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aenum
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from . import EnumMeta, Enum, IntEnum, Flag, IntFlag, StrEnum, UniqueEnum, AutoEnum, AddValueEnum from . import NamedTuple, TupleSize, MagicValue, AddValue, NoAlias, Unique, MultiValue from . import AutoNumberEnum,MultiValueEnum, OrderedEnum, unique, skip, extend_enum, auto from ._enum import StdlibEnumMeta, StdlibEnum, StdlibIntEnum, StdlibFlag, StdlibIntFlag, StdlibStrEnum from . import pyver, PY3_3, PY3_4, PY3_5, PY3_6, PY3_7, PY3_11 from . import add_stdlib_integration, remove_stdlib_integration from collections import OrderedDict from datetime import timedelta from pickle import dumps, loads, PicklingError, HIGHEST_PROTOCOL from unittest import TestCase, main import os import sys import tempfile import textwrap import unittest try: import pyparsing except (ImportError, SyntaxError): pyparsing = None try: RecursionError except NameError: # python3.4 RecursionError = RuntimeError class TestEnumV3(TestCase): def setUp(self): class Season(Enum): SPRING = 1 SUMMER = 2 AUTUMN = 3 WINTER = 4 self.Season = Season class Konstants(float, Enum): E = 2.7182818 PI = 3.1415926 TAU = 2 * PI self.Konstants = Konstants class Grades(IntEnum): A = 5 B = 4 C = 3 D = 2 F = 0 self.Grades = Grades class Directional(str, Enum): EAST = 'east' WEST = 'west' NORTH = 'north' SOUTH = 'south' self.Directional = Directional from datetime import date class Holiday(date, Enum): NEW_YEAR = 2013, 1, 1 IDES_OF_MARCH = 2013, 3, 15 self.Holiday = Holiday @unittest.skipUnless(StdlibEnumMeta, 'Stdlib enum not available') def test_stdlib_inheritence(self): # 3.4 self.assertTrue(issubclass(self.Season, StdlibEnum)) self.assertTrue(isinstance(self.Season.SPRING, StdlibEnum)) self.assertTrue(issubclass(self.Grades, StdlibEnum)) self.assertFalse(issubclass(self.Grades, StdlibIntEnum)) self.assertTrue(isinstance(self.Grades.A, StdlibEnum)) self.assertFalse(isinstance(self.Grades.A, StdlibIntEnum)) # if pyver >= PY3_6: class AFlag(Flag): one = 1 self.assertTrue(issubclass(AFlag, StdlibEnum)) self.assertTrue(isinstance(AFlag.one, StdlibEnum)) self.assertTrue(issubclass(AFlag, StdlibFlag)) self.assertTrue(isinstance(AFlag.one, StdlibFlag)) # class AnIntFlag(IntFlag): one = 1 self.assertTrue(issubclass(AnIntFlag, StdlibEnum)) self.assertTrue(isinstance(AnIntFlag.one, StdlibEnum)) self.assertTrue(issubclass(AnIntFlag, StdlibFlag)) self.assertTrue(isinstance(AnIntFlag.one, StdlibFlag)) self.assertFalse(issubclass(AnIntFlag, StdlibIntFlag)) self.assertFalse(isinstance(AnIntFlag.one, StdlibIntFlag)) # if pyver >= PY3_11: class AStrEnum(StrEnum): one = '1' self.assertTrue(issubclass(AStrEnum, StdlibEnum)) self.assertTrue(isinstance(AStrEnum.one, StdlibEnum)) self.assertFalse(issubclass(AStrEnum, StdlibStrEnum)) self.assertFalse(isinstance(AStrEnum.one, StdlibStrEnum)) @unittest.skipUnless(StdlibEnumMeta, 'Stdlib enum not available') def test_stdlib_bad_getattribute(self): try: add_stdlib_integration() class BadEnumType(StdlibEnumMeta): def __getattribute__(cls, name): obj = super().__getattribute__(name) if isinstance(obj, cls): obj.deprecate() return obj with self.assertRaisesRegex(RecursionError, 'endless recursion'): class BaseEnum(StdlibEnum): pass class BadEnum(BaseEnum, metaclass=BadEnumType): FOO = 'bar' finally: remove_stdlib_integration() # class OkayEnum(StdlibEnum, metaclass=BadEnumType): FOO = 'bar' @unittest.skipUnless(pyver >= PY3_5, '__qualname__ requires python 3.5 or greater') def test_pickle_enum_function_with_qualname(self): Theory = Enum('Theory', 'rule law supposition', qualname='spanish_inquisition') globals()['spanish_inquisition'] = Theory test_pickle_dump_load(self.assertTrue, Theory.rule) test_pickle_dump_load(self.assertTrue, Theory) def test_auto_init(self): class Planet(Enum, init='mass radius'): MERCURY = (3.303e+23, 2.4397e6) VENUS = (4.869e+24, 6.0518e6) EARTH = (5.976e+24, 6.37814e6) MARS = (6.421e+23, 3.3972e6) JUPITER = (1.9e+27, 7.1492e7) SATURN = (5.688e+26, 6.0268e7) URANUS = (8.686e+25, 2.5559e7) NEPTUNE = (1.024e+26, 2.4746e7) @property def surface_gravity(self): # universal gravitational constant (m3 kg-1 s-2) G = 6.67300E-11 return G * self.mass / (self.radius * self.radius) self.assertEqual(round(Planet.EARTH.surface_gravity, 2), 9.80) self.assertEqual(Planet.EARTH.value, (5.976e+24, 6.37814e6)) def test_auto_init_with_value(self): class Color(Enum, init='value, rgb'): RED = 1, (1, 0, 0) BLUE = 2, (0, 1, 0) GREEN = 3, (0, 0, 1) self.assertEqual(Color.RED.value, 1) self.assertEqual(Color.BLUE.value, 2) self.assertEqual(Color.GREEN.value, 3) self.assertEqual(Color.RED.rgb, (1, 0, 0)) self.assertEqual(Color.BLUE.rgb, (0, 1, 0)) self.assertEqual(Color.GREEN.rgb, (0, 0, 1)) def test_auto_turns_off(self): with self.assertRaises(NameError): class Color(Enum, settings=MagicValue): red green blue def hello(self): print('Hello! My serial is %s.' % self.value) rose with self.assertRaises(NameError): class Color(Enum, settings=MagicValue): red green blue def __init__(self, *args): pass rose def test_magic(self): class Color(Enum, settings=MagicValue): red, green, blue self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) self.assertEqual(Color.red.value, 1) def test_ignore_not_overridden(self): with self.assertRaisesRegex(TypeError, 'object is not callable'): class Color(Flag): _ignore_ = 'irrelevent' _settings_ = MagicValue @property def shade(self): print('I am light', self.name.lower()) def test_magic_start(self): class Color(Enum, settings=MagicValue, start=0): red, green, blue self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) self.assertEqual(Color.red.value, 0) def test_dir_on_class(self): Season = self.Season self.assertEqual( set(dir(Season)), set(['__class__', '__doc__', '__members__', '__module__', 'SPRING', 'SUMMER', 'AUTUMN', 'WINTER', '__init_subclass__', '__name__', '__getitem__', '__len__', '__contains__', '__iter__', '__qualname__', ])) def test_dir_on_item(self): Season = self.Season self.assertEqual( set(dir(Season.WINTER)), set(['__class__', '__doc__', '__eq__', '__hash__', '__module__', 'name', 'value', 'values']), ) def test_dir_with_added_behavior(self): class Test(Enum): this = 'that' these = 'those' def wowser(self): return ("Wowser! I'm %s!" % self.name) self.assertEqual( set(dir(Test)), set([ '__class__', '__doc__', '__members__', '__module__', 'this', 'these', '__init_subclass__', '__name__', '__getitem__', '__len__', '__contains__', '__iter__', '__qualname__', ])) self.assertEqual( set(dir(Test.this)), set(['__class__', '__doc__', '__eq__', '__hash__', '__module__', 'name', 'value', 'values', 'wowser']), ) def test_dir_on_sub_with_behavior_on_super(self): # see issue22506 class SuperEnum(Enum): def invisible(self): return "did you see me?" class SubEnum(SuperEnum): sample = 5 self.assertEqual( set(dir(SubEnum.sample)), set(['__class__', '__doc__', '__eq__', '__hash__', '__module__', 'name', 'value', 'values', 'invisible']), ) def test_members_are_always_ordered(self): class AlwaysOrdered(Enum): first = 1 second = 2 third = 3 self.assertTrue(type(AlwaysOrdered.