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      # coding: utf-8

      """Tests for IPython.lib.pretty."""

      # Copyright (c) IPython Development Team.

      # Distributed under the terms of the Modified BSD License.

      from collections import Counter, defaultdict, deque, OrderedDict

      import types, string

      import nose.tools as nt

      from IPython.lib import pretty

      from IPython.testing.decorators import skip_without

      from io import StringIO

      class MyList(object):

          def __init__(self, content):

              self.content = content

          def _repr_pretty_(self, p, cycle):

              if cycle:

                  p.text("MyList(...)")

              else:

                  with p.group(3, "MyList(", ")"):

                      for (i, child) in enumerate(self.content):

                          if i:

                              p.text(",")

                              p.breakable()

                          else:

                              p.breakable("")

                          p.pretty(child)

      class MyDict(dict):

          def _repr_pretty_(self, p, cycle):

              p.text("MyDict(...)")

      class MyObj(object):

          def somemethod(self):

              pass

      class Dummy1(object):

          def _repr_pretty_(self, p, cycle):

              p.text("Dummy1(...)")

      class Dummy2(Dummy1):

          _repr_pretty_ = None

      class NoModule(object):

          pass

      NoModule.__module__ = None

      class Breaking(object):

          def _repr_pretty_(self, p, cycle):

              with p.group(4,"TG: ",":"):

                  p.text("Breaking(")

                  p.break_()

                  p.text(")")

      class BreakingRepr(object):

          def __repr__(self):

              return "Breaking(\n)"

      class BreakingReprParent(object):

          def _repr_pretty_(self, p, cycle):

              with p.group(4,"TG: ",":"):

                  p.pretty(BreakingRepr())

      class BadRepr(object):

          def __repr__(self):

              return 1/0

      def test_indentation():

          """Test correct indentation in groups"""

          count = 40

          gotoutput = pretty.pretty(MyList(range(count)))

          expectedoutput = "MyList(\n" + ",\n".join("   %d" % i for i in range(count)) + ")"

          nt.assert_equal(gotoutput, expectedoutput)

      def test_dispatch():

          """

          Test correct dispatching: The _repr_pretty_ method for MyDict

          must be found before the registered printer for dict.

          """

          gotoutput = pretty.pretty(MyDict())

          expectedoutput = "MyDict(...)"

          nt.assert_equal(gotoutput, expectedoutput)

      def test_callability_checking():

          """

          Test that the _repr_pretty_ method is tested for callability and skipped if

          not.

          """

          gotoutput = pretty.pretty(Dummy2())

          expectedoutput = "Dummy1(...)"

          nt.assert_equal(gotoutput, expectedoutput)

      def test_sets():

          """

          Test that set and frozenset use Python 3 formatting.

          """

          objects = [set(), frozenset(), set([1]), frozenset([1]), set([1, 2]),

              frozenset([1, 2]), set([-1, -2, -3])]

          expected = ['set()', 'frozenset()', '{1}', 'frozenset({1})', '{1, 2}',

              'frozenset({1, 2})', '{-3, -2, -1}']

          for obj, expected_output in zip(objects, expected):

              got_output = pretty.pretty(obj)

              yield nt.assert_equal, got_output, expected_output

      @skip_without('xxlimited')

      def test_pprint_heap_allocated_type():

          """

          Test that pprint works for heap allocated types.

          """

          import xxlimited

          output = pretty.pretty(xxlimited.Null)

          nt.assert_equal(output, 'xxlimited.Null')

      def test_pprint_nomod():

          """

          Test that pprint works for classes with no __module__.

