# Ray tracing - constructing ray through pixel

I have an assignment to implement ray tracing in Java. I'm not asking for much, just to have some information on how to construct the rays from the camera through a pixel given its x and y. I've found over the Internet a lot of sources that explain that but in 2D, and I need how to do that in 3D.

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How do you represent the orientation of the camera? –  Beta Apr 7 '12 at 22:48
eye = its position point, direction = its "towards" vector, up-direction = the up direction vector, dist = the distance from the screen. Is that what you mean? –  MichBoy Apr 7 '12 at 22:49
Yes. So you know the location of the camera. Do you know how to calculate the position of the center of the screen? The position of a pixel with coordinates x and y on the screen? The ray from the camera to that point? –  Beta Apr 7 '12 at 22:55
The location is given, also the distance from the screen and the direction vector so I also got the center point. The position of the pixel (x,y) on the screen? how do I figure out that? The ray from the camera to that point must be a ray with the location and the direction vector of the vector from the camera to the point we find above, but how would I find that point? –  MichBoy Apr 7 '12 at 22:59
it seems you almost have all needed information available. What's missing is your FOV and the width to height ratio of your camera. Once you have that it's simple math. Basically using FOV, ratio, location, dir and up create the view pyramid of your camera and with the distance value create your projection plane. –  stryba Apr 7 '12 at 23:17

The question is how to find the coordinates in space of a point on the screen whose position is given by (x,y) in screen coordinates.

I don't know what coordinates system you're using for the screen, so I'll make some educated guesses and you can adjust accordingly.

The center of the screen has known location [X,Y,Z]center in space. I'll presume the origin of the screen coordinate system is there. We have a "direction" vector d which is normal (perpendicular) to the screen, and an "up" vector u. I'll presume that the +y direction on the screen is u. We can take the cross-product of these vectors, r = dxu, which I will take to be the +x direction on the screen. So the location of a point on the screen whose screen coordinates are (x, y) will be [X, Y, Z]center + xr + yu, and we're done.

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How come I don't use the screen width, the ratio, the fov and the image resolution in that solution? –  MichBoy Apr 7 '12 at 23:38
I assumed that (x,y) were in the same units of distance as the 3D space. If they're pixel counts, then before applying this solution you must convert them to distance. What are the units of (x,y), screen width, fov and image resolution? –  Beta Apr 8 '12 at 0:07
screenwidth is 2, image resolution? let's say 480X360, and what do you mean by units of x and y? –  MichBoy Apr 8 '12 at 9:13