Ejemplo n.º 1
0
	def make_conic_part(self, start_x, part_h, vn_arg, cur_r_f, part_name, all_in_one = False):
		if not all_in_one:
			mu.reset_scene()
		self.make_conic_part_low(start_x, part_h, vn_arg,
															 cur_r_f, part_name)
		if not all_in_one:
			self.save_part(part_name)
Ejemplo n.º 2
0
	def make_prismic_part(self, start_x, part_h, vn_arg, cur_poly_f, part_name, all_in_one = False):
		if not all_in_one:
			mu.reset_scene()
		n_poly = None
		x = start_x
		dx = part_h / float(vn_arg)
		verts = []
		faces = []

		for v_ind in range(0, vn_arg + 1):
			cur_poly = cur_poly_f(x)
			verts += cur_poly
			x += dx
			if n_poly == None:
				n_poly = len(cur_poly)
			assert(n_poly == len(cur_poly))
			if v_ind > 0:
				base_low = (v_ind - 1) * n_poly
				for i in range(0, n_poly):
					next_i = base_low + (i + 1) % n_poly
					faces.append([ base_low + i, next_i, next_i + n_poly,
								base_low + i + n_poly ])
		#print("bottom_face:" + str(verts[0:n_poly]))
		bottom_face = range(0, n_poly)
		faces.append(bottom_face)
		faces.append(range((vn_arg) * n_poly, (vn_arg + 1) * n_poly))
		mu.create_mesh_from_data(self.get_piece_name() + ' ' + part_name, o_v, verts, faces, True)
		if not all_in_one:
			self.save_part(part_name)
Ejemplo n.º 3
0
	def make(self):
		for all_in_one in [False, True]:
			mu.reset_scene()
			for p in ["base", "middle", "top"]:
				if self.part != "all" and self.part != p:
					continue
				getattr(self, "make_" + p)(all_in_one)
		bpy.ops.export_mesh.stl(filepath=self.get_fname(), ascii=False)
Ejemplo n.º 4
0
	def make_top(self, all_in_one):
		if not all_in_one:
			mu.reset_scene()
		self.make_prismic_part(self.middle_h + self.base_h, self.top_h - self.ear_h, self.vn_top,
												self.top_cur_poly, "top", True)
		for f in [self.ear_poly_left, self.ear_poly_right]:
			self.make_prismic_part(self.middle_h + self.base_h + self.top_h - self.ear_h,
													self.ear_h, self.vn_top, f, "top", True)
		if not all_in_one:
			self.save_part("top")
Ejemplo n.º 5
0
	def make_ring_part(self, start_x, part_h, vn_arg, cur_outer_r_f, cur_inner_r_f,
										 part_name, all_in_one = False):
		if not all_in_one:
			mu.reset_scene()
		x = start_x
		dx = part_h / float(vn_arg)
		verts = []
		faces = []
		print("start_x="+str(x) + " dx=" + str(dx))

		for v_ind in range(0, vn_arg + 1):
			cur_inner_r = cur_inner_r_f(x)
			cur_outer_r = cur_outer_r_f(x)
			#print("x=" + str(x) + ", cur_inner_r = " + str(cur_inner_r) +
			#	", cur_outer_r = " + str(cur_outer_r))
			cur_inner_verts = mu.get_circle_verts((0,0,x), cur_inner_r, n)
			cur_outer_verts = mu.get_circle_verts((0,0,x), cur_outer_r, n)
			#cur_n_verts = len(verts)
			verts += cur_outer_verts + cur_inner_verts
			x += dx

			if v_ind > 0:
				outer_base_low = (v_ind - 1) * 2 * n
				inner_base_low = outer_base_low + n
				for i in range(0, n):
					outer_next_i = outer_base_low + (i + 1) % n
					inner_next_i = inner_base_low + (i + 1) % n
					#print(base_low)
					outer_face = [ outer_base_low + i, outer_next_i, outer_next_i + 2 * n,
								outer_base_low + i + 2 * n ]
					faces.append(outer_face)
					faces.append([ inner_base_low + i + 2 * n, inner_next_i + 2 * n,
											 inner_next_i, inner_base_low + i])

		print("final x="+str(x) + " final r = " + str(cur_outer_r))
		print("n_verts="+str(len(verts)))
		#print(faces)
		if cur_outer_r:
			outer_base = vn_arg * 2 * n
			inner_base = outer_base + n
			for i in range(0, n):
				i_next = (i + 1) % n
				faces.append([outer_base + i, outer_base + i_next,
										 inner_base + i_next, inner_base + i ])
		mu.create_mesh_from_data(self.get_piece_name() + ' ' + part_name, o_v, verts, faces, True)
		if not all_in_one:
			self.save_part(part_name)