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I'm writing a Lisp-to-C translator using Prolog's built-in DCG capabilities. This is how I handle arithmetic:

expr(Z) --> "(", "+", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "%d + %d", [M, N])}.
expr(Z) --> "(", "-", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "%d - %d", [M, N])}.
expr(Z) --> "(", "*", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "%d * %d", [M, N])}.
expr(Z) --> "(", "/", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "%d / %d", [M, N])}.
expr(E) --> number(E).

number(C) --> "-", digits(X), {C is -X}.
number(C) --> digits(C).
digits(D) --> digit(D);digit(A),digits(B), {number_codes(B,Cs),length(Cs,L), D is A*(10^L)+B}.
digit(D) --> [C], {"0"=<C, C=<"9", D is C - "0"}.

As it is now, it doesn't handle nested expressions. Here is what I thought would work:

expr(Z) --> "(", "+", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "%s + %s", [M, N])}.
expr(E) --> number(N), {swritef(E, "%d", [N])}.

But I'm getting this:

?- expr(E, "42", []).
E = "42" %all OK

?- expr(E, "(+ 3 (* 2 2))", []).
E = "%s + %s" %not OK

How do I make it work?

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What Prolog do you use? –  Little Bobby Tables Dec 8 '10 at 16:29
    
@Bobby: SWI-Prolog version 5.6.64 –  Igor Dec 12 '10 at 15:44

2 Answers 2

up vote 2 down vote accepted

The problem is that the %s format specifier needs the argument to be a list of characters. So you can do it with something like this:

expr(Z) --> "(", "+", spaces, lexpr(M), spaces, lexpr(N), ")", {swritef(Z, "%s + %s", [M, N])}.
expr(Z) --> "(", "-", spaces, lexpr(M), spaces, lexpr(N), ")", {swritef(Z, "%s - %s", [M, N])}.
expr(Z) --> "(", "*", spaces, lexpr(M), spaces, lexpr(N), ")", {swritef(Z, "%s * %s", [M, N])}.
expr(Z) --> "(", "/", spaces, lexpr(M), spaces, lexpr(N), ")", {swritef(Z, "%s / %s", [M, N])}.
expr(N) --> number(N).

lexpr(Z) --> expr(M), {atom_chars(M, Z)}.

number(C) --> "-", digits(X), {C is -X}.
number(C) --> digits(C).

digits(D) --> digit(D);digit(A),digits(B), {number_codes(B,Cs),length(Cs,L), D is A*(10^L)+B}.
digit(D) --> [C], {"0"=<C, C=<"9", D is C - "0"}.

spaces --> " ", spaces.
spaces --> [].

The predicate lexpr just converts the parsed expression to a list of chars.

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Use %t or %w, not %d in your swritef. Note, %d is not what it is in C's printf formats.

If you just translating lisp-like to C-like you don't really need to convert the string representation of numbers to a number. Just leave it as string. (Of course it dependes on the complexity of your task). Otherwise the upper level rules foound a number where they expect a string.

Put the resultant C code into parentheses so that the priority and associativity are correct in the result.

expr(Z) --> "(", "-", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "(%t - %t)", [M, N])}.
expr(Z) --> "(", "*", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "(%t * %t)", [M, N])}.
expr(Z) --> "(", "/", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "(%t / %t)", [M, N])}.
expr(Z) --> "(", "+", spaces, expr(M), spaces, expr(N), ")", {swritef(Z, "(%t + %t)", [M, N])}.
expr(E) --> number(N), {swritef(E, "%s", [N])}.

spaces --> " ".

number([C|Cs]) --> "-", {C = "-"}, digits(Cs).
number(C) --> digits(C).

digits([D|[]]) --> digit(D).

digits([D|Ds]) --> digit(D), digits(Ds).
digit(D) --> [D], {code_type(D, digit)}.

and this is how it works.

?- expr(E, "(* 1342 (/ 44 -17))", []).
E = "(1342 * (44 / -17))" ;
false.
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