# displaying more than one possibility answer for n-queen problems

I have some code for displaying the n-queens problem in a console, based on the board size number the user inputted.

Here's the code:

``````#include <windows.h>
#include <iostream>
#include <string>

using namespace std;

class point
{
public:
int x, y;
point() { x = y = 0; }
void set( int a, int b ) { x = a; y = b; }
};

class nQueens
{
public:
void solve( int c )
{
_count = c;
int len = (c + 1) * (c + 1);
_queens = new bool[len]; memset( _queens, 0, len );
_cl = new bool[c]; memset( _cl, 0, c );
_ln = new bool[c]; memset( _ln, 0, c );
point pt; pt.set( rand() % c, rand() % c );
putQueens( pt, c );
displayBoard();
delete [] _queens; delete [] _ln; delete [] _cl;
}

private:
void displayBoard()
{
system( "cls" );
const string t = "+---+", q = "| Q |", s = "|   |";
COORD c = { 0, 0 };
HANDLE h = GetStdHandle( STD_OUTPUT_HANDLE );
for (int y = 0, cy = 0; y < _count; ++y)
{
int yy = y * _count;
for ( int x = 0; x < _count; x++ )
{
SetConsoleCursorPosition( h, c ); cout << t;
c.Y++; SetConsoleCursorPosition( h, c );
if (_queens[x + yy]) cout << q; else cout << s;
c.Y++; SetConsoleCursorPosition( h, c );
cout << t; c.Y = cy; c.X += 4;
}
cy += 2; c.X = 0; c.Y = cy;
}
}

bool checkD( int x, int y, int a, int b )
{
if ( x < 0 || y < 0 || x >= _count || y >= _count ) return true;
if ( _queens[x + y * _count] ) return false;
if ( checkD( x + a, y + b, a, b ) ) return true;
return false;
}

bool check( int x, int y )
{
if ( _ln[y] || _cl[x] )        return false;
if ( !checkD( x, y, -1, -1 ) ) return false;
if ( !checkD( x, y,  1, -1 ) ) return false;
if ( !checkD( x, y, -1,  1 ) ) return false;
if ( !checkD( x, y,  1,  1 ) ) return false;
return true;
}

bool putQueens( point pt, int cnt )
{
int it = _count;
while (it)
{
if ( !cnt ) return true;
if ( check( pt.x, pt.y ) )
{
_queens[pt.x + pt.y * _count] = _cl[pt.x] = _ln[pt.y] = true;
point tmp = pt;
if ( ++tmp.x >= _count ) tmp.x = 0;
if ( ++tmp.y >= _count ) tmp.y = 0;
if ( putQueens( tmp, cnt - 1 ) ) return true;
_queens[pt.x + pt.y * _count] = _cl[pt.x] = _ln[pt.y] = false;
}
if ( ++pt.x >= _count ) pt.x = 0;
it--;
}
return false;
}

int          _count;
bool*        _queens, *_ln, *_cl;
};

int main( int argc, char* argv[] )
{
nQueens n; int nq;
while( true )
{
system( "cls" );
cout << "Enter board size bigger than 3 (0 - 3 to QUIT): "; cin >> nq;
if ( nq < 4 ) return 0;
n.solve( nq ); cout << endl << endl;
system( "pause" );
}
return  0;
}
``````

The console display is like this. Let's say I input 4:

Then the result:

I want to know if I can add another possibility in the application, because a 4x4 board can have 2 solutions to it. Some help would be appreciated - thanks!

ps: the code isn't fully created by me, i totally forgot how i got the first code algorithm, i take no credit for this code :)

-

I think your algorithm generates only 1 answer. You should organise it in a way, when next answer can be calculated from the stored states of board & queens.

``````NQueens q;
while(q.next()) // search next solution
{
q.clearScreen(); // OR clrscr();
q.displayBoard();
char c = getch();
if(c != ' ') break; // Interrupt loop when user press key, but not space
// When user press space he will see next answer
}
``````
-
i tried to "re-arrange" the code, as you suggest, but all it does still displaying one solution. –  Abie Giordano Jan 6 at 3:50
``````#include <iostream>

using namespace std;

const int N = 5;
int position[N];

// Check if a position is safe
bool isSafe(int queen_number, int row_position)
{
// Check each queen before this one
for(int i=0; i<queen_number; i++)
{
// Get another queen's row_position
int other_row_pos = position[i];

// Now check if they're in the same row or diagonals
if(other_row_pos == row_position || // Same row
other_row_pos == row_position - (queen_number-i) || // Same diagonal
other_row_pos == row_position + (queen_number-i))   // Same diagonal
return false;
}
return true;
}

// Recursively generate a tuple like [0 0 0 0], then [0 0 0 1] then etc...
void solve(int k)
{
if(k == N) // We placed N-1 queens (0 included), problem solved!
{
// Solution found!
cout << "Solution: ";
for(int i=0; i<N; i++)
cout << position[i] << " ";
cout << endl;
}
else
{
for(int i=0; i<N; i++) // Generate ALL combinations
{
// Before putting a queen (the k-th queen) into a row, test it for safeness
if(isSafe(k,i))
{
position[k] = i;
// Place another queen
solve(k+1);
}
}
}
}

int main()
{
solve(0);

return 0;
}
``````

Hope this helps :)

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i just able to log-on, sorry but i can't seem to understand your answer's point, could you explain your answer again? when i compile it, all i see is something like = (Solution: 0 2 4 1 3, Solution: 0 3 1 4 2, etc), i was hoping for the graphical solution :) thanks –  Abie Giordano Jan 5 at 12:59

Instead of `return true` here:

``````if( !cnt )
return true;
``````

have it display the result (ie. call `displayBoard`) and then return `false`. This will cause the solver to continue until it exhausts all possibilities.

You will want to remove the call to `displayBoard` in `solve`, and you may want to adjust the places you're calling `system("CLS")` in order to get an overall result you like.

-
you mean replace all "return true" with "if (!cnt) return true;"? –  Abie Giordano Jan 5 at 13:12
``````if( !cnt )
return true;
``````

have it display the result (ie. call `displayBoard`) and then `return false`. This will cause the solver to continue until it exhausts all possibilities.

You will want to remove the call to `displayBoard` in solve, and you may want to adjust the places you're calling system("`CLS`") in order to get an overall result you like.

-