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| author | Stefan Krah <skrah@bytereef.org> | 2012-12-15 21:33:33 (GMT) |
|---|---|---|
| committer | Stefan Krah <skrah@bytereef.org> | 2012-12-15 21:33:33 (GMT) |
| commit | 040e3118267bda53b34e35470f7ef0f6dc40cfad (patch) | |
| tree | ca2534dbb95f20231207ebbd596f7fb0f8b222e0 /Lib/test | |
| parent | 618c2e13ca410f342bb057e62e24478b585744aa (diff) | |
| download | cpython-040e3118267bda53b34e35470f7ef0f6dc40cfad.zip cpython-040e3118267bda53b34e35470f7ef0f6dc40cfad.tar.gz cpython-040e3118267bda53b34e35470f7ef0f6dc40cfad.tar.bz2 | |
Issue #15783: Except for the number methods, the C version of decimal now
supports all None default values present in decimal.py. These values were
largely undocumented.
Diffstat (limited to 'Lib/test')
| -rw-r--r-- | Lib/test/test_decimal.py | 302 |
1 files changed, 294 insertions, 8 deletions
diff --git a/Lib/test/test_decimal.py b/Lib/test/test_decimal.py index 5195930..0dddc4b 100644 --- a/Lib/test/test_decimal.py +++ b/Lib/test/test_decimal.py @@ -2089,6 +2089,248 @@ class UsabilityTest(unittest.TestCase): self.assertEqual(str(Decimal(0).sqrt()), str(c.sqrt(Decimal(0)))) + def test_none_args(self): + Decimal = self.decimal.Decimal + Context = self.decimal.Context + localcontext = self.decimal.localcontext + InvalidOperation = self.decimal.InvalidOperation + DivisionByZero = self.decimal.DivisionByZero + Overflow = self.decimal.Overflow + Underflow = self.decimal.Underflow + Subnormal = self.decimal.Subnormal + Inexact = self.decimal.Inexact + Rounded = self.decimal.Rounded + Clamped = self.decimal.Clamped + ROUND_HALF_EVEN = self.decimal.ROUND_HALF_EVEN + ROUND_DOWN = self.decimal.ROUND_DOWN + ROUND_UP = self.decimal.ROUND_UP + + with localcontext(Context()) as c: + c.prec = 7 + c.Emax = 999 + c.Emin = -999 + + x = Decimal("111") + y = Decimal("1e9999") + z = Decimal("1e-9999") + + ##### Unary functions + c.clear_flags() + self.assertEqual(str(x.exp(context=None)), '1.609487E+48') + self.assertTrue(c.flags[Inexact]) + self.assertTrue(c.flags[Rounded]) + c.clear_flags() + self.assertRaises(Overflow, y.exp, context=None) + self.assertTrue(c.flags[Overflow]) + + self.assertIs(z.is_normal(context=None), False) + self.assertIs(z.is_subnormal(context=None), True) + + c.clear_flags() + self.assertEqual(str(x.ln(context=None)), '4.709530') + self.assertTrue(c.flags[Inexact]) + self.assertTrue(c.flags[Rounded]) + c.clear_flags() + self.assertRaises(InvalidOperation, Decimal(-1).ln, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + self.assertEqual(str(x.log10(context=None)), '2.045323') + self.assertTrue(c.flags[Inexact]) + self.assertTrue(c.flags[Rounded]) + c.clear_flags() + self.assertRaises(InvalidOperation, Decimal(-1).log10, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + self.assertEqual(str(x.logb(context=None)), '2') + self.assertRaises(DivisionByZero, Decimal(0).logb, context=None) + self.assertTrue(c.flags[DivisionByZero]) + + c.clear_flags() + self.assertEqual(str(x.logical_invert(context=None)), '1111000') + self.assertRaises(InvalidOperation, y.logical_invert, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + self.assertEqual(str(y.next_minus(context=None)), '9.999999E+999') + self.assertRaises(InvalidOperation, Decimal('sNaN').next_minus, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + self.assertEqual(str(y.next_plus(context=None)), 'Infinity') + self.assertRaises(InvalidOperation, Decimal('sNaN').next_plus, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + self.assertEqual(str(z.normalize(context=None)), '0') + self.assertRaises(Overflow, y.normalize, context=None) + self.assertTrue(c.flags[Overflow]) + + self.assertEqual(str(z.number_class(context=None)), '+Subnormal') + + c.clear_flags() + self.assertEqual(str(z.sqrt(context=None)), '0E-1005') + self.assertTrue(c.flags[Clamped]) + self.assertTrue(c.flags[Inexact]) + self.assertTrue(c.flags[Rounded]) + self.assertTrue(c.flags[Subnormal]) + self.assertTrue(c.flags[Underflow]) + c.clear_flags() + self.assertRaises(Overflow, y.sqrt, context=None) + self.assertTrue(c.flags[Overflow]) + + c.capitals = 0 + self.assertEqual(str(z.to_eng_string(context=None)), '1e-9999') + c.capitals = 1 + + + ##### Binary functions + c.clear_flags() + ans = str(x.compare(Decimal('Nan891287828'), context=None)) + self.assertEqual(ans, 'NaN1287828') + self.assertRaises(InvalidOperation, x.compare, Decimal('sNaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.compare_signal(8224, context=None)) + self.assertEqual(ans, '-1') + self.assertRaises(InvalidOperation, x.compare_signal, Decimal('NaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.logical_and(101, context=None)) + self.assertEqual(ans, '101') + self.assertRaises(InvalidOperation, x.logical_and, 123, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.logical_or(101, context=None)) + self.assertEqual(ans, '111') + self.assertRaises(InvalidOperation, x.logical_or, 123, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.logical_xor(101, context=None)) + self.assertEqual(ans, '10') + self.assertRaises(InvalidOperation, x.logical_xor, 123, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.max(101, context=None)) + self.assertEqual(ans, '111') + self.assertRaises(InvalidOperation, x.max, Decimal('sNaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.max_mag(101, context=None)) + self.assertEqual(ans, '111') + self.assertRaises(InvalidOperation, x.max_mag, Decimal('sNaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.min(101, context=None)) + self.assertEqual(ans, '101') + self.assertRaises(InvalidOperation, x.min, Decimal('sNaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.min_mag(101, context=None)) + self.assertEqual(ans, '101') + self.assertRaises(InvalidOperation, x.min_mag, Decimal('sNaN'), context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.remainder_near(101, context=None)) + self.assertEqual(ans, '10') + self.assertRaises(InvalidOperation, y.remainder_near, 101, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.rotate(2, context=None)) + self.assertEqual(ans, '11100') + self.assertRaises(InvalidOperation, x.rotate, 101, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.scaleb(7, context=None)) + self.assertEqual(ans, '1.11E+9') + self.assertRaises(InvalidOperation, x.scaleb, 10000, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.clear_flags() + ans = str(x.shift(2, context=None)) + self.assertEqual(ans, '11100') + self.assertRaises(InvalidOperation, x.shift, 10000, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + + ##### Ternary functions + c.clear_flags() + ans = str(x.fma(2, 3, context=None)) + self.assertEqual(ans, '225') + self.assertRaises(Overflow, x.fma, Decimal('1e9999'), 3, context=None) + self.assertTrue(c.flags[Overflow]) + + + ##### Special cases + c.rounding = ROUND_HALF_EVEN + ans = str(Decimal('1.5').to_integral(rounding=None, context=None)) + self.assertEqual(ans, '2') + c.rounding = ROUND_DOWN + ans = str(Decimal('1.5').to_integral(rounding=None, context=None)) + self.assertEqual(ans, '1') + ans = str(Decimal('1.5').to_integral(rounding=ROUND_UP, context=None)) + self.assertEqual(ans, '2') + c.clear_flags() + self.assertRaises(InvalidOperation, Decimal('sNaN').to_integral, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.rounding = ROUND_HALF_EVEN + ans = str(Decimal('1.5').to_integral_value(rounding=None, context=None)) + self.assertEqual(ans, '2') + c.rounding = ROUND_DOWN + ans = str(Decimal('1.5').to_integral_value(rounding=None, context=None)) + self.assertEqual(ans, '1') + ans = str(Decimal('1.5').to_integral_value(rounding=ROUND_UP, context=None)) + self.assertEqual(ans, '2') + c.clear_flags() + self.assertRaises(InvalidOperation, Decimal('sNaN').to_integral_value, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.rounding = ROUND_HALF_EVEN + ans = str(Decimal('1.5').to_integral_exact(rounding=None, context=None)) + self.assertEqual(ans, '2') + c.rounding = ROUND_DOWN + ans = str(Decimal('1.5').to_integral_exact(rounding=None, context=None)) + self.assertEqual(ans, '1') + ans = str(Decimal('1.5').to_integral_exact(rounding=ROUND_UP, context=None)) + self.assertEqual(ans, '2') + c.clear_flags() + self.assertRaises(InvalidOperation, Decimal('sNaN').to_integral_exact, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + c.rounding = ROUND_UP + ans = str(Decimal('1.50001').quantize(exp=Decimal('1e-3'), rounding=None, context=None)) + self.assertEqual(ans, '1.501') + c.rounding = ROUND_DOWN + ans = str(Decimal('1.50001').quantize(exp=Decimal('1e-3'), rounding=None, context=None)) + self.assertEqual(ans, '1.500') + ans = str(Decimal('1.50001').quantize(exp=Decimal('1e-3'), rounding=ROUND_UP, context=None)) + self.assertEqual(ans, '1.501') + c.clear_flags() + self.assertRaises(InvalidOperation, y.quantize, Decimal('1e-10'), rounding=ROUND_UP, context=None) + self.assertTrue(c.flags[InvalidOperation]) + + with localcontext(Context()) as context: + context.prec = 7 + context.Emax = 999 + context.Emin = -999 + with localcontext(ctx=None) as c: + self.assertEqual(c.prec, 7) + self.assertEqual(c.Emax, 999) + self.assertEqual(c.Emin, -999) + def test_conversions_from_int(self): # Check that methods taking a second Decimal argument will # always accept an integer in place of a Decimal. @@ -2423,14 +2665,11 @@ class PythonAPItests(unittest.TestCase): self.assertRaises(TypeError, D.from_float, 1.1, context=xc) self.assertRaises(TypeError, D(0).as_tuple, context=xc) - if (self.decimal == C): - self.assertRaises(TypeError, D(1).canonical, context=xc) - self.assertEqual(D("-1").copy_abs(context=xc), 1) - self.assertEqual(D("1").copy_negate(context=xc), -1) - else: - self.assertEqual(D(1).canonical(context=xc), 1) - self.assertRaises(TypeError, D("-1").copy_abs, context=xc) - self.assertRaises(TypeError, D("-1").copy_negate, context=xc) + self.assertEqual(D(1).canonical(), 1) + self.assertRaises(TypeError, D("-1").copy_abs, context=xc) + self.assertRaises(TypeError, D("-1").copy_negate, context=xc) + self.assertRaises(TypeError, D(1).canonical, context="x") + self.assertRaises(TypeError, D(1).canonical, xyz="x") def test_exception_hierarchy(self): @@ -4593,6 +4832,9 @@ class CWhitebox(unittest.TestCase): # Invalid local context self.assertRaises(TypeError, exec, 'with localcontext("xyz"): pass', locals()) + self.assertRaises(TypeError, exec, + 'with localcontext(context=getcontext()): pass', + locals()) # setcontext saved_context = getcontext() @@ -4826,6 +5068,50 @@ class CWhitebox(unittest.TestCase): c.prec = 2 self.assertRaises(InvalidOperation, pow, Decimal(1000), 1, 501) + def test_va_args_exceptions(self): + Decimal = C.Decimal + Context = C.Context + + x = Decimal("10001111111") + + for attr in ['exp', 'is_normal', 'is_subnormal', 'ln', 'log10', + 'logb', 'logical_invert', 'next_minus', 'next_plus', + 'normalize', 'number_class', 'sqrt', 'to_eng_string']: + func = getattr(x, attr) + self.assertRaises(TypeError, func, context="x") + self.assertRaises(TypeError, func, "x", context=None) + + for attr in ['compare', 'compare_signal', 'logical_and', + 'logical_or', 'max', 'max_mag', 'min', 'min_mag', + 'remainder_near', 'rotate', 'scaleb', 'shift']: + func = getattr(x, attr) + self.assertRaises(TypeError, func, context="x") + self.assertRaises(TypeError, func, "x", context=None) + + self.assertRaises(TypeError, x.to_integral, rounding=None, context=[]) + self.assertRaises(TypeError, x.to_integral, rounding={}, context=[]) + self.assertRaises(TypeError, x.to_integral, [], []) + + self.assertRaises(TypeError, x.to_integral_value, rounding=None, context=[]) + self.assertRaises(TypeError, x.to_integral_value, rounding={}, context=[]) + self.assertRaises(TypeError, x.to_integral_value, [], []) + + self.assertRaises(TypeError, x.to_integral_exact, rounding=None, context=[]) + self.assertRaises(TypeError, x.to_integral_exact, rounding={}, context=[]) + self.assertRaises(TypeError, x.to_integral_exact, [], []) + + self.assertRaises(TypeError, x.fma, 1, 2, context="x") + self.assertRaises(TypeError, x.fma, 1, 2, "x", context=None) + + self.assertRaises(TypeError, x.quantize, 1, [], context=None) + self.assertRaises(TypeError, x.quantize, 1, [], rounding=None) + self.assertRaises(TypeError, x.quantize, 1, [], []) + + c = Context() + self.assertRaises(TypeError, c.power, 1, 2, mod="x") + self.assertRaises(TypeError, c.power, 1, "x", mod=None) + self.assertRaises(TypeError, c.power, "x", 2, mod=None) + @requires_extra_functionality def test_c_context_templates(self): self.assertEqual( |