:- pred constr(bool). :- mode constr(in). :- ignore constr/1. :- type tree(int) ---> leaf ; node( int, tree(int), tree(int) ). % empty tree key left-subtree right-subtree % Note: duplicates are NOT allowed. % ========================================================== % Program. % Binary Search Tree - duplicates not allowed. :- pred bstinsert(int,tree(int),tree(int)). :- mode bstinsert(in,in,out). bstinsert(X,leaf,node(X,leaf,leaf)). bstinsert(X,node(A,L,R), node(A,L,R)) :- constr(X=A). bstinsert(X,node(A,L,R), node(A,L1,R)) :- constr(X N>MaxL)) & (LeqRight=(IsDefR => NMaxR, ite(MaxL>N,MaxL,N), ite(MaxR>N,MaxR,N) ), % max(MaxL,max(MaxR,N)) ite(IsDefL, ite(MaxL>N,MaxL,N), % max(MaxL,N) ite(IsDefR & MaxR>N,MaxR,N))))). % max(MaxR,N) :- pred treemin(tree(int),bool,int). :- mode treemin(in,out,out). :- cata treemin/3-1. treemin(leaf,IsDef,Min) :- constr(~IsDef & Min=0). treemin(node(N,L,R),IsDef,Min) :- treemin(L,IsDefL,MinL), treemin(R,IsDefR,MinR), constr(IsDef & (Min= ite(IsDefL & IsDefR, ite(MinL C2=ite(X=Y, 1, C1 ) ) ), bstree(T1,B1), treecount(X,T1,C1), bstinsert(Y,T1,T2), treecount(X,T2,C2). % ========================================================== :- query ff1/0. % ==========================================================