          """

          output = pretty.pretty(NoModule)

          nt.assert_equal(output, 'NoModule')

      def test_pprint_break():

          """

          Test that p.break_ produces expected output

          """

          output = pretty.pretty(Breaking())

          expected = "TG: Breaking(\n    ):"

          nt.assert_equal(output, expected)

      def test_pprint_break_repr():

          """

          Test that p.break_ is used in repr

          """

          output = pretty.pretty(BreakingReprParent())

          expected = "TG: Breaking(\n    ):"

          nt.assert_equal(output, expected)

      def test_bad_repr():

          """Don't catch bad repr errors"""

          with nt.assert_raises(ZeroDivisionError):

              pretty.pretty(BadRepr())

      class BadException(Exception):

          def __str__(self):

              return -1

      class ReallyBadRepr(object):

          __module__ = 1

          @property

          def __class__(self):

              raise ValueError("I am horrible")

          def __repr__(self):

              raise BadException()

      def test_really_bad_repr():

          with nt.assert_raises(BadException):

              pretty.pretty(ReallyBadRepr())

      class SA(object):

          pass

      class SB(SA):

          pass

      def test_super_repr():

          # "<super: module_name.SA, None>"

          output = pretty.pretty(super(SA))

          nt.assert_regexp_matches(output, r"<super: \S+.SA, None>")

          # "<super: module_name.SA, <module_name.SB at 0x...>>"

          sb = SB()

          output = pretty.pretty(super(SA, sb))

          nt.assert_regexp_matches(output, r"<super: \S+.SA,\s+<\S+.SB at 0x\S+>>")

      def test_long_list():

          lis = list(range(10000))

          p = pretty.pretty(lis)

          last2 = p.rsplit('\n', 2)[-2:]

          nt.assert_equal(last2, [' 999,', ' ...]'])

      def test_long_set():

          s = set(range(10000))

          p = pretty.pretty(s)

          last2 = p.rsplit('\n', 2)[-2:]

          nt.assert_equal(last2, [' 999,', ' ...}'])

      def test_long_tuple():

          tup = tuple(range(10000))

          p = pretty.pretty(tup)

          last2 = p.rsplit('\n', 2)[-2:]

          nt.assert_equal(last2, [' 999,', ' ...)'])

      def test_long_dict():

          d = { n:n for n in range(10000) }

          p = pretty.pretty(d)

          last2 = p.rsplit('\n', 2)[-2:]

          nt.assert_equal(last2, [' 999: 999,', ' ...}'])

      def test_unbound_method():

          output = pretty.pretty(MyObj.somemethod)

          nt.assert_in('MyObj.somemethod', output)

      class MetaClass(type):

          def __new__(cls, name):

              return type.__new__(cls, name, (object,), {'name': name})

          def __repr__(self):

              return "[CUSTOM REPR FOR CLASS %s]" % self.name

      ClassWithMeta = MetaClass('ClassWithMeta')

      def test_metaclass_repr():

          output = pretty.pretty(ClassWithMeta)

          nt.assert_equal(output, "[CUSTOM REPR FOR CLASS ClassWithMeta]")

      def test_unicode_repr():

          u = u"üniçodé"

          ustr = u

          class C(object):

              def __repr__(self):

                  return ustr

          c = C()

          p = pretty.pretty(c)

          nt.assert_equal(p, u)

          p = pretty.pretty([c])

          nt.assert_equal(p, u'[%s]' % u)

      def test_basic_class():

          def type_pprint_wrapper(obj, p, cycle):

              if obj is MyObj:

                  type_pprint_wrapper.called = True

              return pretty._type_pprint(obj, p, cycle)

          type_pprint_wrapper.called = False

          stream = StringIO()

          printer = pretty.RepresentationPrinter(stream)

          printer.type_pprinters[type] = type_pprint_wrapper

          printer.pretty(MyObj)

          printer.flush()

          output = stream.getvalue()

          nt.assert_equal(output, '%s.MyObj' % __name__)

          nt.assert_true(type_pprint_wrapper.called)

      def test_collections_defaultdict():

          # Create defaultdicts with cycles

          a = defaultdict()

          a.default_factory = a

          b = defaultdict(list)

          b['key'] = b

          # Dictionary order cannot be relied on, test against single keys.

          cases = [

              (defaultdict(list), 'defaultdict(list, {})'),

              (defaultdict(list, {'key': '-' * 50}),

               "defaultdict(list,\n"

