It is generally expected that
IEquatable<T>.Equals(T) should implement equivalence relations, such that if X is observed to be equal to Y, and Y is observed to be equal to Z, and none of the items have been modified, X may be assumed to be equal to Z; additionally, if X is equal to Y and Y does not equal Z, then X may be assumed not to equal Z either. Wild-card and fuzzy comparison methods are do not implement equivalence relations, and thus
Equals should generally not be implemented with such semantics.
Many collections will kinda-sorta work with objects that implement
Equals in a way that doesn't implement an equivalence relation, provided that any two objects that might compare equal to each other always return the same hash code. Doing this will often require that many things that would compare unequal to return the same hash code, though depending upon what types of wildcard are supported it may be possible to separate items to some degree.
For example, if the only wildcard which a particular string supports represents "arbitrary string of one or more digits", one could hash the string by converting all sequences of consecutive digits and/or string-of-digit wildcard characters into a single "string of digits" wildcard character. If # represents any digit, then the strings abc123, abc#, abc456, and abc#93#22#7 would all be hashed to the same value as abc#, but abc#b, abc123b, etc. could hash to a different value. Depending upon the distribution of strings, such distinctions may or may not yield better performance than returning a constant value.
Note that even if one implements
GetHashCode in such a fashion that equal objects yield equal hashes, some collections may still get behave oddly if the equality method doesn't implement an equivalence relation. For example, if a collection
foo contains items with keys "abc1" and "abc2", attempts to access
foo["abc#"] might arbitrarily return the first item or the second. Attempts to delete the key "abc#" may arbitrarily remove one or both items, or may fail after deleting one item (its expected post-condition wouldn't be met, since
abc# would be in the collection even after deletion).
Rather than trying to jinx
Equals to compare hash-code equality, an alternative approach is to have a dictionary which holds for each possible wildcard string that would match at least one main-collection string a list of the strings it might possibly match. Thus, if there are many strings which would match abc#, they could all have different hash codes; if a user enters "abc#" as a search request, the system would look up "abc#" in the wild-card dictionary and receive a list of all strings matching that pattern, which could then be looked up individually in the main dictionary.