Example #1
0
 def _create_shaft(self, length, width, depth, root_node_path):
     """ Creates the shaft sides individually and rotates and shifts them so that
     they form the shaft. """
     # front
     front_node, vdata = create_side((-width / 2.0, length),
                                     (width / 2.0, 0),
                                     static=False)
     front_path = root_node_path.attachNewNode(front_node)
     front_path.setY(-depth / 2.0)
     self.shaft_vdata.append(vdata)
     # back
     back_node, vdata = create_side((-width / 2.0, length),
                                    (width / 2.0, 0),
                                    static=False)
     back_path = root_node_path.attachNewNode(back_node)
     back_path.setH(180)
     back_path.setY(depth / 2.0)
     self.shaft_vdata.append(vdata)
     #        # top
     #        top_node, vdata = create_side((-width/2.0, depth/2.0), (width/2.0, -depth/2.0), static=False)
     #        top_path = root_node_path.attachNewNode(top_node)
     #        top_path.setP(-90)
     #        top_path.setZ(length)
     #        self.shaft_vdata.append(vdata)
     # bottom
     bottom_node, vdata = create_side((-width / 2.0, depth / 2.0),
                                      (width / 2.0, -depth / 2.0),
                                      static=False)
     bottom_path = root_node_path.attachNewNode(bottom_node)
     bottom_path.setP(90)
     # right
     right_node, vdata = create_side((-depth / 2.0, length),
                                     (depth / 2.0, 0),
                                     static=False)
     right_path = root_node_path.attachNewNode(right_node)
     right_path.setH(90)
     right_path.setX(width / 2.0)
     self.shaft_vdata.append(vdata)
     # left
     left_node, vdata = create_side((-depth / 2.0, length),
                                    (depth / 2.0, 0),
                                    static=False)
     left_path = root_node_path.attachNewNode(left_node)
     left_path.setH(-90)
     left_path.setX(-width / 2.0)
     self.shaft_vdata.append(vdata)
Example #2
0
 def _create_tip(self, length, width, depth, root_node_path):
     # front 
     front_node = create_triangle((-width/2.0,0), (0,length), (width/2.0,0))
     front_path = root_node_path.attachNewNode(front_node)
     front_path.setY(-depth/2.0)
     # back
     back_node = create_triangle((-width/2.0,0), (0,length), (width/2.0,0))
     back_path = root_node_path.attachNewNode(back_node)
     back_path.setH(180)
     back_path.setY(depth/2.0)
     # bottom
     bottom_node, _vdata = create_side((-width/2.0,depth/2.0), (width/2.0,-depth/2.0))
     bottom_path = root_node_path.attachNewNode(bottom_node)
     bottom_path.setP(90)
Example #3
0
    def _create_shaft(self, length, width, depth, root_node_path):
        """ Creates the shaft sides individually and rotates and shifts them so that
        they form the shaft. """
        # front 
        front_node, vdata = create_side((-width/2.0, length), (width/2.0, 0), static=False)
        front_path = root_node_path.attachNewNode(front_node)
        front_path.setY(-depth/2.0)
        self.shaft_vdata.append(vdata)
        # back 
        back_node, vdata = create_side((-width/2.0, length), (width/2.0, 0), static=False)
        back_path = root_node_path.attachNewNode(back_node)
        back_path.setH(180)
        back_path.setY(depth/2.0)
        self.shaft_vdata.append(vdata)
#        # top
#        top_node, vdata = create_side((-width/2.0, depth/2.0), (width/2.0, -depth/2.0), static=False)
#        top_path = root_node_path.attachNewNode(top_node)
#        top_path.setP(-90)
#        top_path.setZ(length)
#        self.shaft_vdata.append(vdata)
        # bottom
        bottom_node, vdata = create_side((-width/2.0, depth/2.0), (width/2.0, -depth/2.0), static=False)
        bottom_path = root_node_path.attachNewNode(bottom_node)
        bottom_path.setP(90)
        # right