               "            {'key': '--------------------------------------------------'})"),

              (a, 'defaultdict(defaultdict(...), {})'),

              (b, "defaultdict(list, {'key': defaultdict(...)})"),

          ]

          for obj, expected in cases:

              nt.assert_equal(pretty.pretty(obj), expected)

      def test_collections_ordereddict():

          # Create OrderedDict with cycle

          a = OrderedDict()

          a['key'] = a

          cases = [

              (OrderedDict(), 'OrderedDict()'),

              (OrderedDict((i, i) for i in range(1000, 1010)),

               'OrderedDict([(1000, 1000),\n'

               '             (1001, 1001),\n'

               '             (1002, 1002),\n'

               '             (1003, 1003),\n'

               '             (1004, 1004),\n'

               '             (1005, 1005),\n'

               '             (1006, 1006),\n'

               '             (1007, 1007),\n'

               '             (1008, 1008),\n'

               '             (1009, 1009)])'),

              (a, "OrderedDict([('key', OrderedDict(...))])"),

          ]

          for obj, expected in cases:

              nt.assert_equal(pretty.pretty(obj), expected)

      def test_collections_deque():

          # Create deque with cycle

          a = deque()

          a.append(a)

          cases = [

              (deque(), 'deque([])'),

              (deque(i for i in range(1000, 1020)),

               'deque([1000,\n'

               '       1001,\n'

               '       1002,\n'

               '       1003,\n'

               '       1004,\n'

               '       1005,\n'

               '       1006,\n'

               '       1007,\n'

               '       1008,\n'

               '       1009,\n'

               '       1010,\n'

               '       1011,\n'

               '       1012,\n'

               '       1013,\n'

               '       1014,\n'

               '       1015,\n'

               '       1016,\n'

               '       1017,\n'

               '       1018,\n'

               '       1019])'),

              (a, 'deque([deque(...)])'),

          ]

          for obj, expected in cases:

              nt.assert_equal(pretty.pretty(obj), expected)

      def test_collections_counter():

          class MyCounter(Counter):

              pass

          cases = [

              (Counter(), 'Counter()'),

              (Counter(a=1), "Counter({'a': 1})"),

              (MyCounter(a=1), "MyCounter({'a': 1})"),

          ]

          for obj, expected in cases:

              nt.assert_equal(pretty.pretty(obj), expected)

      def test_mappingproxy():

          MP = types.MappingProxyType

          underlying_dict = {}

          mp_recursive = MP(underlying_dict)

          underlying_dict[2] = mp_recursive

          underlying_dict[3] = underlying_dict

          cases = [

              (MP({}), "mappingproxy({})"),

              (MP({None: MP({})}), "mappingproxy({None: mappingproxy({})})"),

              (MP({k: k.upper() for k in string.ascii_lowercase}),

               "mappingproxy({'a': 'A',\n"

               "              'b': 'B',\n"

               "              'c': 'C',\n"

               "              'd': 'D',\n"

               "              'e': 'E',\n"

               "              'f': 'F',\n"

               "              'g': 'G',\n"

               "              'h': 'H',\n"

               "              'i': 'I',\n"

               "              'j': 'J',\n"

               "              'k': 'K',\n"

               "              'l': 'L',\n"

               "              'm': 'M',\n"

               "              'n': 'N',\n"

               "              'o': 'O',\n"

               "              'p': 'P',\n"

               "              'q': 'Q',\n"

               "              'r': 'R',\n"

               "              's': 'S',\n"

               "              't': 'T',\n"

               "              'u': 'U',\n"

               "              'v': 'V',\n"

               "              'w': 'W',\n"

               "              'x': 'X',\n"

               "              'y': 'Y',\n"

               "              'z': 'Z'})"),

              (mp_recursive, "mappingproxy({2: {...}, 3: {2: {...}, 3: {...}}})"),

              (underlying_dict,

               "{2: mappingproxy({2: {...}, 3: {...}}), 3: {...}}"),

          ]

          for obj, expected in cases:

              nt.assert_equal(pretty.pretty(obj), expected)

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				# coding: utf-8
				"""Tests for IPython.lib.pretty."""

