import random from mpmath import * from mpmath.libmp import * def test_basic_string(): """ Test basic string conversion """ mp.dps = 15 assert mpf('3') == mpf('3.0') == mpf('0003.') == mpf('0.03e2') == mpf(3.0) assert mpf('30') == mpf('30.0') == mpf('00030.') == mpf(30.0) for i in range(10): for j in range(10): assert mpf('%ie%i' % (i,j)) == i * 10**j assert str(mpf('25000.0')) == '25000.0' assert str(mpf('2500.0')) == '2500.0' assert str(mpf('250.0')) == '250.0' assert str(mpf('25.0')) == '25.0' assert str(mpf('2.5')) == '2.5' assert str(mpf('0.25')) == '0.25' assert str(mpf('0.025')) == '0.025' assert str(mpf('0.0025')) == '0.0025' assert str(mpf('0.00025')) == '0.00025' assert str(mpf('0.000025')) == '2.5e-5' assert str(mpf(0)) == '0.0' assert str(mpf('2.5e1000000000000000000000')) == '2.5e+1000000000000000000000' assert str(mpf('2.6e-1000000000000000000000')) == '2.6e-1000000000000000000000' assert str(mpf(1.23402834e-15)) == '1.23402834e-15' assert str(mpf(-1.23402834e-15)) == '-1.23402834e-15' assert str(mpf(-1.2344e-15)) == '-1.2344e-15' assert repr(mpf(-1.2344e-15)) == "mpf('-1.2343999999999999e-15')" assert str(mpf("2163048125L")) == '2163048125.0' assert str(mpf("-2163048125l")) == '-2163048125.0' assert str(mpf("-2163048125L/1088391168")) == '-1.98738118113799' assert str(mpf("2163048125/1088391168l")) == '1.98738118113799' def test_pretty(): mp.pretty = True assert repr(mpf(2.5)) == '2.5' assert repr(mpc(2.5,3.5)) == '(2.5 + 3.5j)' mp.pretty = False iv.pretty = True assert repr(mpi(2.5,3.5)) == '[2.5, 3.5]' iv.pretty = False def test_str_whitespace(): assert mpf('1.26 ') == 1.26 def test_unicode(): mp.dps = 15 try: unicode = unicode except NameError: unicode = str assert mpf(unicode('2.76')) == 2.76 assert mpf(unicode('inf')) == inf def test_str_format(): assert to_str(from_float(0.1),15,strip_zeros=False) == '0.100000000000000' assert to_str(from_float(0.0),15,show_zero_exponent=True) == '0.0e+0' assert to_str(from_float(0.0),0,show_zero_exponent=True) == '.0e+0' assert to_str(from_float(0.0),0,show_zero_exponent=False) == '.0' assert to_str(from_float(0.0),1,show_zero_exponent=True) == '0.0e+0' assert to_str(from_float(0.0),1,show_zero_exponent=False) == '0.0' assert to_str(from_float(1.23),3,show_zero_exponent=True) == '1.23e+0' assert to_str(from_float(1.23456789000000e-2),15,strip_zeros=False,min_fixed=0,max_fixed=0) == '1.23456789000000e-2' assert to_str(from_float(1.23456789000000e+2),15,strip_zeros=False,min_fixed=0,max_fixed=0) == '1.23456789000000e+2' assert to_str(from_float(2.1287e14), 15, max_fixed=1000) == '212870000000000.0' assert to_str(from_float(2.1287e15), 15, max_fixed=1000) == '2128700000000000.0' assert to_str(from_float(2.1287e16), 15, max_fixed=1000) == '21287000000000000.0' assert to_str(from_float(2.1287e30), 15, max_fixed=1000) == '2128700000000000000000000000000.0' def test_tight_string_conversion(): mp.dps = 15 # In an old version, '0.5' wasn't recognized as representing # an exact binary number and was erroneously rounded up or down assert from_str('0.5', 10, round_floor) == fhalf assert from_str('0.5', 10, round_ceiling) == fhalf def test_eval_repr_invariant(): """Test that eval(repr(x)) == x""" random.seed(123) for dps in [10, 15, 20, 50, 100]: mp.dps = dps for i in range(1000): a = mpf(random.random())**0.5 * 10**random.randint(-100, 100) assert eval(repr(a)) == a mp.dps = 15 def test_str_bugs(): mp.dps = 15 # Decimal rounding used to give the wrong exponent in some cases assert str(mpf('1e600')) == '1.0e+600' assert str(mpf('1e10000')) == '1.0e+10000' def test_str_prec0(): assert to_str(from_float(1.234), 0) == '.0e+0' assert to_str(from_float(1e-15), 0) == '.0e-15' assert to_str(from_float(1e+15), 0) == '.0e+15' assert to_str(from_float(-1e-15), 0) == '-.0e-15' assert to_str(from_float(-1e+15), 0) == '-.0e+15' def test_convert_rational(): mp.dps = 15 assert