        right_node, vdata = create_side((-depth/2.0, length), (depth/2.0, 0), static=False)
        right_path = root_node_path.attachNewNode(right_node)
        right_path.setH(90)
        right_path.setX(width/2.0)
        self.shaft_vdata.append(vdata)
        # left
        left_node, vdata = create_side((-depth/2.0, length), (depth/2.0, 0), static=False)
        left_path = root_node_path.attachNewNode(left_node)
        left_path.setH(-90)
        left_path.setX(-width/2.0)
        self.shaft_vdata.append(vdata)
Example #4
0
 def _create_tip(self, length, width, depth, root_node_path):
     # front
     front_node = create_triangle((-width / 2.0, 0), (0, length),
                                  (width / 2.0, 0))
     front_path = root_node_path.attachNewNode(front_node)
     front_path.setY(-depth / 2.0)
     # back
     back_node = create_triangle((-width / 2.0, 0), (0, length),
                                 (width / 2.0, 0))
     back_path = root_node_path.attachNewNode(back_node)
     back_path.setH(180)
     back_path.setY(depth / 2.0)
     # bottom
     bottom_node, _vdata = create_side((-width / 2.0, depth / 2.0),
                                       (width / 2.0, -depth / 2.0))
     bottom_path = root_node_path.attachNewNode(bottom_node)
     bottom_path.setP(90)
Example #5
0
 def _create_hexagon(self, root_path, radius, width):
     hex_path = root_path.attachNewNode(PandaNode('hexagon'))
     # create the individual components of the hexagon and put them together
     front_side = create_hexagon(radius)[0]
     node_path = hex_path.attachNewNode(front_side)
     node_path.setY(-width/2.0)
     node_path.setR(30)
     back_side = create_hexagon(radius)[0]
     node_path = hex_path.attachNewNode(back_side)
     node_path.setH(180)
     node_path.setY(width/2.0)
     node_path.setR(30)
     side_dist = cos(degrees_to_radians(30))*radius
     for phi in range(0,360,60):
         rot_path = hex_path.attachNewNode(PandaNode(''))
         side = create_side((-radius/2.0, width/2.0), (radius/2.0, -width/2.0))[0]
         side_path = rot_path.attachNewNode(side)
         side_path.setP(-90)
         side_path.setZ(side_dist)
         rot_path.setR(phi)
     return hex_path
Example #6
0
 def _create_hexagon(self, root_path, radius, width):
     hex_path = root_path.attachNewNode(PandaNode('hexagon'))
     # create the individual components of the hexagon and put them together
     front_side = create_hexagon(radius)[0]
     node_path = hex_path.attachNewNode(front_side)
     node_path.setY(-width / 2.0)
     node_path.setR(30)
     back_side = create_hexagon(radius)[0]
     node_path = hex_path.attachNewNode(back_side)
     node_path.setH(180)
     node_path.setY(width / 2.0)
     node_path.setR(30)
     side_dist = cos(degrees_to_radians(30)) * radius
     for phi in range(0, 360, 60):
         rot_path = hex_path.attachNewNode(PandaNode(''))
         side = create_side((-radius / 2.0, width / 2.0),
                            (radius / 2.0, -width / 2.0))[0]
         side_path = rot_path.attachNewNode(side)
         side_path.setP(-90)
         side_path.setZ(side_dist)
         rot_path.setR(phi)
     return hex_path
Example #7
0
 def _create_background(self, root_node_path, width, height):
     node, _vdata = create_side((0, 0), (width, -height))
     root_node_path.attachNewNode(node)
Example #8
0
 def _create_bar(self, height, width, root_node_path):
     node, self.bar_vdata = create_side((-width / 2.0, height),
                                        (width / 2.0, 0), False)
     root_node_path.attachNewNode(node)
Example #9
0
 def _create_bar(self, height, width, root_node_path):
     node, self.bar_vdata = create_side((-width/2.0, height), (width/2.0, 0), False)
     root_node_path.attachNewNode(node)
Example #10
0
 def _create_background(self, root_node_path, width, height):
     node, _vdata = create_side((0,0), (width, -height))
     root_node_path.attachNewNode(node)