# Knight Tour C++

I am trying to solve Knight Tour Problem using recursive Backtracking. Can someone help me optimize my code. My code works till 6X6 board. . After N=7 it takes almost infinite time to solve . Here is my code :

``````#include <iostream>
#include "genlib.h"
#include "grid.h"
#include "vector.h"
#include <iomanip>

const int NOT_VISITED = -1;
//Size of the board
const int N = 6;
const int N2 = N*N;

typedef Grid<int> chess;

struct position{
int row;
int col;
};

//Initializes the board and makes each and every
//square value as NOT_VISITED
void initializeBoard(chess &board)
{
for(int i=0;i<board.numRows();i++)
for(int j=0;j<board.numCols();j++)
board[i][j] = NOT_VISITED;
}

//Returns true if the square is visited;
bool visited(chess &board,position square)
{
return board[square.row][square.col ] != NOT_VISITED;
}

//Returns true if the givien position variable is outside the chess board
bool outsideChess(chess &board, position square)
{
if(square.row <board.numRows() && square.col <board.numCols() && square.row >=0 && square.col >=0)
return false;
return true;
}

void visitSquare(chess &board,position square,int count)
{
board[square.row] [square.col] = count;
}

void unVisitSquare(chess &board,position square)
{
board[square.row] [square.col] = NOT_VISITED;
}

position next(position square,int irow, int icol)
{
square.row += irow;
square.col += icol;
return square;
}
Vector<position> calulateNextSquare(chess board,position square)
{
Vector<position> list;
for(int i=-2;i<3;i=i+4)
{
for(int j=-1;j<2;j=j+2)
{
}
}
return list;

}

bool knightTour(chess &board,position square, int count)
{
//cout<<count<<endl;
//Base Case if the problem is solved;
if(count>N2)
return true;
if(outsideChess(board,square))
return false;
//return false if the square is already visited
if(visited(board,square))
return false;
visitSquare(board,square,count);
Vector<position> nextSquareList = calulateNextSquare(board,square);
for(int i=0;i<nextSquareList.size();i++)
if(knightTour(board, nextSquareList[i], count+1))
return true;
unVisitSquare(board,square);
return false;
}

void printChess(chess &board)
{
for(int i=0;i<board.numRows();i++)
{
for(int j=0;j<board.numCols();j++)
cout<<setw(4)<<board[i][j];
cout<<endl;
}
}

int main()
{
chess board(N,N);
initializeBoard(board);
position start;
start.row = 0; start.col = 0;
if(knightTour(board,start,1))
printChess(board);
else
cout<<"Not Possible";
return 0;
}
``````

i am using Stanford 106B Libraries( grid is a 2 dimensional vector ) Visual studio 2008 Blank project with required library files https://docs.google.com/viewer?a=v&pid=explorer&chrome=true&srcid=0BwLe9NJT8IreNWU0N2M5MGUtY2UxZC00ZTY2LWE1YjQtMjgxYzAxMWE3OWU2&hl=en

-
"Almost infinite"? –  spraff Oct 6 '11 at 15:56
Ran for half an hour still couldn't get output for 8X8..Even though its not infinity but still its lot of time for such a problem ... –  Ganesh Oct 6 '11 at 16:05

I'd say, for a start, get rid of this:

``````Vector<position> nextSquareList = calulateNextSquare(board,square);
``````

creating a Vector on each step will take a lot of time. You could either use an array (fixed sized, since you know there are 8 possible moves), or unroll the loop entirely. Compare with this version, similar to yours.

-
Thanks it worked! –  Ganesh Oct 6 '11 at 16:05

Some modifications I would like to suggest:

``````#include <iostream>
#include "genlib.h"
#include "grid.h"
#include "vector.h"
#include <iomanip>

const int NOT_VISITED = -1;
//Size of the board
const int N = 6;
const int N2 = N*N;

typedef int chess[N][N]; // <------------- HERE

struct position{
int row;
int col;
};

//Initializes the board and makes each and every
//square value as NOT_VISITED
void initializeBoard(chess &board)
{
for(int i=0;i<board.numRows();i++)
for(int j=0;j<board.numCols();j++)
board[i][j] = NOT_VISITED;
}

//Returns true if the square is visited;
bool visited(chess &board,position square)
{
return board[square.row][square.col ] != NOT_VISITED;
}

//Returns true if the givien position variable is outside the chess board
bool outsideChess(chess &board, position square)
{
if(square.row <board.numRows() && square.col <board.numCols() && square.row >=0 && square.col >=0)
return false;
return true;
}

void visitSquare(chess &board,position square,int count)
{
board[square.row] [square.col] = count;
}

void unVisitSquare(chess &board,position square)
{
board[square.row] [square.col] = NOT_VISITED;
}

position next(position square,int irow, int icol)
{
square.row += irow;
square.col += icol;
return square;
}
void calulateNextSquare(chess board,position square, Vector<position>& list)  // <------------- HERE
{
// ------------- HERE
//Also, change this part to add only unvisited and not out-of-board positions.
for(int i=-2;i<3;i=i+4)
{
for(int j=-1;j<2;j=j+2)
{
}
}
}

bool knightTour(chess &board,position square, int count)
{
//cout<<count<<endl;
//Base Case if the problem is solved;
if(count>N2)
return true;
if(outsideChess(board,square))
return false;
//return false if the square is already visited
if(visited(board,square))
return false;
visitSquare(board,square,count);
Vector<position> nextSquareList;  // <------------- HERE
calulateNextSquare(board,square,nextSquareList);
for(int i=0;i<nextSquareList.size();i++)
if(knightTour(board, nextSquareList[i], count+1))
return true;
unVisitSquare(board,square);
return false;
}

void printChess(chess &board)
{
for(int i=0;i<board.numRows();i++)
{
for(int j=0;j<board.numCols();j++)
cout<<setw(4)<<board[i][j];
cout<<endl;
}
}

int main()
{
chess board(N,N);
initializeBoard(board);
position start;
start.row = 0; start.col = 0;
if(knightTour(board,start,1))
printChess(board);
else
cout<<"Not Possible";
return 0;
}
``````

But please note that you still have a exponential complexity, and optimizing your code wont change it.

-
This wouldn't help on any decent compiler with NRVO. –  jpalecek Oct 6 '11 at 15:54
@jpalecek Sure, the main optimization I suggest was inside calculateNextSquare... To dont add what is invalid. –  André Puel Oct 6 '11 at 17:07
you mainly changed the signature of calculateNextSquare, that wouldn't help. The changes inside claculateNextSquare (suggested by comment) robably wouldn't help much, either. –  jpalecek Oct 6 '11 at 17:18