I'm having trouble modeling a data structure in Haskell. Suppose I'm running an an animal research facility and I want to keep track of my rats. I want to track the assignment of the rats to cages and to experiments. I also want to keep track of the weight of my rats, the volume of my cages, and keep notes on my experiments.
In SQL, I might do:
create table cages (id integer primary key, volume double); create table experiments (id integer primary key, notes text) create table rats ( weight double, cage_id integer references cages (id), experiment_id integer references experiments (id) );
(I realize that this allows me to assign two rats from different experiments to the same cage. That is intended. I don't actually run an animal research facility.)
Two operations that must be possible: (1) given a rat, find the volume of its cage and (2) given a rat, get the notes for the experiment it belongs to.
In SQL, those would be
select cages.volume from rats inner join cages on cages.id = rats.cage_id where rats.id = ...; -- (1) select experiments.notes from rats inner join experiments on experiments.id = rats.experiment_id where rats.id = ...; -- (2)
How might I model this data structure in Haskell?
One way to do it is
type Weight = Double type Volume = Double data Rat = Rat Cage Experiment Weight data Cage = Cage Volume data Experiment = Experiment String data ResearchFacility = ResearchFacility [Rat] ratCageVolume :: Rat -> Volume ratCageVolume (Rat (Cage volume) _ _) = volume ratExperimentNotes :: Rat -> String ratExperimentNotes (Rat _ (Experiment notes) _) = notes
But wouldn't this structure introduce a bunch of copies of the
Experiments? Or should I just not worry about it and hope the optimizer takes care of that?