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I use LINQ to Objects instructions on an ordered array. Which operations shouldn't I do to be sure the order of the array is not changed?

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7 Answers 7

751

I examined the methods of System.Linq.Enumerable, discarding any that returned non-IEnumerable results. I checked the remarks of each to determine how the order of the result would differ from order of the source.

Preserves Order Absolutely. You can map a source element by index to a result element

  • AsEnumerable
  • Cast
  • Concat
  • Select
  • ToArray
  • ToList

Preserves Order. Elements are filtered or added, but not re-ordered.

  • Distinct
  • Except
  • Intersect
  • OfType
  • Prepend (new in .net 4.7.1)
  • Skip
  • SkipWhile
  • Take
  • TakeWhile
  • Where
  • Zip (new in .net 4)

Destroys Order - we don't know what order to expect results in.

  • ToDictionary
  • ToLookup

Redefines Order Explicitly - use these to change the order of the result

  • OrderBy
  • OrderByDescending
  • Reverse
  • ThenBy
  • ThenByDescending

Redefines Order according to some rules.

  • GroupBy - The IGrouping objects are yielded in an order based on the order of the elements in source that produced the first key of each IGrouping. Elements in a grouping are yielded in the order they appear in source.
  • GroupJoin - GroupJoin preserves the order of the elements of outer, and for each element of outer, the order of the matching elements from inner.
  • Join - preserves the order of the elements of outer, and for each of these elements, the order of the matching elements of inner.
  • SelectMany - for each element of source, selector is invoked and a sequence of values is returned.
  • Union - When the object returned by this method is enumerated, Union enumerates first and second in that order and yields each element that has not already been yielded.

Edit: I've moved Distinct to Preserving order based on this implementation.

    private static IEnumerable<TSource> DistinctIterator<TSource>
      (IEnumerable<TSource> source, IEqualityComparer<TSource> comparer)
    {
        Set<TSource> set = new Set<TSource>(comparer);
        foreach (TSource element in source)
            if (set.Add(element)) yield return element;
    }
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  • 3
    Actually, I think Distinct preserves original (first found) order - so {1,2,1,3,1,3,4,1,5} would be {1,2,3,4,5} Oct 15, 2008 at 14:33
  • 10
    msdn.microsoft.com/en-us/library/bb348436.aspx The Distinct<(Of <(TSource>)>)(IEnumerable<(Of <(TSource>)>)) method returns an unordered sequence that contains no duplicate values.
    – Amy B
    Oct 15, 2008 at 14:47
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    Marc: what you say could be true, but it would be a bad idea to rely on that behavior.
    – Amy B
    Oct 15, 2008 at 14:52
  • 5
    @Amy B yes but it doesn't apply to Linq to Objects. In Linq to Sql, distinct() puts the distinct keyword into the generated sql, and ordering from sql is not guaranteed. I'd be interested to see an implementation of distinct for linq to objects that doesn't preserve order and is more efficient that one that does preserve order. For example, you can consume the entire input and put it in a hashset, then yield values by enumerating the hashset (losing order), but that's worse. So yeah, I don't mind defying documentation every now and then :)
    – dan
    Aug 19, 2011 at 3:39
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    Maybe the documentation (for Distinct method) just meant to say "unsorted", not "in unpredictable order". I'd say Distinct belongs to the filtering category above, just like Where. Sep 20, 2012 at 16:17
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Are you actually talking about SQL, or about arrays? To put it another way, are you using LINQ to SQL or LINQ to Objects?

The LINQ to Objects operators don't actually change their original data source - they build sequences which are effectively backed by the data source. The only operations which change the ordering are OrderBy/OrderByDescending/ThenBy/ThenByDescending - and even then, those are stable for equally ordered elements. Of course, many operations will filter out some elements, but the elements which are returned will be in the same order.

If you convert to a different data structure, e.g. with ToLookup or ToDictionary, I don't believe order is preserved at that point - but that's somewhat different anyway. (The order of values mapping to the same key is preserved for lookups though, I believe.)

