# Assert that all members of an array are equivalent using LINQ?

I want to write a small piece of test code to remind me that certain collections are equivalent i.e. simple, self-contained, easy to read and LINQ Lambda oriented (to fulfill a personal learning target).

Here's what I have come up with:

var e = new IEnumerable<int> [] {
Enumerable.Range(100, 4).ToArray(),
new int[] { 100, 101, 102, 103 },
new [] { 100, 101, 102, 103 },
Enumerable.Range(100, 4).ToList(),
new List<int> { 100, 101, 102, 103 }
};

var permutations = e.SelectMany(s => e, ( lhs, rhs ) => new { lhs,  rhs })
.Where( x => !x.lhs.Equals ( x.rhs ) );

foreach (var item in permutations)
{
Assert.That( item.lhs, Is.EqualTo( item.rhs ) );
}
• Q1. Is there a 'simple' alteration to yield 10 combinations of pairs (I currently have 20 permutations of pairs)? By 'simple' I mean using existing LINQ operators, rather than, say writing a recursive extension method.

• Q2. Is there a better way of asserting "all members of the array are equivalent" in context?

As regards Q1, this would seem to give me the right-hand side (rhs) but how to I 'carry-through' (or rejoin to) the 'original' to give me the left-hand side (lhs)?:

var r = e.SelectMany(( e1, i ) => e.Skip( i + 1 ));
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It's not clear what you're trying to achieve: do you simply want to assert that (100,101,102,103) contains same elements of e.g. (103,102,100,101) ? –  Teejay Jan 9 '13 at 14:46
Does order matter? How should duplicates be considered? –  Jim Jan 9 '13 at 14:55
Also, yours is not an array, but basically a matrix –  Teejay Jan 9 '13 at 15:02

This will work

var leftHandSide = inputSequence.First();
var rightHandSideList = inputSequence.Skip(1);

rightHandSideList.All(s => s.SequenceEqual(leftHandSide));

Basically we take 1st element, and compare remaining with this. Here I'm assuming order matters. Also assuming list has at least 2 elements.

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Agree, this will work. But consider better naming :) –  Sergey Berezovskiy Jan 9 '13 at 15:01
+1 var res = rightHandSideList.All(s => s.OrderBy(_ => _).SequenceEqual(leftHandSide.OrderBy(_ => _))); To ignore in-list orders. –  Adam Houldsworth Jan 9 '13 at 15:02
@lazyberezovsky updated :) –  Ankush Jan 9 '13 at 15:03
@Ankush already upvoted :) –  Sergey Berezovskiy Jan 9 '13 at 15:08
My thinking was wonky: I only need to compare the first element with every subsequent element! So I don't need permutation or combinations in this scenario but I would like to know how to do it with my current approach so I'll ask another question. Thanks! –  petemoloy Jan 10 '13 at 11:20