Given two lists of variables, what is the most compact and canonical way in ISO Prolog to determine the union of both? That is, we want a definition for the (meta-logical) predicates

varset_union(VarSet1, VarSet2, Union)

and for a list of lists

varset_union(VarSets, Union)

where Union is a list of unique variables of the given VarSets.

Here is an overview of the built-ins in ISO/IEC 13211-1:1995 including Cor.2:2012.


Solution using term_variables/2:

varset_union(VarSet1, VarSet2, Union):-
    term_variables([VarSet1|VarSet2], Union).

varset_union(VarSets, Union):-
    term_variables(VarSets, Union).

Solution using setof/3:

varset_union(VarSet1, Varset2, Union):-
    varset_union([VarSet1, VarSet2], Union).

varset_union([], []).
varset_union(VarSets, Union):-
    setof(Var, VarSet^(member(VarSet, VarSets), member(Var, VarSet)), Union).
  • 1
    Note that the definition with setof/3 will produce a list of variables in implementation dependent order - which means essentially random order - whereas term_variables/2 has a well defined order. – false Dec 10 '14 at 17:26
  • 1
    And in terms of efficiency the setof/3 solution is much worse [at least in SWI-Prolog]. – Tudor Berariu Dec 10 '14 at 17:50
  • 1
    setof/3 uses term_variables/2 to determine the variables to be processed. And that is only the first step ... – false Dec 10 '14 at 19:15

Based on Tudor's great answer, I have devised a definition of varset_union/3 that is more compact by 2 characters:

varset_union(VarSet1, VarSet2, Union):-
        term_variables(VarSet1+VarSet2, Union).


  • 1
    In many implementations, this will be slower (like in SWI) and/or consume more space (like in SICStus, YAP). – false Dec 25 '15 at 16:22
  • I have strived for the criteria you asked for: Compact and canonical. Union and + are closely related, so it is at least very natural to use + here. – mat Dec 25 '15 at 16:41

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