I may be misinterpreting the initial problem setup, but I believe that there is a simple and elegant solution to this problem using off-the-shelf data structures. The idea is, at a high level, to create a map from strings to sets of strings. Each key in the map will be associated with the set of strings that it's equal to. Assuming that each string in a group is mapped to the same set of strings, this can be done time- and space-efficiently.
The algorithm would probably look like this:
- Construct a map M from strings to sets of strings.
- Group all strings together that are equal to one another (this step depends on how the strings and groups are specified).
- For each cluster:
- Create a canonical set of the strings in that cluster.
- Add each string to the map as a key whose value is the canonical set.
This algorithm and the resulting data structure is quite efficient. Assuming that you already know the clusters in advance, this process (using a trie as the implementation of the map and a simple list as the data structure for the sets) requires you to visit each character of each input string exactly twice - once when inserting it into the trie and once when adding it to the set of strings equal to it, assuming that you're making a deep copy. This is therefore an O(n) algorithm.
Moreover, lookup is quite fast - to find the set of strings equal to some string, just walk the trie to find the string, look up the associated set of strings, then iterate over it. This takes O(L + k) time, where L is the length of the string and k is the number of matches.
Hope this helps, and let me know if I've misinterpreted the problem statement!