Thun/thun/metalogical.pl

% A Tracing Meta-Interpreter for Thun

% See https://www.metalevel.at/acomip/

tmi(true).
tmi(!).
tmi((A, B)) :- tmi(A), tmi(B).
tmi(number(A)) :- number(A).
tmi(var(A)) :- var(A).

% Meta-logical print trace.
% (Could also be captured in a list or something instead.)
tmi(thun(E, Si, _)) :- frump(Si, E), fail.

tmi(Goal) :-
    checky(Goal),
    clause(Goal, Body),  % doesn't work for e.g. +
    tmi(Body).

checky(Goal) :-
    Goal \= true,
    Goal \= (_,_),
    Goal \= var(_),
    Goal \= number(_),
    Goal \= !.


format_state(Stack, Expression, Codes) :-
    reverse(Stack, RStack),
    phrase(format_stack(RStack), RStackCodes),
    phrase(format_stack(Expression), ExpressionCodes),
    append(RStackCodes, [32, 46, 32|ExpressionCodes], Codes).


frump(Stack, Expression) :-
    format_state(Stack, Expression, Codes),
    maplist(put_code, Codes), nl.

% do(In) :- phrase(format_stack(In), Codes), maplist(put_code, Codes).

% Print Joy expressions as text.

format_stack(Tail)  --> {var(Tail)}, !, [46, 46, 46].
format_stack([T])   --> format_term(T), !.
format_stack([T|S]) --> format_term(T), " ", format_stack(S).
format_stack([])    --> [].

format_term(N) --> {number(N), number_codes(N, Codes)}, Codes.
format_term(A) --> {  atom(A),   atom_codes(A, Codes)}, Codes.
format_term([A|As]) --> "[", format_stack([A|As]), "]".



/*

[debug]  ?- tmi(thun([1, 2, swap], Si, So)).
_-[1, 2, swap].
[1|_]-[2, swap].
[2, 1|_]-[swap].
[1, 2|_]-[].
So = [1, 2|Si] ;
false.

[debug]  ?- tmi(thun([[1], 2, swons], Si, So)).
_-[[1], 2, swons].
[[1]|_]-[2, swons].
[2, [1]|_]-[swons].
[2, [1]|_]-[swap, cons].
[[1], 2|_]-[cons].
[[2, 1]|_]-[].
So = [[2, 1]|Si] .

[debug]  ?- tmi(thun([[1], 2, [swons], i], Si, So)).
_-[[1], 2, [swons], i].
[[1]|_]-[2, [swons], i].
[2, [1]|_]-[[swons], i].
[[swons], 2, [1]|_]-[i].
[2, [1]|_]-[swons].
[2, [1]|_]-[swap, cons].
[[1], 2|_]-[cons].
[[2, 1]|_]-[].
So = [[2, 1]|Si] .

*/