Get next N elements from enumerable

Question

Context: C# 3.0, .Net 3.5
Suppose I have a method that generates random numbers (forever):

private static IEnumerable<int> RandomNumberGenerator() {
    while (true) yield return GenerateRandomNumber(0, 100);
}

I need to group those numbers in groups of 10, so I would like something like:

foreach (IEnumerable<int> group in RandomNumberGenerator().Slice(10)) {
    Assert.That(group.Count() == 10);
}

I have defined Slice method, but I feel there should be one already defined. Here is my Slice method, just for reference:

    private static IEnumerable<T[]> Slice<T>(IEnumerable<T> enumerable, int size) {
        var result = new List<T>(size);
        foreach (var item in enumerable) {
            result.Add(item);
            if (result.Count == size) {
                yield return result.ToArray();
                result.Clear();
            }
        }
    }

Question: is there an easier way to accomplish what I'm trying to do? Perhaps Linq?

Note: above example is a simplification, in my program I have an Iterator that scans given matrix in a non-linear fashion.

EDIT: Why Skip+Take is no good.

Effectively what I want is:

var group1 = RandomNumberGenerator().Skip(0).Take(10);
var group2 = RandomNumberGenerator().Skip(10).Take(10);
var group3 = RandomNumberGenerator().Skip(20).Take(10);
var group4 = RandomNumberGenerator().Skip(30).Take(10);

without the overhead of regenerating number (10+20+30+40) times. I need a solution that will generate exactly 40 numbers and break those in 4 groups by 10.

Answer 1

I have done something similar. But I would like it to be simpler:

//Remove "this" if you don't want it to be a extension method
public static IEnumerable<IList<T>> Chunks<T>(this IEnumerable<T> xs, int size)
{
    var curr = new List<T>(size);

    foreach (var x in xs)
    {
        curr.Add(x);

        if (curr.Count == size)
        {
            yield return curr;
            curr = new List<T>(size);
        }
    }
}

I think yours are flawed. You return the same array for all your chunks/slices so only the last chunk/slice you take would have the correct data.

Addition: Array version:

public static IEnumerable<T[]> Chunks<T>(this IEnumerable<T> xs, int size)
{
    var curr = new T[size];

    int i = 0;

    foreach (var x in xs)
    {
        curr[i % size] = x;

        if (++i % size == 0)
        {
            yield return curr;
            curr = new T[size];
        }
    }
}

Addition: Linq version (not C# 2.0). As pointed out, it will not work on infinite sequences and will be a great deal slower than the alternatives:

public static IEnumerable<T[]> Chunks<T>(this IEnumerable<T> xs, int size)
{
    return xs.Select((x, i) => new { x, i })
             .GroupBy(xi => xi.i / size, xi => xi.x)
             .Select(g => g.ToArray());
}

Answer 2

Are Skip and Take of any use to you?

Use a combination of the two in a loop to get what you want.

So,

list.Skip(10).Take(10);

Skips the first 10 records and then takes the next 10.

Answer 3

Using Skip and Take would be a very bad idea. Calling Skip on an indexed collection may be fine, but calling it on any arbitrary IEnumerable<T> is liable to result in enumeration over the number of elements skipped, which means that if you're calling it repeatedly you're enumerating over the sequence an order of magnitude more times than you need to be.

Complain of "premature optimization" all you want; but that is just ridiculous.

I think your Slice method is about as good as it gets. I was going to suggest a different approach that would provide deferred execution and obviate the intermediate array allocation, but that is a dangerous game to play (i.e., if you try something like ToList on such a resulting IEnumerable<T> implementation, without enumerating over the inner collections, you'll end up in an endless loop).

(I've removed what was originally here, as the OP's improvements since posting the question have since rendered my suggestions here redundant.)

Answer 4

Let's see if you even need the complexity of Slice. If your random number generates is stateless, I would assume each call to it would generate unique random numbers, so perhaps this would be sufficient:

var group1 = RandomNumberGenerator().Take(10);  
var group2 = RandomNumberGenerator().Take(10);  
var group3 = RandomNumberGenerator().Take(10);  
var group4 = RandomNumberGenerator().Take(10);

Each call to Take returns a new group of 10 numbers.

Now, if your random number generator re-seeds itself with a specific value each time it's iterated, this won't work. You'll simply get the same 10 values for each group. So instead, you would use:

var generator  = RandomNumberGenerator();
var group1     = generator.Take(10);  
var group2     = generator.Take(10);  
var group3     = generator.Take(10);  
var group4     = generator.Take(10);

This maintains an instance of the generator so that you can continue retrieving values without re-seeding the generator.

