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absolute noob at Prolog and I'm trying to understand this code. If anyone could explain it step by step in child language that would be a great help ;) thankyou!

    X < D, I is 0, R is X.
    X >= D, Q is X - D, 
    divide_by(Q, D, S, R),
     I is S +1.
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Yes. Someone can explain that code step by step. –  prpl.mnky.dshwshr Nov 15 '13 at 15:53
I would vote to close as a migration problem. Possibly should be migrated to: < codereview.stackexchange.com >, but this doesn't appear as an option for migration inside of the menu that comes up for close voting. –  prpl.mnky.dshwshr Nov 15 '13 at 15:54
Similar to stackoverflow.com/questions/19954314/… –  lurker Nov 16 '13 at 3:43

2 Answers 2

Well, I can't. You are asking the wrong question. The right question would be:

What relation does the predicate describe?

Actually, that is quite difficult to answer, as we would have go through it step-by-step. But there is a better and much cleaner way! As your program uses integers only, we can map the moded relations (<)/2, (is)/2 and the like to their declarative counterparts in CLP(FD). So I change < to #<, is to #=, >= to #>=.

:- use_module(library(clpfd)).

    X #< D, I #= 0, R #= X.
    X #>= D, Q #= X - D,
    I #= S +1,
    divide_by(Q, D, S, R).

The big advantage now is that I can ask Prolog what it thinks the relation is describing. Simply ask: (Don't worry about the Q=Q, it's just to reorder variables)

  • N ... dividend
  • D ... divisor
  • Q ... quotient
  • R ... remainder

?- Q=Q, divide_by(N,D,Q,R).
 Q = 0,
 N = R,
 R#=<D+ -1

This answer reads as follows: The quotient is zero, the dividend and remainder is the same and the remainder is less than the divisor. So this describes all situations where 0 is the "result" or quotient.

Next answer:

 Q = 1,
 R#=<D+ -1

The quotient is 1 and the dividend is the divisor plus remainder, and — as in all answers — the remainder is less than the divisor

 Q = 2,
 R#=<D+ -1

This answer is the same as R+D+D#= N. The system has introduced some extra variables. Not wrong, but a bit clumsy to read.

 Q = 3,
 R#=<D+ -1
 Q = 4,
 R#=<D+ -1 ...

And so on. Let me summarize. All answers look like that:

N#>=D, R#< D,  R+D+...+D#= N
                 ^^^^^^^ Q times

or even better:

N#>=D, R #< D, R+Q*D #= N, Q #>= 0.

So what we have answered is what this relation is describing.

When you start Prolog, focus on the declarative side. As what (set/relation) a predicate describes. The procedural side will join without any effort later on.

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The first rule is called the base case. It will terminate the recursion.

    X < D,   % this rule apply only if numerically X is < D
    I is 0,  % will fail if I \= 0
    R is X.  % if I = 0 assign expression X to R

This other it's the recursive step.

divide_by(X,D, I, R):- 
    X >= D,      % this rule apply only if X is >= D
    Q is X - D,  % evaluate Q
    divide_by(Q, D, S, R),  % recursive call. Q & D are surely instantiated
    I is S + 1.  % evaluate I as S + 1

So, I would say: it will compute the integer division of X by D, with remainder R, when called in mode divide_by(+,+,-,-), that is with first two arguments bound to integers and the last two free.

Anyway, false' answer is very good, as show a possible way to reason about arithmetic that is not available in 'common' programming languages.

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The base case does not terminate recursion. It is the X#>=D in the recursive rule which does. –  false Nov 15 '13 at 18:27

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