I have just noticed that a multidimensional array in C# does not implement IEnumerable<T>, while it does implement IEnumerable. For single-dimensional arrays, both IEnumerable<T> and IEnumerable are implemented.

Why this difference? If a multi-dimensional array is IEnumerable, surely it should also implement the generic version? I noticed this because I tried to use an extension method on a multidimensional array, which fails unless you use Cast<T> or similar; so I can definitely see the an argument for making multidimensional arrays implement IEnumerable<T>.

To clarify my question in code, I would expect the following code to print true four times, while it actually prints true, false, true, true:

int[] singleDimensionArray = new int[10];
int[,] multiDimensional = new int[10, 10];

Debug.WriteLine(singleDimensionArray is IEnumerable<int>);
Debug.WriteLine(multiDimensional is IEnumerable<int>);
Debug.WriteLine(singleDimensionArray is IEnumerable);
Debug.WriteLine(multiDimensional is IEnumerable);
  • 3
    Also ugly: multiDimensional is implicitly convertible to the non-generic type System.Collections.IList (simply because System.Array implements that interface). So you could say System.Collections.IList mdCast = multiDimensional;. Then using the one-parameter indexer on mdCast will fail only at runtime. See doc on MSDN. Note the exception type, ArgumentException. Really ugly. – Jeppe Stig Nielsen Jun 11 '12 at 12:46

The CLR has two different kinds of arrays: vectors which are guaranteed to be one-dimensional with a lower bound of 0, and more general arrays which can have non-zero bounds and a rank other than 0.

From section 8.9.1 of the CLI spec:

Additionally, a created vector with element type T, implements the interface System.Collections.Generic.IList<U> (§8.7), where U := T.

I have to say it seems pretty weird to me. Given that it already implements IEnumerable I don't see why it shouldn't implement IEnumerable<T>. It wouldn't make as much sense to implement IList<T>, but the simple generic interface would be fine.

If you want this, you could either call Cast<T> (if you're using .NET 3.5) or write your own method to iterate through the array. To avoid casting you'd have to write your own method which found the lower/upper bounds of each dimension, and fetched things that way. Not terribly pleasant.

  • Also, the C# Language Specification (version 4.0) mentions in paragraph 6.1.6 only the conversion of a single-dimensional array to IList<> and its base interfaces. But it's a shame that a T[,] is not an ICollection<T>. – Jeppe Stig Nielsen Jun 11 '12 at 11:59

There is a workaround: you can convert any multidimensional array to an IEnumerable

public static class ArrayExtensions
    public static IEnumerable<T> ToEnumerable<T>(this Array target)
        foreach (var item in target)
            yield return (T)item;
  • Great stuff! I had to explicitly specify the generic type though, so usage becomes: myArray.ToEnumerable<myType>() – angularsen Jul 14 '11 at 8:45
  • 30
    This is the same as IEnumerable.Cast<T>. – Markus Jarderot Nov 13 '11 at 17:21
  • @Markus Brilliant, this should be the accepted answer. As an aside, if the array can contain empty values it becomes Matrix.Cast(Of T).Where(Function(x) x IsNot Nothing) – smirkingman Aug 31 '16 at 9:26
  • 2
    @smirkingman or IEnumerable.OfType<T> – Markus Jarderot Aug 31 '16 at 9:39

Multidimensional arrays are not arrays for the purpose of the inheritance hierarchy. They're a completely separate type. Additionally, this type has no good support from the framework for two possible reasons:

  • It's not really that useful. The only real use for multidimensional arrays is matrices. For almost anything else, other data structures (e.g. jagged arrays) are better suited.
  • It's not trivial to devise generic, useful methods for these structures.

In the case of IEnumerable, how should this have been implemented, i.e. in which order should the elements be enumerated? There's no order inherent in multidimensional arrays.

  • 1
    But multidimensional arrays inherit the Array class – Jader Dias Jul 25 '09 at 21:46
  • 14
    But IEnumerable was implemented, so either IEnumerable<T> should be able to use the same logic, or IEnumerable should not have been implemented. – recursive Aug 20 '10 at 14:43
  • 12
    This is clearly specified in the C# Language Specification. In Version 4.0, it's paragraph 8.8.4 where it says: The order in which foreach traverses the elements of an array, is as follows: For single-dimensional arrays elements are traversed in increasing index order, starting with index 0 and ending with index Length – 1. For multi-dimensional arrays, elements are traversed such that the indices of the rightmost dimension are increased first, then the next left dimension, and so on to the left. This is followed by an example which makes it even more clear for multi-dimensional arrays. – Jeppe Stig Nielsen Jun 11 '12 at 11:48

Zero bound single dimensional arrays implements both IEnumerable and IEnumerable<T>, but multi-dimensional arrays, unfortunately, implements only IEnumerable. The "workaround" by @Jader Dias indeed converts a multidimensional array to IEnumerable<T> but with a huge cost: every element of an array will be boxed.

Here is a version that won't cause boxing for every element:

public static class ArrayExtensions
    public static IEnumerable<T> ToEnumerable<T>(this T[,] target)
        foreach (var item in target)
            yield return item;

Jagged arrays don't support IEnumerable<int> either, because multidimensional structures aren't really an array of a type, they are an array of an array of a type:

int[] singleDimensionArray = new int[10];
int[][] multiJagged = new int[10][];

Debug.WriteLine(singleDimensionArray is IEnumerable<int>);
Debug.WriteLine(multiJagged is IEnumerable<int[]>);
Debug.WriteLine(singleDimensionArray is IEnumerable);
Debug.WriteLine(multiJagged is IEnumerable);

Prints true, true, true, true.

Note: int[,] isn't an IEnumerable<int[]>, that's for the reasons specified in the other answer, namely there's no generic way to know which dimension to iterate over. With jagged arrays, there isn't as much room for interpretation because the syntax is pretty clear about it being an array of arrays.

  • Recursion isn't under discussion. – recursive Aug 20 '10 at 14:44
  • @recursive: cheers, fixed. Just a case of mixing up my terminology. – Matthew Scharley Aug 20 '10 at 23:24
  • 3
    He does not talk about jagged arrays, he talked about a multidimensional array. – Felix K. Jan 15 '12 at 9:59

Think inversely. The 2d array already exists. Just enumerate it. Create a 2d array with score and place of an initial array or marks, including duplicate values.

int[] secondmarks = {20, 15, 31, 34, 35, 50, 40, 90, 99, 100, 20};

IEnumerable<int> finallist = secondmarks.OrderByDescending(c => c);

int[,] orderedMarks = new int[2, finallist.Count()];

Enumerable.Range(0, finallist.Count()).ToList().ForEach(k => {orderedMarks[0, k] = (int) finallist.Skip(k).Take(1).Average();
orderedMarks[1, k] = k + 1;}); 

Enumerable.Range(0, finallist.Count()).Select(m => new {Score = orderedMarks[0, m], Place = orderedMarks[1, m]}).Dump();


Score Place

100     1
99      2 
90      3 
50      4 
40      5 
35      6    
34      7    
31      8    
20      9     
20     10 
15     11 

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