Answer 5

You could use the Skip and Take methods with any Enumerable object.

For your edit :

How about a function that takes a slice number and a slice size as a parameter?

private static IEnumerable<T> Slice<T>(IEnumerable<T> enumerable, int sliceSize, int sliceNumber) {
    return enumerable.Skip(sliceSize * sliceNumber).Take(sliceSize);
}

Answer 6

Take a look at Take(), TakeWhile() and Skip()

Answer 7

I think the use of Slice() would be a bit misleading. I think of that as a means to give me a chuck of an array into a new array and not causing side effects. In this scenario you would actually move the enumerable forward 10.

A possible better approach is to just use the Linq extension Take(). I don't think you would need to use Skip() with a generator.

Edit: Dang, I have been trying to test this behavior with the following code

Note: this is wasn't really correct, I leave it here so others don't fall into the same mistake.

var numbers = RandomNumberGenerator();
var slice = numbers.Take(10);

public static IEnumerable<int> RandomNumberGenerator()
{
    yield return random.Next();
}

but the Count() for slice is alway 1. I also tried running it through a foreach loop since I know that the Linq extensions are generally lazily evaluated and it only looped once. I eventually did the code below instead of the Take() and it works:

public static IEnumerable<int> Slice(this IEnumerable<int> enumerable, int size)
{
    var list = new List<int>();
    foreach (var count in Enumerable.Range(0, size)) list.Add(enumerable.First());
    return list;
}

If you notice I am adding the First() to the list each time, but since the enumerable that is being passed in is the generator from RandomNumberGenerator() the result is different every time.

So again with a generator using Skip() is not needed since the result will be different. Looping over an IEnumerable is not always side effect free.

Edit: I'll leave the last edit just so no one falls into the same mistake, but it worked fine for me just doing this:

var numbers = RandomNumberGenerator();

var slice1 = numbers.Take(10);
var slice2 = numbers.Take(10);

The two slices were different.

Answer 8

I had made some mistakes in my original answer but some of the points still stand. Skip() and Take() are not going to work the same with a generator as it would a list. Looping over an IEnumerable is not always side effect free. Anyway here is my take on getting a list of slices.

    public static IEnumerable<int> RandomNumberGenerator()
    {
        while(true) yield return random.Next();
    }

    public static IEnumerable<IEnumerable<int>> Slice(this IEnumerable<int> enumerable, int size, int count)
    {
        var slices = new List<List<int>>();
        foreach (var iteration in Enumerable.Range(0, count)){
            var list = new List<int>();
            list.AddRange(enumerable.Take(size));
            slices.Add(list);
        }
        return slices;
    }

Answer 9

It seems like we'd prefer for an IEnumerable<T> to have a fixed position counter so that we can do

var group1 = items.Take(10);
var group2 = items.Take(10);
var group3 = items.Take(10);
var group4 = items.Take(10);

and get successive slices rather than getting the first 10 items each time. We can do that with a new implementation of IEnumerable<T> which keeps one instance of its Enumerator and returns it on every call of GetEnumerator:

public class StickyEnumerable<T> : IEnumerable<T>, IDisposable
{
    private IEnumerator<T> innerEnumerator;

    public StickyEnumerable( IEnumerable<T> items )
    {
        innerEnumerator = items.GetEnumerator();
    }

    public IEnumerator<T> GetEnumerator()
    {
        return innerEnumerator;
    }

    System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
    {
        return innerEnumerator;
    }

    public void Dispose()
    {
        if (innerEnumerator != null)
        {
            innerEnumerator.Dispose();
        }
    }
}

Given that class, we could implement Slice with

public static IEnumerable<IEnumerable<T>> Slices<T>(this IEnumerable<T> items, int size)
{
    using (StickyEnumerable<T> sticky = new StickyEnumerable<T>(items))
    {
        IEnumerable<T> slice;
        do
        {
            slice = sticky.Take(size).ToList();
            yield return slice;
        } while (slice.Count() == size);
    }
    yield break;
}

That works in this case, but StickyEnumerable<T> is generally a dangerous class to have around if the consuming code isn't expecting it. For example,

using (var sticky = new StickyEnumerable<int>(Enumerable.Range(1, 10)))
{
    var first = sticky.Take(2);
    var second = sticky.Take(2);
    foreach (int i in second)
    {
        Console.WriteLine(i);
    }
    foreach (int i in first)
    {
        Console.WriteLine(i);
    }
}

prints

1
2
3
4

rather than

3
4
1
2