def solid(length=4, width=1): """@Todo: DocString.""" return Union( Sphere(Vector(LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Sphere(Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGBH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Difference( Union( Box( Vector(LGCS, LGCS, 0), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH), ), Box( Vector(0, LGCS, LGCS), Vector(length * LGBW, width * LGBW - LGCS, LGBH - LGCS), ), Box( Vector(LGCS, 0, LGCS), Vector(length * LGBW - LGCS, width * LGBW, LGBH - LGCS), ), ), get_knob_inner_space(length, width)), get_brick_coloumn(length), get_knob_objects(length, width), Translate(Vector(-length / 2 * LGBW, -LGBW / 2, -LGBH)), Rotate(Vector(0, 0, 90)))
def get_lg_cylinder(cylinderclass, height): """@Todo:ApiDoc.""" return cylinderclass( Difference( Cylinder(Vector(0, 0, height + LG_E), Vector(0, 0, (LG_CYLINDER_WALL_WIDTH / 2)), LG_CYLINDER_RADIUS), Cylinder(Vector(0, 0, height + LG_CORNER_SPACE), Vector(0, 0, 0), LG_KNOB_RADIUS)), Torus(LG_CYLINDER_RADIUS - LG_CYLINDER_WALL_WIDTH / 2, LG_CYLINDER_WALL_WIDTH / 2, Rotate(Vector(90, 0, 0)), Translate(Vector(0, 0, (LG_CYLINDER_WALL_WIDTH / 2)))))
def _lg_tech_knob_function(knobclass): """@Todo: ApiDoc.""" return knobclass( Difference( knobclass( Cylinder(Vector(0, 0, LG_KNOB_HEIGHT - LG_CORNER_SPACE), Vector(0, 0, -LG_E), LG_KNOB_RADIUS), Difference( Cylinder(Vector(0, 0, LG_KNOB_HEIGHT), Vector(0, 0, -LG_E), LG_KNOB_RADIUS - LG_CORNER_SPACE), Cylinder(Vector(0, 0, LG_KNOB_HEIGHT + LG_E), Vector(0, 0, -2 * LG_E), LG_KNOB_INNER_RADIUS + LG_CORNER_SPACE))), Cylinder(Vector(0, 0, (LG_KNOB_HEIGHT + 2 * LG_E)), Vector(0, 0, -3 * LG_E), LG_KNOB_INNER_RADIUS)), Torus(LG_KNOB_INNER_RADIUS + LG_CORNER_SPACE, LG_CORNER_SPACE, Rotate(Vector(90, 0, 0)), Translate(Vector(0, 0, (LG_KNOB_HEIGHT - LG_CORNER_SPACE)))), Torus(LG_KNOB_RADIUS - LG_CORNER_SPACE, LG_CORNER_SPACE, Rotate(Vector(90, 0, 0)), Translate(Vector(0, 0, (LG_KNOB_HEIGHT - LG_CORNER_SPACE)))))
def clear(): """return lg_3823: Windscreen 2 x 4 x 2.""" result = Merge() for mir in range(0, 2): mirmatrix = Matrix(Vector(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0)) if mir == 1: mirmatrix = Matrix(Vector(1, 0, 0, 0, -1, 0, 0, 0, 1, 0, 0, 0)) result.append( Merge( Cylinder(Vector(0, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Sphere( Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -2 * LGBH + LGCS), LGCS), Cylinder( Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -2 * LGBH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, 1.5 * LGBW + 0.12, -LGCS), LGCS), Intersection( Torus(LGBW / 2 - LGCS, LGCS, Rotate(Vector(90, 0, 0))), Box( Vector(-LGBW / 2 - LG_E, -LGBW / 2 - LG_E, LGCS + LG_E), Vector(0, 0, -LGCS - LG_E)), Translate(Vector(0, 1.5 * LGBW + 0.12, -LGCS))), Cylinder( Vector(0, LGBW + 0.12 + LGCS, -LGCS), Vector(LGBW / 2 - LGWW / 2 + LGCS, LGBW + 0.12 + LGCS, -LGCS), LGCS), Cylinder( Vector(LGBW, 2 * LGBW - LGCS, -2 * LGBH + LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -2 * LGBH + LGCS), LGCS), Intersection( Difference( Cylinder( Vector(0, 0, 0), Vector(0, 0, -2.5 * LGPH), # Vector(0, 0, -5 * LGPH), LGBW / 2), Cylinder( Vector(0, 0, LGCS + LG_E), Vector(0, 0, -3 * LGPH), # Vector(0, 0, -6 * LGPH), LGBW / 2 - LGWW), ), Box(Vector(LGBW / 2 + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -2 * LGBH)), Matrix( Vector(1, 0, 2 / LGBW * LGCS * sin(LG_ANGLE * pi / 180), 0, 1, 0, -1 / 2, 0, 1, LGCS * (cos(LG_ANGLE * pi / 180) - 1), 3 * LGBW / 2, -LGCS))), Intersection( Difference( Cylinder( Vector(0, 0, -2.5 * LGPH), Vector(0, 0, -5 * LGPH), # Vector(0, 0, -5 * LGPH), LGBW / 2), Cylinder( Vector(0, 0, -2.5 * LGPH), Vector(0, 0, -5 * LGPH), # Vector(0, 0, -6 * LGPH), LGBW / 2 - LGWW), ), Box(Vector(LGBW / 2 + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -2 * LGBH)), Translate(Vector(1 * LGBW, 0 * LGBW, 0)), Matrix( Vector( 1, 0, 0, # 2 / LGBW * LGCS * sin(LG_ANGLE * pi / 180), 0, 1, 0, 0, 0, 1, 0, # LGCS * (cos(LG_ANGLE * pi / 180) -1), 3 * LGBW / 2, -LGCS)), ), Intersection( Torus(LGBW / 2 - LGCS, LGCS, Rotate(Vector(90, 0, 0))), Box(Vector(LGBW / 2 + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -LGCS - LG_E)), Translate(Vector(0, 3 * LGBW / 2, -LGCS))), Intersection( Torus(LGBW / 2 - LGCS, LGCS, Rotate(Vector(90, 0, 0))), Box(Vector(LGBW / 2 + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -LGCS - LG_E)), Translate(Vector(LGBW, 3 * LGBW / 2, -5 * LGPH - LGCS))), Intersection( Torus(LGBW / 2 - LGCS, LGCS, Rotate(Vector(90, 0, 0))), Box(Vector(LGBW / 2 + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -LGCS - LG_E)), Translate(Vector(LGBW, 3 * LGBW / 2, -2 * LGBH + LGCS))), Difference( Merge( Cylinder( Vector(LGBW / 2 + LGCS, LGBW + LGCS, -5 * LGPH - LGCS), Vector(-LGCS, LGBW + LGCS, -5 * LGPH - LGCS), LGCS), Cylinder( Vector(-LGBW / 2 + LGCS, 1.5 * LGBW - LGCS, -5 * LGPH - LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGWW + LG_E, -5 * LGPH - LGCS), LGCS), Cylinder( Vector(LGBW / 2 + LGCS, LGBW + LGCS, -6 * LGPH + LGCS), Vector(-LGCS, LGBW + LGCS, -6 * LGPH + LGCS), LGCS), Cylinder( Vector(-LGBW / 2 + LGCS, 1.5 * LGBW - LGCS, -6 * LGPH + LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, -6 * LGPH + LGCS), LGCS), Box( Vector(LGBW / 2 + LGCS + LG_E, LGBW + LGCS, -2 * LGBH), Vector(-LGBW / 2, LGBW + LGWW, -2 * LGBH + LGCS + LG_E)), Box( Vector(-LGBW / 2 + LGCS, LGBW + LGCS, -2 * LGBH), Vector(-LGBW / 2 + LGWW, 2 * LGBW - LGCS, -2 * LGBH + LGCS + LG_E)), Box( Vector(LGBW + LGCS, 2 * LGBW - LGCS, -5 * LGPH), Vector(-LGBW / 2 + LGCS, LGBW + LGCS, -2 * LGBH + LG_PLATE_INNER_HEIGHT)), Box( Vector(LGBW / 2 + LGCS + LG_E, LGBW, -5 * LGPH - LGCS), Vector(-LGBW / 2, LGBW + LGWW, -2 * LGBH + LGCS)), Box( Vector(-LGBW / 2, LGBW + LGCS, -5 * LGPH - LGCS), Vector(-LGBW / 2 + LGWW, 2 * LGBW - LGCS, -2 * LGBH + LGCS)), ), Cylinder(Vector(-LGBW / 2, LGBW, -2 * LGBH - LG_E), Vector(-LGBW / 2, LGBW, -5 * LGPH + LG_E), LGBW / 2), ), Cylinder( Vector(LGBW / 2, 1.5 * LGBW, -5 * LGPH - LG_TOP_HEIGHT + LG_E), Vector(LGBW / 2, 1.5 * LGBW, -2 * LGBH), LG_KNOB_INNER_RADIUS), Cylinder(Vector(LGBW, LGBW, -5 * LGPH - LG_TOP_HEIGHT + LG_E), Vector(LGBW, LGBW, -2 * LGBH), LG_KNOB_INNER_RADIUS), Intersection( Difference( Merge( Cylinder( Vector(LGBW, 1.5 * LGBW, -5 * LGPH - LGCS), Vector(LGBW, 1.5 * LGBW, -2 * LGBH + LGCS), LGBW / 2), Cylinder(Vector(LGBW, 1.5 * LGBW, -5 * LGPH), Vector(LGBW, 1.5 * LGBW, -2 * LGBH), LGBW / 2 - LGCS), ), Cylinder( Vector(LGBW, 1.5 * LGBW, -5 * LGPH - LG_TOP_HEIGHT), Vector(LGBW, 1.5 * LGBW, -2 * LGBH - LG_E), LGBW / 2 - LGWW), ), Box( Vector(LGBW, 1.5 * LGBW, -5 * LGPH + LGCS), Vector(1.5 * LGBW + LG_E, 2 * LGBW + LG_E, -2 * LGBH - LG_E)), ), Difference( Merge( Box( Vector(LGBW, 2 * LGBW, -2 * LGBH + LGCS), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS - LG_E, -LGCS)), Box(Vector(LGBW, 2 * LGBW - LGWW, -2 * LGBH), Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, 0)), ), Box( Vector(LGBW + LG_E, LGBW / 2 + LG_E, LGCS + LG_E), Vector(0, 0, -2 * LGBH), Matrix( Vector(1, 0, 2 / LGBW * LGCS * sin(LG_ANGLE * pi / 180), 0, 1, 0, -1 / 2, 0, 1, LGCS * (cos(LG_ANGLE * pi / 180) - 1), 3 * LGBW / 2, -LGCS))), ), Box(Vector(-LGBW / 2, 2 * LGBW - LGCS, -5 * LGPH - LGCS), Vector(-LGBW / 2 + LGCS + LG_E, 2 * LGBW - LGWW, -LGCS)), Intersection( Merge( Cylinder(Vector(0, 0, 0), Vector(0, 0, -LGCS - LG_E), LGBW / 2 - LGCS), Cylinder(Vector(0, 0, -LGCS), Vector(0, 0, -LGWW), LGBW / 2), ), Box(Vector(-LGBW / 2 - LG_E, -LGBW / 2 - LG_E, LG_E), Vector(0, 0, -LGWW - LG_E)), Translate(Vector(0, 1.5 * LGBW + 0.12, 0))), Intersection( Merge( Cylinder(Vector(0, 0, 0), Vector(0, 0, -LGCS - LG_E), LGBW / 2 - LGCS), Cylinder(Vector(0, 0, -LGCS), Vector(0, 0, -LGWW), LGBW / 2), ), Box(Vector(LGBW / 2 - LG_E, LGBW / 2 - LG_E, LG_E), Vector(0, 0, -LGWW - LG_E)), Translate(Vector(0, 1.5 * LGBW, 0))), Box(Vector(LGBW / 2 - LGCS, LGBW + 0.12 + LGCS, 0), Vector(0, 1.5 * LGBW, -LGCS - LG_E)), Box(Vector(LGBW / 2 - LGCS, LGBW + 0.12, -LGCS), Vector(0, 1.5 * LGBW, -LGWW)), Box(Vector(-LGBW / 2 + LGCS, 2 * LGBW - LGCS, 0), Vector(0, 1.5 * LGBW + 0.12, -LGCS - LG_E)), Box(Vector(-LGBW / 2, 2 * LGBW - LGCS, -LGCS), Vector(0, 1.5 * LGBW + 0.12, -LGWW)), Object( lg_tech_knob_logo_clear(), Rotate(Vector(0, 0, 90)), Scale(Vector(1, 1 - 2 * mir, 1)), Translate(Vector(0, 1.5 * LGBW, 0)), ), mirmatrix)) result.append( Merge( Cylinder( Vector(3 * LGBW / 2 - LGCS, 3 * LGBW / 2, -5 * LGPH - LGCS), Vector(3 * LGBW / 2 - LGCS, -3 * LGBW / 2, -5 * LGPH - LGCS), LGCS), Cylinder( Vector(3 * LGBW / 2 - LGCS, 3 * LGBW / 2, -2 * LGBH + LGCS), Vector(3 * LGBW / 2 - LGCS, -3 * LGBW / 2, -2 * LGBH + LGCS), LGCS), Cylinder(Vector(LGBW / 2 - LGCS, 3 * LGBW / 2, -LGCS), Vector(LGBW / 2 - LGCS, -3 * LGBW / 2, -LGCS), LGCS), Cylinder( Vector(LGBW / 2 - LGWW / 2 + LGCS, LGBW + 0.12 + LGCS, -LGCS), Vector(LGBW / 2 - LGWW / 2 + LGCS, -LGBW - 0.12 - LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, LGBW + LGCS, -2 * LGBH + LGCS), Vector(LGBW / 2 + LGCS, -LGBW - LGCS, -2 * LGBH + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, LGBW + LGCS, -5 * LGPH - LGCS), Vector(LGBW / 2 + LGCS, -LGBW - LGCS, -5 * LGPH - LGCS), LGCS), Box(Vector(LGBW / 2 + LGCS, LGBW + LGWW, -2 * LGBH), Vector(LGBW / 2 + LGWW, -LGBW - LGWW, -2 * LGBH + LGCS + LG_E)), Box( Vector(1.5 * LGBW - LGCS, 1.5 * LGBW, -2 * LGBH), Vector(1.5 * LGBW - LGWW, -1.5 * LGBW, -2 * LGBH + LGCS + LG_E)), Box(Vector(LGBW / 2, LGBW + LGWW, -5 * LGPH - LGCS), Vector(LGBW / 2 + LGWW, -LGBW - LGWW, -2 * LGBH + LGCS)), Box(Vector(1.5 * LGBW, 1.5 * LGBW, -5 * LGPH - LGCS), Vector(1.5 * LGBW - LGWW, -1.5 * LGBW, -2 * LGBH + LGCS)), Box( Vector(1.5 * LGBW - LGCS, 1.5 * LGBW, -5 * LGPH), Vector(LGBW / 2 + LGCS, -1.5 * LGBW, -2 * LGBH + LG_PLATE_INNER_HEIGHT)), Difference( Merge( Box( Vector(LGBW / 2, 1.5 * LGBW, 0), Vector(LGBW / 2 - LGWW, -1.5 * LGBW, -2.5 * LGPH), Matrix( Vector(1, 0, 2 / LGBW * LGCS * sin(LG_ANGLE * pi / 180), 0, 1, 0, -1 / 2, 0, 1, LGCS * (cos(LG_ANGLE * pi / 180) - 1), 0, -LGCS))), Box(Vector(LGBW / 2 - LGCS, 1.5 * LGBW, 0), Vector(LGBW / 2 - LGWW, -1.5 * LGBW, -LGWW / 2)), ), Union( Box(Vector(LGBW / 2 - LGWW / 2, LGBW + 0.12 + LGCS, LG_E), Vector(LGWW, -LGBW - 0.12 - LGCS, -LGWW - LG_E)), Box( Vector(LGBW / 2 - LGWW / 2 + LGCS, LGBW + 0.12 + LGCS, LG_E), Vector(LGWW, -LGBW - 0.12 - LGCS, -LGCS)), ), ), Difference( Merge( Box( Vector(LGBW / 2, 1.5 * LGBW, 0), Vector(LGBW / 2 - LGWW, -1.5 * LGBW, -2.5 * LGPH), # Matrix( # Vector( # 1, 0, # 2 / LGBW * LGCS * sin(LG_ANGLE * pi / 180), # 0, 1, 0, # -1 / 2, 0, 1, # LGCS * (cos(LG_ANGLE * pi / 180) - 1), # 0, -LGCS # ) # ) ), Box(Vector(LGBW / 2 - LGCS, 1.5 * LGBW, 0), Vector(LGBW / 2 - LGWW, -1.5 * LGBW, -LGWW / 2)), ), Union( Box(Vector(LGBW / 2 - LGWW / 2, LGBW + 0.12 + LGCS, LG_E), Vector(LGWW, -LGBW - 0.12 - LGCS, -LGWW - LG_E)), Box( Vector(LGBW / 2 - LGWW / 2 + LGCS, LGBW + 0.12 + LGCS, LG_E), Vector(LGWW, -LGBW - 0.12 - LGCS, -LGCS)), ), Translate(Vector(LGBW, 0, -2.5 * LGPH)), ), Cylinder(Vector(LGBW, 0, -5 * LGPH - LG_TOP_HEIGHT + LG_E), Vector(LGBW, 0, -2 * LGBH), LG_KNOB_INNER_RADIUS), ), # Rotate(Vector(0, 0, -45)) ) return result