__members__) is OrderedDict) def test_comparisons(self): def bad_compare(): Season.SPRING > 4 Season = self.Season self.assertNotEqual(Season.SPRING, 1) self.assertRaises(TypeError, bad_compare) class Part(Enum): SPRING = 1 CLIP = 2 BARREL = 3 self.assertNotEqual(Season.SPRING, Part.SPRING) def bad_compare(): Season.SPRING < Part.CLIP self.assertRaises(TypeError, bad_compare) def test_duplicate_name(self): with self.assertRaises(TypeError): class Color1(Enum): red = 1 green = 2 blue = 3 red = 4 with self.assertRaises(TypeError): class Color2(Enum): red = 1 green = 2 blue = 3 def red(self): return 'red' with self.assertRaises(TypeError): class Color3(Enum): @property def red(self): return 'redder' red = 1 green = 2 blue = 3 def test_duplicate_value_with_unique(self): with self.assertRaises(ValueError): class Color(Enum, settings=Unique): red = 1 green = 2 blue = 3 rojo = 1 def test_duplicate_value_with_noalias(self): class Color(Enum, settings=NoAlias): red = 1 green = 2 blue = 3 rojo = 1 self.assertFalse(Color.red is Color.rojo) self.assertEqual(Color.red.value, 1) self.assertEqual(Color.rojo.value, 1) self.assertEqual(len(Color), 4) self.assertEqual(list(Color), [Color.red, Color.green, Color.blue, Color.rojo]) def test_noalias_value_lookup(self): class Color(Enum, settings=NoAlias): red = 1 green = 2 blue = 3 rojo = 1 self.assertRaises(TypeError, Color, 2) def test_multivalue(self): class Color(Enum, settings=MultiValue): red = 1, 'red' green = 2, 'green' blue = 3, 'blue' self.assertEqual(Color.red.value, 1) self.assertIs(Color('green'), Color.green) self.assertEqual(Color.blue.values, (3, 'blue')) def test_multivalue_with_duplicate_values(self): with self.assertRaises(ValueError): class Color(Enum, settings=MultiValue): red = 1, 'red' green = 2, 'green' blue = 3, 'blue', 'red' def test_multivalue_with_duplicate_values_and_noalias(self): with self.assertRaises(TypeError): class Color(Enum, settings=(MultiValue, NoAlias)): red = 1, 'red' green = 2, 'green' blue = 3, 'blue', 'red' def test_multivalue_and_auto(self): with self.assertRaisesRegex(TypeError, r'MultiValue and MagicValue are mutually exclusive'): class Color(Enum, settings=(MultiValue, MagicValue)): red green = 3, 'green' blue def test_autonumber_and_init(self): class Field(IntEnum, settings=AddValue, init='__doc__'): TYPE = "Char, Date, Logical, etc." START = "Field offset in record" self.assertEqual(Field.TYPE, 1) self.assertEqual(Field.START, 2) self.assertEqual(Field.TYPE.__doc__, 'Char, Date, Logical, etc.') self.assertEqual(Field.START.__doc__, 'Field offset in record') self.assertFalse(hasattr(Field, '_order_')) def test_autovalue_and_init(self): class Field(IntEnum, init='value __doc__'): TYPE = "Char, Date, Logical, etc." START = "Field offset in record" self.assertEqual(Field.TYPE, 1) self.assertEqual(Field.START.__doc__, 'Field offset in record') def test_autonumber_and_start(self): class Field(IntEnum, init='__doc__', settings=AddValue, start=0): TYPE = "Char, Date, Logical, etc." START = "Field offset in record" self.assertEqual(Field.TYPE, 0) self.assertEqual(Field.START, 1) self.assertEqual(Field.TYPE.__doc__, 'Char, Date, Logical, etc.') self.assertEqual(Field.START.__doc__, 'Field offset in record') def test_autonumber_and_init_and_some_values(self): class Field(IntEnum, init='value __doc__'): TYPE = "Char, Date, Logical, etc." START = "Field offset in record" BLAH = 5, "test blah" BELCH = 'test belch' self.assertEqual(Field.TYPE, 1) self.assertEqual(Field.START, 2) self.assertEqual(Field.BLAH, 5) self.assertEqual(Field.BELCH, 6) self.assertEqual(Field.TYPE.__doc__, 'Char, Date, Logical, etc.') self.assertEqual(Field.START.__doc__, 'Field offset in record') self.assertEqual(Field.BLAH.__doc__, 'test blah') self.assertEqual(Field.BELCH.__doc__, 'test belch') def test_autonumber_with_irregular_values(self): class Point(AutoNumberEnum, init='x y'): first = 7, 9 second = 11, 13 self.assertEqual(Point.first.value, 1) self.assertEqual(Point.first.x, 7) self.assertEqual(Point.first.y, 9) self.assertEqual(Point.second.value, 2) self.assertEqual(Point.second.x, 11) self.assertEqual(Point.second.y, 13) with self.assertRaisesRegex(TypeError, '.*number of fields provided do not match init ...x., .y.. != .3, 11, 13..'): class Point(AutoNumberEnum, init='x y'): first = 7, 9 second = 3, 11, 13 class Color(AutoNumberEnum, init='__doc__'): # interactions between AutoNumberEnum and _generate_next_value_ may not be pretty red = () green = 'red' blue = () self.assertTrue(Color.red.__doc__, 1) self.assertEqual(Color.green.__doc__, 'red') self.assertTrue(Color.blue.__doc__, 2) def test_autonumber_and_property(self): with self.assertRaises(TypeError): class Color(AutoEnum): _ignore_ = () red = () green = () blue = () @property def cap_name(self) -> str: return self.name.title() def test_autoenum(self): class Color(AutoEnum): red green blue self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) self.assertEqual([m.value for m in Color], [1, 2, 3]) self.assertEqual([m.name for m in Color], ['red', 'green', 'blue']) def test_autoenum_with_str(self): class Color(AutoEnum): def _generate_next_value_(name, start, count, last_values): return name red green blue self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) self.assertEqual([m.value for m in Color], ['red', 'green', 'blue']) self.assertEqual([m.name for m in Color], ['red', 'green', 'blue']) def test_autoenum_and_default_ignore(self): class Color(AutoEnum): red green blue @property def cap_name(self): return self.name.title() self.assertEqual(Color.blue.cap_name, 'Blue') def test_autonumber_and_overridden_ignore(self): with self.assertRaises(TypeError): class Color(AutoEnum): _ignore_ = 'staticmethod' red green blue @property def cap_name(self) -> str: return self.name.title() def test_autonumber_and_multiple_assignment(self): class Color(AutoEnum): _ignore_ = 'property' red green blue = cyan @property def cap_name(self) -> str: return self.name.title() self.assertEqual(Color.blue.cap_name, 'Cyan') def test_multivalue_and_autonumber_inherited(self): class Measurement(int, Enum, settings=(MultiValue, AddValue), start=0): one = "20110721" two = "20120911" three = "20110518" M = Measurement self.assertEqual(M.one, 0) self.assertTrue(M.one is M(0) is M('20110721')) def test_combine_new_settings_with_old_settings(self): class Auto(Enum, settings=Unique): pass with self.assertRaises(ValueError): class AutoUnique(Auto, settings=MagicValue): BLAH BLUH ICK = 1 def test_timedelta(self): class Period(timedelta, Enum): ''' different lengths of time ''' _init_ = 'value period' _settings_ = NoAlias _ignore_ = 'Period i' Period = vars() for i in range(31): Period['day_%d' % i] = i, 'day' for i in range(15): Period['week_%d' % i] = i*7, 'week' for i in range(12): Period['month_%d' % i] = i*30, 'month' OneDay = day_1 OneWeek = week_1 self.assertFalse(hasattr(Period, '_ignore_')) self.assertFalse(hasattr(Period, 'Period')) self.assertFalse(hasattr(Period, 'i')) self.assertTrue(isinstance(Period.day_1, timedelta)) def test_extend_enum_plain(self): class Color(UniqueEnum): red = 1 green = 2 blue = 3 extend_enum(Color, 'brown', 4) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 4) self.assertTrue(Color.brown in Color) self.assertEqual(len(Color), 4) def test_extend_enum_shadow(self): class Color(UniqueEnum): red = 1 green = 2 blue = 3 extend_enum(Color, 'value', 4) self.assertEqual(Color.value.name, 'value') self.assertEqual(Color.value.value, 4) self.assertTrue(Color.value in Color) self.assertEqual(len(Color), 4) self.assertEqual(Color.red.value, 1) def test_extend_enum_generate(self): class Foo(AutoEnum): def _generate_next_value_(name, start, count, values, *args, **kwds): return name a b # extend_enum(Foo, 'c') self.assertEqual(Foo.a.value, 'a') self.assertEqual(Foo.b.value, 'b') self.assertEqual(Foo.c.value, 'c') def test_extend_enum_unique_with_duplicate(self): with self.assertRaises(ValueError): class Color(Enum, settings=Unique): red = 1 green = 2 blue = 3 extend_enum(Color, 'value', 1) def test_extend_enum_multivalue_with_duplicate(self): with self.assertRaises(ValueError): class Color(Enum, settings=MultiValue): red = 1, 'rojo' green = 2, 'verde' blue = 3, 'azul' extend_enum(Color, 'value', 2) def test_extend_enum_noalias_with_duplicate(self): class Color(Enum, settings=NoAlias): red = 1 green = 2 blue = 3 extend_enum(Color, 'value', 3, ) self.assertRaises(TypeError, Color, 3) self.assertFalse(Color.value is Color.blue) self.assertTrue(Color.value.value, 3) def test_no_duplicates(self): def bad_duplicates(): class Color(UniqueEnum): red = 1 green = 2 blue = 3 class Color(UniqueEnum): red = 1 green = 2 blue = 3 grene = 2 self.assertRaises(ValueError, bad_duplicates) def test_no_duplicates_kinda(self): class Silly(UniqueEnum): one = 1 two = 'dos' name = 3 class Sillier(IntEnum, UniqueEnum): single = 1 name = 2 triple = 3 value = 4 def test_auto_number(self): class Color(Enum, settings=MagicValue): red blue green self.assertEqual(list(Color), [Color.red, Color.blue, Color.green]) self.assertEqual(Color.red.value, 1) self.assertEqual(Color.blue.value, 2) self.assertEqual(Color.green.value, 3) def test_auto_name(self): class Color(Enum, settings=MagicValue): def _generate_next_value_(name, start, count, last): return name red blue green self.assertEqual(list(Color), [Color.red, Color.blue, Color.green]) self.assertEqual(Color.red.value, 'red') self.assertEqual(Color.blue.value, 'blue') self.assertEqual(Color.green.value, 'green') def test_auto_name_inherit(self): class AutoNameEnum(Enum): def _generate_next_value_(name, start, count, last): return name class Color(AutoNameEnum, settings=MagicValue): red blue green self.assertEqual(list(Color), [Color.red, Color.blue, Color.green]) self.assertEqual(Color.red.value, 'red') self.assertEqual(Color.blue.value, 'blue') self.assertEqual(Color.green.value, 'green') def test_auto_garbage(self): class Color(Enum): _settings_ = MagicValue red = 'red' blue self.assertEqual(Color.blue.value, 1) def test_auto_garbage_corrected(self): class Color(Enum, settings=MagicValue): red = 'red' blue = 2 green self.assertEqual(list(Color), [Color.red, Color.blue, Color.green]) self.assertEqual(Color.red.value, 'red') self.assertEqual(Color.blue.value, 2) self.assertEqual(Color.green.value, 3) def test_duplicate_auto(self): class Dupes(Enum, settings=MagicValue): first = primero second third self.assertEqual([Dupes.first, Dupes.second, Dupes.third], list(Dupes)) def test_order_as_function(self): # first with _init_ class TestSequence(Enum): _init_ = 'value, sequence' _order_ = lambda member: member.sequence item_id = 'An$(1,6)', 0 # Item Code company_id = 'An$(7,2)', 1 # Company Code warehouse_no = 'An$(9,4)', 2 # Warehouse Number company = 'Hn$(13,6)', 3 # 4 SPACES + COMPANY key_type = 'Cn$(19,3)', 4 # Key Type = '1**' available = 'Zn$(1,1)', 5 # Available? contract_item = 'Bn(2,1)', 6 # Contract Item? sales_category = 'Fn', 7 # Sales Category gl_category = 'Rn$(5,1)', 8 # G/L Category warehouse_category = 'Sn$(6,1)', 9 # Warehouse Category inv_units = 'Qn$(7,2)', 10 # Inv Units for i, member in enumerate(TestSequence): self.assertEqual(i, member.sequence) ts = TestSequence self.assertEqual(ts.item_id.name, 'item_id') self.assertEqual(ts.item_id.value, 'An$(1,6)') self.assertEqual(ts.item_id.sequence, 0) self.assertEqual(ts.company_id.name, 'company_id') self.assertEqual(ts.company_id.value, 'An$(7,2)') self.assertEqual(ts.company_id.sequence, 1) self.assertEqual(ts.warehouse_no.name, 'warehouse_no') self.assertEqual(ts.warehouse_no.value, 'An$(9,4)') self.assertEqual(ts.warehouse_no.sequence, 2) self.assertEqual(ts.company.name, 'company') self.assertEqual(ts.company.value, 'Hn$(13,6)') self.assertEqual(ts.company.sequence, 3) self.assertEqual(ts.key_type.name, 'key_type') self.assertEqual(ts.key_type.value, 'Cn$(19,3)') self.assertEqual(ts.key_type.sequence, 4) self.assertEqual(ts.available.name, 'available') self.assertEqual(ts.available.value, 'Zn$(1,1)') self.assertEqual(ts.available.sequence, 5) self.assertEqual(ts.contract_item.name, 'contract_item') self.assertEqual(ts.contract_item.value, 'Bn(2,1)') self.assertEqual(ts.contract_item.sequence, 6) self.assertEqual(ts.sales_category.name, 'sales_category') self.assertEqual(ts.sales_category.value, 'Fn') self.assertEqual(ts.sales_category.sequence, 7) self.assertEqual(ts.gl_category.name, 'gl_category') self.assertEqual(ts.gl_category.value, 'Rn$(5,1)') self.assertEqual(ts.gl_category.sequence, 8) self.assertEqual(ts.warehouse_category.name, 'warehouse_category') self.assertEqual(ts.warehouse_category.value, 'Sn$(6,1)') self.assertEqual(ts.warehouse_category.sequence, 9) self.assertEqual(ts.inv_units.name, 'inv_units') self.assertEqual(ts.inv_units.value, 'Qn$(7,2)') self.assertEqual(ts.inv_units.sequence, 10) # and then without class TestSequence(Enum): _order_ = lambda member: member.value[1] item_id = 'An$(1,6)', 0 # Item Code company_id = 'An$(7,2)', 1 # Company Code warehouse_no = 'An$(9,4)', 2 # Warehouse Number company = 'Hn$(13,6)', 3 # 4 SPACES + COMPANY key_type = 'Cn$(19,3)', 4 # Key Type = '1**' available = 'Zn$(1,1)', 5 # Available? contract_item = 'Bn(2,1)', 6 # Contract Item? sales_category = 'Fn', 7 # Sales Category gl_category = 'Rn$(5,1)', 8 # G/L Category warehouse_category = 'Sn$(6,1)', 9 # Warehouse Category inv_units = 'Qn$(7,2)', 10 # Inv Units for i, member in enumerate(TestSequence): self.assertEqual(i, member.value[1]) ts = TestSequence