I wouldn't say it's a very good design: apparently, you want
student.transcript.student == student and
transcript.student.transcript == transcript to be true at any given moment, right? But what about Students without Transcripts? Transcripts without Students? If those are prohibited, you may end in a funny situation: you'll have to create corresponding
Transcript at the same time!
Well, in database area, this is usually modeled with three tables (which may or may not correspond directly to actual physical tables):
TABLE Student ( studentId ID PRIMARY KEY, ... )
TABLE Transcript ( transcriptId ID PRIMARY KEY, ... )
TABLE StudentTranscriptLink (
studentId ID NOT NULL UNIQUE REFERENCES Student(studentId),
transcriptID Id NOT NULL UNIQUE REFERENCES Transcript(transcriptId)
) PRIMARY KEY ( studentId, transcriptId )
UNIQUE constraints ensure that if you take Student, get its Transcript, and get that Transcript's Student, you return to the original Student you started with; the same is true with
In the OOP world you probably would have some sort of
List<Pair<Student, Transcript>> inside, and methods for turning
Transcript and back.
However, such bi-directional relationships are... unusual. It's basically having one large object sliced in two halves -- but still keeping those halves tied together very tightly. Why would you do this? It doesn't remove any complexity, on the contrary: it introduces new, artificial complexity which wasn't there before.