Exemplo n.º 1
0
 def apply_blade_offset(self, poly, offset):
     """ Apply blade offset to the given polygon by appending a quadratic
     bezier to each point .
     
     """
     # Use a QPainterPath to track the distance in c++
     path = QPainterPath()
     cutoff = cos(radians(self.config.cutoff)) # Forget 
     last = None
     n = len(poly)
     for i, p in enumerate(poly):
         if i == 0:
             path.moveTo(p)
             last_path = QPainterPath()
             last_path.moveTo(p)
             last = p
             continue
         
         # Move to the point
         path.lineTo(p)
         
         if i+1 == n:
             # Done
             break
         
         # Get next point
         next = poly.at(i+1)
         
         # Make our paths
         last_path.lineTo(p)
         next_path = QPainterPath()
         next_path.moveTo(p)
         next_path.lineTo(next)
         
         # Get angle between the two components
         u, v = QVector2D(last-p), QVector2D(next-p)
         cos_theta = QVector2D.dotProduct(u.normalized(), v.normalized())
         
         # If the angle is large enough to need compensation
         if (cos_theta < cutoff and
                 last_path.length() > offset and
                 next_path.length() > offset):
             # Calculate the extended point
             t = last_path.percentAtLength(offset)
             c1 = p+(last_path.pointAtPercent(t)-last)
             c2 = p
             t = next_path.percentAtLength(offset)
             ep = next_path.pointAtPercent(t)
             if offset > 2:
                 # Can smooth it for larger offsets
                 path.cubicTo(c1, c2, ep)
             else:
                 # This works for small offsets < 0.5 mm 
                 path.lineTo(c1)
                 path.lineTo(ep)
         
         # Update last
         last_path = next_path
         last = p
     return path.toSubpathPolygons(IDENITY_MATRIX)
Exemplo n.º 2
0
    def process_cubic(self, offset_path, blade_path, params, quality):
        """ Add offset correction to a cubic bezier.
        """
        r = self.config.offset
        p0 = blade_path.currentPosition()
        p1, p2, p3 = params
        self.add_continuity_correction(offset_path, blade_path, p1)

        curve = QPainterPath()
        curve.moveTo(p0)
        curve.cubicTo(*params)
        p = QPainterPath()
        p.moveTo(p0)

        if quality == 1:
            polygon = curve.toSubpathPolygons(IDENITY_MATRIX)[0]
        else:
            m = QTransform.fromScale(quality, quality)
            m_inv = QTransform.fromScale(1/quality, 1/quality)
            polygon = m_inv.map(curve.toSubpathPolygons(m)[0])

        for point in polygon:
            p.lineTo(point)
            t = curve.percentAtLength(p.length())
            angle = curve.angleAtPercent(t)
            a = radians(angle)
            dx, dy = r*cos(a), -r*sin(a)
            offset_path.lineTo(point.x()+dx, point.y()+dy)

        blade_path.cubicTo(*params)