In the ray tracing assignment I'm doing, I've to calculate the X-offset of the ray shooting from the camera; the offset calculation goes like this

`FovY`

is given as an input; I've remebered to convert it to radians the moment I read the variable.

`OffsetX = tan (FovX / 2) * ((col - (width / 2)) / (width / 2))`

`FovX = tan(FovY / 2) * aspect = tan(FovY / 2) * (width / height)`

Substituting in the original equation and writing the code:

```
float OffsetX = tan(FovY / 2.0f) * (width / height) * ((col - (width / 2.0f)) / (width / 2.0f));
```

gave me an incorrect stretched image, and it took me hours to get it right, which was after finding out that the same equation works after simplifying it.

Final rearranged equation was:

```
float OffsetX = tan(FovY / 2.0f) * (2.0f / height) * (col - (width / 2.0f));
```

I tried debugging and indeed the results were different for both equations.

Would there be any round off error of some sort? Can someone please explain this quirkiness to me?

```
#include <cmath>
#include <iostream>
#include <cstdint>
using namespace std;
int main()
{
const float PI = 3.1415f;
const uint32_t width = 160, height = 120;
const auto fovy = (30.0f * (PI / 180.0f));
size_t j = 0;
auto alpha = (tan(fovy / 2.0f) * (width / height)) * (((j + 0.5f) - (width / 2.0f)) / (width / 2.0f));
cout << alpha << endl;
alpha = tan(fovy / 2.0f) * (2.0f / height) * ((j + 0.5f) - (width / 2.0f));
cout << alpha << endl;
}
```