% ================================================================= :- pred constr(bool). :- mode constr(in). :- ignore constr/1. % ================================================================= % Program. % Delete all multiple copies on lists leaving one copy only. :- pred list_deletecopies(list(int),list(int)). :- mode list_deletecopies(in,out). list_deletecopies([],[]). list_deletecopies([X],[X]). list_deletecopies([X,X|T], ResT) :- cons(X,T,XT), list_deletecopies(XT,ResT). list_deletecopies([X,Y|T], [X|ResT]) :- constr(~(X=Y)), cons(Y,T,YT), list_deletecopies(YT,ResT1), deleteall(X,ResT1,ResT). % all elements X are deleted from a list, producing a new list. :- pred deleteall(int,list(int),list(int)). :- mode deleteall(in,in,out). deleteall(X,[],[]). deleteall(X,[X|T],Res) :- deleteall(X,T,Res). deleteall(X,[H|T],[H|ResT]) :- constr(~(X=H)), deleteall(X,T,ResT). :- pred cons(int,list(int),list(int)). :- mode cons(in,in,out). cons(H,T,[H|T]). % ================================================================= % catamorphism :- pred listcount(int,list(int),int). :- mode listcount(in,in,out). :- cata listcount/3-2. listcount(X,[],N) :- N=0. listcount(X,[H|T],N) :- constr( (N=ite(X=H,(NT+1),NT)) ), listcount(X,T,NT). % % ================================================================= % Verification. % Property: :- pred ff1. ff1 :- constr(~(LN>=1 => SN=1)), listcount(X,L,LN), listcount(X,S,SN), list_deletecopies(L,S). % %:- spec deleteall(X,L,L1) ==> listcount(Y,L,LS), listcount(Y,L1,L1S) => constr(true). % %:- spec cons(H,T,HT) ==> listcount(X,T,TN), listcount(X,HT,HTN) => constr(true). % ================================================================= :- query ff1/0. % ================================================================= % Catamorphic abstraction :- cata_abs list(int) ==> listcount(X,L,LN). % =================================================================