I have an IEnumerable of a custom type. (That I've gotten from a SelectMany)

I also have an item (myItem) in that IEnumerable that I desire the previous and next item from the IEnumerable.

Currently, I'm doing the desired like this:

var previousItem = myIEnumerable.Reverse().SkipWhile( 
    i => i.UniqueObjectID != myItem.UniqueObjectID).Skip(1).FirstOrDefault();

I can get the next item by simply ommitting the .Reverse.

or, I could:

int index = myIEnumerable.ToList().FindIndex( 
    i => i.UniqueObjectID == myItem.UniqueObjectID)

and then use .ElementAt(index +/- 1) to get the previous or next item.

  1. Which is better between the two options?
  2. Is there an even better option available?

"Better" includes a combination of performance (memory and speed) and readability; with readability being my primary concern.

  • 1
    Considering readability, Your first option is awesome! Much better then in the answers. Will use it! Thanks! – Aleksei Chepovoi Aug 31 '13 at 21:41
  • I agree with @Aleksei, using that one too – Daniël Tulp Sep 5 '13 at 12:26

First off

"Better" includes a combination of performance (memory and speed)

In general you can't have both, the rule of thumb is, if you optimise for speed, it'll cost memory, if you optimise for memory, it'll cost you speed.

There is a better option, that performs well on both memory and speed fronts, and can be used in a readable manner (I'm not delighted with the function name, however, FindItemReturningPreviousItemFoundItemAndNextItem is a bit of a mouthful).

So, it looks like it's time for a custom find extension method, something like . . .

public static IEnumerable<T> FindSandwichedItem<T>(this IEnumerable<T> items, Predicate<T> matchFilling)
    if (items == null)
        throw new ArgumentNullException("items");
    if (matchFilling == null)
        throw new ArgumentNullException("matchFilling");

    return FindSandwichedItemImpl(items, matchFilling);

private static IEnumerable<T> FindSandwichedItemImpl<T>(IEnumerable<T> items, Predicate<T> matchFilling)
    using(var iter = items.GetEnumerator())
        T previous = default(T);
                yield return previous;
                yield return iter.Current;
                if (iter.MoveNext())
                    yield return iter.Current;
                    yield return default(T);
                yield break;
            previous = iter.Current;
    // If we get here nothing has been found so return three default values
    yield return default(T); // Previous
    yield return default(T); // Current
    yield return default(T); // Next

You can cache the result of this to a list if you need to refer to the items more than once, but it returns the found item, preceded by the previous item, followed by the following item. e.g.

var sandwichedItems = myIEnumerable.FindSandwichedItem(item => item.objectId == "MyObjectId").ToList();
var previousItem = sandwichedItems[0];
var myItem = sandwichedItems[1];
var nextItem = sandwichedItems[2];

The defaults to return if it's the first or last item may need to change depending on your requirements.

Hope this helps.

  • 5
    Feels slightly overkill, but still a great answer. – msarchet Jan 6 '12 at 15:20
  • 2
    Sorry for build errors and lack of tests, it was just to give an idea of what the method should do I also limit the time I spend "working" on SO answers :) You could always have it return a tuple with the three items, instead of yielding out the items. – Binary Worrier Jan 11 '12 at 11:24
  • 1
    @BinaryWorrier: Yes it does now. :) +1 for a good and complete solution. BTW, I have given this method the name FindTripple(). – Dimitre Novatchev Jul 12 '12 at 11:29
  • 2
    @Dimitre: Now that you've said that I want to call it FindExcentraGallumbits() – Binary Worrier Jul 12 '12 at 11:49
  • 2
    @BinaryWorrier: A better name: FindTriad. – Dimitre Novatchev Jul 12 '12 at 18:25

For readability, I'd load the IEnumerable into a linked list:

var e = Enumerable.Range(0,100);
var itemIKnow = 50;
var linkedList = new LinkedList<int>(e);
var listNode = linkedList.Find(itemIKnow);
var next = listNode.Next.Value; //probably a good idea to check for null
var prev = listNode.Previous.Value; //ditto
  • I really like this answer for readability; but it seems like it'd be a bit of a memory hog. – Bob2Chiv Jan 6 '12 at 16:29
  • This is literally the whole point of a doubly-linked list, I don't understand why everyone is allergic to queues and linked lists on here. I would love to know if creating a Queue<T> or LinkedList<T> from another IEnumerable<T> even results in a copy. Seems like it could just use the original enumerable as pointers. – Novaterata Sep 26 '14 at 18:42
  • @novaterata: Creating (for example) a Queue from an IEnumerable will copy the references in the IEnumerable. So won't copy the objects pointed to by the IEnumerable, but it will copy references to those objects. It's as expensive as there are items in the sequence. If it was something I needed to do regularly in a loop I'd find another way. that said I have nothing against Linked Lists and Queues, but I do dislike performing unnecessary copies – Binary Worrier May 22 '15 at 6:47