self.assertEqual(ts.item_id.name, 'item_id') self.assertEqual(ts.item_id.value, ('An$(1,6)', 0)) self.assertEqual(ts.company_id.name, 'company_id') self.assertEqual(ts.company_id.value, ('An$(7,2)', 1)) self.assertEqual(ts.warehouse_no.name, 'warehouse_no') self.assertEqual(ts.warehouse_no.value, ('An$(9,4)', 2)) self.assertEqual(ts.company.name, 'company') self.assertEqual(ts.company.value, ('Hn$(13,6)', 3)) self.assertEqual(ts.key_type.name, 'key_type') self.assertEqual(ts.key_type.value, ('Cn$(19,3)', 4)) self.assertEqual(ts.available.name, 'available') self.assertEqual(ts.available.value, ('Zn$(1,1)', 5)) self.assertEqual(ts.contract_item.name, 'contract_item') self.assertEqual(ts.contract_item.value, ('Bn(2,1)', 6)) self.assertEqual(ts.sales_category.name, 'sales_category') self.assertEqual(ts.sales_category.value, ('Fn', 7)) self.assertEqual(ts.gl_category.name, 'gl_category') self.assertEqual(ts.gl_category.value, ('Rn$(5,1)', 8)) self.assertEqual(ts.warehouse_category.name, 'warehouse_category') self.assertEqual(ts.warehouse_category.value, ('Sn$(6,1)', 9)) self.assertEqual(ts.inv_units.name, 'inv_units') self.assertEqual(ts.inv_units.value, ('Qn$(7,2)', 10)) # then with _init_ but without value with self.assertRaises(TypeError): class TestSequence(Enum): _init_ = 'sequence' _order_ = lambda member: member.sequence item_id = 'An$(1,6)', 0 # Item Code company_id = 'An$(7,2)', 1 # Company Code warehouse_no = 'An$(9,4)', 2 # Warehouse Number company = 'Hn$(13,6)', 3 # 4 SPACES + COMPANY key_type = 'Cn$(19,3)', 4 # Key Type = '1**' available = 'Zn$(1,1)', 5 # Available? contract_item = 'Bn(2,1)', 6 # Contract Item? sales_category = 'Fn', 7 # Sales Category gl_category = 'Rn$(5,1)', 8 # G/L Category warehouse_category = 'Sn$(6,1)', 9 # Warehouse Category inv_units = 'Qn$(7,2)', 10 # Inv Units # finally, out of order so Python 3 barfs with self.assertRaises(TypeError): class TestSequence(Enum): _init_ = 'sequence' _order_ = lambda member: member.sequence item_id = 'An$(1,6)', 0 # Item Code warehouse_no = 'An$(9,4)', 2 # Warehouse Number company = 'Hn$(13,6)', 3 # 4 SPACES + COMPANY company_id = 'An$(7,2)', 1 # Company Code inv_units = 'Qn$(7,2)', 10 # Inv Units available = 'Zn$(1,1)', 5 # Available? contract_item = 'Bn(2,1)', 6 # Contract Item? sales_category = 'Fn', 7 # Sales Category key_type = 'Cn$(19,3)', 4 # Key Type = '1**' gl_category = 'Rn$(5,1)', 8 # G/L Category warehouse_category = 'Sn$(6,1)', 9 # Warehouse Category if pyver >= PY3_3: def test_missing(self): class Color(Enum): red = 1 green = 2 blue = 3 @classmethod def _missing_(cls, item): if item == 'three': return cls.blue elif item == 'bad return': # trigger internal error return 5 elif item == 'error out': raise ZeroDivisionError else: # trigger not found return None self.assertIs(Color('three'), Color.blue) self.assertRaisesRegex(ValueError, '7 is not a valid Color', Color, 7) self.assertRaisesRegex(TypeError, 'error in .*_missing_', Color, 'bad return') self.assertRaises(ZeroDivisionError, Color, 'error out') def test_enum_of_types(self): """Support using Enum to refer to types deliberately.""" class MyTypes(Enum): i = int f = float s = str self.assertEqual(MyTypes.i.value, int) self.assertEqual(MyTypes.f.value, float) self.assertEqual(MyTypes.s.value, str) class Foo: pass class Bar: pass class MyTypes2(Enum): a = Foo b = Bar self.assertEqual(MyTypes2.a.value, Foo) self.assertEqual(MyTypes2.b.value, Bar) class SpamEnumNotInner: pass class SpamEnum(Enum): spam = SpamEnumNotInner self.assertEqual(SpamEnum.spam.value, SpamEnumNotInner) def test_nested_classes_in_enum_do_not_create_members(self): """Support locally-defined nested classes.""" # manually set __qualname__ to remove testing framework noise class Outer(Enum): __qualname__ = "Outer" a = 1 b = 2 class Inner(Enum): __qualname__ = "Outer.Inner" foo = 10 bar = 11 self.assertTrue(isinstance(Outer.Inner, type)) self.assertEqual(Outer.a.value, 1) self.assertEqual(Outer.Inner.foo.value, 10) self.assertEqual( list(Outer.Inner), [Outer.Inner.foo, Outer.Inner.bar], ) self.assertEqual( list(Outer), [Outer.a, Outer.b], ) if pyver == PY3_4: def test_class_nested_enum_and_pickle_protocol_four(self): # would normally just have this directly in the class namespace class NestedEnum(Enum): twigs = 'common' shiny = 'rare' self.__class__.NestedEnum = NestedEnum self.NestedEnum.__qualname__ = '%s.NestedEnum' % self.__class__.__name__ test_pickle_exception( self.assertRaises, PicklingError, self.NestedEnum.twigs, protocol=(0, 3)) test_pickle_dump_load(self.assertTrue, self.NestedEnum.twigs, protocol=(4, HIGHEST_PROTOCOL)) elif pyver >= PY3_5: def test_class_nested_enum_and_pickle_protocol_four(self): # would normally just have this directly in the class namespace class NestedEnum(Enum): twigs = 'common' shiny = 'rare' self.__class__.NestedEnum = NestedEnum self.NestedEnum.__qualname__ = '%s.NestedEnum' % self.__class__.__name__ test_pickle_dump_load(self.assertTrue, self.NestedEnum.twigs, protocol=(0, HIGHEST_PROTOCOL)) if pyver >= PY3_4: def test_enum_injection(self): class Color(Enum): _order_ = 'BLACK WHITE' BLACK = Color('black', '#000') WHITE = Color('white', '#fff') def __init__(self, label, hex): self.label = label self.hex = hex self.assertEqual([Color.BLACK, Color.WHITE], list(Color)) self.assertEqual(Color.WHITE.hex, '#fff') self.assertEqual(Color.BLACK.label, 'black') def test_subclasses_with_getnewargs_ex(self): class NamedInt(int): __qualname__ = 'NamedInt' # needed for pickle protocol 4 def __new__(cls, *args): _args = args if len(args) < 2: raise TypeError("name and value must be specified") name, args = args[0], args[1:] self = int.__new__(cls, *args) self._intname = name self._args = _args return self def __getnewargs_ex__(self): return self._args, {} @property def __name__(self): return self._intname def __repr__(self): # repr() is updated to include the name and type info return "{}({!r}, {})".format(type(self).__name__, self.__name__, int.__repr__(self)) def __str__(self): # str() is unchanged, even if it relies on the repr() fallback base = int base_str = base.__str__ if base_str.__objclass__ is object: return base.__repr__(self) return base_str(self) # for simplicity, we only define one operator that # propagates expressions def __add__(self, other): temp = int(self) + int( other) if isinstance(self, NamedInt) and isinstance(other, NamedInt): return NamedInt( '({0} + {1})'.format(self.__name__, other.__name__), temp ) else: return temp class NEI(NamedInt, Enum): __qualname__ = 'NEI' # needed for pickle protocol 4 x = ('the-x', 1) y = ('the-y', 2) self.assertIs(NEI.__new__, Enum.