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I have the following extension method to split a List<T> into a list of List<T>'s with different chunk sizes, but I'm doubting its efficiency. Anything I can do to improve it or is it fine as is?

public static List<List<T>> Split<T>(this List<T> source, params int[] chunkSizes)
{
    int totalSize = chunkSizes.Sum();
    int sourceCount = source.Count();
    if (totalSize > sourceCount)
    {
        throw new ArgumentException("Sum of chunk sizes is larger than the number of elements in source.", "chunkSizes");
    }

    List<List<T>> listOfLists = new List<List<T>>(chunkSizes.Length);
    int index = 0;
    foreach (int chunkSize in chunkSizes)
    {
        listOfLists.Add(source.GetRange(index, chunkSize));
        index += chunkSize;
    }

    // Get the entire last part if the total size of all the chunks is less than the actual size of the source
    if (totalSize < sourceCount)
    {
        listOfLists.Add(source.GetRange(index, sourceCount - totalSize));
    }

    return listOfLists;
}

Example code usage:

List<int> list = new List<int> { 1,2,4,5,6,7,8,9,10,12,43,23,453,34,23,112,4,23 };
var result =  list.Split(2, 3, 3, 2, 1, 3);
Console.WriteLine(result);

This gets a desired result and a has a final list part with 4 numbers as the total chunk size is 4 less than the size of my list.

I'm especially doubtful of the GetRange part as I fear this is just enumerating the same source over and over...

EDIT: I think I know a way to enumerate the source once: Just do a foreach on the source itself and keep checking if the number of iterated elements is the same as the current chunksize. If so, add the new list and go to the next chunksize. Thoughts?

share|improve this question
    
Since your input's a list not an IEnumerable, you don't need to worry about enumerating it repeatedly. Count() just ends up checking Length, and GetRange uses `Array.Copy behind the scenes. You don't enumerate it at all! –  Rawling Jan 15 '13 at 12:11
    
Its better to use 'yield return' and return IEnumerable<List<T>> instead. This will allow the chunks to be be created when the calling code requires them. –  Usman Zafar Jun 10 at 19:02

2 Answers 2

up vote 1 down vote accepted

There is no performance problem with this code. GetRange is documented to be O(chunkSize), and this is also easy to deduce since one of the most important properties of List<T> is exactly that it allows O(1) indexing.

That said, you could write a more LINQ-y version of the code like this:

var rangeStart = 0;
var ranges = chunkSizes.Select(n => Tuple.Create((rangeStart += n) - n, n))
                       .ToArray();
var lists = ranges.Select(r => source.GetRange(r.Item1, r.Item2)).ToList();

if (rangeStart < source.Count) {
    lists.Last().AddRange(source.Skip(rangeStart));
}

return lists;
share|improve this answer
    
Okay, so because each individual chunk size is a part of n (Sum(chunks) <= n), this method is also O(n) where n is the number of elements in the source. –  Davio Jan 15 '13 at 12:21
    
@Davio: Yes. I just added a more LINQ-y version of the method you might want to check out. –  Jon Jan 15 '13 at 12:36
    
Thanks, I will keep my more verbose method for the time being so other colleagues can easier see what is going on. May convert it in time. –  Davio Jan 15 '13 at 13:41

I would suggest to use this extension method to chunk the source list to the sub-lists by specified chunk size:

using System.Collections.Generic;
using System.Linq;

...

/// <summary>
/// Helper methods for the lists.
/// </summary>
public static class ListExtensions
{
    public static List<List<T>> ChunkBy<T>(this List<T> source, int chunkSize) 
    {
        return source
            .Select((x, i) => new { Index = i, Value = x })
            .GroupBy(x => x.Index / chunkSize)
            .Select(x => x.Select(v => v.Value).ToList())
            .ToList();
    }
}
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