That's fair, David.
Working the mainsail, it's clear that the exit angle on a 7% camber sail at max camber of 37% chord can be no less than 6.3 degrees (straight line to the max camber point), and if I'm attempting to keep the aft 40% flat the exit angle can be no more than 12.7 degrees. So I split the difference.
I chose a 30 degree entry angle. Just because, I guess. Then aimed to have a constant rate of change of the rate of change of the slope of the tangent line to the curve forward of the max camber point. (Go ahead - try to read that and make sense of it. I dare you. Basically, the forward portions develop curve faster than the aft, up to the max camber point. This is different than what Slieve suggests in one of his chapters on the split rig. He suggests a constant curve - the arc of a circle, but I'm thinking the more we can develop early, we have a longer length to minimize the pressure gradient all the way out to the leach.) I have no doubt that it would have been simpler and more practical to just bend a flexible batten around an actual series of points, but I got carried away on the spreadsheet and false precision.
In any case, I get a curve where the greatest changes to the slope happen way forward and ease off as it gets to max camber, then slopes as gently as possible to match the aft flat run.
In the image above, you can see the slight bit of hollow in the aft run to keep the panel flat. Too much? Too timid? I'm also planning on hollowing the leach (the true trailing edge, not the panel round) a bit to keep that last little bit good and tight.