Let me see if I can ask this question legibly:
I'm writing a 2D tile-based engine in OpenGL ES, with the intent of making it look like an old-school raster engine. My art assets are all at native resolution (that is to say, 1:1 pixel art) and mapped onto rectangular polygons, and my OpenGL view is orthogonal and spans the rectangle (0.0, 0.0) to (screen.width, screen.height). I did this hoping that each pixel on the display would correspond to a "virtual" pixel square in the XY coordinate plane, which would in turn correspond to a pixel on one of my tiles. (The tiles are 16.0 x 16.0, and the origin of my world is obviously [0.0,0.0].)
I was certain that my engine would look "fake" because of approximation errors. For example, I thought that since the tile pixels weren't being written directly to the display, an incorrect pixel might occasionally be fetched. I was also sure that camera motion would cause OpenGL to interpolate whenever the tiles weren't aligned with the actual display pixels.
As it turns out, OpenGL behaves almost exactly as a raster engine would. When the camera is still, each virtual pixel corresponds perfectly to a pixel on the display. When the camera is in motion, the tiles "snap" one pixel row/column at a time rather than moving smoothly via interpolation. (This happens even if the motion is very slow.) Out of curiosity, I tried scaling my tiles to 1.1x, and as I expected, they started to look muddy and the snapping behavior ceased. Is it true, then, that OpenGL behaves differently depending on whether the stuff it's rendering can be perfectly aligned to the display?
Where in the spec can I find information about these issues, and how can I ensure that OpenGL continues behaving this way? I feel uncomfortable using a default that I don't quite understand, since the behavior could theoretically change at any time.
Thank you!