ref: 0c22d3d73005e7b956742bd5fc75f183b8784989
dir: /repl.pl/
:- module(repl, []). repl([ProgName|Args]) :- write('Welcome to p-prolog version 1.'), nl, write('Started with args: '), write(Args), nl, flush_output, handle_args(Args), repl_loop. handle_arg('-d') :- set_prolog_flag(debug, on). handle_arg(Arg) :- loader:load_module_from_file(Arg). handle_args([Arg|Rest]) :- catch(handle_arg(Arg), E, handle_arg_error(E)), !, handle_args(Rest). handle_args([]). handle_arg_error(E) :- write('Could not handle arg: '), print_exception(E). repl_loop :- catch(read_eval_print, E, print_exception(E)), '$collect_garbage', repl_loop. read_eval_print :- write('?- '), asserta(found_a_solution :- (!, fail)), read_term(Term, [variable_names(Vars)]), '$choicestack_size'(Choicecount), eval_and_print(Term, Vars, Choicecount), !, abolish(found_a_solution/0). eval_and_print(Goal, Vars0, Choicecount) :- user:call(Goal), rewrite_equations(Vars0, Vars), abolish(found_a_solution/0), asserta(found_a_solution :- !), '$choicestack_size'(ChoicecountNew), ( ChoicecountNew > Choicecount + 1 -> write_result(Vars, more), get_raw_char(Char), ( Char = ';' -> put_char(Char), nl, '$collect_garbage', asserta(found_a_solution :- (!, fail)), fail % backtrack and call G again ; put_char('.'), nl ) ; write_result(Vars, end) ). eval_and_print(Goal, _, _) :- \+ found_a_solution, write('false .'), nl. rewrite_equations(Eqs0, Eqs) :- apply_bindings(Eqs0), remove_identities(Eqs0, Eqs). apply_bindings([]). apply_bindings([A = B|Rest]) :- ( var(B) -> call(B = A) ; true ), apply_bindings(Rest). remove_identities([], []). remove_identities([A = B|Rest0], Result) :- remove_identities(Rest0, Rest), ( A == B -> Result = Rest ; Result = [A = B|Rest] ). write_state(end) :- write('.'), nl. write_state(more). write_result([], State) :- write('true'), write(' '), write_state(State). write_result([B|Bs], State) :- write_bindings([B|Bs]), write(' '), write_state(State). write_bindings([]). write_bindings([Var = Val|Bs]) :- write(Var), write(' = '), write(Val), ( Bs = [] -> true ; put_char(','), nl ), write_bindings(Bs). print_exception(error(E, _)) :- write('Unhandled error: '), % \n\t print_error(E), nl. print_exception(E) :- E \= error(_,_), write('Unhandled exception: '), write(E), nl. print_error(instantiation_error) :- write('instantiation error'). print_error(type_error(ValidType, Culprit)) :- write('type error, expected '), write(ValidType), write(': '), write(Culprit). print_error(domain_error(ValidDomain, Culprit)) :- write('domain error, expected '), write(ValidDomain), write(': '), write(Culprit). print_error(existence_error(ObjectType, Culprit)) :- write('existence error, '), write(Culprit), write(' is not an existing object of type: '), write(ObjectType). print_error(permission_error(Operation, Type, Culprit)) :- write('permission error, cannot '), write(Operation), write(' '), write(Type), write(': '), write(Culprit). print_error(representation_error(Flag)) :- write('representation error: '), write(Flag). print_error(evaluation_error(Error)) :- write('evaluation error: '), write(Error). print_error(resource_error(Res)) :- write('resource error: '), write(Res). print_error(syntax_error(E)) :- write('syntax error: '), write(E). print_error(system_error) :- write('system error'). print_error(E) :- write(E). whitespace(' '). whitespace(' '). whitespace(' '). get_raw_char(Char) :- open('/dev/consctl', write, S), write(S, rawon), get_one_char(Char), write(S, rawoff), close(S). get_one_char(Char) :- get_char(C), ( whitespace(C) -> get_one_char(Char) ; Char = C ).