				# Copyright (c) IPython Development Team.
				# Distributed under the terms of the Modified BSD License.


				from collections import Counter, defaultdict, deque, OrderedDict
				import types, string

				import nose.tools as nt

				from IPython.lib import pretty
				from IPython.testing.decorators import skip_without

				from io import StringIO


				class MyList(object):
				def __init__(self, content):
				self.content = content
				def _repr_pretty_(self, p, cycle):
				if cycle:
				p.text("MyList(...)")
				else:
				with p.group(3, "MyList(", ")"):
				for (i, child) in enumerate(self.content):
				if i:
				p.text(",")
				p.breakable()
				else:
				p.breakable("")
				p.pretty(child)


				class MyDict(dict):
				def _repr_pretty_(self, p, cycle):
				p.text("MyDict(...)")

				class MyObj(object):
				def somemethod(self):
				pass


				class Dummy1(object):
				def _repr_pretty_(self, p, cycle):
				p.text("Dummy1(...)")

				class Dummy2(Dummy1):
				_repr_pretty_ = None

				class NoModule(object):
				pass

				NoModule.__module__ = None

				class Breaking(object):
				def _repr_pretty_(self, p, cycle):
				with p.group(4,"TG: ",":"):
				p.text("Breaking(")
				p.break_()
				p.text(")")

				class BreakingRepr(object):
				def __repr__(self):
				return "Breaking(\n)"

				class BreakingReprParent(object):
				def _repr_pretty_(self, p, cycle):
				with p.group(4,"TG: ",":"):
				p.pretty(BreakingRepr())

				class BadRepr(object):

				def __repr__(self):
				return 1/0


				def test_indentation():
				"""Test correct indentation in groups"""
				count = 40
				gotoutput = pretty.pretty(MyList(range(count)))
				expectedoutput = "MyList(\n" + ",\n".join(" %d" % i for i in range(count)) + ")"

				nt.assert_equal(gotoutput, expectedoutput)


				def test_dispatch():
				"""
				Test correct dispatching: The _repr_pretty_ method for MyDict
				must be found before the registered printer for dict.
				"""
				gotoutput = pretty.pretty(MyDict())
				expectedoutput = "MyDict(...)"

				nt.assert_equal(gotoutput, expectedoutput)


				def test_callability_checking():
				"""
				Test that the _repr_pretty_ method is tested for callability and skipped if
				not.
				"""
				gotoutput = pretty.pretty(Dummy2())
				expectedoutput = "Dummy1(...)"

				nt.assert_equal(gotoutput, expectedoutput)


				def test_sets():
				"""
				Test that set and frozenset use Python 3 formatting.
				"""
				objects = [set(), frozenset(), set([1]), frozenset([1]), set([1, 2]),
				frozenset([1, 2]), set([-1, -2, -3])]
				expected = ['set()', 'frozenset()', '{1}', 'frozenset({1})', '{1, 2}',
				'frozenset({1, 2})', '{-3, -2, -1}']
				for obj, expected_output in zip(objects, expected):
				got_output = pretty.pretty(obj)
				yield nt.assert_equal, got_output, expected_output


				@skip_without('xxlimited')
				def test_pprint_heap_allocated_type():
				"""
				Test that pprint works for heap allocated types.
				"""
				import xxlimited
				output = pretty.pretty(xxlimited.Null)
				nt.assert_equal(output, 'xxlimited.Null')

				def test_pprint_nomod():
				"""
				Test that pprint works for classes with no __module__.
				"""
				output = pretty.pretty(NoModule)
				nt.assert_equal(output, 'NoModule')

				def test_pprint_break():
				"""
				Test that p.break_ produces expected output
				"""
				output = pretty.pretty(Breaking())
				expected = "TG: Breaking(\n ):"
				nt.assert_equal(output, expected)

