# Move Element of a list in Prolog

I would like to move elements in a list in prolog to a new location within the same list, similar to a cut & paste operation.

For example, if i have the list [1,2,3,4,5]

I want something like:

move(List, D1, D2, D3, Newlist)

List = original list, D1 = from what element, D2 = to what element of the list, D3 destination in the list.

An example:

move([1,2,3,4,5,6,7,8,9], 1, 3, 5, NewList) :- (Implementation).

NewList = [4,5,1,2,3,6,7,8,9].

I made that for when D3 > D2, and something similar for the case when D2 < D3, but I think that I don't have it right.

% Move D3 > D2 & D2
move([X|L], D1, D2, D3, Resultado) :-
movevalue([X|L], D1, D2, Z),
moveinsert([X|L], Z, D3, ParteB),
primerapartel([X|L], D3, PrimeraParte),
deleting(PrimeraParte, D1, D2, ParteA),
!.

movevalue([X|L], D1, D2, Z) :-
D1 > 1,
E1 is D1 - 1,
E2 is D2 - 1,
movevalue(L, E1, E2, Z),
!.
movevalue([X|L], 1, D2, [X|Z]) :-
D2 > 0,
E2 is D2 - 1,
movevalue(L, 1, E2, Z).
movevalue([X|L], 1, 0, Z) :-
Z = [].

D3 > 1,
E3 is D3 - 1,
!.

%Primera parte L
N > 0,
N1 is N - 1,
!.

!.

D1 > 1,
E1 is D1 - 1,
E2 is D2 - 1,
D2 > 1,
E2 is D2-1,

D1 > 1,
E1 is D1 - 1,
E2 is D2 - 1,
D2 > 1,
E2 is D2 - 1,
-
some effort from your side ? –  CapelliC Jun 29 '13 at 5:47
@CapelliC Now I pasted what I do in one of the cases,I don't need that someone made the code,the idea on how to do it in a good way is when I'm lost,I get a solution but the problem is that I think that is not really the really best way to do that, I Didn't think for do that thing I expended 25 lines(when doing all the cases), I think that could be optimized, but I have been working with this for 2 days and didn't get a good advance on the way who solve it on the optimal way. Thanks anyways for your answer :) –  Ricardo Umpierrez Jun 29 '13 at 6:47
Putting each rule entirely on one line doesn't make for very readable code. –  Marcelo Cantos Jun 29 '13 at 7:07
@MarceloCantos fixed! on the apge that you write,seems different that when it get posted!,anyway fixed –  Ricardo Umpierrez Jun 29 '13 at 7:24
That made it worse. I've amended the question myself. –  Marcelo Cantos Jun 29 '13 at 7:51

You have found the hard way that Prolog lists are not easy to handle by index.

To make the problem more declarative, and thus amenable to be solved in Prolog, I would separate the indexing from mapping, with the help of length/2 and nth1/3.

To begin, we know that Result will have the same length as List. Enforce this:

move(List, Start, Stop, Target, Result) :-
length(List, N),
length(Result, N),
move_elements(1, N, List, Start, Stop, Target, Result).

Moving elements around requires mapping an index from List to Result, and we must do for each element:

/* edit: see the code below - this is buggy
move_elements(I, N, _List, _Start, _Stop, _Target, _Result) :-
I =:= N + 1.
move_elements(I, N, List, Start, Stop, Target, Result) :-
nth1(I, List, E),
index_map(I, Start, Stop, Target, P),
nth1(P, Result, E),
J is I + 1,
move_elements(J, N, List, Start, Stop, Target, Result).
*/
move_elements(I, N, List, Start, Stop, Target, Result) :-
I =< N,
nth1(I, List, E),
index_map(I, Start, Stop, Target, P),
nth1(P, Result, E),
J is I + 1,
!, move_elements(J, N, List, Start, Stop, Target, Result).
move_elements(_I, _N, _List, _Start, _Stop, _Target, _Result).

We are left with the hard part: index_map must do some arithmetic, juggling among available positions. I think the problem is a bit underspecified so far. Here is just the basic case, covering your test query:

index_map(I, Start, Stop, Target, P) :-
I >= Start,
I =< Stop,
P is Target - (Stop - Start + 1) + I.
index_map(_I, _Start, _Stop, _Target, _P).

You should add more test to specify more constraint, but note that the last clause of index_map/5 allows Prolog to search a matching element (via nth1(P, Result, E)), thus completing the mapping in simple way.

edit: With help from foreach/2 we can avoid looping

move(List, Start, Stop, Target, Result) :-
length(List, N),
length(Result, N),
foreach(nth1(I, List, E), assign(I, E, Start, Stop, Target, Result)).

assign(I, E, Start, Stop, Target, Result) :-
index_map(I, Start, Stop, Target, P),
nth1(P, Result, E).
-