__new__) self.assertEqual(repr(NEI.x + NEI.y), "NamedInt('(the-x + the-y)', 3)") globals()['NamedInt'] = NamedInt globals()['NEI'] = NEI NI5 = NamedInt('test', 5) self.assertEqual(NI5, 5) test_pickle_dump_load(self.assertEqual, NI5, 5, protocol=(4, HIGHEST_PROTOCOL)) self.assertEqual(NEI.y.value, 2) test_pickle_dump_load(self.assertTrue, NEI.y, protocol=(4, HIGHEST_PROTOCOL)) def test_multiple_superclasses_repr(self): class _EnumSuperClass(metaclass=EnumMeta): pass class E(_EnumSuperClass, Enum): A = 1 self.assertEqual(repr(E.A), "<E.A: 1>") class TestOrderV3(TestCase): """ Test definition order versus _order_ order. """ def test_same_members(self): class Color(Enum): _order_ = 'red green blue' red = 1 green = 2 blue = 3 def test_same_members_with_aliases(self): class Color(Enum): _order_ = 'red green blue' red = 1 green = 2 blue = 3 verde = green def test_same_members_wrong_order(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Enum): _order_ = 'red green blue' red = 1 blue = 3 green = 2 def test_order_has_extra_members(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Enum): _order_ = 'red green blue purple' red = 1 green = 2 blue = 3 def test_order_has_extra_members_with_aliases(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Enum): _order_ = 'red green blue purple' red = 1 green = 2 blue = 3 verde = green def test_enum_has_extra_members(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Enum): _order_ = 'red green blue' red = 1 green = 2 blue = 3 purple = 4 def test_enum_has_extra_members_with_aliases(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Enum): _order_ = 'red green blue' red = 1 green = 2 blue = 3 purple = 4 verde = green def test_same_members_flag(self): class Color(Flag): _order_ = 'red green blue' red = 1 green = 2 blue = 4 def test_same_members_with_aliases_flag(self): class Color(Flag): _order_ = 'red green blue' red = 1 green = 2 blue = 4 verde = green def test_same_members_wrong_order_falg(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Flag): _order_ = 'red green blue' red = 1 blue = 4 green = 2 def test_order_has_extra_members_flag(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Flag): _order_ = 'red green blue purple' red = 1 green = 2 blue = 4 def test_order_has_extra_members_with_aliases_flag(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Flag): _order_ = 'red green blue purple' red = 1 green = 2 blue = 4 verde = green def test_enum_has_extra_members_flag(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Flag): _order_ = 'red green blue' red = 1 green = 2 blue = 4 purple = 8 def test_enum_has_extra_members_with_aliases_flag(self): with self.assertRaisesRegex(TypeError, 'member order does not match _order_'): class Color(Flag): _order_ = 'red green blue' red = 1 green = 2 blue = 4 purple = 8 verde = green class TestNamedTupleV3(TestCase): def test_fixed_size(self): class Book(NamedTuple, size=TupleSize.fixed): title = 0 author = 1 genre = 2 b = Book('Teckla', 'Steven Brust', 'fantasy') self.assertTrue('Teckla' in b) self.assertTrue('Steven Brust' in b) self.assertTrue('fantasy' in b) self.assertEqual(b.title, 'Teckla') self.assertEqual(b.author, 'Steven Brust') self.assertRaises(TypeError, Book, 'Teckla', 'Steven Brust') self.assertRaises(TypeError, Book, 'Teckla') def test_minimum_size(self): class Book(NamedTuple, size=TupleSize.minimum): title = 0 author = 1 b = Book('Teckla', 'Steven Brust', 'fantasy') self.assertTrue('Teckla' in b) self.assertTrue('Steven Brust' in b) self.assertTrue('fantasy' in b) self.assertEqual(b.title, 'Teckla') self.assertEqual(b.author, 'Steven Brust') self.assertEqual(b[2], 'fantasy') b = Book('Teckla', 'Steven Brust') self.assertTrue('Teckla' in b) self.assertTrue('Steven Brust' in b) self.assertEqual(b.title, 'Teckla') self.assertEqual(b.author, 'Steven Brust') self.assertRaises(TypeError, Book, 'Teckla') def test_variable_size(self): class Book(NamedTuple, size=TupleSize.variable): title = 0 author = 1 genre = 2 b = Book('Teckla', 'Steven Brust', 'fantasy') self.assertTrue('Teckla' in b) self.assertTrue('Steven Brust' in b) self.assertTrue('fantasy' in b) self.assertEqual(b.title, 'Teckla') self.assertEqual(b.author, 'Steven Brust') self.assertEqual(b.genre, 'fantasy') b = Book('Teckla', 'Steven Brust') self.assertTrue('Teckla' in b) self.assertTrue('Steven Brust' in b) self.assertEqual(b.title, 'Teckla') self.assertEqual(b.author, 'Steven Brust') self.assertRaises(AttributeError, getattr, b, 'genre') self.assertRaises(TypeError, Book, title='Teckla', genre='fantasy') self.assertRaises(TypeError, Book, author='Steven Brust') class TestStackoverflowAnswersV3(TestCase): def test_self_referential_directions(self): # https://stackoverflow.com/a/64000706/208880 class Directions(Enum): # NORTH = 1, 0 WEST = 0, 1 SOUTH = -1, 0 EAST = 0, -1 # def __init__(self, x, y): self.x = x self.y = y if len(self.__class__): # make links all = list(self.__class__) left, right = all[0], all[-1] self.left = left self.right = right left.right = self right.left = self # D = Directions self.assertEqual(D.NORTH.value, (1, 0)) self.assertTrue(D.NORTH.left is D.WEST) self.assertTrue(D.SOUTH.right is D.WEST) def test_self_referential_rock_paper_scissors(self): # https://stackoverflow.com/a/57085357/208880 class RPS(Enum): # Rock = "rock" Paper = "paper" Scissors = "scissors" # def __init__(self, value): if len(self.__class__): # make links all = list(self.__class__) first, previous = all[0], all[-1] first.beats = self self.beats = previous # self.assertTrue(RPS.Rock.beats is RPS.Scissors) self.assertTrue(RPS.Scissors.beats is RPS.Paper) self.assertTrue(RPS.Paper.beats is RPS.Rock) def test_arduino_headers(self): # https://stackoverflow.com/q/65048495/208880 class CHeader(Enum): def __init_subclass__(cls, **kwds): # write Enums to C header file cls_name = cls.__name__ header_path = getattr(cls, '_%s__header' % cls_name) with open(header_path, 'w') as fh: fh.write('initial header stuff here\n') for enum in cls: fh.write('#define %s %r\n' % (enum.name, enum.value)) class Arduino(CHeader): __header = os.path.join(tempdir, 'arduino.h') ONE = 1 TWO = 2 with open(os.path.join(tempdir, 'arduino.h')) as fh: data = fh.read() self.assertEqual(textwrap.dedent("""\ initial header stuff here #define ONE 1 #define TWO 2 """), data, ) def test_create_C_like_Enum(self): # https://stackoverflow.com/a/35965438/208880 class Id(Enum, settings=MagicValue, start=0): # NONE # 0x0 HEARTBEAT # 0x1 FLUID_TRANSFER_REQUEST FLUID_TRANSFER_STATUS_MSG FLUID_TRANSFER_ERROR_MSG # ... # # Camera App Messages START_SENDING_PICTURES = 0x010000 STOP_SENDING_PICTURES START_RECORDING_VIDEO_REQ STOP_RECORDING_VIDEO_REQ # ... # # Sensor Calibration VOLUME_REQUEST = 0x020000 START_CAL CLI_COMMAND_REQUEST CLI_COMMAND_RESPONSE # # File Mananger NEW_DELIVERY_REQ = 0x30000 GET_DELIVERY_FILE_REQ GET_FILE_REQ # ACK_NACK RESPONSE # LAST_ID # self.assertEqual(Id.NONE.value, 0) self.assertEqual(Id.FLUID_TRANSFER_ERROR_MSG.value, 4) self.assertEqual(Id.START_SENDING_PICTURES.value, 0x010000) self.assertEqual(Id.STOP_RECORDING_VIDEO_REQ.value, 0x010003) self.assertEqual(Id.START_CAL.value, 0x020001) self.assertEqual(Id.LAST_ID.value, 0x30005) @unittest.skipUnless(pyparsing, 'pyparsing not installed') def test_c_header_scanner(self): # https://stackoverflow.com/questions/58732872/208880 with open(os.path.join(tempdir, 'c_plus_plus.h'), 'w') as fh: fh.write(""" stuff before enum hello { Zero, One, Two, Three, Five=5, Six, Ten=10 }; in the middle enum blah { alpha, beta, gamma = 10 , zeta = 50 }; at the end """) from pyparsing import Group, Optional, Suppress, Word, ZeroOrMore from pyparsing import alphas, alphanums, nums # CPPEnum = None class CPPEnumType(EnumMeta): # @classmethod def __prepare__(metacls, clsname, bases, **kwds): # return a standard dictionary for the initial processing return {} # def __init__(clsname, *args , **kwds): super(CPPEnumType, clsname).