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When programming in Prolog I often write predicates whose behavior should be semi-deterministic when called with all arguments instantiated (and whose behavior should be non-deterministic otherwise).

A concrete use case for this is my predicate walk/3, which implements graph walks. Since multiple paths can exist between two vertices, the instantiation (+,+) gives multiple choicepoints after true. These are, however, quite useless. Calling code must explicitly use once/1 for performance reasons.

%! walk(+Graph:ugraph, +StartVertex, +EndVertex) is semidet.
%! walk(+Graph:ugraph, -StartVertex, +EndVertex) is nondet.
%! walk(+Graph:ugraph, +StartVertex, -EndVertex) is nondet.
%! walk(+Graph:ugraph, -StartVertex, -EndVertex) is nondet.

Semi-determinism can be forced by the use of once/1 in the calling context, but I want to implement semi-determinism as a property of the predicate walk/3, and not as something that has to be treated specially every time it is called.

In addition to concerns over code aesthetics, the calling context need not always know whether its call to walk/3 is semi-deterministic or not. For example:

%! cycle(+Graph:ugraph, +Vertex) is semidet.
%! cycle(+Graph:ugraph, -Vertex) is nondet.

cycle(Graph, Vertex):-
  walk(Graph, Vertex, Vertex).

I have come up with the following solution, which does produce the correct behavior.

walk_wrapper(Graph, Start, End):-
  call_ground_as_semidet(walk(Graph, Start, End)).

:- meta_predicate(call_ground_as_semidet(0)).
  ground(Goal), !,
  Goal, !.

However, this solution has deficiencies:

  • It's not generic enough, e.g. sometimes ground should be nonvar.
  • It is not stylistic, requiring an extra predicate wrapper every time it is used.
  • It may also be slightly inefficient.

My question is: are there other ways in which often-occurring patterns of (non-)determinism, like the one described here, can be generically/efficiently/stylistically programmed in Prolog?

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Just to make sure I understand your question, with a simpler example: you want a predicate that will behave as memberchk/2 when the first argument is ground and as member/2 when the first argument is not ground? – Boris Aug 4 '14 at 7:27
Did you already checked mavis pack ? – CapelliC Aug 4 '14 at 8:24
@Boris: library(xpath) it's a good candidate for an applicative context where efficiency and control make a difference – CapelliC Aug 4 '14 at 10:18
Neither memberchk/2 nor member/2 are ISO. But at least, member/2 is part of the Prolog prologue. – false Aug 4 '14 at 12:06
@CapelliC: memberchk/2 has no declarative meaning: memberchk(a,Xs),Xs=[b,a]. fails but memberchk(a,Xs),Xs=[b,a]. succeeds. – false Aug 4 '14 at 13:09

Not an answer but too long for a comment. Keep in mind I am not sure I understand exactly, so I want to re-state your question first.

To take your graph example. You want to be able to ask the following questions using the same call of the same predicate.

Given a graph,

Question 1: is vertex B reachable from vertex A (somehow)? - yes or no

Question 2: which vertices are reachable from A? - enumerate by backtracking

Question 3: from which vertices is B reachable? - enumerate by backtracking

Question 4: which A and B exist for which B is reachable from A? - enumerate by backtracking

And I might be wrong here, but it seems that answering Question 1 and Question 2 might employ a different search strategy than answering Question 3?

More generally, you want to have a way of saying: if I have a yes-or-no question, succeed or fail. Otherwise, enumerate answers.

Here comes my trouble: what are you going to do with the two different types of answers? And what are the situations in which you don't know in advance which type of answer you need? (If you do know in advance, you can use once(goal), as you said yourself.)

PS: There is obviously setof/3, which will fail if there are no answers, or collect all answers. Are there situations in which you want to know some of the answers but you don't want to collect all of them? Is this an efficiency concern because of the size and number of the answers?

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enumerate solutions should rather read enumerate answers – false Aug 4 '14 at 12:41
@Boris Your reformulation of my question is correct. In the specific example I gave, Q2 and Q3 happen to use the same search strategy. The two main reasons for wanting to enforce semi-determinism are indeed performance and doing away with superfluous choicepoints. The calling context can indeed use once/1 or setof/3, but I am inquiring into whether there are solutions that can be applied to the goal itself, not to (all) its calling contexts? – Wouter Beek Aug 4 '14 at 12:59
enumeration make easy program lazy Prolog. I like a lot - most pleasant Prolog code is based on proper expression of laziness. Being able to be efficient, is important. – CapelliC Aug 4 '14 at 13:00
@WouterBeek I get it maybe. Excuse the circular reasoning, but if the calling context does not know which question is being asked, how do you know what to do with the answer? In other words, at some point up the chain of callers you must know if it's a semi-deterministic or non-deterministic call, right? (not really sure....) – Boris Aug 4 '14 at 13:18
@Boris As an example of a calling context that does not know in advance which question is being asked, I can define a cycle as a closed walk: cycle(G, V):- walk(G, V, V). Cycle has modes (+,+) semidet and (+,-) nondet. – Wouter Beek Aug 4 '14 at 13:22

Not an answer but an advice. Maybe I missunderstood your question. I think you are trying to address performance issues by forcing a predicate to be non-deterministic. That question is pointless: if p(X) is non-deterministic (multiple solutions), then p(X),! is deterministic (first solution only).

You should not address performance issues by altering program logic or predicate reversibility. I suggest a different approach:

First, take advantage of prolog indexing. For example:

cycle(+Graph:ugraph, +Vertex)

is NOT the same (in terms of performance) as:

cycle(+Vertex, +Graph:ugraph)

You should find documentation on prolog indexing (and performance impact) on the Web.

Second, write multiple implementations for the same problem. Each one will optimize performance for a different case. Then, write a predicate that chooses the best implementation for each case.

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