My question is: why have them both (I realise there must be a very good reason)
If there's a good reason it has yet to be explained to me. Equality comparisons in C# are a godawful mess, and were #9 on my list of things I regret about the design of C#:
Mathematically, equality is the simplest equivalence relation and it should obey the rules:
x == x should always be true,
x == y should always be the same as
y == x,
x == y and
x != y should always be opposite valued, if
x == y and
y == z are true then
x == z must be true. C#'s
Equals mechanisms guarantee none of these properties! (Though, thankfully,
ReferenceEquals guarantees all of them.)
As Jon notes in his answer,
== is dispatched based on the compile-time types of both operands, and
IEquatable<T> are dispatched based on the runtime type of the left operand. Why are either of those dispatch mechanisms correct? Equality is not a predicate that favours its left hand side, so why should some but not all of the implementations do so?
Really what we want for user-defined equality is a multimethod, where the runtime types of both operands have equal weight, but that's not a concept that exists in C#.
Worse, it is incredibly common that
== are given different semantics -- usually that one is reference equality and the other is value equality. There is no reason by which the naive developer would know which was which, or that they were different. This is a considerable source of bugs. And it only gets worse when you realize that GetHashCode and Equals must agree, but
== need not.
Were I designing a new language from scratch, and I for some crazy reason wanted operator overloading -- which I don't -- then I would design a system that would be much, much more straightforward. Something like: if you implement
IComparable<T> on a type then you automatically get
!=, and so on, operators defined for you, and they are implemented so that they are consistent. That is
x<=y must have the semantics of
x<y || x==y and also the semantics of
!(x>y), and that
x == y is always the same as
y == x, and so on.
Now, if your question really is:
How on earth did we get into this godawful mess?
Then I wrote down some thoughts on that back in 2009:
The TLDR is: framework designers and language designers have different goals and different constraints, and they sometimes do not take those factors into account in their designs in order to ensure a consistent, logical experience across the platform. It's a failure of the design process.
When would == be overloaded in a different way to how .equals is overridden?
I would never do so unless I had a very unusual, very good reason. When I implement arithmetic types I always implement all of the operators to be consistent with each other.