.

What I want to do, is run X against Y and Z using my compareElements, so:

compareElements(X,Y); // equals 55
compareElements(X,Z); // equals 60

Then Y against X and Z

compareElements(Y,X); // equals 55
compareElements(Y,Z); // equals 62

Then Z against Y and X

compareElements(Z,X); // equals 60
compareElements(Z,Y); // equals 62

Then, I return the highest value, which is 62.

Obviously, there's some repetition there, I don't need the repetition, but I'm not sure how to eliminate it.

How do I structure my LINQ query, or a function/algorithm to do this comparison on every element, without the repetition?

I'd prefer to use LINQ if I can, as I'm being passed an enumerable and the function returns before the list is actually enumerated, so we can save the cost of performing the compare, until the list is enumerated.

All I need is that highest value, of the compare functions, 62.

Note: My actual result set I'm working with averages between 3 and 10 elements in the list, that need to be ran through this compare function.

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Do you have a List<Tuple<int, int, int>> or similar? or how do you have the X, Y, Z items organized? –  Sebastian Piu Dec 19 '11 at 20:23
    
Do you also need to know which two object resulted in the highest value? –  Klaus Byskov Pedersen Dec 19 '11 at 20:24
    
If you just want the highest element, can't you just use List.Sort().Last()? –  Igby Largeman Dec 19 '11 at 20:27
    
@SebastianPiu X, Y, Z, elements are all in an enumerable. I don't care which object resulted in the highest, as that's stored with my Compare function –  Brian Deragon Dec 19 '11 at 20:43
    
@lthibodeaux biggest reason for wanting linq, is to put it in an enumerable, and I have it yielded across, the compare operation is very expensive, and I don't want it done until it absolutely has to run. –  Brian Deragon Dec 19 '11 at 20:44

7 Answers 7

up vote 2 down vote accepted

For the sake of readability, I would write an iterator block to generate the comparisons in a non-repetitive manner:

IEnumerable<Tuple<T, T>> GetComparisons<T>(IEnumerable<T> elements)
{
    var visited = new List<T>();

    foreach(T current in elements)
    {
        foreach(T previous in visited) 
            yield return new Tuple<T, T>(current, previous);

        visited.Add(current);
    }
}

Then you can do the following:

var highScore = GetComparisons(listOfElements)
                    .Select(x=>compareElements(x.Item1, x.Item2)
                    .Max();

(That said I prefer Smelch's suggestion for situations where there's no practical reason to use LINQ or iterators, such as having a need for composable routines.)

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your solution ended up working out pretty well for me and the client! GetComparisons was a really good idea! –  Brian Deragon Dec 20 '11 at 18:11

I'm not sure I'm understanding you correctly, but try something like this:

    public int compareElementList(List<Element> elements)
    {
        int result = 0;
        for (int i = 0; i < elements.Count - 1; i++)
        {
            for (int q = i + 1; q < elements.Count; q++)
            {
                result = Math.Max(result, compareElements(elements[i], elements[q]));
            }
        }

        return result;
    }

This will eliminate the duplicate comparisons for you. It doesn't use LINQ, but I think it's still pretty readable.

UPDATE: Here is my version modified to handle IEnumerables. It varies from Jon Hanna's in that it doesn't create a new List, it just keeps track of two iterators.

    public int compareElementEnumerable(IEnumerable<Element> elements)
    {
        int result = 0, i = 0, q = 1;
        foreach (Element el in elements)
        {
            foreach (Element el2 in elements)
            {
                if (q > i)
                {
                    result = Math.Max(result, compareElements(el, el2));
                }
                q++;
            }
            i++;
        }

        return result;
    }
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Seems pretty spot-on. LINQ's a tool, and if someone with a bunch of hammers asked how to put nails into things, then there's no point showing how to use a screwdriver to do it, even if they said they'd like to use one. –  Jon Hanna Dec 19 '11 at 20:34
1  
This may also end up being more performant. I suspect that any method that uses LINQ will either duplicate a lot of comparisons or generate a lot of intermediate objects. –  Sean U Dec 19 '11 at 20:49
    
@SeanU problem is I'm being passed an IEnumerable, I'd have to cast this to a list or array first? Wouldn't that be just as expensive? –  Brian Deragon Dec 19 '11 at 20:57
1  
@SeanU The LINQ-based answer here from Eric Lippert is pretty close to this in approach, and only has a couple of light-weight intermediates. I still like the above. It does occur to me, that since compareElements returns a precentage, one could short-circuit it if result ever gets set to 100 as nothing can beat that. –  Jon Hanna Dec 19 '11 at 21:01
    
@BrianDeragon Hard to tell without profiling. But my instinct says creating (n(n-1))/2 Tuples (one for each comparison) will hit the heap a lot harder than creating a n-element List or Array. –  Sean U Dec 19 '11 at 21:05

You could compile a list of the possible combinations you want to test into a List<Tuple<int, int>> and then select the maximum

 mylist.Select(i => new [] { Tuple.New(i.X, i.Y}, Tuple.New(i.X, i.Z), Tuple.New(i.Y, i.Z)})
       .Max(t => compareElements(t.First, t.Second))
share|improve this answer
    
that works, but I still have to compile the list first –  Brian Deragon Dec 19 '11 at 20:40
    
Would that work with your model? –  Sebastian Piu Dec 19 '11 at 20:50

An unreadable LINQ implementation (may not compile, I haven't tested):

Enumerable.Range(0, listOfElements.Length).ToList().ForEach(i=>Enumerable.Range(i, listOfElements.Length-i-1).ToList().ForEach(j=>compareElements(listOfElements[i], listOfElements[j]))).Max();
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Don't know if it is what you are searching for, but I would try to use LINQ in this way:

var linq = from el1 in list
           from el2 in list
           where el1 != el2
           select CompareFunction(el1, el2);

int max = linq.Max();

Comparison sample implementation:

int CompareFunction(string a, string b)
{
    return a.Length - b.Length;
}

This way you compare each element against the other elements in the list (it is a sort of permutation I think) except itself, then select the comparison value and finally the highest value.

share|improve this answer
    
Wouldn't that still repeat comparisons? If list contains items 1, 2, 3; it would compare 1-2, then 1-3, then 2-1, 2-3, finally 3-1 and 3-2. 1-2 is a duplicate of 2-1, 1-3 is a duplicate of 3-1 and 2-3 is a duplicate of 3-2. –  comecme Dec 19 '11 at 20:39
    
I thought of that, but it doesn't address the problem that it'll run duplicate code. –  Brian Deragon Dec 19 '11 at 20:39

I'd be inclined to do it like this:

int count = list.Count;
var query = from index1 in Enumerable.Range(0, count)
            from index2 in Enumerable.Range(index1 + 1, count - (index1 + 1))
            select ComputeSimilarity(list[index1], list[index2]);
var maxSimilarity = query.Max();
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Pretty much the same as a couple given, but doesn't require one to assign to a list first.

List<Element> soFar = new List<Element>();
// If I expected a good few duplicate values, and if 
// compareElements(x, x) isn't 100% - i.e. it's not a similarity
// check for example, then I'd use HashSet<Element> and skip
// when .Add() fails.

int result = 0;
foreach(Element el in sourceEnumeration)
{
  for(int i = 0; i != soFar.Count; ++i)
  {
    int cmp = compareElements(el, soFar[i]);
    if(cmp > result)
    {
      if(cmp == 100)
        return 100;
      cmp = result;
    }
  }
  soFar.Add(el);
}
return result;
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