__init__(*args) # def __new__(metacls, clsname, bases, clsdict, **kwds): if CPPEnum is None: # first time through, ignore the rest enum_dict = super(CPPEnumType, metacls).__prepare__(clsname, bases, **kwds) enum_dict.update(clsdict) return super(CPPEnumType, metacls).__new__(metacls, clsname, bases, enum_dict, **kwds) members = [] # # remove _file and _name using `pop()` as they will cause problems in EnumMeta try: file = clsdict.pop('_file') except KeyError: raise TypeError('_file not specified') cpp_enum_name = clsdict.pop('_name', clsname.lower()) with open(file) as fh: file_contents = fh.read() # # syntax we don't want to see in the final parse tree LBRACE, RBRACE, EQ, COMMA = map(Suppress, "{}=,") _enum = Suppress("enum") identifier = Word(alphas, alphanums + "_") integer = Word(nums) enumValue = Group(identifier("name") + Optional(EQ + integer("value"))) enumList = Group(enumValue + ZeroOrMore(COMMA + enumValue)) enum = _enum + identifier("enum") + LBRACE + enumList("names") + RBRACE # # find the cpp_enum_name ignoring other syntax and other enums for item, start, stop in enum.scanString(file_contents): if item.enum != cpp_enum_name: continue id = 0 for entry in item.names: if entry.value != "": id = int(entry.value) members.append((entry.name.upper(), id)) id += 1 # # get the real EnumDict enum_dict = super(CPPEnumType, metacls).__prepare__(clsname, bases, **kwds) # transfer the original dict content, names starting with '_' first items = list(clsdict.items()) items.sort(key=lambda p: (0 if p[0][0] == '_' else 1, p)) for name, value in items: enum_dict[name] = value # add the members for name, value in members: enum_dict[name] = value return super(CPPEnumType, metacls).__new__(metacls, clsname, bases, enum_dict, **kwds) # class CPPEnum(IntEnum, metaclass=CPPEnumType): pass # class Hello(CPPEnum): _file = os.path.join(tempdir, 'c_plus_plus.h') # class Blah(CPPEnum): _file = os.path.join(tempdir, 'c_plus_plus.h') _name = 'blah' # self.assertEqual( list(Hello), [Hello.ZERO, Hello.ONE, Hello.TWO, Hello.THREE, Hello.FIVE, Hello.SIX, Hello.TEN], ) self.assertEqual(Hello.ZERO.value, 0) self.assertEqual(Hello.THREE.value, 3) self.assertEqual(Hello.SIX.value, 6) self.assertEqual(Hello.TEN.value, 10) # self.assertEqual( list(Blah), [Blah.ALPHA, Blah.BETA, Blah.GAMMA, Blah.ZETA], ) self.assertEqual(Blah.ALPHA.value, 0) self.assertEqual(Blah.BETA.value, 1) self.assertEqual(Blah.GAMMA.value, 10) self.assertEqual(Blah.ZETA.value, 50) class TestIssuesV3(TestCase): """ Problems that were stated in issues. """ def test_auto_multi_int_1(self): class Measurement(int, AddValueEnum, MultiValueEnum, start=0): one = "20110721" two = "20120911" three = "20110518" self.assertEqual([m.value for m in Measurement], [0, 1, 2]) self.assertEqual([m.name for m in Measurement], ['one', 'two', 'three']) self.assertIs(Measurement(0), Measurement.one) self.assertIs(Measurement('20110721'), Measurement.one) self.assertIs(Measurement(1), Measurement.two) self.assertIs(Measurement('20120911'), Measurement.two) self.assertIs(Measurement(2), Measurement.three) self.assertIs(Measurement('20110518'), Measurement.three) def test_auto_multi_int_2(self): class Measurement(int, Enum, settings=(MultiValue, AddValue), start=0): one = "20110721" two = "20120911" three = "20110518" self.assertEqual([m.value for m in Measurement], [0, 1, 2]) self.assertEqual([m.name for m in Measurement], ['one', 'two', 'three']) self.assertIs(Measurement(0), Measurement.one) self.assertIs(Measurement('20110721'), Measurement.one) self.assertIs(Measurement(1), Measurement.two) self.assertIs(Measurement('20120911'), Measurement.two) self.assertIs(Measurement(2), Measurement.three) self.assertIs(Measurement('20110518'), Measurement.three) def test_extend_enum_with_init(self): class Color(Enum, settings=MultiValue, init='foo bar'): red = '1', 'yes' green = '2', 'no' blue = '3', 'maybe' self.assertEqual(Color.red.value, '1') self.assertEqual(Color.red.foo, '1') self.assertEqual(Color.red.bar, 'yes') extend_enum(Color, 'opacity', '4', 'never') self.assertEqual(list(Color), [Color.red, Color.green, Color.blue, Color.opacity]) self.assertEqual(Color.opacity.value, '4') self.assertEqual(Color.opacity.name, 'opacity') self.assertTrue(Color('4') is Color.opacity) self.assertTrue(Color('never') is Color.opacity) class TestExtendEnumV3(TestCase): def test_extend_enum_plain(self): class Color(Enum): red = 1 green = 2 blue = 3 self.assertRaisesRegex(TypeError, '.blue. already in use as .Color.blue: 3.', extend_enum, Color, 'blue', 5) # extend_enum(Color, 'brown', 4) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 4) self.assertTrue(Color.brown in Color) self.assertEqual(Color(4), Color.brown) self.assertEqual(Color['brown'], Color.brown) self.assertEqual(len(Color), 4) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 5) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(5), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) def test_extend_enum_alias(self): class Color(Enum): red = 1 green = 2 blue = 3 extend_enum(Color, 'rojo', 1) self.assertEqual(Color.rojo.name, 'red') self.assertEqual(Color.rojo.value, 1) self.assertTrue(Color.rojo in Color) self.assertEqual(Color(1), Color.rojo) self.assertEqual(Color['rojo'], Color.red) self.assertEqual(len(Color), 3) def test_extend_enum_unique(self): class Color(UniqueEnum): red = 1 green = 2 blue = 3 self.assertRaisesRegex(ValueError, r'<Color.rojo: 1> is a duplicate of <Color.red: 1>', extend_enum, Color, 'rojo', 1) # self.assertEqual(Color.red.name, 'red') self.assertEqual(Color.red.value, 1) self.assertTrue(Color.red in Color) self.assertEqual(Color(1), Color.red) self.assertEqual(Color['red'], Color.red) self.assertEqual(Color.green.name, 'green') self.assertEqual(Color.green.value, 2) self.assertTrue(Color.green in Color) self.assertEqual(Color(2), Color.green) self.assertEqual(Color['blue'], Color.blue) self.assertEqual(Color.blue.name, 'blue') self.assertEqual(Color.blue.value, 3) self.assertTrue(Color.blue in Color) self.assertEqual(Color(3), Color.blue) self.assertEqual(len(Color), 