#!/usr/bin/env python3 # Copyright (C) 2020 Norbert Szulc # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from boxes import * from boxes.edges import FingerJointEdge class UnevenFingerJointEdge(FingerJointEdge): """Uneven finger joint edge """ char = 'u' description = "Uneven Finger Joint" positive = True def __call__(self, length, bedBolts=None, bedBoltSettings=None, **kw): # copied from original positive = self.positive s, f, thickness = self.settings.space, self.settings.finger, self.settings.thickness p = 1 if positive else -1 fingers, leftover = self.calcFingers(length, bedBolts) if not positive: play = self.settings.play f += play s -= play leftover -= play shift = (f + s) / 2 # we shift all fingers to make them un even if (leftover < shift): leftover = shift self.edge((leftover + shift)/2, tabs=1) # Whole point of this class l1,l2 = self.fingerLength(self.settings.angle) h = l1-l2 d = (bedBoltSettings or self.bedBoltSettings)[0] for i in range(fingers): if i != 0: if not positive and bedBolts and bedBolts.drawBolt(i): self.hole(0.5 * s, 0.5 * self.settings.thickness, 0.5 * d) if positive and bedBolts and bedBolts.drawBolt(i): self.bedBoltHole(s, bedBoltSettings) else: self.edge(s) if positive and self.settings.style == "springs": self.polyline( 0, -90 * p, 0.8*h, (90 * p, 0.2*h), 0.1 * h, 90, 0.9*h, -180, 0.9*h, 90, f - 0.6*h, 90, 0.9*h, -180, 0.9*h, 90, 0.1*h, (90 * p, 0.2 *h), 0.8*h, -90 * p) else: self.polyline(0, -90 * p, h, 90 * p, f, 90 * p, h, -90 * p) self.edge((leftover - shift)/2, tabs=1) # Whole point of this class # Unstable class UnevenFingerJointEdgeCounterPart(UnevenFingerJointEdge): """Uneven finger joint edge - other side""" char = 'U' description = "Uneven Finger Joint (opposing side)" positive = False class Platonic(Boxes): """Platonic solids generator""" ui_group = "Unstable" # see ./__init__.py for names description = """![Icosahedron](static/samples/Platonic-Icosahedron.jpg) """ SOLIDS = { "tetrahedron": (4, 3), "cube": (6, 4), "octahedron": (8, 3), "dodecahedron": (12, 5), "icosahedro": (20, 3), } def __init__(self) -> None: Boxes.__init__(self) self.addSettingsArgs(edges.FingerJointSettings, surroundingspaces=0) self.buildArgParser(x=60, outside=True) # x should be treated as edge length, TODO: change that self.argparser.add_argument( "--type", action="store", type=str, default=list(self.SOLIDS)[0], choices=list(self.SOLIDS), help="type of platonic solid") def render(self): # adjust to the variables you want in the local scope e = self.x t = self.thickness faces, corners = self.SOLIDS[self.type] u = UnevenFingerJointEdge(self, self.edges["f"].settings) self.addPart(u) uc = UnevenFingerJointEdgeCounterPart(self, self.edges["f"].settings) self.addPart(uc) for _ in range(faces): self.regularPolygonWall(corners, side=e, edges="u", move="right")