I want to implement a predicate (vecLine2BitLine) which does the following: get two lists and a number the first list is the length of blocks (the elements of the blocks are '$') and the second list contains the indexes that these blocks should be placed at meaning:
vecLine2BitLine([1,2,1],[2,5,9],12,BitLine). BitLine=[' ','$',' ',' ','$','$',' ',' ','$',' ',' ',' '].
explanation:a block of length 1 is at index 2 and a block of length 2 is at index 5 and so on..
insert_at_mul : inserts an element N times (it works perfectly,dupli and my_flatten were implemented previously so i used them)
Ive been trying to activate insert_at_mul N times when N is the length of the list X and Y in the predicate vecLine2BitLine.
dupli(L1,N,L2) :- dupli(L1,N,L2,N). dupli(,_,,_). dupli([_|Xs],N,Ys,0) :- dupli(Xs,N,Ys,N). dupli([X|Xs],N,[X|Ys],K) :- K > 0, K1 is K - 1, dupli([X|Xs],N,Ys,K1). my_flatten(X,[X]) :- \+ is_list(X). my_flatten(,). my_flatten([X|Xs],Zs) :- my_flatten(X,Y), my_flatten(Xs,Ys), append(Y,Ys,Zs). insert_at_mul(L,X,K,R,N):-dupli([X],N,XX) , insert_at(L,XX,K,L1) , my_flatten(L1,R). get_num_spaces(L,N,X):-sum(L,S), X is N-S. generate_spaces(N,L,X):- insert_at_mul(L,'',1,X,N). vecLine2BitLineAux(,,_,_,_). vecLine2BitLineAux([X|Tail1],[Y|Tail2],N,L,Lnew):- insert_at_mul(L,'*',Y,Lnew,X) ,vecLine2BitLineAux(Tail1,Tail2,N,Lnew,R). // problem here!!! vecLine2BitLine(X,Y,N,L):- get_num_spaces(X,N,Z) , generate_spaces(Z,,ZZ) , vecLine2BitLineAux(X,Y,N,ZZ,L).
now the problem is that in the function vecLine2BitLine i cant activate insert_at_mul N times(thats what i tried to do in this code, but failed).
how can I fix vecLine2BitLine for it to work properly as in returning the correct output by actually activating the predicate insert_at_mul N times?? THANKS! added :
vecLine2BitLine : input parameters : (L1,L2,N,Result) N: after activating the predicate Result will be N in length.
L1: L1 is a list of numbers each number indicates the length of a block, a block is comprised of a Sequence of '$'.
L2: L2 is a list of numbers the numbers are indices for where the blocks in L1 should be placed.
we can look at the input better as tuples :
(3,1) : there is a sequence of '' 3 times at index 1
(2,5) : there is a sequence of '' 2 times at index 5
in our example 9 is the length of BitLine at the end and we have to insert into the
list BitLine 3+2 of the "special chars" '*' but we have 9-(3+2) places left in the list
so we add
'' in those places and then we get: