# Prolog predicate to generate integers above X on backtrack [closed]

Write a predicate `above(L, N)` that will generate (on backtracking) each of the integers larger than a given integer, `L`. For example, the goal `above(3, N)` should generate as solutions `N = 4; N = 5; N = 6; ...`, and so on in order on backtracking.

As above.

A general strategy for "generating solutions on backtrack" would be great too.

• @Flexo: Why are you voting to close this? It is a completely OK question. – false Jan 29 '13 at 20:27
• @Bart: Why are you voting to close this? It is a completely OK question. – false Jan 29 '13 at 20:59
• @false That's...well, false. This is nothing but a "give-me-teh-codez" question. It's blanket homework question without any apparent effort by the OP. So it's by no means an OK question. – Bart Jan 29 '13 at 21:01
• @Bart: The question is a frequently recurring question even if the asker most probably retyped the question from an assignment. – false Jan 29 '13 at 21:03
• @false That doesn't make it a good question by any means. We are not here to do the OP's homework. – Bart Jan 29 '13 at 21:03

``````   length(_,N), N > 3.

length(_,I), N is I + 4.
``````

These are not the most efficient versions, but they do not require an auxiliary definition.

``````   length([_,_,_,_|_],N).
``````

Might be faster, but is a bit more obscure.

• That is extremely inefficient and, for me, both of them are obscure. – gusbro Apr 26 '12 at 17:47
• This what I got from measuring `time((vx(N),N=10000000)).` in SWI with each of above versions defined as `vx(N) :- length(_,N), N>3.` etc: gusbro: 8.461s, v1: 12.723s, v2: 14.834s, v3: 9.908s. – false Apr 26 '12 at 17:58
• And here, with another query: `time(v3(10000000)).` gusbro: 5.594s, v1: 0.213s, v2: 13.314s, v3: 0.186s. – false Apr 26 '12 at 18:02
• @gusbro: In that case, only v1 and v2 are relevant - but they do not appear to be that inefficient... Your version could probably be faster by avoiding the repeated evaluation. – false Apr 26 '12 at 18:11
• Right, they are not that inefficient as i presumed. And yes, my version would be probably faster by only evaluating once, but i thought it is clearer as it is now. – gusbro Apr 26 '12 at 18:26

You would need a procedure with two clauses. The first one would be the base case which for the input number L unifies the output number N with L+1. The second clause would be the recursive step, which just increments L and calls recusively above/2.

``````above(L, NL):-
NL is L+1.
above(L, NL):-
ML is L+1,
above(ML, NL).
``````
• For the test case "above(3, N)", Prolog gives "N = 4 yes", with no option to backtrack. – user1283759 Apr 26 '12 at 15:50
• You have to press the `;` key to get another result. – gusbro Apr 26 '12 at 15:53
• That is what I am trying to do. Perhaps the problem is a quirk of SICStus Prolog? – user1283759 Apr 26 '12 at 15:55
• I don't have SICStus to try it, but am 100% sure the program is fine. You are trying the code from SICStus toplevel, right ?. In other prolog systems you can press enter instead of ; to receive new answers. – gusbro Apr 26 '12 at 16:00
• SICStus should use ";" to backtrack for more solutions. – user1283759 Apr 26 '12 at 16:05