I'm using floats to specify texture coordinates, in the range 0-1. OpenGL likes things in this range, and I'm fine specifying coordinates this way, but I'm concerned when I start using larger textures (say up 4096 or 8192 pixels), that I may start losing precision. For example, if I want to specify a coordinate of (1,1) in a 8192x8192px texture, that would map to
1/8192=0.0001220703125. That seems to evaluate to
0.000122070313 as a float though... I'm concerned that my OpenGL shader won't map that to the same pixel I intended.
I could keep the coordinates as integers in pixels for awhile, but sooner or later I have to convert it (perhaps as late as in the shader itself). Is there a workaround for this, or is this something I should even be concerned about?
Multiplying it back out, I get
1.000000004096 which I guess would still be interpreted as
1? Actually, OpenGL does blending if its not a whole number, doesn't it? Perhaps not with "nearest neighbour", but with "linear" it ought to.
1/4096f * 4096 = 1, error = 0 1/8192f * 8192 = 1.000000004096, error = 0.000000004096 1/16384f * 16384 = 1.0000000008192, error = 0.0000000008192 1/32768f * 32768 = 0.9999999991808, error = 0.0000000008192 ... 1/1048576f * 1048576 = 0.9999999827968, error = 0.0000000172032
(I'm using Visual Studio's debugger to compute the float, and then multiplying it back out with Calculator)
Is the lesson here that the error is negligible for any reasonably sized texture?