Daily Archives: March 27, 2015

World Space Coordinates of Screen Fragments 2: Manchester Prep

I’ve been inspired by the fact that a very nice person commented on my previous post about getting the world-space coordinates of the near plane of the view frustum to revisit this topic, because it’s been bugging me that my previous technique required a matrix multiplication and that feels like it might be more expensive than strictly needed. As I discussed before, you might want to know where exactly in your world the screen is so that if it intersects with something, you can treat that part of the screen differently – for example if your camera is partially submerged in water, you might want to apply a fogging and distortion effect to those fragments below the surface, but not above it.

The first thing to understand is how your camera is oriented. For historical reasons, and because of the way that my world axes are set up (+x is east, +y is north, +z is down; the camera’s neutral direction is looking north down the y axis.), the camera orients itself in world space by rotating around the z axis to look left-right, and around the x axis to look up-down. Just to make things more confusing, because the world moves around the camera in OGL, remember that in your shaders, the camera’s coordinates are negative (i.e. your shaders think your camera is at (-cameraX, -cameraY, -cameraZ). You can cut through a lot of confusion by using a system like gluLookAt() to orient your camera, which confers a huge bonus in that it returns both the direction in which the camera is facing and also the camera’s direction for “up”, which will be very handy.

The first step is to work out where the camera is and which direction it’s looking. In my case, I keep track of the camera’s position as (cameraX, cameraY, cameraZ), and rotation around Z and X in radians (i.e. pi radians is 180 degrees). My camera matrix rotates the camera around the Z axis and then around its own X axis, and then translates to its location in world space. Using this system, the camera’s unit vector is worked out like this:

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