I'd like to draw semi-transparent primitives with GLKit. I already disabled depth testing via
glDisable(GL_DEPTH_TEST) and enabled blending via
glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
Now for large alpha values (e.g. 0.9), I need to draw the farthest triangles first so they don't appear above nearer triangles. This is also stated in the documentation for glBlendFunc:
Transparency is best implemented using blend function (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA) with primitives sorted from farthest to nearest. Note that this transparency calculation does not require the presence of alpha bitplanes in the frame buffer
And in the OpenGL transparency FAQ:
When using depth buffering in an application, you need to be careful about the order in which you render primitives. Fully opaque primitives need to be rendered first, followed by partially opaque primitives in back-to-front order. If you don't render primitives in this order, the primitives, which would otherwise be visible through a partially opaque primitive, might lose the depth test entirely.
But as the viewing angle can change (when I change the render effect's
modelViewMatrix), the farthest-to-nearest order depends on the current viewing angle.
Is there a way to have OpenGL automatically render my primitives in the right order, and if not, what would be the best way to proceed? I think that calculating the z-position of (depending on the current viewing angle) and ordering a few thousand triangles for each frame (or, more precisely, each time the viewing angle changes, which can be each frame) would be too cost intensive, especially as I'd need to push this order to the GPU for each frame.
Note that I'm not concerned with using textures (just colored vertices).