# How to find escape routes from one point to another in a matrix?

This is not a homework. It's just a practice question.

Given a matrix find the number of possible escape routes from (0,0) to (N,N). You cannot move diagonally.

A '0' position represents an open cell, while a '1' represents a blocked cell. I started my journey from (0,0) and had to reach (N,N).

Input format

First line is a single odd positive integer, T (<= 85), which indicates the size of the matrix. T lines follow, each containing T space separated numbers which are either '0' or '1'.

Output format

Output the number of ways in which I could have escaped from (0,0) to (N,N).

Sample Input

``````7
0 0 1 0 0 1 0
1 0 1 1 0 0 0
0 0 0 0 1 0 1
1 0 1 0 0 0 0
1 0 1 1 0 1 0
1 0 0 0 0 1 0
1 1 1 1 0 0 0
``````

Sample Output

``````4
``````

According to my solution I have taken four directions - left (l), right(r), up(u), down(d).

The problem is that it is giving a wrong answer or a stackoverflow error. What is missing?

And is this the optimal solution to this question?

My Solution (Java)

``````import java.io.BufferedReader;

class testclass {
int no_of_escapes = 0 ;
int[][] arr;
int matrixlength;
public static void main(String[] args) throws Exception
{

testclass obj = new testclass();
obj.checkpaths(0,0,"");
System.out.print(obj.no_of_escapes);

}//main

testclass()
{
try
{
arr = new int[matrixlength][matrixlength];
for( int k = 0; k < matrixlength; k++){

int count = 0;
for(int j=0 ; j< ((2*matrixlength)-1); j++){
int v = (int)str.charAt(j) - 48;
if(v == -16){}
else{
arr[k][count] = v;
count++;
}

}//for j

}//for k

}
catch(Exception e){}
}

public void checkpaths(int m, int n,String direction){

if((m == matrixlength -1) && (n == matrixlength-1))
{
no_of_escapes = no_of_escapes +1;
return;
}

if(!direction.equals("l"))
{
if(m < matrixlength && n < matrixlength)
{
if((n+1) < matrixlength )
{
if(arr[m][n+1]==0 )
{
checkpaths(m,n+1,"r");
}
}
}
}

if(!direction.equals("u"))
{
if((m+1) < matrixlength )
{
if(arr[m+1][n]==0 )
{
checkpaths(m+1,n,"d");
}
}
}

if(!direction.equals("r"))
{
if(m < matrixlength && n < matrixlength)
{
if((n+1) < matrixlength )
{
if(arr[m][n+1]==0 )
{
checkpaths(m,n+1,"l");
}
}
}
}

if(!direction.equals("d"))
{
if((m-1)>=0)
{
if(arr[m-1][n]==0 )
{
checkpaths(m-1,n,"u");
}

}

}

}
}//class
``````
-
I think you get a stackoverflow because there is a possible cycle in the instance you showed. When checking a path, make sure you don't use the same cell twice. –  Heuster Jun 9 '13 at 13:37
How should I keep a check on that ? Another data structure or there is a simpler way ? –  Roopali Bansal Jun 9 '13 at 13:44

I would keep a second 2D array of booleans to mark the cells you already visited, as shown in the snippet below. I also simplified some other parts of the code, to reduce code-duplication.

Of course, you need to initialize `visited` in your constructor, just as you initialized `arr`, by using `visited = new boolean[matrixLength][matrixLength]`.

``````int[][] arr;
boolean[][] visited;
final int[][] directions = {{-1, 0}, {1, 0}, {0, -1}, {0, 1}};

public boolean isValid(int x, int y) {
return 0 <= x && x < matrixLength
&& 0 <= y && y < matrixLength
&& arr[x][y] == 0
&& !visited[x][y];
}

public void checkPaths(int x, int y) {
if (x == matrixLength-1 && y == matrixLength-1) {
no_of_escaped++;
} else {
for (int[] d : directions) {
if (isValid(x + d[0], y + d[1])) {
visited[x + d[0]][y + d[1]] = true;
checkPaths(x + d[0], y + d[1]);
visited[x + d[0]][y + d[1]] = false;
}
}
}
}
``````
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