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I need to merge two lists in a particular manner as the function describes below. This implementation uses recursion and works but seems kludgy. Does anyone know a better way to do this with LINQ, seems like there should be something like a SelectMany that can refer back to outer(unflattened) elements but I can't find anything

/// <summary>
/// Function merges two list by combining members in order with combiningFunction
/// For example   (1,1,1,1,1,1,1) with 
///               (2,2,2,2)       and a function that simply adds
/// will produce  (3,3,3,3,1,1,1)
/// </summary>
public static IEnumerable<T> MergeList<T>(this IEnumerable<T> first, 
                                          IEnumerable<T> second, 
                                          Func<T, T, T> combiningFunction)
{
    if (!first.Any())
        return second;

    if (!second.Any())
        return first;

    var result = new List<T> {combiningFunction(first.First(), second.First())};
    result.AddRange(MergeList<T>(first.Skip(1), second.Skip(1), combiningFunction));

    return result;
}
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3 Answers 3

up vote 4 down vote accepted

Enumerable.Zip is exactly what you want.

var resultList = Enumerable.Zip(first, second,
// or, used as an extension method:  first.Zip(second,
    (f, s) => new
              {
                  FirstItem = f,
                  SecondItem = s,
                  Sum = f + s
              });

EDIT: It seems I didn't account for the "outer" style of zipping that continues even if one list completes. Here's a solution that accounts for that:

public static IEnumerable<TResult> OuterZip<TFirst, TSecond, TResult>(
    this IEnumerable<TFirst> first, IEnumerable<TSecond> second,
    Func<TFirst, TSecond, TResult> resultSelector)
{
    using (IEnumerator<TFirst> firstEnumerator = first.GetEnumerator())
    using (IEnumerator<TSecond> secondEnumerator = second.GetEnumerator())
    {
        bool firstHasCurrent = firstEnumerator.MoveNext();
        bool secondHasCurrent = secondEnumerator.MoveNext();

        while (firstHasCurrent || secondHasCurrent)
        {
            TFirst firstValue = firstHasCurrent
                ? firstEnumerator.Current
                : default(TFirst);

            TSecond secondValue = secondHasCurrent
                ? secondEnumerator.Current
                : default(TSecond);

            yield return resultSelector(firstValue, secondValue);

            firstHasCurrent = firstEnumerator.MoveNext();
            secondHasCurrent = secondEnumerator.MoveNext();
        }
    }
}

This function could easily be modified to pass boolean values to the result selector function to denote whether or not a first or a second element exist, if you need to check for that explicitly (instead of working with default(TFirst) or default(TSecond) in the lambda).

share|improve this answer
    
nice, never noticed that one before. always thought it had something to do with compression :p will it also support "outer merges" like dmitry was looking for? –  Kevin Nacios May 29 '13 at 4:39
    
It's all in what the result selector function returns; like in my example, you can return an anonymous type that contains references to the original items as well as the combined result (if you want to retain that information). –  Adam Maras May 29 '13 at 4:42
    
looks like zip exits after it hits the end of one of the enumerables, so if a second list is longer, it would omit those results. –  Kevin Nacios May 29 '13 at 4:43
    
Right you are. Let me come up with a solution that provides for the "outer" zip style. –  Adam Maras May 29 '13 at 4:47
    
thank you, I went down the yield path but could not get it to work appropriately, was really looking for a lazy eval version and this is it –  Dmitry May 29 '13 at 5:00

How about somethine like

public static IEnumerable<T> MyMergeList<T>(this IEnumerable<T> first,
                                  IEnumerable<T> second,
                                  Func<T, T, T> combiningFunction)
{
    return Enumerable.Range(0, Math.Max(first.Count(), second.Count())).
        Select(x => new
                        {
                            v1 = first.Count() > x ? first.ToList()[x] : default(T),
                            v2 = second.Count() > x ? second.ToList()[x] : default(T),
                        }).Select(x => combiningFunction(x.v1, x.v2));
}
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whats wrong with just a good old fashioned loop. sure, it isnt as fancy, but its pretty straightforward and you dont have to use recursion.

var firstList = first.ToList();
var secondList = second.ToList();
var firstCount = first.Count();
var secondCount = second.Count();
var result = new List<T>();
for (int i = 0; i < firstCount || i < secondCount; i++)
{
    if (i >= firstCount)
        result.Add(secondList[i]);
    if (i >= secondCount)
        result.Add(firstList[i]);

    result.Add(combiningFunction(firstList[i], secondList[i]));
}
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