# Scheduling of tasks to a single resource using Prolog

I searched through here as best I could and though I found some relevant questions, I don't think they covered the question at hand:

Assume a single resource and a known list of requests to schedule a task. Each request includes a start_after, start_by, expected_duration, and action.

The goal is to schedule the tasks for execution as soon as possible while keeping each task scheduled between start_after and start_by.

I coded up a simple Prolog example that I "thought" should work but I've been unfortunately getting errors during run time: ">=/2: Arguments are not sufficiently instantiated".

Any help or advice would be greatly appreciated

``````startAfter(1,0).
startAfter(2,0).
startAfter(3,0).

startBy(1,100).
startBy(2,500).
startBy(3,300).

duration(1,199).
duration(2,199).
duration(3,199).

action(1,'noop1').
action(2,'noop2').
action(3,'noop3').

can_run(R,T) :- startAfter(R,TA),startBy(R,TB),T>=TA,T=<TB.
conflicts(T,R1,T1) :- duration(R1,D1),T=<D1+T1,T>T1.
schedule(R1,T1,R2,T2,R3,T3) :-
can_run(R1,T1),\+conflicts(T1,R2,T2),\+conflicts(T1,R3,T3),
can_run(R2,T2),\+conflicts(T2,R1,T1),\+conflicts(T2,R3,T3),
can_run(R3,T3),\+conflicts(T3,R1,T1),\+conflicts(T3,R2,T2).

% when traced I *should* see T1=0, T2=400, T3=200
``````

Edit: conflicts goal wasn't quite right: needed extra T>T1 clause.

Edit: Apparently my schedule goal works if I supply valid Request,Time pairs ... but I'm stuck trying to force Prolog to find valid values for T1..3 when given R1..3?

-
A separate question I asked has the latest instantiation of this problem: stackoverflow.com/questions/2156581/… –  Reed Debaets Jan 29 '10 at 13:51

There are a couple of problems with the original implementation. It might work OK (with minor modifications) in a constraint logic programming system, but not in straight Prolog. In Prolog, the ordering of goals is crucial. I have modified the code so that it will work:

``````can_run(R, T) :-
startAfter(R,TA),
startBy(R,TB),
between(TA,TB,T).

conflicts(T,R1,T1) :-
duration(R1,D1),
T=<D1+T1,
T>=T1.

schedule(R1,T1,R2,T2,R3,T3) :-
can_run(R1,T1),
can_run(R2,T2),
R1 \= R2,
\+ conflicts(T1,R2,T2),
can_run(R3,T3),
R3 \= R1,
R3 \= R2,
\+ conflicts(T1,R3,T3),
\+ conflicts(T2,R1,T1),
\+ conflicts(T2,R3,T3),
\+ conflicts(T3,R1,T1),
\+ conflicts(T3,R2,T2).

between(Low, High, Between) :-
Between is Low
;
Low < High,
Next is Low + 1,
between(Next, High, Between).
``````

I added the use of the between/3 predicate (a defined builtin in some Prolog implementations). It generates the integers between two given endpoints.

I added inequality checks in schedule/6 to force R1, R2, and R3 to be different values.

Finally, I reordered the goals in schedule/6 to ensure that the can_run/2 predicate was evaluated for a pair of Ri/Ti variables before those variables were checked by conflicts/3.

The query schedule(R1,T1,R2,T2,R3,T3) runs for several minutes and finally produces:

``````
?-schedule(R1,T1,R2,T2,R3,T3)
R1 = 1
T1 = 0
R2 = 2
T2 = 400
R3 = 3
T3 = 200
``````

There are much more efficient implementations for this problem.

-