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In C Sharp .NET there is a Equals method and a SetEquals method. Where is the difference?

Coming from Java, my first thought was that SetEquals is not necessary, just use the Equals method for all objects.

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1  
you mean this ISet<T>.SetEquals msdn.microsoft.com/en-us/library/dd412096.aspx? –  Jodrell Jun 20 '13 at 14:04
2  
i think documentation is pretty clear on what is the difference. –  Nikita Brizhak Jun 20 '13 at 14:04

7 Answers 7

up vote 26 down vote accepted

SetEquals doesn't obey the same contract as Equals. In particular it's not symmetric, as the argument is just IEnumerable<T> rather than ISet<T>. This allows you to check for set equality while only having one set. Consider:

List<int> intList = new List<int> { 1, 2, 3 };
HashSet<int> intSet = new HashSet<int>(intList);

Now we can use:

Console.WriteLine(intSet.SetEquals(intList));

... but we couldn't implement Equals in the same way without enforcing the same behaviour on List<int> and every other IEnumerable<T> implementation.

Even if we restricted it to other sets, there's the interesting question of what equality really means. For example, consider two HashSet<string> sets which contain the same strings, but have different equality comparers. (Maybe one is case-sensitive and one isn't.) Are those equal, or not? SetEquals manages to avoid such philosophical questions by avoiding trying to be too general.

What about a HashSet<int> and a SortedSet<int>? Could they ever be equal? They can have the same values - but the ordering of one is undefined.

Overall, the ideas of Object.Equals and Object.GetHashCode are too broad in my view. Often you want a particular type of equality - and often it makes no sense to compare objects for equality in the first place. This could easily form the subject of a completely different rant, but in the meantime I'm at least glad that .NET didn't try to apply this overly-broad idea to collections. The ability to use SetEquals with a well-defined meaning is more useful, IMO.

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HashSet<T>.SetEquals determines if the HashSet contains the same elements as a given IEnumerable<T>. But why should it return true if the types are diffferent?

HashSet<int> h = new HashSet<int>();
h.Add(0);
h.Add(1);
int[] ints = new[] { 0, 1, 1, 0 };
h.SetEquals(ints); // true, ignores duplicates because it's a set
h.Equals(ints); // false, correct because not even the same types

MSDN:

The SetEquals method ignores duplicate entries and the order of elements in the other parameter.....

Since HasetSet<T> does not override Equals it uses the one inherited from object which just compares references. So if two objects are not the same reference it returns false.

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  • Equals would test if two HashSets are the same object.
  • SetEquals takes in a IEnumerable<T>, What it does is: "The SetEquals method ignores duplicate entries and the order of elements in the other parameter."

So SetEquals is for testing to see if you loaded a IEnumerable in to a HashSet, would it generate the same HashSet as your source.

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Equals checks for reference equality between the two and SetEquals will check the elements on the collection.

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SetEquals:

Checks if the HashSet contains the same elements as a given IEnumerable<T>.

SetEquals method treats the second collection as though it has no duplicate elements. If duplicate elements are present, the two collections may still be considered equal.

Equals:

Equals is actually a Referential test

List<string> stringList = new List<string> { "a", "b", "c" };
SortedSet<string> stringSet = new SortedSet<string> { "a", "b", "c" };

bool a = stringSet.SetEquals(stringList );
// See if the two collections contain the same elements.
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public static void Main(string[] args)
        {
            Console.WriteLine("Hello World!");

            System.Collections.Generic.HashSet<int> setA= new System.Collections.Generic.HashSet<int>();
            setA.Add(1);
            System.Collections.Generic.HashSet<int> setB= new System.Collections.Generic.HashSet<int>();
            setB.Add(1);


            Console.WriteLine("Equals method returns {0}", setA.Equals(setB));
            Console.WriteLine("SetEquals method returns {0}", setA.SetEquals(setB));


            Console.Write("Press any key to continue . . . ");
            Console.ReadKey(true);
        }

Produces output : Equals method returns False SetEquals method returns True

The equals method therefore seems to be a test on referential equality.

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The ISet<T>.SetEquals implementation

Determines whether the current set and the specified collection contain the same elements.

The the Equals implementation inherited from object

is equivalent to a call to the ReferenceEquals method.

The inherited ReferenceEquals implementation,

Determines whether the specified Object instances are the same instance.


In paticular, note that the IEnumerable<T> sequence passed to SetEquals could have one or more instances of every member of the set, in any order, and SetEquals would still return true.


If you want to confirm that two sequences contain the exactly the same members in the same order you can use the SequenceEqual extension.

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