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  • so because OrderBy is a stable sort, then: seq.OrderBy( _ => _.Key ) will put the elements in to exactly the same order as seq.GroupBy( _ => _.Key ).SelectMany( _ => _ ). Is that correct?
    – dmg
    Feb 1, 2016 at 22:11
  • 1
    @dmg: No, it won't. Just GroupBy followed by SelectMany will give the results grouped by key, but not in ascending key order... it will give them in the order in which the keys originally occurred.
    – Jon Skeet
    Feb 1, 2016 at 22:54
  • are you saying that LINQ to SQL does not preserver order?
    – symbiont
    Aug 19, 2016 at 8:39
  • @symbiont: In many SQL operations there is no well-defined order to start with. Basically I'm trying to only make promises about things I can guarantee - such as LINQ to Objects.
    – Jon Skeet
    Aug 19, 2016 at 8:48
  • 1
    @Paulustrious: In LINQ to Objects, yes. In other providers, it's implementation-specific.
    – Jon Skeet
    Oct 10, 2017 at 18:29
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If you are working on an array, it sounds like you are using LINQ-to-Objects, not SQL; can you confirm? Most LINQ operations don't re-order anything (the output will be in the same order as the input) - so don't apply another sort (OrderBy[Descending]/ThenBy[Descending]).

[edit: as Jon put more clearly; LINQ generally creates a new sequence, leaving the original data alone]

Note that pushing the data into a Dictionary<,> (ToDictionary) will scramble the data, as dictionary does not respect any particular sort order.

But most common things (Select, Where, Skip, Take) should be fine.

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  • If I'm not mistaken, ToDictionary() merely makes no promises about the order, but in practice maintains the input order (until you remove something from it). I'm not saying to rely on this, but 'scrambling' seems inaccurate.
    – Timo
    Oct 17, 2017 at 13:42
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I found a great answer in a similar question which references official documentation. To quote it:

For Enumerable methods (LINQ to Objects, which applies to List<T>), you can rely on the order of elements returned by Select, Where, or GroupBy. This is not the case for things that are inherently unordered like ToDictionary or Distinct.

From Enumerable.GroupBy documentation:

The IGrouping<TKey, TElement> objects are yielded in an order based on the order of the elements in source that produced the first key of each IGrouping<TKey, TElement>. Elements in a grouping are yielded in the order they appear in source.

This is not necessarily true for IQueryable extension methods (other LINQ providers).

Source: Do LINQ's Enumerable Methods Maintain Relative Order of Elements?

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Any 'group by' or 'order by' will possibly change the order.

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The question here is specifically referring to LINQ-to-Objects.

If your using LINQ-to-SQL instead there is no order there unless you impose one with something like:

mysqlresult.OrderBy(e=>e.SomeColumn)

If you do not do this with LINQ-to-SQL then the order of results can vary between subsequent queries, even of the same data, which could cause an intermittant bug.

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For me the issue was determining the default sort order which turned out to be by 2 columns as shown below. After many iterations I was able to find the default sort order and redo it in my LINQ query. To remove duplicates a simple foreach is used to create a new list of strings without duplicates.

//original sorting order lost
var inv2 = db.Inventories
.GroupBy(l => l.VendorFullSKU)
.Select(cl => new Inventory2
{
    VariantID = cl.FirstOrDefault() == null ? 0 : cl.FirstOrDefault().VariantID,
    Quan = cl.Sum(c => c.Quan), 
    Color = cl.FirstOrDefault() == null ? "" : cl.FirstOrDefault().Color    
});


//original sorting order restored
var bl = (from pv in db.ProductVariants
join inv in inv2 on pv.VariantID equals inv.VariantID
orderby inv.VariantID, inv.Color //sort
select inv.Color
).ToList();


//remove duplicates while preserving original sort order
var colorsDistinct = new List<string>();
foreach (var item in bl)
{
    if (!colorsDistinct.Contains(item))
        colorsDistinct.Add(item);
}

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