def solid(length=2, width=1): """return lg_3069b: Tile 1 x 2 with groove.""" return Union( Sphere(Vector(LGCS, LGCS, LGCS + 0.04), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Sphere(Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS + 0.04), Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS), Cylinder(Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGPH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Difference( Union( Box(Vector(LGCS, LGCS, 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH)), Box(Vector(LGCS, 0, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW, LGPH - LGCS)), Box(Vector(0, LGCS, LGCS + 0.04), Vector(length * LGBW, width * LGBW - LGCS, LGPH - LGCS)), Box( Vector(0.04, 0.04, 0), Vector(length * LGBW - 0.04, width * LGBW - 0.04, 0.04 + LG_E)), ), Box( Vector(LGWW, LGWW, -LGCS), Vector(length * LGBW - LGWW, width * LGBW - LGWW, LG_PLATE_INNER_HEIGHT)), ), Translate(Vector(-LGBW, -0.5 * LGBW, -LGPH)), Rotate(Vector(0, 0, 90)))
def solid(length=2, width=1): """@Todo: Docstring.""" return Union( Sphere( Vector(LGCS, LGCS, LGCS + 0.04), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), LGCS ), Sphere( Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(LGCS, LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS + 0.04), Vector(LGCS, LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS ), Sphere( Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS ), Cylinder( Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS ), Sphere( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(LGCS, width * LGBW - LGCS, LGCS + 0.04), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGWW - LGCS, LGPH - LGCS), Vector(LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LGPH - LGCS), Vector(LGCS, 2 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LGPH - LGCS), Vector(LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LGPH - LGCS), Vector(LGCS, 4 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGPH - LGCS), Vector(LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, 2 * LGWW + LGCS, LGPH - LGCS), Vector(LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, 4 * LGWW + LGCS, LGPH - LGCS), Vector(LGCS, 5 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(length * LGBW - LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LGPH - LGCS), Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LGPH - LGCS), Vector(length * LGBW - LGCS, 5 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, 2 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, 3 * LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, 4 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, LGWW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, 2 * LGWW + LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(LGCS, 4 * LGWW + LGCS, LGPH - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LGPH - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), LGCS ), Cylinder( Vector(LGCS, LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, 3 * LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), LGCS ), Cylinder( Vector(LGCS, 3 * LGWW - LGCS, LG_PLATE_INNER_HEIGHT - LGCS), Vector(LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS), LGCS ), Difference( Union( Box( Vector(LGCS, LGCS, 0.04), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH) ), Box( Vector(0, LGCS, LGCS + 0.04), Vector(length * LGBW, width * LGBW - LGCS, LGPH - LGCS) ), Box( Vector(LGCS, 0, LGCS + 0.04), Vector(length * LGBW - LGCS, width * LGBW, LGPH - LGCS) ), Box( Vector(0.04, 0.04, 0), Vector(length * LGBW - 0.04, width * LGBW - 0.04, 0.04 + LG_E) ) ), Union( Box( Vector(LGWW, LGWW, -LGCS), Vector(length * LGBW - LGWW, width * LGBW - LGWW, LG_PLATE_INNER_HEIGHT + LG_E) ), Box( Vector(-LG_E, LGWW - LGCS, LGPH + LG_E), Vector(LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS) ), Box( Vector(length * LGBW + LG_E, LGWW - LGCS, LGPH + LG_E), Vector(length * LGBW - LGCS, 2 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS) ), Box( Vector(0, LGWW - LGCS, LGPH + LG_E), Vector(length * LGBW, 2 * LGWW + LGCS, LGPH - LGCS) ), Box( Vector(0, LGWW, LGPH), Vector(length * LGBW, 2 * LGWW, LG_PLATE_INNER_HEIGHT) ), Box( Vector(-LG_E, 3 * LGWW - LGCS, LGPH + LG_E), Vector(LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS) ), Box( Vector(length * LGBW + LG_E, 3 * LGWW - LGCS, LGPH + LG_E), Vector(length * LGBW - LGCS, 4 * LGWW + LGCS, LG_PLATE_INNER_HEIGHT - LGCS) ), Box( Vector(0, 3 * LGWW - LGCS, LGPH + LG_E), Vector(length * LGBW, 4 * LGWW + LGCS, LGPH - LGCS) ), Box( Vector(0, 3 * LGWW, LGPH), Vector(length * LGBW, 4 * LGWW, LG_PLATE_INNER_HEIGHT) ) ) ), Difference( Cylinder( Vector(LGBW, LGBW / 2, LG_PLATE_INNER_HEIGHT + LG_E), Vector(LGBW, LGBW / 2, 0), LG_KNOB_INNER_RADIUS ), Union( Box( Vector(LGWW, LGWW, -LG_E), Vector(length * LGBW - LGWW, 2 * LGWW, LGPH) ), Box( Vector(LGWW, 3 * LGWW, -LG_E), Vector(length * LGBW - LGWW, 4 * LGWW, LGPH) ), ), ), Translate(Vector(-LGBW, -0.5 * LGBW, -LGPH)), Rotate(Vector(0, 0, 90)) )
