I'd really like to know why this screws up my code when I use a double. From my understanding, a double is simply a more precise floating point number. Yet in the following code, if I replace float with double, I get a wacky output, even though all the code is doing is taking input, and spitting it back out.

```
#include <stdio.h>
int y;
int z;
int i;
int n;
int r;
int c;
float e;
float d;
void main() {
puts("Enter Row Number:");
scanf("%i", &r);
puts("Enter Column Number:");
scanf("%i", &c);
float x[r][c];
int j = r;
for(y = 1; y <= r; y++) {
for(z = 1; z <= c; z++) {
scanf("%f", &x[y][z]);
}
}
for (y = 1; y <= r; y++) {
for(z = 1; z <= c; z++) {
printf("%g\t", x[y][z]);
}
puts("\n");
}
}
```

In the instance of using float, after inputting 2 for the rows, and 3 for the columns, then the numbers 1-6, I get an output of 1-6, as expected. But with using double's instead, and keeping the input the same as before, I get an output of {1.36224e-312,1.78905e-307, 1.81506e-307, 3.15957e+263, 5.3568e-315, 3.44886e-313}. Obviously that's not even close to correct, and its not like I'm dealing with complex numbers here... Just whole numbers 1-6. What gives?

`%lf`

– nhahtdh Nov 28 '12 at 2:50`x[r][c]`

, valid indices into that array are`0`

..`r-1`

and`0`

..`c-1`

. – Jerry Coffin Nov 28 '12 at 2:52