By creating an extension method for establishing context to the current element you can use a Linq query like this:

var result = myIEnumerable.WithContext()
    .Single(i => i.Current.UniqueObjectID == myItem.UniqueObjectID);
var previous = result.Previous;
var next = result.Next;

The extension would be something like this:

public class ElementWithContext<T>
    public T Previous { get; private set; }
    public T Next { get; private set; }
    public T Current { get; private set; }

    public ElementWithContext(T current, T previous, T next)
        Current = current;
        Previous = previous;
        Next = next;

public static class LinqExtensions
    public static IEnumerable<ElementWithContext<T>> 
        WithContext<T>(this IEnumerable<T> source)
        T previous = default(T);
        T current = source.FirstOrDefault();

        foreach (T next in source.Union(new[] { default(T) }).Skip(1))
            yield return new ElementWithContext<T>(current, previous, next);
            previous = current;
            current = next;
  • I think you intended using Concat instead Union. – Кое Кто Oct 22 '18 at 15:51

You could cache the enumerable in a list

var myList = myIEnumerable.ToList()

iterate over it by index

for (int i = 0; i < myList.Count; i++)

then the current element is myList[i], the previous element is myList[i-1], and the next element is myList[i+1]

(Don't forget about the special cases of the first and last elements in the list.)

  • The best way to do this is just to use Modulus % on the [i-1] [i+1] entries – msarchet Jan 6 '12 at 15:11
  • Only if you want the element after the last element to be the first element, and vice versa – Patrick McDonald Jan 6 '12 at 15:12
  • I think .ToArray() is slightly faster then .ToList(), and immediately demonstrate impossibility to modify, which is suitable here - for readablility. – Кое Кто Oct 22 '18 at 16:14


Depends entirely on where the object is in the sequence. If it is located at the end I would expect the second to be faster with more than a factor 2 (but only a constant factor). If it is located in the beginning the first will be faster because you don't traverse the whole list.


The first is iterating the sequence without saving the sequence so the memory hit will be very small. The second solution will take as much memory as the length of the list * references + objects + overhead.


You are really over complicating things:

Sometimes just a for loop is going to be better to do something, and I think provide a clearer implementation of what you are trying to do/

var myList = myIEnumerable.ToList();

for(i = 0; i < myList.Length; i++)
   if(myList[i].UniqueObjectID == myItem.UniqueObjectID) 
      previousItem = myList[(i - 1) % (myList.Length - 1)];
      nextItem = myList[(i + 1) % (myList.Length - 1)];
  • 1
    Does IEnumerable support operator [] or property Length? Not as far as I know. This code is broken. – spender Jan 6 '12 at 15:17
  • @spender ah meant to convert to a list first. – msarchet Jan 6 '12 at 15:19
  • Isn't that going to be much the same as the OP's second method then except he uses FindIndex instead of a for loop? – Chris Jan 6 '12 at 15:23
  • @Chris, yep, was just pointing out that linq is most likely not required. – msarchet Jan 6 '12 at 15:24
  • Yeah, you're right on that. I always assume that something like the FindIndex will be optimised enough that it is like your above one except potentially faster. Though I suppose actually the big difference is that you are doing it in one loop whereas potentially the ElementAt will need to run through again at least once more and probably twice... I guess that sort of thing is the trap of always going for Linq... – Chris Jan 6 '12 at 15:38

I thought I would try to answer this using Zip from Linq.

string[] items = {"nought","one","two","three","four"};

var item = items[2];

var sandwiched =
        .Zip( items.Skip(1), (previous,current) => new { previous, current } )
        .Zip( items.Skip(2), (pair,next) => new { pair.previous, pair.current, next } )     
        .FirstOrDefault( triplet => triplet.current == item );

This will return a anonymous type {previous,current,next}. Unfortunately this will only work for indexes 1,2 and 3.

string[] items = {"nought","one","two","three","four"};

var item = items[4]; 

var pad1 = Enumerable.Repeat( "", 1 );
var pad2 = Enumerable.Repeat( "", 2 );

var padded = pad1.Concat( items );
var next1 = items.Concat( pad1 );
var next2 = items.Skip(1).Concat( pad2 );

var sandwiched =
        .Zip( next1, (previous,current) => new { previous, current } )
        .Zip( next2, (pair,next) => new { pair.previous, pair.current, next } )
        .FirstOrDefault( triplet => triplet.current == item );

This version will work for all indexes. Both version use lazy evaluation courtesy of Linq.


If you need it for every element in myIEnumerable I’d just iterate through it keeping references to the 2 previous elements. In the body of the loop I'd do the processing for the second previous element and the current would be its descendant and first previous its ancestor.

If you need it for only one element I'd choose your first approach.

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