I’m trying to create an OpenGL application with water waves and refraction. I need to either cast rays from the sun and then the camera and figure out where they intersect, or I need to start from the ocean floor and figure out in which direction(s, if any) I have to go in order to hit the sun or the camera. I’m kind of stuck, can any one give me an inpoint into either OpenGL ray casting or a crash course in advanced geometry? I don’t want the ocean floor to be at a constant depth and I don’t want the water waves to be simple sinusoidal waves.
I’m trying to create an OpenGL application with water waves and refraction. I need
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First things first: The effect you’re trying to achieve can be implemented using OpenGL, but it is not a feature of OpenGL. OpenGL by itself is just a sophisticated triangle to screen drawing API. You got some input data and write a program that performs relatively simple rasterizing drawing operations based on the input data using the OpenGL API. Shaders give it some space; you can implement a raytracer in the fragment shader.
In your case that means, you must implement a some algorithm that generates a picture like you intend. For water is must be some kind of raytracer or fake refraction method to get the effect of looking into the water. The caustics require either a full features photon mapper, or you’re good with a fake effect based on the 2nd derivative of the water surface.
There is a WebGL demo, rendering stunningly good looking, interactive water: http://madebyevan.com/webgl-water/ And here’s a video of it on YouTube http://www.youtube.com/watch?v=R0O_9bp3EKQ
This demo uses true raytracing (the water surface, the sphere and the pool are raytraced), the caustics are a “fake caustics” effect, based on projecting the 2nd derivative of the water surface heightmap.