def test_convert_fun0_rlist(): from benchmark.convert2r import GOClass2RConverter gocc = GOClass2RConverter(go_funcs_A.Ackley01) rl = gocc.rlist idx_fglob = rl.names.index('glob.min') assert(idx_fglob) obj = rl[idx_fglob][0] assert(obj == 0.)
def test_convert_func_calling(): from benchmark.convert2r import GOClass2RConverter count = 0 notok = 0 for name, klass in goclass(): print('Calling function: {0}'.format(name)) count += 1 try: gocc = GOClass2RConverter(klass) #with nostdout(): res = gocc.fun(gocc.xglob) npt.assert_almost_equal(gocc.fglob, res[0], decimal=4) except Exception as e: print(e) notok += 1 continue print("R func call that failed: {0} ratio: {1}".format(notok, (count-notok)*100/count))
def test_convert_fun0(): from benchmark.convert2r import GOClass2RConverter gocc = GOClass2RConverter(go_funcs_A.Ackley01) assert(gocc.name == 'Ackley01') assert(gocc.fglob == 0) assert(gocc.dim == 2)
def test_convert_run_rfun(): from benchmark.convert2r import GOClass2RConverter gocc = GOClass2RConverter(go_funcs_A.Ackley01) rfun = gocc.fun rxglob = gocc.xglob npt.assert_almost_equal(gocc.fglob, rfun(rxglob)[0])