Possible Duplicate:
Is it necessary to override == and != operators when overriding the Equals method? (.NET)

C# compiler prompts me that I should override equals if overriding ==, I just want to know why?

  • 3
    possible duplicate: stackoverflow.com/q/1222035/238902 – Default Nov 16 '12 at 10:25
  • 1
    @Default actually, I don't think it is a duplicate - but they are linked. This one is "when providing ==, should I override Equals?" (to which the answer is generally: yes), where-as the other is "when overriding Equals, do I have to provide == ?" (to which the answer is generally: no, not really) – Marc Gravell Nov 16 '12 at 10:27

If you are re-defining equality via ==, it gets really confusing if == does something very different to .Equals, and .Equals has to be the fallback because when the type is not known at compile time, only .Equals is available. As a consequence, defining == really means: defining ==, !=, Equals and GetHashCode, and possibly implementing IEquatable<T> for some T.

  • +1 Yeah, double.NaN stings when you get that wrong :-) – Adam Houldsworth Nov 16 '12 at 10:27
  • It's not possible for == and Equals to behave identically in all situations, and I don't think they should be expected to. What would be more helpful would be for == to be consistent in the places where it is usable, and Equals to be consistent everywhere (since it's usable everywhere). A rule that numeric types representing the same number should compare ==, even if they differ in other regards, while only things which are 100% equivalent should compare as Equals, would IMHO be more helpful than the mishmosh that exists now. – supercat Nov 15 '13 at 18:30
  • As it is, there's no nice way to define e.g. a dictionary that would map Decimal values to their string representations, because a dictionary cannot distinguish the numbers 1.0m and 1.00m [whose string representations should differ]. The == operator should regard those values as equal, but that doesn't mean Equals should. Further, the way == overloads are defined, it often fails to implement an equivalence relation and doesn't really test for numerical equality, since e.g. 16777217==16777216.0f. – supercat Nov 15 '13 at 18:33

Because otherwise you'll have two semantically similar operations potentially yielding different results, meaning a lot of confusion.

I'm not sure if the compiler stops you or if it is just a warning, but in either case it's usually good to make sure they behave the same.

There is something like this with double.NaN == double.NaN versus double.NaN.Equals(double.NaN).

  • +1: interesting, I wasn't aware of double.NaN.Equals( double.NaN) == true. – Henrik Nov 16 '12 at 10:29

Because otherwise you will get different results depending on how you do the comparison.

Doing x == y could give a different result from doing y == x (if x and y are different types). Other comparisons, like looking for the value in a list or using it as a key in a dictionary doesn't use the == operator, so that wouldn't work at all.

  • Why could be different? What has order to do? – Matías Fidemraizer Nov 16 '12 at 10:46
  • @MatíasFidemraizer: Because x == y would use the == operator on the x value, but y == x would use the == operator on the y value. If they are implemented differently (e.g. y uses the default object comparison) they give different results. – Guffa Nov 16 '12 at 10:48
  • Ah, I see. But that would happen if x and y have different types. If both have same type, x == y or y == x should behave the same way. Maybe you should point out this in our answer. – Matías Fidemraizer Nov 16 '12 at 10:53
  • @MatíasFidemraizer: Yes, I have added that. – Guffa Nov 16 '12 at 11:22
  • Nice!! Because otherwise I had doubts about the content of the answer. Thank you for accepting my suggestion – Matías Fidemraizer Nov 16 '12 at 11:27

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