3) # extend_enum(Color, 'brown', 4) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 4) self.assertTrue(Color.brown in Color) self.assertEqual(Color(4), Color.brown) self.assertEqual(Color['brown'], Color.brown) self.assertEqual(len(Color), 4) # self.assertRaisesRegex(ValueError, '<Color.verde: 2> is a duplicate of <Color.green: 2>', extend_enum, Color, 'verde', 2) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 5) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(5), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) def test_extend_enum_shadow_property(self): class Color(Enum): red = 1 green = 2 blue = 3 extend_enum(Color, 'value', 4) self.assertEqual(Color.value.name, 'value') self.assertEqual(Color.value.value, 4) self.assertTrue(Color.value in Color) self.assertEqual(Color(4), Color.value) self.assertEqual(Color['value'], Color.value) self.assertEqual(len(Color), 4) self.assertEqual(Color.red.value, 1) def test_extend_enum_shadow_base(self): class hohum(object): def cyan(self): "cyanize a color" return self.value class Color(hohum, Enum): red = 1 green = 2 blue = 3 self.assertRaisesRegex(TypeError, r'already in use in superclass', extend_enum, Color, 'cyan', 4) self.assertEqual(len(Color), 3) self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) def test_extend_enum_multivalue(self): class Color(MultiValueEnum): red = 1, 4, 7 green = 2, 5, 8 blue = 3, 6, 9 extend_enum(Color, 'brown', 10, 20) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 10) self.assertTrue(Color.brown in Color) self.assertEqual(Color(10), Color.brown) self.assertEqual(Color(20), Color.brown) self.assertEqual(Color['brown'], Color.brown) self.assertEqual(len(Color), 4) # self.assertRaisesRegex(ValueError, 'no values specified for MultiValue enum', extend_enum, Color, 'mauve') def test_extend_enum_multivalue_alias(self): class Color(MultiValueEnum): red = 1, 4, 7 green = 2, 5, 8 blue = 3, 6, 9 self.assertRaisesRegex(ValueError, r'<Color.rojo: 7> is a duplicate of <Color.red: 1>', extend_enum, Color, 'rojo', 7) self.assertEqual(Color.red.name, 'red') self.assertEqual(Color.red.value, 1) self.assertTrue(Color.red in Color) self.assertEqual(Color(1), Color.red) self.assertEqual(Color(4), Color.red) self.assertEqual(Color(7), Color.red) self.assertEqual(Color['red'], Color.red) self.assertEqual(Color.green.name, 'green') self.assertEqual(Color.green.value, 2) self.assertTrue(Color.green in Color) self.assertEqual(Color(2), Color.green) self.assertEqual(Color(5), Color.green) self.assertEqual(Color(8), Color.green) self.assertEqual(Color['blue'], Color.blue) self.assertEqual(Color.blue.name, 'blue') self.assertEqual(Color.blue.value, 3) self.assertTrue(Color.blue in Color) self.assertEqual(Color(3), Color.blue) self.assertEqual(Color(6), Color.blue) self.assertEqual(Color(9), Color.blue) self.assertEqual(len(Color), 3) def test_extend_enum_multivalue_str(self): class M(str, MultiValueEnum): VALUE_1 = 'value_1', 'VALUE_1' VALUE_2 = 'value_2', 'VALUE_2' VALUE_3 = 'value_3', 'VALUE_3' self.assertTrue(M._member_type_ is str) extend_enum(M, 'VALUE_4', 'value_4', 'VALUE_4') self.assertEqual(list(M), [M.VALUE_1, M.VALUE_2, M.VALUE_3, M.VALUE_4]) self.assertTrue(M('value_4') is M.VALUE_4) self.assertTrue(M('VALUE_4') is M.VALUE_4) self.assertTrue(M.VALUE_4.name == 'VALUE_4') self.assertTrue(M.VALUE_4.value == 'value_4') def test_extend_intenum(self): class Index(IntEnum): DeviceType = 0x1000 ErrorRegister = 0x1001 for name, value in ( ('ControlWord', 0x6040), ('StatusWord', 0x6041), ('OperationMode', 0x6060), ): extend_enum(Index, name, value) self.assertEqual(len(Index), 5) self.assertEqual(list(Index), [Index.DeviceType, Index.ErrorRegister, Index.ControlWord, Index.StatusWord, Index.OperationMode]) self.assertEqual(Index.DeviceType.value, 0x1000) self.assertEqual(Index.StatusWord.value, 0x6041) def test_extend_multi_init(self): class HTTPStatus(IntEnum): def __new__(cls, value, phrase, description): obj = int.__new__(cls, value) obj._value_ = value obj.phrase = phrase obj.description = description return obj CONTINUE = 100, 'Continue', 'Request received, please continue' SWITCHING_PROTOCOLS = 101, 'Switching Protocols', 'Switching to new protocol; obey Upgrade header' PROCESSING = 102, 'Processing', '' length = 3 extend_enum(HTTPStatus, 'BAD_SPAM', 513, 'Too greasy', 'for a train') extend_enum(HTTPStatus, 'BAD_EGGS', 514, 'Too green', '') self.assertEqual(len(HTTPStatus), length+2) self.assertEqual( list(HTTPStatus)[-2:], [HTTPStatus.BAD_SPAM, HTTPStatus.BAD_EGGS], ) self.assertEqual(HTTPStatus.BAD_SPAM.value, 513) self.assertEqual(HTTPStatus.BAD_SPAM.name, 'BAD_SPAM') self.assertEqual(HTTPStatus.BAD_SPAM.phrase, 'Too greasy') self.assertEqual(HTTPStatus.BAD_SPAM.description, 'for a train') self.assertEqual(HTTPStatus.BAD_EGGS.value, 514) self.assertEqual(HTTPStatus.BAD_EGGS.name, 'BAD_EGGS') self.assertEqual(HTTPStatus.BAD_EGGS.phrase, 'Too green') self.assertEqual(HTTPStatus.BAD_EGGS.description, '') def test_extend_flag(self): class Color(Flag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, Flag)) def test_extend_flag_backwards(self): class Color(Flag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, Flag)) # extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 16) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(16), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) def test_extend_intflag(self): class Color(IntFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, Flag)) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 16) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(16), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) def test_extend_intflag_backwards(self): class Color(IntFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, Flag)) # extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 16) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(16), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) def test_extend_strenum(self): class Color(StrEnum): RED = auto() GREEN = auto() BLUE = auto() extend_enum(Color, 'BLACK') self.assertEqual(Color.BLACK.name, 'BLACK') self.assertEqual(Color.BLACK.value, 'black') self.assertEqual(len(Color), 4) @unittest.skipUnless(StdlibEnum, 'Stdlib Enum not available') def test_extend_enum_stdlib(self): class Color(StdlibEnum): red = 1 green = 2 blue = 3 self.assertEqual(getattr(Color.red, '_values_', None), None) extend_enum(Color, 'brown', 4) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 4) self.assertTrue(Color.brown in Color) self.assertEqual(Color(4), Color.brown) self.assertEqual(Color['brown'], Color.brown) self.assertEqual(len(Color), 4) @unittest.skipUnless(StdlibEnum, 'Stdlib Enum not available') def test_extend_enum_plain_stdlib(self): class Color(StdlibEnum): red = 1 green = 2 blue = 3 self.assertRaisesRegex(TypeError, 'already in use