def solid(length=1, width=2, height=1): """return lg_4865: Panel 1 x 2 x 1.""" result = Union( ) for rot in range(0, 2): rotation = Rotate(Vector(0, 0, 0)) translation = Translate(Vector(0, 0, 0)) if rot == 1: rotation = Rotate(Vector(0, 0, 180)) translation = Translate(Vector(-LGBW, 0, 0)) result.append( Union( Sphere( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), LGCS ), Sphere( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -height * LGBH + LGCS), LGCS ), rotation, translation ), ) result.append( Union( Cylinder( Vector(-length / 2 * LGBW + LGWW - LGCS, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW + LGCS, -LGCS), Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGWW - LGCS, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW + LGCS, -LGCS), LGCS ), Sphere( Vector(-length / 2 * LGBW + LGWW - LGCS, width / 2 * LGBW - LGCS, -LGCS), LGCS ), Sphere( Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW + LGCS, -LGCS), LGCS ), Sphere( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -LGCS), LGCS ), Sphere( Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -LGCS), Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW + LGCS, -LGCS), Vector(-length / 2 * LGBW + LGWW - LGCS, width / 2 * LGBW - LGCS, -LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW - LGCS + LGWW, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW - LGCS + LGWW, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Cylinder( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -height * LGBH + LGCS), LGCS ), Cylinder( Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW - LGCS + LGWW, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW - LGCS + LGWW, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Cylinder( Vector(-length / 2 * LGBW - LGCS + LGWW, -width / 2 * LGBW + LGCS, -LGCS), Vector(-length / 2 * LGBW - LGCS + LGWW, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Sphere( Vector(length / 2 * LGBW - LGCS, -width / 2 * LGBW + LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Sphere( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -(height * 3 - 1) * LGPH - LGCS), LGCS ), Difference( Union( Box( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW - LGCS, -height * LGBH + LGPH), Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW + LGCS, -height * LGBH), ), Box( Vector(length / 2 * LGBW, width / 2 * LGBW - LGCS, -height * LGBH + LGPH - LGCS), Vector(-length / 2 * LGBW, -width / 2 * LGBW + LGCS, -height * LGBH + LGCS), ), Box( Vector(length / 2 * LGBW - LGCS, width / 2 * LGBW, -height * LGBH + LGPH - LGCS), Vector(-length / 2 * LGBW + LGCS, -width / 2 * LGBW, -height * LGBH + LGCS) ), ), Box( Vector(length / 2 * LGBW - LGWW, width / 2 * LGBW - LGWW, -height * LGBH + LGPH - LG_TOP_HEIGHT), Vector(-length / 2 * LGBW + LGWW, -width / 2 * LGBW + LGWW, -height * LGBH - LG_E) ), ), Box( Vector(-length / 2 * LGBW, width / 2 * LGBW - LGCS, -LGCS), Vector(-length / 2 * LGBW + LGWW, -width / 2 * LGBW + LGCS, -height * LGBH + LGCS) ), Box( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW, -LGCS), Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW, -height * LGBH + LGCS) ), Box( Vector(-length / 2 * LGBW + LGCS, width / 2 * LGBW - LGCS, -2 * LGCS), Vector(-length / 2 * LGBW + LGWW - LGCS, -width / 2 * LGBW + LGCS, 0) ), Object( LG_PLATE_COLUMN, Translate(Vector(-LGBW / 2, 0, -height * LGBH)) ), ) ) return result
def solid(): """LG 3788 Solid brick.""" mainpart = Union() for rot in (0, 1): rotpart = Union( Sphere( Vector(LGBW - LGCS, 2 * LGBW - LGCS, -LGCS), LGCS ), Sphere( Vector(LGBW - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Sphere( Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -LGCS), LGCS ), Sphere( Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Sphere( Vector(-LGBW + LGCS, LGBW + LGCS, -LGCS), LGCS ), Sphere( Vector(LGBW - LGCS, LGBW + LGCS, -LGCS), LGCS ), Sphere( Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Sphere( Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(LGBW - LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, LGBW + LGCS, -LGCS), Vector(LGBW - LGCS, LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW - LGCS, 2 * LGBW - LGCS, -LGCS), LGCS ), Cylinder( Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), Vector(LGBW - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW + LGCS, LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(LGBW - LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW - LGCS, LGBW + LGCS, -LGCS), LGCS ), Cylinder( Vector(LGBW - LGCS, -2 * LGBW + LGCS, -2 * LGPH + LGCS), Vector(LGBW - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(LGBW - 0.12 + LGCS, LGBW - LGCS, -2 * LGPH + LGCS), Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-LGBW + 0.12 - LGCS, LGBW - LGCS, -2 * LGPH + LGCS), Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, LGBW + LGCS, -LGCS), Vector(-LGBW + LGCS, LGBW + LGCS, -LGPH - LGCS), LGCS ), Cylinder( Vector(LGBW - LGCS, LGBW + LGCS, -LGCS), Vector(LGBW - LGCS, LGBW + LGCS, -LGPH - LGCS), LGCS ), Cylinder( Vector(-LGBW + LGCS, LGBW + LGCS, -LGPH - LGCS), Vector(-LGBW + LGCS, -LGBW - LGCS, -LGPH - LGCS), LGCS ), Cylinder( Vector(LGBW - LGCS, LGBW + LGCS, -LGPH - LGCS), Vector(LGBW - LGCS, -LGBW - LGCS, -LGPH - LGCS), LGCS ), Cylinder( Vector(LGBW - 0.12 + LGCS, LGBW - LGCS, -2 * LGPH + LGCS), Vector(-LGBW + 0.12 - LGCS, LGBW - LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(LGBW - 0.12 + LGCS, -LGBW + LGCS, -2 * LGPH + LGCS), Vector(-LGBW + 0.12 - LGCS, -LGBW + LGCS, -2 * LGPH + LGCS), LGCS ), Cylinder( Vector(-0.3 - LGCS, 2 * LGBW - LGCS, -0.2 + LGCS), Vector(0.3 + LGCS, 2 * LGBW - LGCS, -0.2 + LGCS), LGCS ), Cylinder( Vector(0, 0, 0), Vector(0.38 / cos(LG_ANGLE * pi / 180), 0, 0), LGCS, Rotate(Vector(0, -LG_ANGLE, 0)), Translate(Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Cylinder( Vector(0, 0, 0), Vector(-0.38 / cos(LG_ANGLE * pi / 180), 0, 0), LGCS, Rotate(Vector(0, LG_ANGLE, 0)), Translate(Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Difference( Union( Box( Vector(LGBW - LGCS, 2 * LGBW - LGCS, 0), Vector(-LGBW + LGCS, LGBW + LGCS, -2 * LGPH) ), Box( Vector(LGBW, 2 * LGBW - LGCS, -LGCS), Vector(-LGBW, LGBW + LGCS, -2 * LGPH + LGCS) ), Box( Vector(LGBW - LGCS, 2 * LGBW, -LGCS), Vector(-LGBW + LGCS, LGBW, -2 * LGPH + LGCS) ) ), Union( Object( LG_KNOB_INNER_SPACE, Translate(Vector(LGBW / 2, 1.5 * LGBW, -LG_TOP_HEIGHT)) ), Object( LG_KNOB_INNER_SPACE, Translate(Vector(-LGBW / 2, 1.5 * LGBW, -LG_TOP_HEIGHT)) ), Box( Vector(LGBW - 0.12, 2 * LGBW - 0.12, -LG_TOP_HEIGHT), Vector(-LGBW + 0.12, LGBW - LG_E, -2 * LGPH - LG_E) ), Box( Vector(LGBW - 0.12 + LGCS, 2 * LGBW - 0.12, -2 * LGPH + LGCS), Vector(-LGBW + 0.12 - LGCS, LGBW - LGCS, -2 * LGPH - LG_E) ), Box( Vector(-LGCS, -LGWW, 0), Vector(0.38 / cos(LG_ANGLE * pi / 180), LGCS + LG_E, -0.5), Rotate(Vector(0, -LG_ANGLE, 0)), Translate(Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Box( Vector(LGCS, -LGWW, 0), Vector(-0.38 / cos(LG_ANGLE * pi / 180), LGCS + LG_E, -0.5), Rotate(Vector(0, LG_ANGLE, 0)), Translate(Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Box( Vector(-0.3 - LGCS, 2 * LGBW - LGWW, -0.2 + LGCS), Vector(0.3 + LGCS, 2 * LGBW + LG_E, -2 * LGPH - LG_E) ) ) ), Difference( Box( Vector(LGBW - LGCS, LGBW + 0.13, -LGCS), Vector(-LGBW + LGCS, LGBW - LGWW, -2 * LGPH + LGCS) ), Union( Box( Vector(LGBW, 0.2, 0), Vector(-LGBW, 0, -0.4 / cos(18.00416161)), Rotate(Vector(-18.00416161, 0, 0)), Translate(Vector(0, LGBW + 0.13, -0.2)) ), Box( Vector(LGBW, LGBW, 0), Vector(-LGBW, LGBW - 0.2, -LGPH - LG_E) ), ), ), Box( Vector(LGBW, LGBW + 0.1, -LGPH - LGCS), Vector(LGBW - 0.12 + LG_E, -LGBW - 0.1, -2 * LGPH + LGCS) ), Box( Vector(LGBW - LGCS, LGBW + 0.1, -LGPH - LGCS), Vector(LGBW - 0.12 + LGCS, -LGBW - 0.1, -2 * LGPH) ), Box( Vector(LGBW - 0.12, LGBW - LGCS, -LGPH - LGCS), Vector(LGBW - 0.12 + LGCS + LG_E, -LGBW + LGCS, -2 * LGPH) ), Box( Vector(LGBW - LGCS, LGBW - LGCS, -2 * LGPH), Vector(-LGBW + LGCS, LGBW - LGWW, -2 * LGPH + LGCS + LG_E) ), Box( Vector(LGBW - LGWW, LGBW / 2 + 0.04, -2 * LGPH + LGCS), Vector(LGBW - 0.1, LGBW / 2 - 0.04, -LGPH - LGCS) ), Box( Vector(-LGBW + LGWW, LGBW / 2 + 0.04, -2 * LGPH + LGCS), Vector(-LGBW + 0.1, LGBW / 2 - 0.04, -LGPH - LGCS) ), Box( Vector(0, - 0.12 + LGCS, -LGCS), Vector(0.38 / cos(LG_ANGLE * pi / 180), 0, LG_E), Rotate(Vector(0, -LG_ANGLE, 0)), Translate(Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Box( Vector(0, -0.12 + LGCS, -LGCS), Vector(-0.38 / cos(LG_ANGLE * pi / 180), 0, LG_E), Rotate(Vector(0, LG_ANGLE, 0)), Translate(Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH + LGCS)) ), Box( Vector(-0.3 - LGCS, 2 * LGBW - 0.12, -0.2 + LGCS), Vector(0.3 + LGCS, 2 * LGBW - LGCS, -0.2) ), Box( Vector(LGBW - 0.12 + LGCS, 2 * LGBW - LGCS, -2 * LGPH), Vector(LGBW - LGCS, 2 * LGBW - 0.12e0, -2 * LGPH + LGCS) ), Box( Vector(-LGBW + 0.12 - LGCS, 2 * LGBW - LGCS, -2 * LGPH), Vector(-LGBW + LGCS, 2 * LGBW - 0.12e0, -2 * LGPH + LGCS) ), Object( lg_knob(), Rotate(Vector(0, 0, 90 + 180 * rot)), Translate(Vector(LGBW / 2, LGBW / 2, -LGPH)) ), Object( lg_knob(), Rotate(Vector(0, 0, 90 + 180 * rot)), Translate(Vector(-LGBW / 2, LGBW / 2, -LGPH)) ), Object( lg_knob(), Rotate(Vector(0, 0, 90 + 180 * rot)), Translate(Vector(LGBW / 2, 3 * LGBW / 2, 0)) ), Object( lg_knob(), Rotate(Vector(0, 0, 90 + 180 * rot)), Translate(Vector(-LGBW / 2, 3 * LGBW / 2, 0)) ) ) if rot == 1: rotpart.append( Rotate(Vector(0, 0, 180)) ) mainpart.append(rotpart) mainpart.append( Difference( Box( Vector(LGBW - LGCS, LGBW + LGCS, -LGPH), Vector(-LGBW + LGCS, -LGBW - LGCS, -LGPH - LG_TOP_HEIGHT) ), Union( Object( LG_KNOB_INNER_SPACE, Translate(Vector(LGBW / 2, LGBW / 2, -LGPH - LG_TOP_HEIGHT)) ), Object( LG_KNOB_INNER_SPACE, Translate(Vector(-LGBW / 2, LGBW / 2, -LGPH - LG_TOP_HEIGHT)) ), Object( LG_KNOB_INNER_SPACE, Translate(Vector(-LGBW / 2, -LGBW / 2, -LGPH - LG_TOP_HEIGHT)) ), Object( LG_KNOB_INNER_SPACE, Translate(Vector(LGBW / 2, -LGBW / 2, -LGPH - LG_TOP_HEIGHT)) ) ) ), Object( get_lg_cylinder(Union, LG_PLATE_INNER_HEIGHT), Translate(Vector(0, 0, -2 * LGPH)) ) ) return mainpart
