I drew the above BezierPath by doing:
// location is where the user touches screen.
// location will be the maximum of the graph
CGPoint origin = CGPointMake(xStart, 620.0);
CGPoint endpt = CGPointMake(xEnd, 620.0);
CGPoint midpt1 = midPointForPoints(origin, location);
C...
Are you sure you solved for t correctly here? It doesn't quite feel right, though it may just be a different factorization. wolframalpha.com/input/?i=x+%3D+%281-t%29%5E2*X_0+%2B+2*t*%281-t%29*X_1+%2B+t%5E2+*X_2+solve+for+t
also, when you say you don't get the correct point, how far off is it? Does it ever work (for straight lines, or simpler curves)? Bezier can be very sensitive to small errors in t at different points in the curve.
First of all, thanks for helping me @RobNapier. The first problem that I recognize is that t-value is not in the bounds [0,1] when X is greater than some value (midpoint of the screen). I would love to get help from you in a chat too if that's possible.
sure. I don't know if you were able to read the link, but WolframAlpha will do the algebra for you: wolframalpha.com/input/?i=x+%3D+%281-t%29%5E2*X_0+%2B+2*t*%281-t%29*X_1+%2B+t%5E2+*X_2+solve+for+t
Just go to wolframalpha.com and enter "x = (1-t)^2*X_0 + 2*t*(1-t)*X_1 + t^2 *X_2 solve for t"
