# Java 2D array shortest path from point A to point B with obstacles

Objective: Finding the least amount of movement required to reach destination.

Scenario: in a 2D Array 8*8 with elements such as the following:

``````*......B
........
****.**.
.A....*.
........
....**..
........
....*...
``````

where

• " A " represents the starting point.
• " B " represents the destination point.
• " * " represents an obstacle.
• " . " represents an empty cell.

Currently I have done the following code:

``````import java.io.BufferedReader;
import java.io.DataInputStream;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;

class main
{
public static void main(String args[]) throws FileNotFoundException,IOException
{
FileInputStream FS = new FileInputStream("path.in");
DataInputStream DS = new DataInputStream(FS);

int testCase = Integer.parseInt(strLine);

int R,C;

for(int i = 0;i < testCase;i++)
{

String input[] = strLine.split(" ");

R = Integer.parseInt(input[0]);
C = Integer.parseInt(input[1]);

char[][] array = new char[R][C];

int sCoordX = 0;
int sCoordY = 0;
int eCoordX = 0;
int eCoordY = 0;

for(int j = 0; j < R ; j++)
{

for(int k = 0;k < C;k++)
{
array[j][k] = strLine.charAt(k);
if(array[j][k] == 'A')
{
sCoordX = j;
sCoordY = k;
}

if(array[j][k] == 'B')
{
eCoordX = j;
eCoordY = k;
}
}
}

boolean reached = false;
int counter = 0;
int posX = sCoordX;
int posY = sCoordY;
while(!reached)
{
if(array[posX][posY] == 'B')
{
reached = true;
System.out.println("You are in goal!");
System.out.println(array[posX][posY]);
System.out.println("Number of steps:"+counter);
}

if(!reached && posX > eCoordX)
{
posX--;
counter++;
}
else if(!reached && posX < eCoordX)
{
posX++;
counter++;
}

if(!reached && posY > eCoordY)
{
posY--;
counter++;
}
else if(!reached && posY < eCoordY)
{
posY++;
counter++;
}
}
}
}
}
``````

It does the job of finding the "shortest" amount of steps required to reach the destination however it will consider anything/obstacles as empty cells that it can move to.

I'm currently unable to figure out a way to code it in a way that will allow it to recognize a proper decision for the next movement.

I'm thinking of using array lists and some algorithm,however I tried reading some algorithms such as the Dijkstra's algorithm but it seemed really confusing,can anybody help me understand it in a very easy manner to implement it in java?

//-(sorry for my coding skills,I'm still a beginner)-

-
Google for A*-Algorithm – MrSmith42 Feb 2 '13 at 17:55