def solid(length=4, width=1): """return lg_3710: Brick 1 x 4.""" return Union( Sphere(Vector(LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Sphere(Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGPH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGPH - LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH - LGCS), LGCS), Difference( Union( Box( Vector(LGCS, LGCS, 0), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGPH), ), Box( Vector(0, LGCS, LGCS), Vector(length * LGBW, width * LGBW - LGCS, LGPH - LGCS), ), Box( Vector(LGCS, 0, LGCS), Vector(length * LGBW - LGCS, width * LGBW, LGPH - LGCS), ), ), get_knob_inner_space(length, width)), # LG_PLATE_COLUMN, get_knob_objects(length, width, LGPH), Translate(Vector(-length / 2 * LGBW, -LGBW / 2, -LGPH)), Rotate(Vector(0, 0, 90)))
LG_KNOB_RADIUS)), Torus(LG_CYLINDER_RADIUS - LG_CYLINDER_WALL_WIDTH / 2, LG_CYLINDER_WALL_WIDTH / 2, Rotate(Vector(90, 0, 0)), Translate(Vector(0, 0, (LG_CYLINDER_WALL_WIDTH / 2))))) # lg_brick_cylinder = get_lg_cylinder(Union, LG_BRICK_INNER_HEIGHT) LG_PLATE_CYLINDER = get_lg_cylinder(Union, LG_PLATE_INNER_HEIGHT) # brick inner cylinder to fit into hollow stud LG_BRICK_COLUMN = Cylinder(Vector(0, 0, LG_BRICK_INNER_HEIGHT + LG_E), Vector(0, 0, 0), LG_KNOB_INNER_RADIUS) # plate inner cylinder to fit into hollow stud LG_PLATE_COLUMN = Difference( Cylinder(Vector(0, 0, LG_PLATE_INNER_HEIGHT + LG_E), Vector(0, 0, 0), LG_KNOB_INNER_RADIUS), Cylinder(Vector(0, 0, 1), Vector(0, 0, -1), 0.06)) # wall between brick cylinder and brick wall # LG_SUPPORT_WALL = Box( # Vector(-LG_CYLINDER_WALL_WIDTH / 2, -LG_E, 0.225), # Vector( # LG_CYLINDER_WALL_WIDTH / 2, # LG_BRICK_WIDTH - LG_CYLINDER_RADIUS - LG_WALL_WIDTH + LG_E, # LG_BRICK_HEIGHT # ) # ) # cutout for solid stud LG_KNOB_INNER_SPACE = Cylinder(Vector(0, 0, -LG_CORNER_SPACE), Vector(0, 0, 0.15), 0.125)
def solid(): """lg_4085c: Plate 1 x 1 with Clip Vertical.""" result = Union() for mir in range(0, 2): mirmatrix = Matrix(Vector(1, 0, 0, 0, -1, 0, 0, 0, 1, 0, 0, 0)) if mir == 1: mirmatrix = Matrix(Vector(1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0)) result.append( Union( Sphere(Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGCS), LGCS), Sphere(Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGCS), Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGCS), LGCS), Cylinder( Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGCS), Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(LGBW / 2 - LGCS, 0.2 - LGCS, -LGCS), Vector(LGBW - LGWW, 0.2 - LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 - LGCS, 0.2 - LGCS, -LGPH + LGCS), Vector(LGBW - LGWW, 0.2 - LGCS, -LGPH + LGCS), LGCS), Sphere( Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGCS), LGCS), Cylinder( Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGCS), Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGCS), LGCS), Sphere(Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGCS), LGCS), Sphere(Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW, 2 * LGWW - LGCS, -LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGCS), LGCS), Sphere( Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGPH + LGCS), Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGPH + LGCS), LGCS), Sphere(Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGPH + LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGPH + LGCS), LGCS), Sphere( Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(LGBW, 2 * LGWW - LGCS, -LGPH + LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGCS), Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGCS), Vector(LGBW + LGWW - LGCS, 0.13 + LGCS, -LGPH + LGCS), LGCS), Cylinder( Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS, -LGPH + LGCS), LGCS), Box( Vector(LGBW + LGWW, 0.13 + LGCS, -LGCS), Vector(LGBW + LGWW - LGCS - LG_E, 2 * LGWW - LGCS, -LGPH + LGCS)), Box( Vector(LGBW, 2 * LGWW, -LGCS), Vector(LGBW + LGWW - LGCS, 2 * LGWW - LGCS - LG_E, -LGPH + LGCS)), Box( Vector( LGBW + (LG_KNOB_INNER_RADIUS + LGCS) * sin(LG_ANGLE), 0.13 + LGCS + LG_E, -LGCS), Vector(LGBW + LGWW - LGCS, 0.13, -LGPH + LGCS)), Difference( Box(Vector(LGBW + LGWW - LGCS, 0.13, 0), Vector(LGBW, 2 * LGWW - LGCS, -LGPH)), Union( Cylinder(Vector(LGBW, 0, 0), Vector(LGBW, 0, -LGPH), LG_KNOB_INNER_RADIUS), Cylinder(Vector(LGBW, 0, -LGPH - LG_E), Vector(LGBW, 0, -LGPH + LGCS), LG_KNOB_INNER_RADIUS + LGCS), Cylinder(Vector(LGBW, 0, LG_E), Vector(LGBW, 0, -LGCS), LG_KNOB_INNER_RADIUS + LGCS), Difference( Box(Vector(LGBW + LGWW, 0, LG_E), Vector(LGBW - LG_E, 0.13 + LGCS, -LGPH - LG_E)), Box(Vector(0, 0.4, LG_E), Vector(-0.4, -0.4, -LGPH - LG_E), Rotate(Vector(0, 0, -LG_ANGLE * 180 / pi)), Translate(Vector(LGBW, 0, 0))), ), ), ), mirmatrix)) result.append( Union( Cylinder(Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGCS), Vector(LGBW / 2 - LGCS, -LGBW / 2 + LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), Vector(LGBW / 2 - LGCS, -LGBW / 2 + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, -LGBW / 2 + LGCS, -LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW / 2 - LGCS, -LGPH + LGCS), Vector(-LGBW / 2 + LGCS, -LGBW / 2 + LGCS, -LGPH + LGCS), LGCS), Difference( Union( Box(Vector(LGBW / 2 - LGCS, LGBW / 2 - LGCS, 0), Vector(-LGBW / 2 + LGCS, -LGBW / 2 + LGCS, -LGPH)), Box(Vector(LGBW / 2, LGBW / 2 - LGCS, -LGCS), Vector(-LGBW / 2, -LGBW / 2 + LGCS, -LGPH + LGCS)), Box(Vector(LGBW / 2 - LGCS, LGBW / 2, -LGCS), Vector(-LGBW / 2 + LGCS, -LGBW / 2, -LGPH + LGCS)), ), Union( Box( Vector(LGBW / 2 - LGWW, LGBW / 2 - LGWW, -LG_TOP_HEIGHT), Vector(-LGBW / 2 + LGWW, -LGBW / 2 + LGWW, -LGPH - LG_E)), Object(LG_KNOB_INNER_SPACE, Translate(Vector(0, 0, -LG_TOP_HEIGHT))), ), ), Object(lg_knob(), Rotate(Vector(0, 0, -90))), Intersection( Union( Torus(0.32 - LGCS, LGCS, Rotate(Vector(90, 0, 0)), Translate(Vector(LGBW, 0, -LGCS))), Torus(0.32 - LGCS, LGCS, Rotate(Vector(90, 0, 0)), Translate(Vector(LGBW, 0, -LGPH + LGCS))), Difference( Union( Cylinder(Vector(LGBW, 0, 0), Vector(LGBW, 0, -LGPH), 0.32 - LGCS), Cylinder(Vector(LGBW, 0, -LGCS), Vector(LGBW, 0, -LGPH + LGCS), 0.32), ), Union( Cylinder(Vector(LGBW, 0, 0), Vector(LGBW, 0, -LGPH), LG_KNOB_INNER_RADIUS), Cylinder(Vector(LGBW, 0, -LGPH - LG_E), Vector(LGBW, 0, -LGPH + LGCS), LG_KNOB_INNER_RADIUS + LGCS), Cylinder(Vector(LGBW, 0, LG_E), Vector(LGBW, 0, -LGCS), LG_KNOB_INNER_RADIUS + LGCS), ), ), ), Box(Vector(LGBW, 0.4, LG_E), Vector(LGBW / 2, -0.4, -LGPH - LG_E)), ), Intersection( Torus(LG_KNOB_INNER_RADIUS + LGCS, LGCS, Rotate(Vector(90, 0, 0))), Union( Box(Vector(0, 0.4, LGCS + LG_E), Vector(-0.4, -0.4, -LGCS - LG_E), Rotate(Vector(0, 0, LG_ANGLE * 180 / pi))), Box(Vector(0, 0.4, LGCS + LG_E), Vector(-0.4, -0.4, -LGCS - LG_E), Rotate(Vector(0, 0, -LG_ANGLE * 180 / pi))), ), Translate(Vector(LGBW, 0, -LGCS))), Intersection( Torus(LG_KNOB_INNER_RADIUS + LGCS, LGCS, Rotate(Vector(90, 0, 0))), Union( Box(Vector(0, 0.4, LGCS + LG_E), Vector(-0.4, -0.4, -LGCS - LG_E), Rotate(Vector(0, 0, LG_ANGLE * 180 / pi))), Box(Vector(0, 0.4, LGCS + LG_E), Vector(-0.4, -0.4, -LGCS - LG_E), Rotate(Vector(0, 0, -LG_ANGLE * 180 / pi))), ), Translate(Vector(LGBW, 0, -LGPH + LGCS))), Box(Vector(LGBW - LGWW - LGCS, 0.2 - LGCS, 0), Vector(LGBW / 2 - LGCS - LG_E, -0.2 + LGCS, -LGPH)), Box(Vector(LGBW - LGWW, 0.2, -LGCS), Vector(LGBW / 2 - LGCS - LG_E, -0.2, -LGPH + LGCS)))) return result
def solid(length=2, width=2): """Return lg_4865: Panel 1 x 2 x 1.""" result = Union( Sphere(Vector(LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Sphere(Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Sphere(Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGCS, LGCS, LGBH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGBW - LGCS, LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, (width - 1) * LGBW - LGCS, LGCS), Vector(LGBW - LGCS, LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGBW - LGCS, LGCS), Vector(length * LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), LGCS), Sphere(Vector(length * LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), Vector(LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(length * LGBW - LGCS, LGCS, LGBH - LGCS), Vector(length * LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), LGCS), Sphere(Vector(LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS), Sphere(Vector(LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), Vector(LGCS, width * LGBW - LGCS, LGBH - LGCS), LGCS), Cylinder(Vector(LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGBW - LGCS, LGBW - LGCS, LGCS), LGCS), Cylinder(Vector(LGBW - LGCS, width * LGBW - LGCS, LGBH - LGCS), Vector(LGBW - LGCS, LGBW - LGCS, LGBH - LGCS), LGCS), Difference( Union( Difference( Box( Vector(LGCS, LGCS, 0), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGBH)), Box(Vector(LGBW - LGCS, LGBW - LGCS, -LG_E), Vector(length * LGBW, width * LGBW, LGBH + LG_E)), ), Difference( Union( Box( Vector(0, LGCS, LGCS), Vector(length * LGBW, width * LGBW - LGCS, LGBH - LGCS)), Box( Vector(LGCS, 0, LGCS), Vector(length * LGBW - LGCS, width * LGBW, LGBH - LGCS)), ), Box( Vector(LGBW, LGBH, 0), Vector(length * LGBW + LG_E, width * LGBW + LG_E, LGBH))), Union( Difference( Box( Vector(LGWW, LGWW, -LG_E), Vector(length * LGBW - LGWW, width * LGBW - LGWW, LG_BRICK_INNER_HEIGHT)), Box( Vector(length / LGBW, width * LGBW, -LGCS), Vector(length / 2 * LGBW - LGWW, width / 2 * LGBW - LGWW, LG_BRICK_INNER_HEIGHT + LG_E)), ), Box(Vector(length * LGBW - LGCS, LGBW - LGCS, -LG_E), Vector(length * LGBW + LG_E, LGBW + LG_E, LGBH + LG_E)), Box(Vector(LGBW - LGCS, width * LGBW - LGCS, -LG_E), Vector(LGBW + LG_E, width * LGBW + LG_E, LGBH + LG_E)), Object( LG_KNOB_INNER_SPACE, Translate( Vector(0.5 * LGBW, 0.5 * LGBW, LG_BRICK_INNER_HEIGHT))), Object( LG_KNOB_INNER_SPACE, Translate( Vector(0.5 * LGBW, 1.5 * LGBW, LG_BRICK_INNER_HEIGHT))), Object( LG_KNOB_INNER_SPACE, Translate( Vector(1.5 * LGBW, 0.5 * LGBW, LG_BRICK_INNER_HEIGHT))))), Box( Vector( sqrt(2) * (LGBW + LG_CYLINDER_RADIUS) / 2, -0.06, LG_BRICK_INNER_HEIGHT), Vector(sqrt(2) * LGBW, 0.06, 0), Rotate(Vector(0, 0, 45))), ), Object(LG_BRICK_COLUMN, Translate(Vector(LGBW, 0.5 * LGBW, 0))), Object(LG_BRICK_COLUMN, Translate(Vector(0.5 * LGBW, LGBW, 0))), Object(lg_knob(), Translate(Vector(0.5 * LGBW, 0.5 * LGBW, LGBH))), Object(lg_knob(), Translate(Vector(1.5 * LGBW, 0.5 * LGBW, LGBH))), Object( lg_knob(), Translate(Vector(0.5 * LGBW, 1.5 * LGBW, LGBH)), ), Translate(Vector((-length / 2 + 0.5) * LGBW, -0.5 * LGBW, -LGBH)), Rotate(Vector(0, 0, 180))) return result
