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The following higher order predicate succeeds if all pairs of the list's elements are true for a given relation. Is there a common or better, more intention revealing name for this relation?

My original motivation for this name was that in , there is often a constraint all_different/1 which is described as being true, iff the elements are pairwise different. In fact, rather preferred to say the elements are all different, but I have been frequently corrected (by fellow Prolog programmers) to use pairwise different. In fact, this constraint can now most naturally be expressed as pairwise(#\=, Zs).

pairwise(Rel, Xs) :-
   i_pairwise(Xs, Rel).

i_pairwise([], _).
i_pairwise([X|Xs], Rel) :-
   maplist(call(Rel,X),Xs),
   i_pairwise(Xs, Rel).

As @aBathologist observed, pairwise is not the right word, because it might make sense for non-reflexive Rel too.

Also, the relation Rel is not a total relation, because call(Rel, X, X) might fail, but pairwise(Rel, Xs) could still succeed.

I even hoogled for (a->a->Bool)->[a]->Bool

Looked at MO and mathematics:

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Why do you define i_pairwise instead of defining the method at the pairwise_level? –  CommuSoft Apr 9 at 0:41
    
@CommuSoft: This is only to exploit 1st argument indexing in several Prolog systems - some do not need that detour, but it does not hurt. –  false Apr 9 at 12:29
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@false Out of curiosity, why do you specify that the second argument be a list of lists in the Haskell signature? –  aBathologist Apr 9 at 13:01
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@aBathologist: Fixed! It did not make a difference, though –  false Apr 9 at 13:08

1 Answer 1

I like your question very much. I went digging around through wikipedia to try and find a fitting term. I'm thinking of the list as a set, in the sense that each member is a distinct and differentiable element, so that even if there were two instances of the same atom, would be different elements, qua their position or whatever. I think that the predicate you've described would, then, be a [connex] binary relation (https://en.wikipedia.org/wiki/Total_relation):

A binary relation R over X is called connex if for all a and b in X such that a ≠ b, a is related to b or b is related to a (or both)

On the other hand, if the relation is also meant to be reflexive, then it would describe a total binary relation (dicussed on the same page as connex).

However, I think that your predicate pairwise/2 doesn't actually fit the description you give, or (more likely) I don't quite understand.

You say that the predicate should succeed "if all pairs of the list's elements are true for a given relation". But pairwise(>, [1,2,3]) is false whereas pairwise(<, [1,2,3]) is true, while pairwise(>, [3,2,1]) is true but pairwise(<, [3,2,1]) is false. But out of each pair of elements from these lists, one is greater than the other.


Edits:

The following is the result of my misunderstanding, and turned out not to be relevant to the question.

I offered the following definition, thinking it might be a more accurate definition of what @false was describing, but he pointed out that it doesn't define the relation I thought it did. I have kept it for the sake of making our subsequent exchange in the comments intelligible.

Adding another clause that checks the list in reverse would solve this problem, but might there be other relations which can't be caught by reversing? Also, is there a more efficient way of implementing a genuine connex check?

connex_over(Rel, Xs) :-
   i_connex_over(Xs, Rel), !.
connex_over(Rel, Xs) :-
   reverse(Xs, Sx),
   i_connex_over(Sx, Rel).

i_connex_over([], _).
i_connex_over([X|Xs], Rel) :-
   maplist(call(Rel,X),Xs),
   i_connex_over(Xs, Rel).

After @false pointed out my error in the preceding, I wrote the following definition. I believe it does describe a connex over the elements of S:

actual_connex_over(Rel, S) :-
   foreach( ( select(X, S, T), member(Y, T) ),
            ( call(Rel, X, Y) ; call(Rel, Y, X) )
          ).
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I believe it is useful to permit non-commutative relations like >. But I agree that "pairwise" is not the right word for it. –  false Apr 9 at 13:05
    
@false Do you think that "connex" is the right fit for the relation? I may be missing the point... –  aBathologist Apr 9 at 13:08
    
@false didn't mean to rush... ;) –  aBathologist Apr 9 at 13:13
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Do you believe that you implemented a connex? I think (by mere speculation for the moment) that your definition is too specialized: There might be a connex wth another permutation other than reverse, and there might a connex that requires another formulation. After all, a connex is: ∀ a, b ∈ X, (a R b) ∨ (b R a) ∨ (a=b). The disjunction is thus very local. –  false Apr 9 at 18:16
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The name came from pairwise(#\=,Zs) meaning all_different(Zs). I had not thought more about it than that, originally. But yes, I yes, I think the order should matter. Still something like connex would be fine, too - rather in a "forward-recursive" manner, for it would permit to be used in the context of constraints. –  false Apr 10 at 12:09

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