I am trying to learn some WebGL (from this tutorial http://learningwebgl.com/blog/?page_id=1217). I followed the guide, and now I am trying to implement my own demo. I want to create a graphics object that contains buffers and data for each individual object to appear in the scene. Currently, I have a position vertex buffer, a texture coordinate buffer, and a normals buffer. In the tutorial, he uses another buffer, an index buffer, but only for cubes. What is the index buffer actually for? Should I implement it, and is it useful for anything other than cubes?
Vertices of your objects are defined by positions in 3D coordinate system (euclidian coordinate system). So you can take every two following vertices and connect them with line right after your 3D coordinate systems is projected to 2D raster (screen or some target image) by rasterization process. You'll get so called wireframe.
The problem of wireframe is that it's not definite. If you look to the wireframe cube at particular angles, you cannot say, how is the cube exactly rotated. That's because you need to use visibility algorithms to determine, which part of the cube is closer to the observers position (position of camera).
But lines itself cannot define surface, which is necessary to determine which side of the cube is closer to observer that others. The best way how to define surfaces in computer graphics are polygons, exactly the triangle (it have lots of cons for computer graphics).
So you have cube now defined by triangles (so call triangle mesh).
But how to define which vertices forms triangle? By the index buffer. It contains index to the vertex buffer (list with your vertices) and tells the rasterizing algorithm which three vertices forms triangle. There are lot of ways, how to interpret indexes in index buffer to reduce repetition of same vertices (one vertex might be part of lot of triangles), you may find some at article about graphics primitives.
Technically you don't need an index buffer. There are two ways to render geometry, with
It depends on the data, which of calls needs less data, but