def solid(): """@Todo: Docstring.""" return Union( Sphere(Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGPH + LGCS), LGCS), Sphere(Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGPH + LGCS), Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, -LGBW + LGCS, -LGPH + LGCS), Vector(-LGBW / 2 + LGCS, -LGBW + LGCS, -LGPH + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, LGBW - LGCS, -LGPH + LGCS), Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGPH + LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), LGCS), Sphere(Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, -LGBW + LGCS, -LGCS), Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGCS), LGCS), Cylinder( Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder( Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGCS), LGCS), Cylinder( Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGCS), Vector(LGBW / 2 + LGCS, -2 * LGBW + LGCS, -LGBW + LGCS), LGCS), Cylinder(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, -LGBW + LGCS), LGCS), Difference( Union( Box(Vector(LGBW / 2 + LGCS + LG_E, -LGBW + LGCS, 0), Vector(-LGBW / 2 + LGCS, LGBW - LGCS, -LGPH)), Box(Vector(LGBW / 2 + LGCS + LG_E, -LGBW, -LGCS), Vector(-LGBW / 2 + LGCS, LGBW, -LGPH + LGCS)), Box(Vector(LGBW / 2 + LGCS + LG_E, -LGBW + LGCS, -LGCS), Vector(-LGBW / 2, LGBW - LGCS, -LGPH + LGCS)), ), Union( Box(Vector(LGBW / 2 + LG_E, -LGBW + LGWW, -LG_TOP_HEIGHT), Vector(-LGBW / 2 + LGWW, LGBW - LGWW, -LGPH - LG_E)), Object(LG_KNOB_INNER_SPACE, Translate(Vector(0, -LGBW / 2, -LG_TOP_HEIGHT))), Object(LG_KNOB_INNER_SPACE, Translate(Vector(0, LGBW / 2, -LG_TOP_HEIGHT))), ), ), Box(Vector(LGBW / 2 + LGCS, 2 * LGBW - LGCS, 0), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW + LGCS, -LGBW)), Box(Vector(LGBW / 2 + LGCS, 2 * LGBW, -LGCS), Vector(LGBW / 2 + LGWW - LGCS, -2 * LGBW, -LGBW + LGCS)), Box(Vector(LGBW / 2, 2 * LGBW - LGCS, -LGCS), Vector(LGBW / 2 + LGWW, -2 * LGBW + LGCS, -LGBW + LGCS)), Box(Vector(LG_KNOB_RADIUS, -LGBW / 2 + 0.06, -LGPH), Vector(LGBW / 2 + LG_E, -LGBW / 2 - 0.06, -LG_TOP_HEIGHT + LG_E)), Box(Vector(LG_KNOB_RADIUS, LGBW / 2 + 0.06, -LGPH), Vector(LGBW / 2 + LG_E, LGBW / 2 - 0.06, -LG_TOP_HEIGHT + LG_E)), Object(LG_PLATE_COLUMN, Translate(Vector(0, 0, -LGPH))), Object(lg_knob(), Rotate(Vector(0, 0, 90)), Translate(Vector(0, -LGBW / 2, 0))), Object(lg_knob(), Rotate(Vector(0, 0, 90)), Translate(Vector(0, LGBW / 2, 0))), Object(lg_tech_knob_logo(), Rotate(Vector(0, 0, 90)), Rotate(Vector(0, 90, 0)), Translate(Vector(LGBW / 2 + LGWW, -3 * LGBW / 2, -LGBW / 2))), Object(lg_tech_knob_logo(), Rotate(Vector(0, 0, 90)), Rotate(Vector(0, 90, 0)), Translate(Vector(LGBW / 2 + LGWW, -LGBW / 2, -LGBW / 2))), Object(lg_tech_knob_logo(), Rotate(Vector(0, 0, 90)), Rotate(Vector(0, 90, 0)), Translate(Vector(LGBW / 2 + LGWW, LGBW / 2, -LGBW / 2))), Object(lg_tech_knob_logo(), Rotate(Vector(0, 0, 90)), Rotate(Vector(0, 90, 0)), Translate(Vector(LGBW / 2 + LGWW, 3 * LGBW / 2, -LGBW / 2))), )
def standard_plate( length=1, width=1, height=LGPH, innerheight=LG_PLATE_INNER_HEIGHT ): """ Standard plate brick. @Todo: fix plate column for 1x2 plate & bricks """ return Union( Sphere( Vector(LGCS, LGCS, LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, LGCS, LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, LGCS, height - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, LGCS, height - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, height - LGCS), Vector(LGCS, LGCS, height - LGCS), LGCS ), Sphere( Vector(LGCS, LGCS, height - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS), Vector(LGCS, LGCS, height - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS ), Sphere( Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS ), Cylinder( Vector(LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Sphere( Vector(LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Cylinder( Vector(LGCS, LGCS, height - LGCS), Vector(LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(LGCS, width * LGBW - LGCS, LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Sphere( Vector(length * LGBW - LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, width * LGBW - LGCS, height - LGCS), Vector(LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Cylinder( Vector(length * LGBW - LGCS, LGCS, height - LGCS), Vector(length * LGBW - LGCS, width * LGBW - LGCS, height - LGCS), LGCS ), Difference( Union( Box( Vector(LGCS, LGCS, 0), Vector(length * LGBW - LGCS, width * LGBW - LGCS, height) ), Box( Vector(0, LGCS, LGCS), Vector(length * LGBW, width * LGBW - LGCS, height - LGCS) ), Box( Vector(LGCS, 0, LGCS), Vector(length * LGBW - LGCS, width * LGBW, height - LGCS) ), ), get_knob_inner_space(length, width) ), get_cylinder(length, width, Union, innerheight), get_knob_objects(length, width, height), Translate( Vector(-length / 2 * LGBW, -LGBW, -height) ), Rotate(Vector(0, 0, 90)) )