from math import * def arcOnCircle(spanning_angle, outgoing_angle, r=1.0): angle = spanning_angle+2*outgoing_angle radius = r * sin(radians(0.5*spanning_angle))/sin(radians(180-outgoing_angle-0.5*spanning_angle)) return angle, abs(radius) class Parts: def __init__(self, boxes): self.boxes = boxes """ def roundKnob(self, diameter, n=20, callback=None, move=""): size = diameter+diameter/n if self.move(size, size, move, before=True): return self.moveTo(size/2, size/2) self.cc(callback, None, 0, 0) self.move(size, size, move) """ def __getattr__(self, name): return getattr(self.boxes, name) def disc(self, diameter, hole=0, callback=None, move=""): size = diameter r = diameter/2.0 if self.move(size, size, move, before=True): return self.moveTo(size/2, size/2) if hole: self.hole(0, 0, hole/2) self.cc(callback, None, 0, 0) self.moveTo(r+self.burn,0, 90) self.corner(360, r) self.move(size, size, move) def waivyKnob(self, diameter, n=20, angle=45, hole=0, callback=None, move=""): size = diameter+pi*diameter/n if self.move(size, size, move, before=True): return self.moveTo(size/2, size/2) self.cc(callback, None, 0, 0) if hole: self.hole(0, 0, hole/2) self.moveTo(diameter/2, 0, angle) a, r = arcOnCircle(360./n, angle, diameter/2) a2, r2 = arcOnCircle(360./n, -angle, diameter/2) for i in range(n//2): self.boxes.corner(a, r) self.boxes.corner(a2, r2) self.move(size, size, move) def concaveKnob(self, diameter, n=3, rounded=0.2, angle=70, hole=0, callback=None, move=""): size = diameter if self.move(size, size, move, before=True): return self.moveTo(size/2, size/2) if hole: self.hole(0, 0, hole/2) self.cc(callback, None, 0, 0) self.moveTo(diameter/2, 0, 90+angle) a, r = arcOnCircle(360./n*(1-rounded), -angle, diameter/2) if abs(a) < 0.01: # avoid trying to make a straight line as an arc a, r = arcOnCircle(360./n*(1-rounded), -angle-0.01, diameter/2) for i in range(n): self.boxes.corner(a, r) self.corner(angle) self.corner(360./n*rounded, diameter/2) self.corner(angle) self.move(size, size, move)