# Tests the functions imported from math try: from math import * except ImportError: print("SKIP") raise SystemExit test_values = [-100., -1.23456, -1, -0.5, 0.0, 0.5, 1.23456, 100.] test_values_small = [-10., -1.23456, -1, -0.5, 0.0, 0.5, 1.23456, 10.] # so we don't overflow 32-bit precision unit_range_test_values = [-1., -0.75, -0.5, -0.25, 0., 0.25, 0.5, 0.75, 1.] functions = [('sqrt', sqrt, test_values), ('exp', exp, test_values_small), ('log', log, test_values), ('cos', cos, test_values), ('sin', sin, test_values), ('tan', tan, test_values), ('acos', acos, unit_range_test_values), ('asin', asin, unit_range_test_values), ('atan', atan, test_values), ('ceil', ceil, test_values), ('fabs', fabs, test_values), ('floor', floor, test_values), ('trunc', trunc, test_values), ('radians', radians, test_values), ('degrees', degrees, test_values), ] for function_name, function, test_vals in functions: print(function_name) for value in test_vals: try: print("{:.5g}".format(function(value))) except ValueError as e: print(str(e)) tuple_functions = [('frexp', frexp, test_values), ('modf', modf, test_values), ] for function_name, function, test_vals in tuple_functions: print(function_name) for value in test_vals: x, y = function(value) print("{:.5g} {:.5g}".format(x, y)) binary_functions = [('copysign', copysign, [(23., 42.), (-23., 42.), (23., -42.), (-23., -42.), (1., 0.0), (1., -0.0)]), ('pow', pow, ((1., 0.), (0., 1.), (2., 0.5), (-3., 5.), (-3., -4.),)), ('atan2', atan2, ((1., 0.), (0., 1.), (2., 0.5), (-3., 5.), (-3., -4.),)), ('fmod', fmod, ((1., 1.), (0., 1.), (2., 0.5), (-3., 5.), (-3., -4.),)), ('ldexp', ldexp, ((1., 0), (0., 1), (2., 2), (3., -2), (-3., -4),)), ('log', log, ((2., 2.), (3., 2.), (4., 5.), (0., 1.), (1., 0.), (-1., 1.), (1., -1.), (2., 1.))), ] for function_name, function, test_vals in binary_functions: print(function_name) for value1, value2 in test_vals: try: print("{:.5g}".format(function(value1, value2))) except (ValueError, ZeroDivisionError) as e: print(type(e))