# test the functions imported from cmath try: from cmath import * except ImportError: print("SKIP") raise SystemExit # make sure these constants exist in cmath print("%.5g" % e) print("%.5g" % pi) test_values_non_zero = [] base_values = (0.0, 0.5, 1.2345, 10.0) for r in base_values: for i in base_values: if r != 0.0 or i != 0.0: test_values_non_zero.append(complex(r, i)) if r != 0.0: test_values_non_zero.append(complex(-r, i)) if i != 0.0: test_values_non_zero.append(complex(r, -i)) if r != 0.0 and i != 0.0: test_values_non_zero.append(complex(-r, -i)) test_values = [complex(0.0, 0.0),] + test_values_non_zero print(test_values) functions = [ ("phase", phase, test_values), ("polar", polar, test_values), ( "rect", rect, ((0, 0), (0, 1), (0, -1), (1, 0), (-1, 0), (1, 1), (-1, 1), (1, -1), (123.0, -456.0)), ), ("exp", exp, test_values), ("log", log, test_values_non_zero), ("sqrt", sqrt, test_values), ("cos", cos, test_values), ("sin", sin, test_values), ] for f_name, f, test_vals in functions: print(f_name) for val in test_vals: if type(val) == tuple: ret = f(*val) else: ret = f(val) if type(ret) == float: print("%.5g" % ret) elif type(ret) == tuple: print("%.5g %.5g" % ret) else: # some test (eg cmath.sqrt(-0.5)) disagree with CPython with tiny real part real = ret.real if abs(real) < 1e-6: real = 0.0 print("complex(%.5g, %.5g)" % (real, ret.imag))