# Removing alternate elements in a List<T>

What is the most efficient way to remove alternate (odd indexed or even indexed) elements in an `List<T>` without using a place holder list variable?

Also it would be appreciated if you could mention the cost with each of your answer.

I'm looking for an efficient way to do this

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What do you exactly mean by alternate? –  Mehrdad Afshari Mar 7 '09 at 13:10
Do you mean to remove every other element, i.e., all even-index or all odd-index elements? –  R. Martinho Fernandes Mar 7 '09 at 13:13
yes, even-indexed or odd-indexed elements. –  AB Kolan Mar 7 '09 at 13:17
People, (and by people I particularly mean those with higher rep) we should train ourselves to upvote questions like this. If the question was interesting enough for us to take the time to participate is it not worth an upvote? –  AnthonyWJones Mar 7 '09 at 13:38
@AnthonyWJones, I upvoted once the OP made the question clearer. –  JaredPar Mar 7 '09 at 14:11

If you call RemoveAt for every item you remove, you will be moving a lot of data. The most efficient is to move the items together that you want to keep, then remove the unused items at the end:

``````int pos = 0;
for (int i = 0; i < values.Count; i += 2, pos++) {
values[pos] = values[i];
}
values.RemoveRange(pos, values.Count - pos);
``````

Edit:
This method will process a list of a million ints in 15 ms. Using RemoveAt it will take over three minutes...

Edit2:
You could actually start with pos=1 and i=2 (or 3), as the first item doesn't have to be copied to itself. This makes the code a bit less obvious though.

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I think this will only work if the number of elements in the list is even. –  tvanfosson Mar 7 '09 at 13:26
I think i just needs to start at 1 not 0 then this code will work –  AnthonyWJones Mar 7 '09 at 13:35
@tvanfosson: No, I have verified that the code works both for even and odd number of elements. @AnthonyWJones: If you want to remove the even indices instead of the odd, you would start at 1 instead of 0. –  Guffa Mar 7 '09 at 13:43
+1 fun solution. What's slightly disturbing about this (and my) solution is that it will not change the size of the underlying array no matter how many times it's called and hence shrunk. –  JaredPar Mar 7 '09 at 13:50
@Martin, it's unforntunately not O(1) as removal causes a shift in the elements in the array. The shift can be very costly: blogs.msdn.com/jaredpar/archive/2008/04/07/… –  JaredPar Mar 7 '09 at 21:23

Just for consideration of a solution that creates a new list, with a list old you could do this:

var newList = old.Where((_, i) => i%2 != 0).ToList();

or, obviously

var newList = l.Where((_, i) => i%2 == 0).ToList();

depending which alternation you choose.

EDIT

The answer is quite a bit quicker. If you read something else here, it's because I measured on a weekend and weekend's brain is funny. :( The closure solution is about 40% quicker while the answer is app. 2 orders of magnitude faster. I suppose it will really depend how big your list becomes!

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I think you put some F# code in there :) –  JaredPar Mar 7 '09 at 13:39
Not sure if you say that ironically? It's definitely C# code, I tried it before I posted it here. Frankly, I am slightly surprised this isn't getting any rep, considering it's the simplest answer of all... –  flq Mar 7 '09 at 13:47
This doesn't answer any of the OP's requirements. He wants to remove elements from the list, which this code doesn't do. He wants performance, which this code also doesn't provide. –  Hosam Aly Mar 7 '09 at 13:56
Repping this - simple, and an iterator is often exactly what you need. –  rjh Mar 7 '09 at 13:57
@Frank, I thought _ was an illegal identifier in C# because C# required a minimum of a single alpha character. Learn something new every day. –  JaredPar Mar 7 '09 at 14:04

And another option, similar to Frank's one, but with usage of closures. And it is quicker than Frank's version.

``````bool isEven = true;
var newList = list.Where(x => isEven = !isEven).ToList();
``````
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I'm not sure what you mean by alternate but if you mean "every other item" the following code will work. It will start by removing the 2nd element, then the 4th, and so on

``````List<T> list = GetTheList();
int i = 1;
while ( i < list.Count ) {
list.RemoveAt(i);
i++;
}
``````
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When you remove an element at the beginning, all the rest will shift down one. This certainly won't eliminate alternate elements and may result in an exception depending on whether the guard is recalculated at every step, i.e., list.Count will be changing. –  tvanfosson Mar 7 '09 at 13:24
@tvanfonsson: Code looks good to me? –  AnthonyWJones Mar 7 '09 at 13:31
@Anthony -- when you remove the element at position 2, the element at position 3 shifts to 2, 4 shifts to 3, etc., so the next element that gets removed was actually at position 5 in the original list, not position 4. –  tvanfosson Mar 7 '09 at 13:33
It does work, but it's very inefficient. To process a list of 1000 ints, you will be moving close to one MB of data... –  Guffa Mar 7 '09 at 13:38
@tvanfosson: the code appears to be relying on the behaviour you describe as part of the solution. Note i increments only by 1 iteration, in combination with the position shifting you describe it will only remove every other item, as expected. –  AnthonyWJones Mar 7 '09 at 13:41

The way to Nirvana is paved with deferred execution. Or something.

``````    public static IEnumerable<T> AlternateItems<T>(this IEnumerable<T> source)
{
while (source.Any())
{
yield return source.First();

source = source.Skip(1);

if (source.Any()) source = source.Skip(1);
}
}
``````

This works for all sequences, not just `IList<>`. The cost of iteration is deferred until iteration, which may be a big win if, in the end, you don't need to touch all the elements in the list.

In my simple tests, the performance when you iterate over the whole list is not very good, so be sure to profile your real situation.

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``````for (int i=myList.length-1; i >= 0; i--)
if (i % 2 == 0)
myList.Remove(myList[i]);
``````
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Obviously usage dependent, but you could have a wrapper IList that multiplies the index you give it by 2, and reports the length of the list to be 1/2 (details elided). This is O(1).

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Clever! But fragile. –  Alex Reynolds Mar 7 '09 at 16:34

I would use the standard pattern generally used for STL containers. Do a remove followed by an erase.

This way you will not confuse people that are used to seeing this pattern.

``````template<typename T>
struct RemoveEven
{
RemoveEven():count(0)   {}
bool operator()(T const&)
{
bool    result  =  count%2 == 0;
count++;
return result;
}
private:
std::size_t count;
};
int main()
{
std::list<int>  a;
a.erase(std::remove_if(a.begin(),a.end(),RemoveEven<int>()),a.end());

}
``````
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