221

Say I have 3 strings in a List (e.g. "1","2","3").

Then I want to reorder them to place "2" in position 1 (e.g. "2","1","3").

I am using this code (setting indexToMoveTo to 1):

listInstance.Remove(itemToMove);
listInstance.Insert(indexToMoveTo, itemToMove);

This seems to work, but I am occasionally getting strange results; sometimes the order is incorrect or items from the list are getting deleted!

Any ideas? Does List<T> guarantee order?

Related:

Does a List<T> guarantee that items will be returned in the order they were added?

289

The List<> class does guarantee ordering - things will be retained in the list in the order you add them, including duplicates, unless you explicitly sort the list.

According to MSDN:

...List "Represents a strongly typed list of objects that can be accessed by index."

The index values must remain reliable for this to be accurate. Therefore the order is guaranteed.

You might be getting odd results from your code if you're moving the item later in the list, as your Remove() will move all of the other items down one place before the call to Insert().

Can you boil your code down to something small enough to post?

  • 60
    For any future googler's here is the exact quote from the MSDN (bolding mine) for List(T).Add The object to be added to the end of the List<T>. The value can be null for reference types. – aolszowka May 5 '11 at 22:29
  • 4
    Is there a more definitive quote/reference we could get from Microsoft or the C# specification about this? @aolszowka's quote definitely seems to suggest that it does retain insertion order, but technically the List could re-order the collection any time after an item was added and that statement would still be valid. I don't want to get nit-picky about it, but if a manager or QA really made me defend this position, I wouldn't feel very confident with just that quote. – tehDorf Jul 17 '15 at 16:41
  • 4
    I can think of two useful ways to obtain some confirmation. First, read the source and satisfy yourself. Secondly, check out the definition of the abstract data type List in any good computer science textbook. Just like Queue and Stack, a List is a well defined, predictable and well understood data structure - if the .NET implementation differed (or if it changes) a lot of software would break. – Bevan Jul 18 '15 at 6:12
  • @tehDorf My take on it (if there were to be a discussion on it) is: "If ordering affects the operation of your method/algorithm you should explicitly order the list or have your API take the appropriate Interface/class such as IOrderedEnumerable or SortedList, otherwise you should not rely on a particular implementation to behave a certain way unless it is explicitly stated unambiguously" You also have to be careful about explicitly sorting List<T> as their implementation uses an unstable sort. – aolszowka Jul 18 '15 at 16:30
  • 1
    @achuthakrishnan They are separate issues. List guarantees that items are retained in the order they are added to the list. When you use the LINQ Where() method to filter the list, you're relying on the implementation to consider the items in the sequence in order. It happens that it does (see referencesource.microsoft.com/System.Core/System/Linq/…), but this is not documented in MSDN. I'd suggest using emp.LastOrDefault(x => x.empDept = 'abc') as the documentation of LastOrDefault() does indicate it maintains the order of items. – Bevan Aug 1 '16 at 22:22
34

Here are 4 items, with their index

0  1  2  3
K  C  A  E

You want to move K to between A and E -- you might think position 3. You have be careful about your indexing here, because after the remove, all the indexes get updated.

So you remove item 0 first, leaving

0  1  2
C  A  E

Then you insert at 3

0  1  2  3
C  A  E  K

To get the correct result, you should have used index 2. To make things consistent, you will need to send to (indexToMoveTo-1) if indexToMoveTo > indexToMove, e.g.

bool moveUp = (listInstance.IndexOf(itemToMoveTo) > indexToMove);
listInstance.Remove(itemToMove);
listInstance.Insert(indexToMoveTo, moveUp ? (itemToMoveTo - 1) : itemToMoveTo);

This may be related to your problem. Note my code is untested!

EDIT: Alternatively, you could Sort with a custom comparer (IComparer) if that's applicable to your situation.

  • Didn't read Bevan's response carefully enough, I've just covered the ground he has. – Joel Goodwin Jun 25 '09 at 10:34
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    Yeah, but you've elaborated and given an example of Bevan's answer, as well as some solution code, so your answer is not tautologous and I've voted you up. – Jason S Nov 16 '11 at 20:36
9

As Bevan said, but keep in mind, that the list-index is 0-based. If you want to move an element to the front of the list, you have to insert it at index 0 (not 1 as shown in your example).

1

This is the code I have for moving an item down one place in a list:

if (this.folderImages.SelectedIndex > -1 && this.folderImages.SelectedIndex < this.folderImages.Items.Count - 1)
{
    string imageName = this.folderImages.SelectedItem as string;
    int index = this.folderImages.SelectedIndex;

    this.folderImages.Items.RemoveAt(index);
    this.folderImages.Items.Insert(index + 1, imageName);
    this.folderImages.SelectedIndex = index + 1;
 }

and this for moving it one place up:

if (this.folderImages.SelectedIndex > 0)
{
    string imageName = this.folderImages.SelectedItem as string;
    int index = this.folderImages.SelectedIndex;

    this.folderImages.Items.RemoveAt(index);
    this.folderImages.Items.Insert(index - 1, imageName);
    this.folderImages.SelectedIndex = index - 1;
}

folderImages is a ListBox of course so the list is a ListBox.ObjectCollection, not a List<T>, but it does inherit from IList so it should behave the same. Does this help?

Of course the former only works if the selected item is not the last item in the list and the latter if the selected item is not the first item.

1

If you will change the order of operations, you will avoid the strange behavior: First insert the value to the right place in the list, and then delete it from his first position. Make sure you delete it by his index, because if you will delete it by reference, you might delete them both...

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