A bezier curve defines a way to get a set of points based on an unrelated parameter, usually called t. To render the full curve, you evaluate t between 0 and 1 and draw a line from each point to the next. To render less than the full curve, you evaluate t from 0 to a number less than one. To animate drawing the curve, you could evaluate the points and draw the segments on a timer.

You can split a bezier curve at an arbitrary t. Doing that will allow you to pass the curve to the system to draw, or to use in a CAShapeLayer.

A handwritten letter will usually be a series of bezier curves, or a bezier spline. The end point of one curve is the start point of the next. Think of t as going from zero to the number of segments in the spline. If there are 3 curves, think of t as going from 0 to 3. When t is between 1 and 2, you would pass the whole first segment and part of the second segment to the system to draw.

You can read about DeCasteljau's algorithm for splitting bezier curves. Here is a code sample for a cubic bezier curve on a plane:

```
// initial curve is four point x0,y0 , x1,y1 , x2,y2 , x3,y3
// x0,y0 and x3,y3 are the anchors
// point to split curve at is 0<t<1
nt = 1.0 - t;
x01 = nt * x0 + t * x1;
y01 = nt * y0 + t * y1;
x12 = nt * x1 + t * x2;
y12 = nt * y1 + t * y2;
x23 = nt * x2 + t * x3;
y23 = nt * y2 + t * y3;
x012 = nt * x01 + t * x12;
y012 = nt * y01 + t * y12;
x123 = nt * x12 + t * x23;
y123 = nt * y12 + t * y23;
x0123 = nt * x012 + t * x123;
y0123 = nt * y012 + t * y123;
// now the new curve you want is
// x0,y0 , x01,y01 , x012,y012 , x0123,y0123
// the other half of the curve, discarded in your case, is
// x0123,y0123 , x123,y123 , x23,y23 , x3,y3
```

So given a series of curves that describe your handwritten character, you would animate from 0 to T, where T is the number of curves. calculate t=T-floor(T) and when t is not zero, use it to split the curve at n=floor(T).