# Simple Sequence Generation?

I'm looking for an ultra-easy way to generate a list of numbers, 1-200. (it can be a List, Array, Enumerable... I don't really care about the specific type)

Apparently .Net 4.0 has a Sequence.Range(min,max) method. But I'm currently on .Net 3.5.

Here is a sample usage, of what I'm after, shown with Sequence.Range.

public void ShowOutput(Sequence.Range(1,200));

For the moment, I need consequitive numbers 1-200. In future iterations, I may need arbitrary lists of numbers, so I'm trying to keep the design flexible.

Perhaps there is a good LINQ solution? Any other ideas?

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.NET 3,5 has Range too. It's actually Enumerable.Range and returns IEnumerable<int>.

The page you linked to is very much out of date - it's talking about 3 as a "future version" and the Enumerable static class was called Sequence at one point prior to release.

If you wanted to implement it yourself in C# 2 or later, it's easy - here's one:

IEnumerable<int> Range(int count)
{
for (int n = 0; n < count; n++)
yield return n;
}

You can easily write other methods that further filter lists:

IEnumerable<int> Double(IEnumerable<int> source)
{
foreach (int n in source)
yield return n * 2;
}

But as you have 3.5, you can use the extension methods in System.Linq.Enumerable to do this:

var evens = Enumerable.Range(0, someLimit).Select(n => n * 2);
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You are indeed correct. I didn't read closely enough. Thanks for setting me straight. –  abelenky Jul 28 '09 at 21:34
Actually, you implementation isn't correct. Enumerable.Range() is in the form Range(int start, int count), so your second parameter should be 'count' and your stop condition should be n < start + count. –  Robert Cartaino Jul 28 '09 at 21:53
That's true. I've changed the example to be slightly different anyway (always starting from zero), as you could then use Select to add an offset to each item - an example of orthogonality. –  Daniel Earwicker Jul 28 '09 at 22:29