def test_udo_statement_gen__not_raises(self): p = parse_pch2(self.data, self.poly_mix2_fn) p.cables = [transform_in2in_cables(p, c) for c in p.cables] zak = ZakSpace() udos = zak.connect_patch(p) csd = Csd(p, zak, udos) csd.get_code()
def convert_pch2(fn: str): if not fn.lower().endswith('.pch2'): print("error: the patch file should have extension '.pch2'") exit(-1) data = ProjectData() path = os.path.abspath(os.path.expanduser(fn)) p = parse_pch2(data, path) zak = ZakSpace() try: udos = zak.connect_patch(p) except ValueError as e: print('error: {}'.format(e)) exit(-1) csd = Csd(p, zak, udos) dirname = os.path.dirname(path) csd_save_path = os.path.join(dirname, os.path.basename(path) + '.csd') with open(csd_save_path, 'w') as f: f.write(csd.get_code())
def test_r2b_b2r(self): p = parse_pch2(self.data, self.r2b_b2r_fn) zak = ZakSpace() udos = zak.connect_patch(p) in2, envh, out2, a2k, k2a = sorted(udos, key=lambda x: x.mod.id) # sends a self.assertSequenceEqual(in2.outlets, [7, 0]) # a -> k self.assertSequenceEqual(a2k.inlets, [7]) self.assertSequenceEqual(a2k.outlets, [7]) # receives k self.assertSequenceEqual(envh.inlets, [1, 7, 1]) # sends k self.assertSequenceEqual(envh.outlets, [0, 8]) # k -> a self.assertSequenceEqual(k2a.inlets, [8]) self.assertSequenceEqual(k2a.outlets, [8]) # receives a self.assertSequenceEqual(out2.inlets, [8, 1]) csd = Csd(p, zak, udos) print(csd.get_code())