| conjunction_list(C, [C]) :- not(C = (_,_)). | |
| conjunction_list(C, [P|R]) :- C = (P,Q), conjunction_list(Q, R). | |
| curly_square({}, []). | |
| curly_square({C}, L) :- once(conjunction_list(C, L)). | |
| curly_head_taila(Head1,C1,C2) :- | |
| curly_square(Head1,[C1|C2]). | |
| square_to_round(A,B) :- | |
| conjunction_list(B,A),!. | |
| round_to_curly(A,B) :- | |
| square_to_round(C,A),curly_square(B,C),!. | |
| /* | |
| t_or_empty([t,_]). | |
| t_or_empty({[t,_]}). | |
| t_or_empty([]). | |
| %curly_head_taila(T,H,Ta),%,append(List1,T,List2), | |
| %!. | |
| curly_head_taila(Head1,C1,C2) :- | |
| Head1 =.. [{}, Round_bracket_list], | |
| curly_head_tail1a(Round_bracket_list,[],[Head1a|Head1b]), | |
| (Round_bracket_list =.. [{}, _]-> (square_to_curly(Head1a,C1),( | |
| %(Head1b =.. [{}, _]-> square_to_curly(Head1b,C2); | |
| Head1b=C2))%) | |
| ; | |
| [Head1a|Head1b]=[C1|C2]),!. | |
| curly_head_tail1a(T,List1,List2) :- t_or_empty(T),append(List1,[T],List2),!. | |
| %curly_head_tail1([T],List1,List2) :- t_or_empty(T),append(List1,%[[T]],List2),!. | |
| curly_head_tail1a(Round_bracket_list,List1,List2) :- | |
| curly_head_taila(Round_bracket_list,List3,List4), | |
| append(List1,[[List3|List4]],List2). | |
| curly_head_tail1a(Round_bracket_list,List1,List2) :- | |
| %t_or_empty(T), | |
| Round_bracket_list =.. [',', T, B], | |
| %curly_head_tail(T,_,_), | |
| append(List1,[T],List3), | |
| (B=..[{}, _]->append(List3,[B],List2); | |
| curly_head_tail1a(B,List3,List2)),!. | |
| % | |
| square_to_curly(A,B) :- | |
| square_to_round(A,C),round_to_curly(C,B). | |
| round_to_curly(A,B) :- | |
| B=..[{},A]. | |
| % square_to_round([1,2,3],A). | |
| % A = (1, 2, 3). | |
| square_to_round(A,C) :- | |
| %t_or_empty(T), | |
| ((A=[D]%,D=T | |
| )-> | |
| C=(D); | |
| (A=[D|E],%not(T=A), | |
| square_to_round(E,F), | |
| C=..[',',D,F])),!. | |
| */ |