Although objects that implement interfaces generally promise abilities or characteristics that are not common in objects without those interfaces, and although
IDisposable is an interface, the fact that an object implements
IDisposable doesn't promise any ability or characteristic that would be lacking in objects which do not. Instead, the fact that an object implements
IDisposable implies that it lacks a characteristic common in objects that don't implement it: the ability for anyone who acquires or holds a reference abandon it without regard for whether the object can or should be cleaned up first.
If code which uses a particular interface type will generally not be the last thing to hold a reference, then there's no need for the interface to implement
IDisposable. Even if some implementations cannot be safely abandoned, that won't matter to any users of an instance other than the last one that holds a reference. If that user is generally going to know more about the specific type than is implied by the interface, the user will know whether the object needs cleanup whether or not the interface indicates it.
On the other hand, if the last user of an object will generally not know anything about it other than the fact that it implements some interface, then that interface should inherit
IDisposable even (perhaps especially!) if only a tiny fraction of implementations will need cleanup. Consider the case of
IEnumerable<T>. Any code which calls
IEnumerable<T>.GetEnumerator() will receive what is likely to be the only reference anywhere in the universe to an object which implements
IDisposable. As such, that code assumes the responsibility for ensuring that
Dispose gets called on that reference. Any code which calls
IEnumerable<T>.GetEnumerator() and neither calls
Dispose on the returned value nor gives it to other code that promises to do so, is broken.
The type returned by non-generic
IEnumerable.GetEnumerator does not implement
IDisposable. That would on the fact of it seem to suggest that code which calls
IEnumerable.GetEnumerator does not have a responsibility to dispose it. Unfortunately, such implication is incorrect. Code which calls
IEnumerable.GetEnumerator has a responsibility to ensure that if the particular instance returned implements
IDisposable, then its
Dispose method must be called. Code which does not uphold that responsibility is no less broken than code which fails to dispose the return from
IEnumerable<T>.GetEnumerator. The failure of the
IEnumerable.GetEnumerator return type (i.e.
IEnumerator) to to implement
IDisposable does not eliminate caller's responsibility for cleaning up the returned object. It merely makes such responsibility more burdensome to carry out, and increases the probability that code will fail to do so.