I'm unsure about how you're using
numbervars/3, which is implemented so as to "...unify the free variables of [a term] with a term
$VAR(N)", which can't be used directly to turn the term
a('$VAR'(0),'$VAR'(1),'$VAR'(2)) as you suggest, unless
t3 are your place-holders for distinct variables.
'$VAR'(N) that SWI's
numbervars/3 generates are indeed terms, and not variables (as described in the manual), so can't be treated as variables.
Note that, if you see this:
Term = a(A, B, D).
What is happening is that the line
Term = a(A, B, D). is being written via something like
write_term/2 to the console, which can be configured to portray certain terms like
'$VAR'(N) as named variables (which can be misleading). Notice that if you try this instead:
a($VAR(0), $VAR(1), $VAR(3))
Term = a(A, B, D).
The call to
write_term/2 here explicitly disables the
numbervars option, and prints out the true bindings of the arguments of the
a/3 term, which are indeed
$VAR(N) terms. The next line printed to the console (i.e.,
Term = a(A, B, D)) is doing something akin to enabling the
numbervars option instead (perhaps for readability).
If you need to 'variablize' a term, I can suggest something along these lines instead:
% takes a term T, a list of [Term:Variable] replacements R, and makes V:
variablize(T, R, V) :-
R0 == T, !.
variablize([T|Ts], R, [NT|NTs]) :-
variablize(T, R, NT),
variablize(Ts, R, NTs).
variablize(T, R, NT) :-
T =.. [F|As],
variablize(As, R, NAs),
NT =.. [F|NAs].
variablize(T, _, T).
?- variablize(a(t1,t2,t3), [t1:X, t2:Y, t3:Z], T).
T = a(X, Y, Z).
This assumes that you know which sub-elements (e.g.,
t2) you want replaced, and with which variables. This particular implementation could more accurately be called
replace/3, as it will find-and-replace any sub-element occurrence in the input term (even if they are other variables!).