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I have an array which contains fields for a data structure in the following format;

[0] = Record 1 (Name Field)
[1] = Record 1 (ID Field)
[2] = Record 1 (Other Field)
[3] = Record 2 (Name Field)
[4] = Record 2 (ID Field)
[5] = Record 2 (Other Field)


I'm processing this into a collection as follows;

for (int i = 0; i < components.Length; i = i + 3)
    results.Add(new MyObj
            Name = components[i],
            Id = components[i + 1],
            Other = components[i + 2],

This works fine, but I was wondering if there is a nice way to achieve the same output with LINQ? There's no functional requirement here, I'm just curious if it can be done or not.

I did do some experimenting with grouping by an index (after ToList()'ing the array);

var groupings = components
    .GroupBy(x => components.IndexOf(x) / 3)
    .Select(g => g.ToArray())
    .Select(a => new
            Name = a[0],
            Id = a[1],
            Other = a[2]

This works, but I think it's a bit overkill for what I'm trying to do. Is there a simpler way to achieve the same output as the for loop?

share|improve this question
You want to find an alternative for all that IndexOf too, it's inefficient and won't handle duplicates at all well. I'd stick with the loop :) – Rawling Feb 18 '13 at 10:55
Yeah I think I will end up just sticking with the loop for production code - just wanted to see what other approaches were out there. – Christopher McAtackney Feb 18 '13 at 11:21
That said, I do like some of the alternatives given here. – Rawling Feb 18 '13 at 11:23

4 Answers 4

up vote 1 down vote accepted

Looks like a perfect candidate for Josh Einstein's IEnumerable.Batch extension. It slices an enumerable into chunks of a certain size and feeds them out as an enumeration of arrays:

public static IEnumerable<T[]> Batch<T>(this IEnumerable<T> self, int batchSize)

In the case of this question, you'd do something like this:

var results = 
    from batch in components.Batch(3)
    select new MyObj { Name = batch[0], Id = batch[1], Other = batch[2] };
share|improve this answer
Great, this is exactly the kind of thing I was looking for. Thanks for the link. – Christopher McAtackney Feb 18 '13 at 11:19
I use Batch a lot, so it's nice to be able to plug it to someone else. – Corey Feb 18 '13 at 11:22
It seems like something that should really be part of the MS provided methods - hopefully something similar gets added in a future release. – Christopher McAtackney Feb 18 '13 at 11:30

I would say stick with your for-loop. However, this should work with Linq:

List<MyObj> results = components
    .Select((c ,i) => new{ Component = c, Index = i })
    .GroupBy(x => x.Index / 3)
    .Select(g => new MyObj{
        Name = g.First().Component,
        Id = g.ElementAt(1).Component,
        Other = g.Last().Component
share|improve this answer
That's a neat trick with the index overload for .Select - didn't realise that existed. – Christopher McAtackney Feb 18 '13 at 11:16
@ChrisMcAtackney: Yes, some of the Linq methods have an overload like Enumerable.Where. – Tim Schmelter Feb 18 '13 at 11:21

Maybe an iterator could be appropriate.

Declare a custom iterator:

static IEnumerable<Tuple<int, int, int>> ToPartitions(int count)
    for (var i = 0; i < count; i += 3)
        yield return new Tuple<int, int, int>(i, i + 1, i + 2);

Prepare the following LINQ:

var results = from partition in ToPartitions(components.Length)
              select new {Name = components[partition.Item1], Id = components[partition.Item2], Other = components[partition.Item3]};
share|improve this answer

This method may give you an idea on how to make the code more expressive.

public static IEnumerable<MyObj> AsComponents<T>(this IEnumerable<T> serialized)
    where  T:class
    using (var it = serialized.GetEnumerator())
        Func<T> next = () => it.MoveNext() ? it.Current : null;

        var obj = new MyObj
                Name  = next(),
                Id    = next(),
                Other = next()

        if (obj.Name == null)
            yield break;

        yield return obj;

As it stands, I dislike the way I detect the end of the input, but you might have domain specific information on how to do this better.

share|improve this answer
Add a boolean variable to the using clause and update it in the next func. bool ok = true; Func<T> next () => (ok &= it.MoveNext()) ? it.Current : null; – Corey Feb 18 '13 at 11:21
@Corey that's an idea. – sehe Feb 18 '13 at 11:31

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