# How find path at the m x n table

i have table m x n and pairs of points. For example, we can have table 3 x 3 and pairs of points:

A = (1,3),(3,2) B = (1,2),(3,1)

I must find all paths which will be connect points in pairs.This paths can't intersect each other. We can go in left, right, down and up. In preceding example, we have followig paths:

A = (1,3) -> (2,3) -> (3,3) -> (3,2) B = (1,2) -> (2,2) -> (2,1) -> (3,1)

(if is more solve, i would like have all)

Have anyone any concept how can i do it in haskell?

Perhaps you could explain in words your Prolog algorithm

Ok, furthermore i have my code, so:

I have four predicate to go on left, right, up and down.

go((I1,J1),(I2,J2),_,_) :-
J1 is J2,
I2>=2,
I1 is I2 - 1.

go((I1,J1),(I2,J2),_,N) :-
I1 is I2,
J2=<N-1,
J1 is J2 + 1.

go((I1,J1),(I2,J2),M,_) :-
J1 is J2,
I2=<M-1,
I1 is I2 + 1.

go((I1,J1),(I2,J2),_,_) :-
I1 is I2,
J2>=2,
J1 is J2 - 1.

For example go((I,J),(3,3),5,5) returns

(I,J) = (2,3)
(I,J) = (4,3)
(I,J) = (3,2)
(I,J) = (3,4)

Of course, arguments 5 is size of table - here we have table 5x5.

I must knew, when is end of path, so i wrote:

endOfPath((I1,J1),(I2,J2)) :-
I1 == I2,
J1 == J2.

Then I could make predicate which will generate paths from point (I1,J1) to (I2,J2). First we must check if it is end of path:

generatePath((I1,J1),(I2,J2),T,T,_,_,_,B,B) :-
endOfPath((I1,J1),(I2,J2)),!.

If it isn't end of path we must generate paths recursively.

generatePath((I1,J1),(I2,J2), Acc,T,M,N,Input,Bufor,NewBufor) :-
go((I3,J3),(I2,J2),M,N),
\+ member((I3,J3),Bufor),
\+ member((I3,J3),Acc),
\+ member((I3,J3),Input),
generatePath((I1,J1),(I3,J3),[(I3,J3)|Acc],T,M,N,Input,[(I3,J3)|Bufor],NewBufor).

Thus, first we find point which is directly next to (I2,J2), then we check several conditions (for example, if (I3,J3) belong to any other path - it's wrong point). And then we generate path from (I1,J1) to (I3,J3) recursively. We have problem, when (I3,J3) is end of path, because (I3,J3) belong to Input and condition + member((I3,J3),Input) is not fulfilled.

Hence, I wrote the last predicate:

generatePath((I1,J1),(I2,J2), Acc,T,M,N,Input,Bufor,NewBufor) :-
go((I3,J3),(I2,J2),M,N),
\+ member((I3,J3),Acc),
I3 == I1, J3 == J1,
generatePath((I1,J1),(I3,J3),[(I3,J3)|Acc],T,M,N,Input,[(I3,J3)|Bufor],NewBufor).

It was quite easy and gives good results but I don't know how can I make it in Haskell. Really, I have very big problem and please help me.

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What have you tried? Were you able to solve in any other language and struggling with implementing that in haskell? It looks an algortihmic question and not relevant to haskell until you say where you are stuck and need help with haskell implementation. – Satvik Jun 18 '13 at 13:47
I done this task in Prolog. But i don't know how can i find any path between two points. In prolog it was quite easy, but i haven't any idea how can i do this in Haskell. How find any path between two points? – Jacob Jun 18 '13 at 13:58
I think you can tag prolog too and add the prolog code which you have tried. – Satvik Jun 18 '13 at 15:50
Do you have to move towards the other point of not? Could a B path start (1,2) -> (1,3) ? – DiegoNolan Jun 18 '13 at 15:59
@DiegoNolan - B path can't start (1,2) -> (1,3) because point (1,3) belong to path A (and this is start point of this path). – Jacob Jun 18 '13 at 17:22

go m n (i,j) =
[ (i+1,j) | i<m ] ++
[ (i-1,j) | i>1 ] ++
[ (i,j+1) | j<n ] ++
[ (i,j-1) | j>1 ]

-- isEndOfPath p q = p == q

genPath p q acc m n input buf = head \$        -- since you have a cut there
g p q acc buf
where
g p q acc buf | p==q = [(acc,buf)]   -- return acc, buf
g p q acc buf = [s |
r <- go m n q, notElem r buf, notElem r acc,
notElem r input,
s <- g p r (r:acc) (r:buf)] ++
[s |
r <- go m n q, notElem r acc,
r==p,
s <- g p r (r:acc) (r:buf)]
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