				def test_pprint_break_repr():
				"""
				Test that p.break_ is used in repr
				"""
				output = pretty.pretty(BreakingReprParent())
				expected = "TG: Breaking(\n ):"
				nt.assert_equal(output, expected)

				def test_bad_repr():
				"""Don't catch bad repr errors"""
				with nt.assert_raises(ZeroDivisionError):
				pretty.pretty(BadRepr())

				class BadException(Exception):
				def __str__(self):
				return -1

				class ReallyBadRepr(object):
				__module__ = 1
				@property
				def __class__(self):
				raise ValueError("I am horrible")

				def __repr__(self):
				raise BadException()

				def test_really_bad_repr():
				with nt.assert_raises(BadException):
				pretty.pretty(ReallyBadRepr())


				class SA(object):
				pass

				class SB(SA):
				pass

				def test_super_repr():
				# "<super: module_name.SA, None>"
				output = pretty.pretty(super(SA))
				nt.assert_regexp_matches(output, r"<super: \S+.SA, None>")

				# "<super: module_name.SA, <module_name.SB at 0x...>>"
				sb = SB()
				output = pretty.pretty(super(SA, sb))
				nt.assert_regexp_matches(output, r"<super: \S+.SA,\s+<\S+.SB at 0x\S+>>")


				def test_long_list():
				lis = list(range(10000))
				p = pretty.pretty(lis)
				last2 = p.rsplit('\n', 2)[-2:]
				nt.assert_equal(last2, [' 999,', ' ...]'])

				def test_long_set():
				s = set(range(10000))
				p = pretty.pretty(s)
				last2 = p.rsplit('\n', 2)[-2:]
				nt.assert_equal(last2, [' 999,', ' ...}'])

				def test_long_tuple():
				tup = tuple(range(10000))
				p = pretty.pretty(tup)
				last2 = p.rsplit('\n', 2)[-2:]
				nt.assert_equal(last2, [' 999,', ' ...)'])

				def test_long_dict():
				d = { n:n for n in range(10000) }
				p = pretty.pretty(d)
				last2 = p.rsplit('\n', 2)[-2:]
				nt.assert_equal(last2, [' 999: 999,', ' ...}'])

				def test_unbound_method():
				output = pretty.pretty(MyObj.somemethod)
				nt.assert_in('MyObj.somemethod', output)


				class MetaClass(type):
				def __new__(cls, name):
				return type.__new__(cls, name, (object,), {'name': name})

				def __repr__(self):
				return "[CUSTOM REPR FOR CLASS %s]" % self.name


				ClassWithMeta = MetaClass('ClassWithMeta')


				def test_metaclass_repr():
				output = pretty.pretty(ClassWithMeta)
				nt.assert_equal(output, "[CUSTOM REPR FOR CLASS ClassWithMeta]")


				def test_unicode_repr():
				u = u"üniçodé"
				ustr = u

				class C(object):
				def __repr__(self):
				return ustr

				c = C()
				p = pretty.pretty(c)
				nt.assert_equal(p, u)
				p = pretty.pretty([c])
				nt.assert_equal(p, u'[%s]' % u)


				def test_basic_class():
				def type_pprint_wrapper(obj, p, cycle):
				if obj is MyObj:
				type_pprint_wrapper.called = True
				return pretty._type_pprint(obj, p, cycle)
				type_pprint_wrapper.called = False

				stream = StringIO()
				printer = pretty.RepresentationPrinter(stream)
				printer.type_pprinters[type] = type_pprint_wrapper
				printer.pretty(MyObj)
				printer.flush()
				output = stream.getvalue()

				nt.assert_equal(output, '%s.MyObj' % __name__)
				nt.assert_true(type_pprint_wrapper.called)


				def test_collections_defaultdict():
				# Create defaultdicts with cycles
				a = defaultdict()
				a.default_factory = a
				b = defaultdict(list)
				b['key'] = b