as', extend_enum, Color, 'blue', 5) # extend_enum(Color, 'brown', 4) self.assertEqual(Color.brown.name, 'brown') self.assertEqual(Color.brown.value, 4) self.assertTrue(Color.brown in Color) self.assertEqual(Color(4), Color.brown) self.assertEqual(Color['brown'], Color.brown) self.assertEqual(len(Color), 4) self.assertEqual(list(Color), [Color.red, Color.green, Color.blue, Color.brown]) self.assertEqual([c.value for c in Color], [1, 2, 3, 4]) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 5) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(5), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), 5) @unittest.skipUnless(StdlibEnum, 'Stdlib Enum not available') def test_extend_enum_alias_stdlib(self): class Color(StdlibEnum): red = 1 green = 2 blue = 3 extend_enum(Color, 'rojo', 1) self.assertEqual(Color.rojo.name, 'red') self.assertEqual(Color.rojo.value, 1) self.assertTrue(Color.rojo in Color) self.assertEqual(Color(1), Color.rojo) self.assertEqual(Color['rojo'], Color.red) self.assertEqual(len(Color), 3) @unittest.skipUnless(StdlibEnum, 'Stdlib Enum not available') def test_extend_enum_shadow_property_stdlib(self): class Color(StdlibEnum): red = 1 green = 2 blue = 3 extend_enum(Color, 'value', 4) self.assertEqual(Color.value.name, 'value') self.assertEqual(Color.value.value, 4) self.assertTrue(Color.value in Color) self.assertEqual(Color(4), Color.value) self.assertEqual(Color['value'], Color.value) self.assertEqual(len(Color), 4) self.assertEqual(Color.red.value, 1) @unittest.skipUnless(StdlibEnum, 'Stdlib Enum not available') def test_extend_enum_shadow_base_stdlib(self): class hohum(object): def cyan(self): "cyanize a color" return self.value class Color(hohum, StdlibEnum): red = 1 green = 2 blue = 3 self.assertRaisesRegex(TypeError, r'already in use in superclass', extend_enum, Color, 'cyan', 4) self.assertEqual(len(Color), 3) self.assertEqual(list(Color), [Color.red, Color.green, Color.blue]) @unittest.skipUnless(StdlibIntEnum, 'Stdlib IntEnum not available') def test_extend_intenum_stdlib(self): class Index(StdlibIntEnum): DeviceType = 0x1000 ErrorRegister = 0x1001 for name, value in ( ('ControlWord', 0x6040), ('StatusWord', 0x6041), ('OperationMode', 0x6060), ): extend_enum(Index, name, value) self.assertEqual(len(Index), 5) self.assertEqual(list(Index), [Index.DeviceType, Index.ErrorRegister, Index.ControlWord, Index.StatusWord, Index.OperationMode]) self.assertEqual(Index.DeviceType.value, 0x1000) self.assertEqual(Index.StatusWord.value, 0x6041) @unittest.skipUnless(StdlibIntEnum, 'Stdlib IntEnum not available') def test_extend_multi_init_stdlib(self): class HTTPStatus(StdlibIntEnum): def __new__(cls, value, phrase, description): obj = int.__new__(cls, value) obj._value_ = value obj.phrase = phrase obj.description = description return obj CONTINUE = 100, 'Continue', 'Request received, please continue' SWITCHING_PROTOCOLS = 101, 'Switching Protocols', 'Switching to new protocol; obey Upgrade header' PROCESSING = 102, 'Processing', '' length = 3 extend_enum(HTTPStatus, 'BAD_SPAM', 513, 'Too greasy', 'for a train') extend_enum(HTTPStatus, 'BAD_EGGS', 514, 'Too green', '') self.assertEqual(len(HTTPStatus), length+2) self.assertEqual( list(HTTPStatus)[-2:], [HTTPStatus.BAD_SPAM, HTTPStatus.BAD_EGGS], ) self.assertEqual(HTTPStatus.BAD_SPAM.value, 513) self.assertEqual(HTTPStatus.BAD_SPAM.name, 'BAD_SPAM') self.assertEqual(HTTPStatus.BAD_SPAM.phrase, 'Too greasy') self.assertEqual(HTTPStatus.BAD_SPAM.description, 'for a train') self.assertEqual(HTTPStatus.BAD_EGGS.value, 514) self.assertEqual(HTTPStatus.BAD_EGGS.name, 'BAD_EGGS') self.assertEqual(HTTPStatus.BAD_EGGS.phrase, 'Too green') self.assertEqual(HTTPStatus.BAD_EGGS.description, '') @unittest.skipUnless(StdlibFlag, 'Stdlib Flag not available') def test_extend_flag_stdlib(self): class Color(StdlibFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, StdlibFlag)) @unittest.skipUnless(StdlibFlag and pyver < PY3_11, 'Stdlib Flag not available') def test_extend_flag_backwards_stdlib(self): class Color(StdlibFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, StdlibFlag)) # extend_enum(Color, 'MAGENTA') self.assertTrue(Color(16) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value,16) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 32) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(32), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) @unittest.skipUnless(StdlibFlag and pyver >= PY3_11, 'Stdlib Flag not available') def test_extend_flag_backwards_stdlib(self): class Color(StdlibFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, StdlibFlag)) # extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value,8) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 16) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(16), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) @unittest.skipUnless(StdlibIntFlag, 'Stdlib IntFlag not available') def test_extend_intflag_stdlib(self): class Color(StdlibIntFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 extend_enum(Color, 'MAGENTA') self.assertTrue(Color(8) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, 8) extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, StdlibFlag)) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, 16) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(16), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) @unittest.skipUnless(StdlibIntFlag, 'Stdlib IntFlag not available') def test_extend_intflag_backwards_stdlib(self): class Color(StdlibIntFlag): BLACK = 0 RED = 1 GREEN = 2 BLUE = 4 if pyver >= PY3_11: # flags make more sense in 3.11 length = 5 MAGENTA = 8 mauve = 16 else: length = 7 MAGENTA = 16 mauve = 32 extend_enum(Color, 'PURPLE', 11) self.assertTrue(Color(11) is Color.PURPLE) self.assertTrue(isinstance(Color.PURPLE, Color)) self.assertEqual(Color.PURPLE.value, 11) self.assertTrue(issubclass(Color, StdlibFlag)) # extend_enum(Color, 'MAGENTA') self.assertTrue(Color(MAGENTA) is Color.MAGENTA) self.assertTrue(isinstance(Color.MAGENTA, Color)) self.assertEqual(Color.MAGENTA.value, MAGENTA) # extend_enum(Color, 'mauve') self.assertEqual(Color.mauve.name, 'mauve') self.assertEqual(Color.mauve.value, mauve) self.assertTrue(Color.mauve in Color) self.assertEqual(Color(mauve), Color.mauve) self.assertEqual(Color['mauve'], Color.mauve) self.assertEqual(len(Color), length, list(Color)) @unittest.skipUnless(StdlibStrEnum, 'Stdlib StrEnum not available') def test_extend_strenum_stdlib(self): class Color(StrEnum): RED = auto() GREEN = auto() BLUE = auto() extend_enum(Color, 'BLACK') self.assertEqual(Color.BLACK.name, 'BLACK') self.assertEqual(Color.BLACK.value, 'black') self.assertEqual(len(Color), 4) if __name__ == '__main__': raise RuntimeError("'test_v3.py' should not be run by itself; it's included in 'test.py'")
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