I thought this will be simple and straightforward, but it is not. I have a camera in openGL application and I am transforming the displayed image respectively to camera "location". Location is changed by `Up` and `Down`. Camera may be rotated using `Left` and `Right`. When the camera is rotated, the forward and backvard movement should be different. This is what I've made up:

```
//Somewhere in event handler switch
else if (key == GLUT_KEY_UP|| key == GLUT_KEY_DOWN) {
char direction = key==GLUT_KEY_UP?1:-1; //Whether it is forward or backward movement
std::cout<<"Moving camera in direction "<<(int)direction<<" with angle "<<rotate_y<<'\n';
std::cout<<" - this means X is multiplied by "<<((sin((rotate_y/180)*M_PI)+1)/2)<<'\n';
camera_x += 0.5*((sin((rotate_y/180)*M_PI)+1)/2)*direction;
camera_z += 0.5*((cos((rotate_y/180)*M_PI)+1)/2)*direction;
}
```

The original rotation is in degrees, but `sin()`

from `math.h`

accepts radians. I'm adding 1 to the result to get results between 0-2. Then I change the `sin`

or `cos`

amplitude from 2 to 1, when I divide the result by 2.

This means - when the camera is looking by 0, 90, 180, 270 or 360 degrees, the functions should return 0-1 values. Am I right?

The 0.5 at the beginning is just movement speed.