# (c) 2014 David Douard # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License (LGPL) # as published by the Free Software Foundation; either version 2 of # the License, or (at your option) any later version. # for detail see the LICENCE text file. # # FCGear 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 Library General Public License for more details. # # You should have received a copy of the GNU Library General Public # License along with FCGear; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 import itertools from involute import CreateExternalGear, CreateInternalGear, rotate class SVGWireBuilder(object): def __init__(self): self.theta = 0.0 self.pos = None self.svg = [] def move(self, p): p = rotate(p, self.theta) self.svg.append('M %s,%s' % (p[0], p[1])) self.pos = p def line(self, p): p = rotate(p, self.theta) self.svg.append('L %s,%s' % (p[0], p[1])) self.pos = p def arc(self, p, r, sweep): p = rotate(p, self.theta) self.svg.append('A %s,%s 0,0,%s %s,%s' % (r, r, str(sweep), p[0], p[1])) self.pos = p def curve(self, *points): """Add a Bezier curve from self.pos to points[-1] every other points are the control points of the Bezier curve (which will thus be of degree len(points) ) """ assert len(points) == 3 points = [rotate(p, self.theta) for p in points] self.svg.append('C %s,%s %s,%s %s,%s' % tuple(itertools.chain(*points))) self.pos = points[-1] def close(self): self.svg.append('Z') if __name__ == '__main__': from optparse import OptionParser p = OptionParser( usage="usage: %prog [options] [[MODULE] NUMER_OF_TEETH]", description=("Generates the outline of a metric, involute gear. " "Prints out an SVG path. " "This is mainly a debugging tool to quickly inspect the gear visually. " "For this, online tools like https://yqnn.github.io/svg-path-editor/ are handy. " "Most of the time it's enough to just use the first 20 lines or so, e.g.:\n\t" "%prog -z50 | head -n20 | pbcopy")) p.add_option('-z', '--numer-of-teeth', help="The number of teeth for the gear.", metavar='NUMER_OF_TEETH', type='int') p.add_option('-m', '--module', help="The metric module, in svg user unit, i.e. unit-less. [default: %default]", metavar='MODULE', type='float', default=1) p.add_option('-p', '--pressure-angle', help="The pressure angle, in degree. [default: %default]", metavar='PRESSURE_ANGLE', type='float', default=20) p.add_option('-i', '--internal', help=("Generates an internal gear, i.e. the addednum points towards the center " "and the root fillet is at the outside. [default: %default]"), action='store_true', default=False) p.add_option('-a', '--addendum', help=("The tooth height above the pitch line, normalized by the MODULE. " "[default: %default]"), metavar='ADDENDUM_COEFFICIENT', type='float', default=1) p.add_option('-d', '--dedendum', help=("The tooth height from the root to the pitch line, normalized by the MODULE. " "[default: %default]"), metavar='DEDENDUM_COEFFICIENT', type='float', default=1.25) p.add_option('-f', '--fillet-radius', help=("The radius of the root fillet, normalized by the MODULE. " "[default: %default]"), metavar='FILLET_RADIUS_COEFFICIENT', type='float', default=0.38) opts, args = p.parse_args() errors = [] if len(args) == 1: opts.numer_of_teeth = int(args[0]) if len(args) == 2: opts.module = float(args[0]) opts.numer_of_teeth = int(args[1]) if len(args) > 2: errors.append("Too many arguments.") if opts.numer_of_teeth is None: errors.append("No number of teeth given.") if len(errors) > 0: errors.append("Try --help for more info.") p.error("\n".join(errors)) w = SVGWireBuilder() generator_func = CreateInternalGear if opts.internal else CreateExternalGear generator_func(w, opts.module, opts.numer_of_teeth, opts.pressure_angle, addCoeff=opts.addendum, dedCoeff=opts.dedendum, filletCoeff=opts.fillet_radius) for l in w.svg: print(l)