I'm writing an PyOpenGL-based UI for manually aligning images. I display my two images as textured quads, the moving image on top of the static reference. The moving image is shown in red with varying alpha, i.e.
glColor4f(1.,0.,0.,overlay_opacity), and the static image is shown in cyan with constant opacity equal to one, i.e.
glColor4f(0.,1.,1.,1.). The user can then vary
overlay_opacity by mouse scrolling in order to fade between the moving and reference images.
At the moment I am using
glBlendFunc(GL_SRC_ALPHA,GL_ONE_MINUS_SRC_ALPHA). Whilst this does allow me to fade smoothly between the cyan and red images, it also means that when
overlay_opacity is equal to 0.5 I get only half the maximum intensity of the red and cyan images, so the result looks dim and muddy. If I use
glBlendFunc(GL_SRC_ALPHA,GL_ONE) I always get the max intensity for my cyan image, so I can't fade it out. What I really want is some sort of nonlinear blending that looks like the third graph below:
I guess I could perhaps do this in a fragment shader, but it seems like there ought to be a much simpler way to achieve the same result using just
glBlendFunc(). I've also tried
GL_SRC_ALPHA_SATURATE, which doesn't seem to work in my implementation.