# 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[19][19];
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   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. – Joachim Pileborg 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
``````
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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[19][19]` 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][0] cell the sum of teh second diagonal. – srbhkmr Dec 9 '12 at 7:24