from_rational(30, 5, 53, round_nearest) == (0, 3, 1, 2) assert from_rational(-7, 4, 53, round_nearest) == (1, 7, -2, 3) assert to_rational((0, 1, -1, 1)) == (1, 2) def test_custom_class(): class mympf: @property def _mpf_(self): return mpf(3.5)._mpf_ class mympc: @property def _mpc_(self): return mpf(3.5)._mpf_, mpf(2.5)._mpf_ assert mpf(2) + mympf() == 5.5 assert mympf() + mpf(2) == 5.5 assert mpf(mympf()) == 3.5 assert mympc() + mpc(2) == mpc(5.5, 2.5) assert mpc(2) + mympc() == mpc(5.5, 2.5) assert mpc(mympc()) == (3.5+2.5j) def test_conversion_methods(): class SomethingRandom: pass class SomethingReal: def _mpmath_(self, prec, rounding): return mp.make_mpf(from_str('1.3', prec, rounding)) class SomethingComplex: def _mpmath_(self, prec, rounding): return mp.make_mpc((from_str('1.3', prec, rounding), \ from_str('1.7', prec, rounding))) x = mpf(3) z = mpc(3) a = SomethingRandom() y = SomethingReal() w = SomethingComplex() for d in [15, 45]: mp.dps = d assert (x+y).ae(mpf('4.3')) assert (y+x).ae(mpf('4.3')) assert (x+w).ae(mpc('4.3', '1.7')) assert (w+x).ae(mpc('4.3', '1.7')) assert (z+y).ae(mpc('4.3')) assert (y+z).ae(mpc('4.3')) assert (z+w).ae(mpc('4.3', '1.7')) assert (w+z).ae(mpc('4.3', '1.7')) x-y; y-x; x-w; w-x; z-y; y-z; z-w; w-z x*y; y*x; x*w; w*x; z*y; y*z; z*w; w*z x/y; y/x; x/w; w/x; z/y; y/z; z/w; w/z x**y; y**x; x**w; w**x; z**y; y**z; z**w; w**z x==y; y==x; x==w; w==x; z==y; y==z; z==w; w==z mp.dps = 15 assert x.__add__(a) is NotImplemented assert x.__radd__(a) is NotImplemented assert x.__lt__(a) is NotImplemented assert x.__gt__(a) is NotImplemented assert x.__le__(a) is NotImplemented assert x.__ge__(a) is NotImplemented assert x.__eq__(a) is NotImplemented assert x.__ne__(a) is NotImplemented # implementation detail if hasattr(x, "__cmp__"): assert x.__cmp__(a) is NotImplemented assert x.__sub__(a) is NotImplemented assert x.__rsub__(a) is NotImplemented assert x.__mul__(a) is NotImplemented assert x.__rmul__(a) is NotImplemented assert x.__div__(a) is NotImplemented assert x.__rdiv__(a) is NotImplemented assert x.__mod__(a) is NotImplemented assert x.__rmod__(a) is NotImplemented assert x.__pow__(a) is NotImplemented assert x.__rpow__(a) is NotImplemented assert z.__add__(a) is NotImplemented assert z.__radd__(a) is NotImplemented assert z.__eq__(a) is NotImplemented assert z.__ne__(a) is NotImplemented assert z.__sub__(a) is NotImplemented assert z.__rsub__(a) is NotImplemented assert z.__mul__(a) is NotImplemented assert z.__rmul__(a) is NotImplemented assert z.__div__(a) is NotImplemented assert z.__rdiv__(a) is NotImplemented assert z.__pow__(a) is NotImplemented assert z.__rpow__(a) is NotImplemented def test_mpmathify(): assert mpmathify('1/2') == 0.5 assert mpmathify('(1.0+1.0j)') == mpc(1, 1) assert mpmathify('(1.2e-10 - 3.4e5j)') == mpc('1.2e-10', '-3.4e5') assert mpmathify('1j') == mpc(1j) def test_issue548(): try: # This expression is invalid, but may trigger the ReDOS vulnerability # in the regular expression for parsing complex numbers. mpmathify('(' + '1' * 5000 + '!j') except: return # The expression is invalid and should raise an exception. assert False def test_compatibility(): try: import numpy as np from fractions import Fraction from decimal import Decimal import decimal except ImportError: return # numpy types for nptype in np.core.numerictypes.typeDict.values(): if issubclass(nptype, np.complexfloating): x = nptype(complex(0.5, -0.5)) elif issubclass(nptype, np.floating): x = nptype(0.5) elif issubclass(nptype, np.integer): x = nptype(2) # Handle the weird types try: diff = np.abs(type(np.sqrt(x))(sqrt(x)) - np.sqrt(x)) except: continue assert diff < 2.0**-53 #Fraction and Decimal oldprec = mp.prec mp.prec = 1000 decimal.getcontext().prec = mp.dps assert sqrt(Fraction(2, 3)).ae(sqrt(mpf('2/3'))) assert sqrt(Decimal(2)/Decimal(3)).ae(sqrt(mpf('2/3'))) mp.prec = oldprec