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I'm writing an adviser program that selects classes for students to take next semester. One of the tasks is to check if the student has all of the prerequisites. So far, I've got:

hasPrereqs(Student, Class) :-
    (prereq(Pre, Class) -> 
        hasClass(Student, Pre);

hasClass(Student, Class) :-
    (creditFor(Student, Class);
    currentlyTaking(Student, Class)).

prereqs are declared as such:

prereq(csc140, csc145).
prereq(csc140, csc180).
prereq(csc140, csc198).
prereq([csc140, csc130], csc201).
prereq(csc145, csc201).

This works for every possibility except when two classes are required for another class (as in csc201, where a student can take either csc140 AND csc130 OR just csc140). I think lists are the way to go, but I can't figure out how to implement it.

I've tried creating another hasPrereqs as follows:

hasPrereqs(Student, Class) :-
forall(prereq(Pre, Class),
(compound(Pre) -> 
    hasClass(Student, Pre)).

This one won't work because Pre is a list, rather than a straight atom and thus:

creditFor(somekittens, csc130).
creditFor(somekittens, csc140).
/* Returns false, because I don't have credit for the list, just the two classes */
creditFor(somekittens, [csc130, csc140]).

How can I set up the system so that classes requiring several other classes just work?

share|improve this question
Some suggestions: prereq/2: Put all prerequired classes into a list. Even if there is only a single one. Even if there is none - which would be an empty list. – false Oct 26 '12 at 0:24
How would that be an advantage over the way I'm currently doing it? (Also, great username, especially for Prolog questions.) – SomeKittens Oct 26 '12 at 0:34
It would be more uniform (no longer special casing)- and it would solve your problem with alternative prerequisites smoothly. – false Oct 26 '12 at 0:59
Have you seen my solution below? It doesn't use special cases like compound/1. – SomeKittens Oct 26 '12 at 1:42
up vote 1 down vote accepted

I'd do it like this:

hasPrereqs(Student, Class) :-
  prereq(Class, Pres),
  forall(member(Pre, Pres), hasClass(Student, Pre)).

hasClass(Student, Class) :-
  (creditFor(Student, Class);
  currentlyTaking(Student, Class)).

prereq(csc140, []).
prereq(csc145, [csc140]).
prereq(csc180, [csc140]).
prereq(csc198, [csc140]).
prereq(csc201, [csc140, csc130]).
prereq(csc201, [csc145]).

I made swapped the order of arguments on prereq/2 and made the prerequisites a list regardless how many there are. This makes code using prereq/2 more consistent and gives you a notation for classes that have no prerequisite, namely prereq(foo, []).

I then used forall/2 and member/2 to make sure the student has met all the prerequisites.

share|improve this answer
Well done. Looks like I've got some refactoring to do. – SomeKittens Oct 27 '12 at 15:36

Anyone who's coming from a functional programming background (like me!) wants to do this:

foreach(var i=0;i<Class.length;i++) {
    if(!hasClass(Student, Class[i])) {
         return false;
return true;

Unfortunately, this doesn't work. There's no easy way (to my knowledge) to traverse a list in Prolog and return true IFF all the elements returned true. Rather, use a recursive method to traverse the list. Add another definition for hasClass like this:

hasClass(Student, ClassList) :-
    /* Splits up the list into:
    H = the first element of the list as an atom
    T = The rest of the list elements as a list
    (if there's only one list element, T is equal to []) */
    [H|T] = ClassList,
    hasClass(Student, H),
    /* if T isn't equal to [], recursively check the rest of the list's elements */
    (T \= [] -> hasClass(Student, T);true).
share|improve this answer
hasPrereqs(Student, Class) :-
    (prereq(Pre, Class) -> 
        hasClass(Student, Pre);

is always true, irrespective of variables instancing and the actual factual data you have. The only purpose could be some side effect (like IO or DB modification) performed by prereq/2 or hasClass/2, and this doesn't appears to be.

Now to the answer. SWI-prolog has is_list/1 and maplist/2, the latter can repeat the same test on each element, being true only if the test succeed on all elements:

edit Class was meant to be Pre

hasPrereqs(Student, Class) :-
 forall(prereq(Pre, Class),
   (   is_list(Pre)
   ->  maplist(hasClass(Student), Pre)
   ;   hasClass(Student, Pre)

or better, if you plan to reuse hasClass only for test, and assuming an already working hasClass/2

hasPrereqs(Student, Class) :-
   forall(prereq(Pre, Class), hasClass(Student, Pre)).

hasClass(Student, Classes) :-
   is_list(Classes) -> maplist(hasClass(Student), Classes).

edit the following is buggy, looping on last call...

Yet another way. In your answer, you were near to the solution:

hasClass(Student, ClassList) :-
    (   [H|T] = ClassList
    ->  hasClass(Student, H), hasClass(Student, T)
    ;   hasClass(Student, ClassList)

edit the solution should be simpler:

hasClass(Student, [Class|ClassList]) :-
    hasClass(Student, Class),
    !, hasClass(Student, ClassList).
hasClass(_Student, []).
share|improve this answer

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