OK, so to translate the Haskell's

```
pairs (x:xs) = [ (x,y) | y<-xs ]
++ pairs xs
pairs [] = []
```

as a backtracking Prolog predicate, it's a straightforward and short,

```
pair([X|XS],X-Y):- member( ... ,XS). %% fill in the '...' here
pair([_|XS],P) :- pair(XS, ... ). %%
%% pair([],_) :- false.
```

To get all the possible pairs, use `findall`

:

```
pairs(L,PS):- findall(P, pair(L,P), PS).
```

Consider using `bagof`

if your lists can contain logical variables in them. Controlling `bagof`

's backtracking could be an intricate issue though.

`pairs`

can also be written as a deterministic, non-backtracking, recursive definition, constructing its output list through an accumulator parameter - here in a top-down manner, which makes it a *difference list* really:

```
pairs([X|T],PS):- T=[_|_], pairs(X,T,T,PS,[]) ; T=[], PS=[].
pairs([],[]).
pairs(_,[],[],Z,Z).
pairs(_,[],[X|T],PS,Z):- pairs(X,T,T,PS,Z).
pairs(X,[Y|T],R,[X-Y|PS],Z):- pairs(X,T,R,PS,Z).
```

`pairs (x:xs) = [ (x,y) | y<-xs ] ++ pairs xs ; pairs [] = []`

, in Haskell notation. The easiest is to translate this into a Prolog predicate that will produce all these pairs one by one on backtracking, as the answer by Mog suggests you do.`y<-xs`

corresponds to`member(Y,XS)`

;`++`

corresponds to a disjunction. – Will Ness May 2 '12 at 1:02