2

Issue:

I have the following code:

foreach(var ItemA in GenericListInstanceB)
{
    ItemA.MethodThatCouldRemoveAnyItemInGenericListInstanceB();
}

Obviously i get an error.

What i want to do is change GenericListInstanceB to a class i create, that keeps track of items it should remove. Then, when the loop is finished, it removes them all. Same with adding items.

This is fine, i can create a class that has an internal list, and a list of items to add and items to remove. Then another method called AddRemovePendingItems that actually 'updates' the list (removes and adds items accordingly). The tricky part is getting that method to be called automatically.

Ideas: Maybe looking at when GetEnumerator is called? Maybe doing something clever with IDisposable?

Question: How do i know when the for loop exits and we've finished iterating over my collection class so i can call my AddRemovePendingItems method?, particularly if the loop break's early?

Note I want to avoid any unnecessary copying as i want to eliminate/minimise garbage collection so i can't just iterate over a copy/make a new copy or anything like that.

  • Another Idea: copy the items you want to keep to another generic list – Jodrell Jun 10 '11 at 10:45
  • @Jodrell, unfortunately that's not an option for me as this should run on the Xbox, where i'm trying to remove any unnecessary copying. – George Duckett Jun 10 '11 at 10:49
  • Why does ItemA have a reference to GenericListInstanceB? – leppie Jun 10 '11 at 10:51
  • @George Duckett: you will have to use a for loop then, and modify the index when deleting an item. – leppie Jun 10 '11 at 10:52
  • @George - You would be copying references and not objects. I think your reluctance to do so is misguided. – Ritch Melton Jun 10 '11 at 10:52
3

You mentioned IDisposable, which offers one way you could implement this:

public class GenericList<T> : IList<T>
{
    private class CleanupEnumerator<T> : IEnumerator<T>
    {
        private readonly GenericList<T> source;

        public CleanupEnumerator<T>(GenericList<T> source)
        {
            this.source = source;
        }

        public void Dispose()
        {
            source.RemovePendingDeletes();
        }

        /* Other IEnumerator methods here */
    }

    public IEnumerator<T> GetEnumerator()
    {
        return new CleanupEnumerator(this);
    }

    /* Other IList methods here */
}

This will guarantee that any time your collection is enumerated using foreach, the RemovePendingDeletes() function will get called when the enumerator is disposed. Be warned, however, that this could get ugly if you ever call GetEnumerator() directly and forget to dispose the enumerator.

  • This looks like what i'm after. Would the Dispose method definately get called as soon as control leaves the forloop block (whether it be a break or a normal exit? – George Duckett Jun 10 '11 at 12:56
  • @George, foreach will guarantee that the Dispose method gets called. foreach is basically syntactic sugar for using (var e = o.GetEnumerator()) { while (e.MoveNext()) { ... } }. – JSBձոգչ Jun 10 '11 at 13:00
  • But even with this solution the pending deletes need to be stored somewhere. This somewhere will probably be some kind of collection that will consume memory and produce GC pressure. In my opinion this does not fulfill the OPs requirement of "I want to avoid any unnecessary copying as i want to eliminate/minimise garbage collection so i can't just iterate over a copy/make a new copy or anything like that." – Florian Greinacher Jun 10 '11 at 13:10
  • Nevertheless without this requirement the solution would be a pretty elegant solution to the problem! – Florian Greinacher Jun 10 '11 at 13:10
  • @Florain. That's true, however if the itemstoremove / itemstoadd lists could be persistent (preventing a nested foreach, i think, but that's ok) then there shouldn't be any GC pressure. – George Duckett Jun 10 '11 at 13:23
0

How about this. I'm assuming the MethodThatCouldRemoveAnyItemInGenericListInstanceB function removes one or no items from anywhere in the list, no items will be added.

bool finished = false;
int i = 0;
while (!finished)
{
    var itemA = genericListInstanceB[i];
    itemA.MethodThatCouldRemoveAnyItemInGenericListInstanceB();
    if (genericListInstanceB[i] == itemA)
        i++;
        // All other outcomes result in us leaving i alone
    finished = (i > (genericListInstanceB.Count - 1));
}

Dangerous, old fashioned and "smelly" but, it does what you want without having to have a specialised list or some magic to trap the disposal of the list.

  • Thanks for all the effort, but i think there's still corder cases (maybe i should ahve been more clear). Things like if one item as added and one is removed, or if 2 items are added etc. – George Duckett Jun 10 '11 at 12:54
  • Yep, this obviously won't work for that. The only idea I have in that scenario is a iterative function that works out where to go next. This problem can't be solved without some extra state. Whether that is internal to a specialised list, or perhaps a hashtable to detect changes between operations. Do the additions have to be processed too? – Jodrell Jun 10 '11 at 13:21

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