# Magic Square, I can't get this to sum the rows, columns, and diagonals

I need to sum and output the rows, columns, and main diagonals. Can someone please tell me what I'm doing wrong? This is the code I was given to use but I can't seem to get it to output my sums. I put a comment in the code below where I beleive my problem exist, where it starts summing and where it stops. I would appreciate any help as I am having trouble figuring this out on my own. The output should a 3 x 3 matrix with the sums of the rows, columns and diagonals in a fourth row and column to equal 15. My output is not summing the rows, columns, and diagonls.

#include <iostream>
#include <fstream>
#include <iomanip>

using namespace std;

int main()
{

int n = 3;
int row, col, r, c, i, j, k, diag=0;
int magic;
ofstream fout;
fout.open("p4-out.txt");

for(j=0 ; j<n+1 ; j++){
for(k=0 ; k<n+1 ; k++)
magic[j][k] = 0;}

row=1; col=(n+1)/2;
magic[row-1][col-1]=1;

for(i=2 ; i<=(n*n) ; i++){
row-=1; col-=1;
if(row==0 && col==0){col++; row+=2;}
else if(row==0) row=n;
else if(col==0) col=n;
else if(magic[row-1][col-1]!=0)
{col++; row+=2;}
magic[row-1][col-1]=i;}

for(r=0; r<n; r++){
for(c=0; c<n; c++)
magic[r][n]+=magic[r][c];}

for(c=0; c<n; c++){
for(r=0; r<n; r++)
magic[n][c]+=magic[r][c];}

for(r=0; r<n; r++){
magic[n][n]+=magic[r][r];}

for(r=1; r<(n-1); r++){
c = n - r + 1;
diag+=magic[r][c];}

for(r=0; r<(n+1) ; r++){
fout << endl;
for(c=0; c<(n+1) ; c++)
{fout << setw (5) << magic[r][c];}
fout << endl;}
return 0;
}

// This my output.
15 <---// I need this 15 to go

6    1    8   15                       |
|
7    5    3   15                       |
|
2    9    4   15                       |
|
  15   15   15   15                       |
^-------------<------------<----------<-------|
here

• What's the expected output, and what's the actual output? Have you tried running it in a debugger, stepping though line-by-line, while checking variables and logic? Also, try asking on codereview.stackexchange.com instead. – Some programmer dude Dec 9 '12 at 4:22

Using proper indexing would fill up your sum rows and columns too, try:

 for(r=0; r<n; r++){                       //Where it should start summing
for(c=0; c<n; c++){
magic[r][n]+=magic[r][c];}
}

for(c=0; c<n; c++){
for(r=0; r<n; r++){
magic[n][c]+=magic[r][c];}
}
for(r=0; r<n; r++){
magic[n][n]+=magic[r][r];
}
for(r=0; r<n; r++){
c = n - r + 1;
diag+=magic[r][c];}              //where it should stop summing

• I erased my last comment because i was wrong. It worked. Thank you so very much. Thank you, Thank you – Aaron Dec 9 '12 at 4:50
• If anyone is still reading this, there are two main diagonals, one running from top left to bottom right and one running from bottom left to top right. I need the one running from bottom left to top right to output to the left bottom corner running in the direction of that diagonal. – Aaron Dec 9 '12 at 6:25
• I see you've edited the question. You have to make sure you are filling up the magic matrix with proper indices to get the desired output. i.e. leave first column empty(0) starting all the col indices from 1 on-wards, later you can add to the magic[n] cell the sum of teh second diagonal. – srbhkmr Dec 9 '12 at 7:24