# printing paths from arrays?

I have a 2d array `a[3][3]` and the program reads 2 sets of IDs for 2 numbers on the array. I need to print all the possible paths from one number to another.

So far, I know how to find how many paths exist every time:

``````scanf("%d %d",&ai,&aj);
scanf("%d %d",&bi,&bj);

distance_i = bi - ai;
if(distance_i<0){distance_i=distance_i*-1;}
distance_j = bj - aj;
if(distance_j<0){distance_j=ap_j*-1;}
path = 1+(distance_i*distance_j);
``````

For example, if the array a is:

``````1 2 3
4 5 6
7 8 9
``````

With

``````input_1: 0,0
input_2: 1,2
``````

The output must be:

``````there are 3 possible paths:
a) 1,2,5,8
b) 1,4,5,8
c) 1,4,7,8
``````

But I can't find a way to print them. Any ideas?

-
Please explain what “all the possible paths” means. Post how you “find how many routs exist every time”. –  Dour High Arch Nov 17 '13 at 20:45
You may find helpful Lee's algorithm, even though not much related to your actual problem: en.wikipedia.org/wiki/Lee_algorithm –  Cristy Nov 17 '13 at 20:46
If you show the code you have to find the routes, someone may be able to tell you how to print them. –  Emmad Kareem Nov 17 '13 at 20:50
If you'd could come up with a title that describes a little bit more of your technical problem (and not your problem in life that results of it) you might perhaps see a way to solve this yourself. –  Jens Gustedt Nov 17 '13 at 21:51

You will use backtracking (Depth-First Search) to find all possible routes.

See program test here http://ideone.com/GqWLa5

``````#define VALID(x) ((x) >= 0 && (x) < 3)

int arr[3][3];

// to detect previous visited cells and eliminate infinite recursion
short vis[3][3] = { 0 };

int xtar, ytar; // destination cell
int xsrc, ysrc; // source cell

// to move in directions: down, up, right, and left, respectively
const int dirx[] = { 0, 0, 1, -1 };
const int diry[] = { 1, -1, 0, 0 };

// temp buffer to print paths
// max size = size of arr + zero termination char
char tmp_path[3 * 3 + 1];

void rec(int x, int y, int idx) // idx is used to fill tmp_path
{
int i;
tmp_path[idx] = arr[y][x] + '0';
if (x == xtar && y == ytar) // basic case
{
tmp_path[idx + 1] = 0; // put zero char
printf("%s\n", tmp_path); // print path
return;
}
if (vis[y][x]) return; // already visited
vis[y][x] = 1; // otherwise, mark as visited
for (i = 0; i < 4; ++i) // for each of the 4 directions
if (VALID(y + diry[i]) && VALID(x + dirx[i]))
rec(x + dirx[i], y + diry[i], idx + 1);
vis[y][x] = 0; // reset visited so that can be visited again
}

main()
{
// input xtar, ytar, xsrc, ysrc, arr
rec(xsrc, ysrc, 0);
}
``````
-
well that seems to be it. but it's way more advanced than the things we learned so far in the school –  user1824034 Nov 17 '13 at 22:45
Review the link in the answer. It prints all paths. I don't think there is a simpler method, unless you mean another thing by "all possible routes" which are not clear enough. –  Desolator Nov 17 '13 at 23:00
no, thats exactly what i need but more simplified –  user1824034 Nov 17 '13 at 23:02
Then you need to take a look at the other answer. He gives you only the algorithm, and you have to write its C code. –  Desolator Nov 17 '13 at 23:11
here is what i got so far [link]pastebin.com/yqydDRJQ –  user1824034 Nov 17 '13 at 23:39

From location[v1][h1] to location[v2][h2]

Move kinds are: `DOWN, RIGHT`

The width is: `(v2-v1) * DOWN`

The height is: `(h2-h2) * RIGHT`

=> all path choice action list: `[width, height] = [(v2-v1) * DOWN, (h2-h2) * RIGHT]`

Example: from location[0][0] to location [2][1]

action list `= [DOWN, DOWN, RIGHT]`

all unique path choices are (It make minus the duplicate repeated permutation from a given list):

[DOWN, DOWN, RIGHT]

[DOWN, RIGHT, DOWN]

[RIGHT, DOWN, DOWN]

-