You could write:
EqualTo<T>(T value1, T value2) where T : IEquatable<T>
or for greater than and less than:
Compare<T>(T value1, T value2) where T : IComparable<T>
Both of those would be pretty simple, given
You'd need separate overloads (or different methods) to handle a sequence of such values though:
SequenceEqualTo<T>(IEnumerable<T> sequence1, IEnumerable<T> sequence2)
where T : IEquatable<T>
SequenceCompare<T>(IEnumerable<T> sequence1, IEnumerable<T> sequence2)
where T : IComparable<T>
Alternatively, if you don't want the generic constraint, you could use
If you wanted to handle sequences in the same methods as non-sequences, you could always check whether
IEquatable<T> and if not, whether it implemented
IEnumerable<TElement> for some
TElement which implemented
IEquatable<TElement>. It would get pretty confusing, mind you...
EDIT: Okay, if you're going to be given these things dynamically...
First work out whether they're lists or not. You'll want to handle that separately. Assuming it really is
List<T>, you could do:
if (value1.GetType().IsGenericType &&
value1.GetType().GetGenericTypeDefinition() == typeof(List<>))
// Handle this case separately, definitely in another method.
// It'll be a pain.
Otherwise, use just the normal
Equals() call to check for equality, and cast a value to the non-generic
IComparable type for greater-than/less-than. It's not ideal, but it should work...