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This is something that I was exploring to see if I could take what was

List<MdiChild> openMdiChildren = new List<MdiChild>();
foreach(child in MdiManager.Pages)
{
    openMdiChildren.Add(child);
}

foreach(child in openMdiChild)
{
   child.Close();
}

and shorten it to not require 2 foreach loops.

Note I've changed what the objects are called to simplify this for this example (these come from 3rd party controls). But for information and understanding MdiManager.Pages inherits form CollectionBase, which in turn inherits IEnumerable

and MdiChild.Close() removes the open child from the MdiManager.Pages Collection, thus altering the collection and causing the enumeration to throw an exception if the collection was modified during enumeration, e.g..

foreach(child in MdiManage.Pages)
{
   child.Close();
}

I was able to the working double foreach to

((IEnumerable) MdiManager.Pages).Cast<MdiChild>.ToList()
.ForEach(new Action<MdiChild>(c => c.Close());

Why does this not have the same issues dealing with modifying the collection during enumeration? My best guess is that when Enumerating over the List created by the ToList call that it is actually executing the actions on the matching item in the MdiManager.Pages collection and not the generated List.

Edit

I want to make it clear that my question is how can I simplify this, I just wanted to understand why there weren't issues with modifying a collection when I performed it as I have it written currently.

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My thought is that because it's supplying a callback, each thread can be prepared with an argument to one item (thus iterating over all) before any of them are invoked; thus when the callback executes, you've already iterated over the enumerable. –  Tejs Mar 10 '11 at 20:26
    
@Tejs: This is incorrect; there's no multithreading going on here. –  Adam Robinson Mar 10 '11 at 20:27

5 Answers 5

up vote 6 down vote accepted

Your call to ToList() is what saves you here, as it's essentially duplicating what you're doing above. ToList() actually creates a List<T> (a List<MdiChild> in this case) that contains all of the elements in MdiManager.Pages, then your subsequent call to ForEach operates on that list, not on MdiManager.Pages.

In the end, it's a matter of style preference. I'm not personally a fan of the ForEach function (I prefer the query composition functions like Where and ToList() for their simplicity and the fact that they aren't engineered to have side-effects upon the original source, whereas ForEach is not).

You could also do:

foreach(child in MdiManager.Pages.Cast<MdiChild>().ToList())
{
    child.Close();
}

Fundamentally, all three approaches do exactly the same thing (they cache the contents of MdiManager.Pages into a List<MdiChild>, then iterate over that cached list and call Close() on each element.

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yea, I was just playing around with it. I think this answers the question the closest. –  msarchet Mar 10 '11 at 20:37
    
Conceptually, I think ForEach()-style methods are underrated, since many types of collections could fairly easily permit modifications within a such a method which would be harder within a foreach loop; that would be especially true if the ForEach method passed a "cursor" object with a Current property as well as Delete, AddBefore and AddAfter methods [the cursor object could be reused continuously throughout the ForEach call]. An operation like deleting all items from a list that meet some criterion could be O(N) with the above interface, but with IList<T> it's O(N^2). –  supercat Jan 27 '13 at 18:26
    
@supercat: How are you arriving at O(N^2)? –  Adam Robinson Jan 27 '13 at 21:04
    
If one implements a "PurgeForAll" using the idiomatic approach of using Remove to take out items as one passes through the loop, each removal will require all items after it to be shifted. After writing my comment, I realized that one could, using IList<T>, read out each item and then store it into a new spot, but that doesn't convey what one is doing as well as would calling Remove on items to be deleted and doing nothing with items that aren't (leaving such handling to the underlying List implementation). –  supercat Jan 27 '13 at 21:33
    
On some implementations of IList<T>, if one has a list of 10,000 items and wants to have ten items in the middle removed, calling Remove to take out those ten items would be faster than reading every item in the list by index and storing it to the spot where it should go. On other implementations, reading and rewriting every item would be faster. An implementation which exposed a PurgeForAll(Func<T,Bool>) method could implement it in whatever fashion would best fit its internal representation. –  supercat Jan 27 '13 at 21:48

At first glance, the culprit is ToList(), which is a method returning a copy of the items as a List, thus circumventing the problem.

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When you call the ToList() method you're actually enumerating the MdiManager.Pages and creating a List<MdiChild> right there (so that's your foreach loop #1). Then when the ForEach() method executes it will enumerate the List<MdiChild> created previously and execute your action on each item (so that's foreach loop #2).

So essentially it's another way of accomplishing the same thing, just using LINQ.

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You could also write it as:

foreach(var page in MdiManager.Pages.Cast<MdiChild>.ToList())
    page.Close();

In any case, when you call ToList() extension method on an IEnumerable; you are creating a brand new list. Deleted from its source collection ( in this case, MdiManager.Pages ) will not affect the list output by ToList().

This same technique can be used to delete elements from a source collection without worrying about affecting the source enumerable.

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You're mostly right.

ToList() creates a copy of the enumeration, and therefore you are enumerating the copy.

You could also do this, which is equivalent, and shows what you are doing:

var copy = new List<MdiChild>(MdiManager.Pages.Cast<MdiChild>());

foreach(var child in copy)
{
    child.Close();
}

Since you are enumerating the elements of the copy enumeration, you don't have to worry about modifying the Pages collection, since each object referece that existed in the Pages collection now also exists in copy and changes to Pages don't affect it.

All the remaining methods on the call, ForEach() and the casts, are superfluous and can be eliminated.

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It not only creates a copy, it does all the copying before the .ForEach runs. –  Albin Sunnanbo Mar 10 '11 at 20:27
    
Yes, that obscures it, which is why I wrote it differently. –  codekaizen Mar 10 '11 at 20:28
    
You'll need to call MdiManager.Pages.Cast<MdiChild>(), since it only implements IEnumerable. –  Adam Robinson Mar 10 '11 at 20:30
    
@Adam - actually, why cast to ((IEnumerable)MdiManager.Pages) then? –  codekaizen Mar 10 '11 at 20:31
    
@codekaizen wouldn't it still need to be new List(((IEnumerabe) MdiManager.Pages).Cast<MdiChild> since there is no constructor for List that takes a CollectionBase, or for that case even just IEnumerable. Also I know that I can do this without all of the craziness, just trying to do it and then had a question. –  msarchet Mar 10 '11 at 20:32

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