This is a common problem in surfacing a symmetric model. I want to work only as a half model and then mirror it at the end. The problem that I have is in applying the correct Style curve soft point constraint at the endpoint that's on the plane of symmetry. The condition that I want to apply is:
In this example, the plane of symmetry is cartooned in red. The green-highlighted style curve, with curvature comb shown, ends at the symmetry plane and normal to it (using a soft point constraint there). But the curvature plot (comb) is not flat going into the plane of symmetry--it's peaky. The way the curve is now, it's G2 but not G3 across the symmetry plane.
I want the curvature plot to be level going into the symmetry plane (not zero, but level), like the dashed light blue cartoon line. That way, once it's mirrored, the curve would be G3 through the symmetry plane.
I could manually change the soft point constraint length to get the curvature comb to be approximately flat at the symmetry plane, but that's not parametric.
It seems that the "Symmetric" Style curve soft point constraint applies to a different situation, per the documentation: "Symmetric—Average of the tangents at the end points."
There doesn't seem to be an appropriate condition available in the Sketch interface, if instead I were to try to do it as a 2-D curve.
Is there a method for achieving this condition?
An extension to this question is whether there's a way to apply the desired normal & C3 condition to the edge of a Style surface that sits on the plane of symmetry.
How about sketching a curve on the other side of the symmetric plane, snap your style curve to it, then apply the curvature constraint?
The same method would be used with a spline in sketcher, using the "Equal" constraint to force curvature continuity.
Depending on what you're modeling, if the surface can be swept with variable section sweep then there are ways to constrain the polygon of the spline to ensure curvature continuity along that edge.