For referential equality, i use
object.ReferenceEquals as you said, though you can also just cast the references to objects and compare them (as long as they are reference types).
For 2 and 3 it really depends what the developer wants, if they want to define equality as identity or value equality. Typically, I like to keep my Equals() as value equality and then provide external comparers for identity equality.
Most methods that compare items give you the ability to pass in a custom comparer, and that is where I typically pass in any custom equality comparer (like identity), but that's me.
And as I said, that's my typical usage, I've also constructed object models where I do only consider a subset of properties to represent identity and the others aren't compared.
You can always create a very simple ProjectionComparer that takes any type and creates a comparer based on a projection, makes it very easy to pass custom comparers for identity, etc at point of need and leave the Equals() method just for value.
Also, typically, I personally don't overload == unless I am writing a value type that needs the typical comparison operators because there's so much confusion with operator overloading and how overloads aren't overrides.
But again, that's just my opinion :-)
UPDATE Here's my projection comparer, you can find many other implementations, of course, but this one works well for me, it implements both
bool Equals(T, T) and
int GetHashCode(T) and
IComparer<T> which supports
public sealed class ProjectionComparer<TCompare, TProjected> : EqualityComparer<TCompare>, IComparer<TCompare>
private readonly Func<TCompare, TProjected> _projection;
// construct with the projection
public ProjectionComparer(Func<TCompare, TProjected> projection)
if (projection == null)
throw new ArgumentNullException("projection");
_projection = projection;
// Compares objects, if either object is null, use standard null rules
// for compare, then compare projection of each if both not null.
public int Compare(TCompare left, TCompare right)
// if both same object or both null, return zero automatically
if (ReferenceEquals(left, right))
// can only happen if left null and right not null
if (left == null)
// can only happen if right null and left non-null
if (right == null)
// otherwise compare the projections
return Comparer<TProjected>.Default.Compare(_projection(left), _projection(right));
// Equals method that checks for null objects and then checks projection
public override bool Equals(TCompare left, TCompare right)
// why bother to extract if they refer to same object...
if (ReferenceEquals(left, right))
// if either is null, no sense checking either (both are null is handled by ReferenceEquals())
if (left == null || right == null)
return Equals(_projection(left), _projection(right));
// GetHashCode method that gets hash code of the projection result
public override int GetHashCode(TCompare obj)
// unlike Equals, GetHashCode() should never be called on a null object
if (obj == null)
throw new ArgumentNullException("obj");
var key = _projection(obj);
// I decided since obj is non-null, i'd return zero if key was null.
return key == null ? 0 : key.GetHashCode();
// Factory method to generate the comparer for the projection using type
public static ProjectionComparer<TCompare, TProjected> Create<TCompare,
TProjected>(Func<TCompare, TProjected> projection)
return new ProjectionComparer<TCompare, TProjected>(projection);
This let's you do things like:
List<Employee> emp = ...;
// sort by ID
emp.Sort(ProjectionComparer.Create((Employee e) => e.ID));
// sort by name
emp.Sort(ProjectionComparer.Create((Employee e) => e.Name));