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Let's consider the following Prolog program (from "The Art of Prolog"):

natural_number(s(X)) :- natural_number(X).

plus(X, 0, X) :- natural_number(X).
plus(X, s(Y), s(Z)) :- plus(X, Y, Z).

and the query:

?- plus(s(s(s(0))), s(0), Z).

Both SICStus and SWI produce the expected Z = s(s(s(s(0)))) answer, but query the user for the next answer (a correct no/false answer). However, I cannot understand why there is an open branch in the SLD tree after the only goal is found. I tried debugging both under SICStus and under SWI, but I am not really able to interpret the result yet. I can only say that, as far as I could understand, both backtrack to plus(s(s(s(0))), 0, _Z2). Can someone help me understanding this behavior?

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You exchanged the first and second argument of plus/3compared to Program 3.3 of Art of Prolog. But leave it like that ... – false Nov 9 '12 at 14:11
up vote 1 down vote accepted

The problem is not directly related to SLD trees, since Prolog systems do not build SLD trees in a look-ahead manner as you describe it. But some optimizations found in certain Prolog systems essentially have this effect and change the blind brute force head matching. Namely indexing and choice point elimination.

There is now a known limitation of SWI-Prolog. Although it does multi-argument indexing, it does not do choice point elimination for non-first argument indexes cascaded indexing. Means it only picks one argument, but then no further. There are some Prolog systems that do multi argument indexing and cascaded indexing. For example in Jekejeke Prolog we do not have No/false:

Peano Cascade


P.S.: The newest version of Jekejeke Prolog even does not literally cascade, since it detects that the first argument index has no sensitivity. Therefore although it builds the index for the first argument due to the actual call pattern, it skips the first argument index and does not use it, and solely uses the second argument. Skipping gives a little speed. :-)

The skipping is seen via the dump/1 command of the development environment version:

?- dump(plus/3).
-------- plus/3 ---------

So it has not decended into arg=0 and built an arg=1 index there, but instead built in parallel an arg=0 and an arg=1 index. We might still call this heuristic cascading since individual queries lead to multiple indexes, but they have not really the shape of a cascade.

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If I do not understand bad, you are saying that, if a term matches the functor and first parameter of a rule's head, SWI Prolog consider the rule as (potentially) matching and creates a choice point for it. Am I right? – Pietro Braione Oct 31 '12 at 19:52
Yep, its not because choice point is not eliminated, but because index is not cascaded. I.e. it sees s(s(0)) in the first argument, and then uses the first argument index, which has two entries. If it would also use 0 in the second argument, it could reduce the clause set further. – j4n bur53 Oct 31 '12 at 20:21
@Pietro: Choice point is created when a clause head matches, and when the clause set at the current position has further entries. Indexing helps reduce the clause set and thus prevent choice point creation. – j4n bur53 Oct 31 '12 at 20:29
@false: No its not simpler. I select the block and then press the {} button, and it does the adjustment for me. I don't have to type <pre> </pre>. Pressing the {} button is simpler. You should try it. You can also use Ctrl-K. – j4n bur53 Oct 31 '12 at 20:44
@false: But I don't use it often... You don't see much inline <code></code> from me. Works also for that... – j4n bur53 Oct 31 '12 at 20:48

Many Prolog systems are not as smart as we expect them to be. This has several reasons, mostly because of a tradeoff choice of the implementer. What appears important to some might not be that important to others.

As a consequence these leftover choicepoints may accumulate in time and prevent to free auxiliary data. For example, when you want to read in a long list of text. A list that is that long that it does not fit into memory at once, but still can be processed efficiently with library(pio).

If you expect exactly one answer, you might use call_semidet/1 to make it determinate. See this answer for its definition and a use case.

?- plus(s(s(s(0))), s(0), Z).
Z = s(s(s(s(0)))) ;

?- call_semidet(plus(s(s(s(0))), s(0), Z)).
Z = s(s(s(s(0)))).

But you can see it also from a more optimistic side: Modern toplevels (like the one in SWI) do show you when there are leftover choicepoints. So you can consider some countermeasures like call_semidet/1.

Here are some related answers:

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To us, it's apparent that the two clauses for plus are 'disjunctive'. We can say that because we know that 0 \= s(Y). But (I think) such analysis in general is prohibitive, and Prolog then consider such branch still to be proved: here a trace showing that the call (7) is still 'open' for alternatives after the first solution has been found.

enter image description here

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Problem with trace is that it adds choice points in most of the Prolog systems (SWI Prolog is an exception here, means also you don't see all ports for deterministic executions), so the method is not in general reliable to explain why something is not deterministic. – j4n bur53 Oct 31 '12 at 18:21
@CookieMonster: is it in this peculiar case? There is only one pending choice point both in the query and in trace, so I would assume it is the case. – Pietro Braione Nov 1 '12 at 12:41
Chac is right. I only wanted to point out that in some Prolog systems the trace mode might change the choice point elimination behaviour. This is because trace is sometimes implemented under the hood as replace each goal G, by (port(call); port(fail), fail), G, (port(exit); port(redo), fail), which adds choice points and changes the propagation of determinism. – j4n bur53 Nov 1 '12 at 13:12
@Cookie Monster: If correctly done, I would expect no change in behaviour for the transformation you show. Otherwise, such a debug tool would be of very little use. – CapelliC Nov 8 '12 at 2:38
Yes, debug tools which leave choice points slow down the execution, or eat up memory space. This is seen in many early Prolog systems. – j4n bur53 Nov 8 '12 at 8:51

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