				# Dictionary order cannot be relied on, test against single keys.
				cases = [
				(defaultdict(list), 'defaultdict(list, {})'),
				(defaultdict(list, {'key': '-' * 50}),
				"defaultdict(list,\n"
				" {'key': '--------------------------------------------------'})"),
				(a, 'defaultdict(defaultdict(...), {})'),
				(b, "defaultdict(list, {'key': defaultdict(...)})"),
				]
				for obj, expected in cases:
				nt.assert_equal(pretty.pretty(obj), expected)


				def test_collections_ordereddict():
				# Create OrderedDict with cycle
				a = OrderedDict()
				a['key'] = a

				cases = [
				(OrderedDict(), 'OrderedDict()'),
				(OrderedDict((i, i) for i in range(1000, 1010)),
				'OrderedDict([(1000, 1000),\n'
				' (1001, 1001),\n'
				' (1002, 1002),\n'
				' (1003, 1003),\n'
				' (1004, 1004),\n'
				' (1005, 1005),\n'
				' (1006, 1006),\n'
				' (1007, 1007),\n'
				' (1008, 1008),\n'
				' (1009, 1009)])'),
				(a, "OrderedDict([('key', OrderedDict(...))])"),
				]
				for obj, expected in cases:
				nt.assert_equal(pretty.pretty(obj), expected)


				def test_collections_deque():
				# Create deque with cycle
				a = deque()
				a.append(a)

				cases = [
				(deque(), 'deque([])'),
				(deque(i for i in range(1000, 1020)),
				'deque([1000,\n'
				' 1001,\n'
				' 1002,\n'
				' 1003,\n'
				' 1004,\n'
				' 1005,\n'
				' 1006,\n'
				' 1007,\n'
				' 1008,\n'
				' 1009,\n'
				' 1010,\n'
				' 1011,\n'
				' 1012,\n'
				' 1013,\n'
				' 1014,\n'
				' 1015,\n'
				' 1016,\n'
				' 1017,\n'
				' 1018,\n'
				' 1019])'),
				(a, 'deque([deque(...)])'),
				]
				for obj, expected in cases:
				nt.assert_equal(pretty.pretty(obj), expected)

				def test_collections_counter():
				class MyCounter(Counter):
				pass
				cases = [
				(Counter(), 'Counter()'),
				(Counter(a=1), "Counter({'a': 1})"),
				(MyCounter(a=1), "MyCounter({'a': 1})"),
				]
				for obj, expected in cases:
				nt.assert_equal(pretty.pretty(obj), expected)

				def test_mappingproxy():
				MP = types.MappingProxyType
				underlying_dict = {}
				mp_recursive = MP(underlying_dict)
				underlying_dict[2] = mp_recursive
				underlying_dict[3] = underlying_dict

				cases = [
				(MP({}), "mappingproxy({})"),
				(MP({None: MP({})}), "mappingproxy({None: mappingproxy({})})"),
				(MP({k: k.upper() for k in string.ascii_lowercase}),
				"mappingproxy({'a': 'A',\n"
				" 'b': 'B',\n"
				" 'c': 'C',\n"
				" 'd': 'D',\n"
				" 'e': 'E',\n"
				" 'f': 'F',\n"
				" 'g': 'G',\n"
				" 'h': 'H',\n"
				" 'i': 'I',\n"
				" 'j': 'J',\n"
				" 'k': 'K',\n"
				" 'l': 'L',\n"
				" 'm': 'M',\n"
				" 'n': 'N',\n"
				" 'o': 'O',\n"
				" 'p': 'P',\n"
				" 'q': 'Q',\n"
				" 'r': 'R',\n"
				" 's': 'S',\n"
				" 't': 'T',\n"
				" 'u': 'U',\n"
				" 'v': 'V',\n"
				" 'w': 'W',\n"
				" 'x': 'X',\n"
				" 'y': 'Y',\n"
				" 'z': 'Z'})"),
				(mp_recursive, "mappingproxy({2: {...}, 3: {2: {...}, 3: {...}}})"),
				(underlying_dict,
				"{2: mappingproxy({2: {...}, 3: {...}}), 3: {...}}"),
				]
				for obj, expected in cases:
				nt.assert_equal(pretty.pretty(obj), expected)