While there may be some scenarios in which it may be useful to have objects of different types report themselves as equal to each other, I would strongly recommend against such usage; the only time I can see it as being possibly justifiable would be if all of the types inherited from a common base class which included a sealed
Equals method that used various virtual methods ask the objects what means of expedited equality comparisons they support, uses the best available method, and if no expedited method is available, converts the objects to a canonical form and compares those.
For example, consider abstract
ImmutableFloatingPointMatrix type which implements a two-argument indexed property getter. Two matrices should be considered equal if they have the same size, and have the same values in the same places. While it would be possible for a derived class to use a two-dimensional array to hold the contents of the matrix, many other storage methods would be possible. For example, one might have a concrete
IdentityMatrix class which has a single
Size field, always reports its dimension as
Size, and has an indexed property that returns 1.0 for cells on the main diagonal and 0.0 elsewhere. One could also have a
DiagonalMatrix which uses a single
Size-item array to hold things on the diagonal. While any two matrices could be compared for equality by checking all of the corresponding elements, checking e.g. a
DiagonalMatrix against an
IdentitymMatrix could be better handled by ensuring that the two matrices are the same size, and all the items in the array equal 1.0 (not bothering to check any spots outside the main diagonal, since there won't be any).
Even with a type where the semantics of
Equals could be sensibly defined so that objects of different types would report themselves as equal, it may not be the best idea. In cases where one could use a custom
EqualityComparer, that would probably be better than a strange override of