upstream/ipython Files · IPython/core/tests/test_inputtransformer2.py

Statically type OInfo....

Statically type OInfo. In view of working with , some cleanup inspect to be properly typed, and using stricter datastructure. Instead of dict we now use dataclasses, this will make sure that fields type and access can be stricter and verified not only at runtime, but by mypy

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      """Tests for the token-based transformers in IPython.core.inputtransformer2

      Line-based transformers are the simpler ones; token-based transformers are

      more complex. See test_inputtransformer2_line for tests for line-based

      transformations.

      """

      import platform

      import string

      import sys

      from textwrap import dedent

      import pytest

      from IPython.core import inputtransformer2 as ipt2

      from IPython.core.inputtransformer2 import _find_assign_op, make_tokens_by_line

      MULTILINE_MAGIC = (

          """\

      a = f()

      %foo \\

      bar

      g()

      """.splitlines(

              keepends=True

          ),

          (2, 0),

          """\

      a = f()

      get_ipython().run_line_magic('foo', ' bar')

      g()

      """.splitlines(

              keepends=True

          ),

      )

      INDENTED_MAGIC = (

          """\

      for a in range(5):

          %ls

      """.splitlines(

              keepends=True

          ),

          (2, 4),

          """\

      for a in range(5):

          get_ipython().run_line_magic('ls', '')

      """.splitlines(

              keepends=True

          ),

      )

      CRLF_MAGIC = (

          ["a = f()\n", "%ls\r\n", "g()\n"],

          (2, 0),

          ["a = f()\n", "get_ipython().run_line_magic('ls', '')\n", "g()\n"],

      )

      MULTILINE_MAGIC_ASSIGN = (

          """\

      a = f()

      b = %foo \\

        bar

      g()

      """.splitlines(

              keepends=True

          ),

          (2, 4),

          """\

      a = f()

      b = get_ipython().run_line_magic('foo', '   bar')

      g()

      """.splitlines(

              keepends=True

          ),

      )

      MULTILINE_SYSTEM_ASSIGN = ("""\

      a = f()

      b = !foo \\

        bar

      g()

      """.splitlines(keepends=True), (2, 4), """\

      a = f()

      b = get_ipython().getoutput('foo    bar')

      g()

      """.splitlines(keepends=True))

      #####

      MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT = (

          """\

      def test():

        for i in range(1):

          print(i)

        res =! ls

      """.splitlines(

              keepends=True

          ),

          (4, 7),

          """\

      def test():

        for i in range(1):

          print(i)

        res =get_ipython().getoutput(\' ls\')

      """.splitlines(

              keepends=True

          ),

      )

      ######

      AUTOCALL_QUOTE = ([",f 1 2 3\n"], (1, 0), ['f("1", "2", "3")\n'])

      AUTOCALL_QUOTE2 = ([";f 1 2 3\n"], (1, 0), ['f("1 2 3")\n'])

      AUTOCALL_PAREN = (["/f 1 2 3\n"], (1, 0), ["f(1, 2, 3)\n"])

      SIMPLE_HELP = (["foo?\n"], (1, 0), ["get_ipython().run_line_magic('pinfo', 'foo')\n"])

      DETAILED_HELP = (

          ["foo??\n"],

          (1, 0),

          ["get_ipython().run_line_magic('pinfo2', 'foo')\n"],

      )

      MAGIC_HELP = (["%foo?\n"], (1, 0), ["get_ipython().run_line_magic('pinfo', '%foo')\n"])

      HELP_IN_EXPR = (

          ["a = b + c?\n"],

          (1, 0),

          ["get_ipython().run_line_magic('pinfo', 'c')\n"],

      )

      HELP_CONTINUED_LINE = (

          """\

      a = \\

      zip?

      """.splitlines(

              keepends=True

          ),

          (1, 0),

          [r"get_ipython().run_line_magic('pinfo', 'zip')" + "\n"],

      )

      HELP_MULTILINE = (

          """\

      (a,

      b) = zip?

      """.splitlines(

              keepends=True

          ),

          (1, 0),

          [r"get_ipython().run_line_magic('pinfo', 'zip')" + "\n"],

      )

      HELP_UNICODE = (

          ["π.foo?\n"],

          (1, 0),

          ["get_ipython().run_line_magic('pinfo', 'π.foo')\n"],

      )

      def null_cleanup_transformer(lines):

          """

          A cleanup transform that returns an empty list.

          """

          return []

      def test_check_make_token_by_line_never_ends_empty():

          """

          Check that not sequence of single or double characters ends up leading to en empty list of tokens

          """

          from string import printable

          for c in printable:

              assert make_tokens_by_line(c)[-1] != []

              for k in printable:

                  assert make_tokens_by_line(c + k)[-1] != []

      def check_find(transformer, case, match=True):

          sample, expected_start, _ = case

          tbl = make_tokens_by_line(sample)

          res = transformer.find(tbl)

          if match:

              # start_line is stored 0-indexed, expected values are 1-indexed

              assert (res.start_line + 1, res.start_col) == expected_start

              return res

          else:

              assert res is None

      def check_transform(transformer_cls, case):

          lines, start, expected = case

          transformer = transformer_cls(start)

          assert transformer.transform(lines) == expected

      def test_continued_line():

          lines = MULTILINE_MAGIC_ASSIGN[0]

          assert ipt2.find_end_of_continued_line(lines, 1) == 2

          assert ipt2.assemble_continued_line(lines, (1, 5), 2) == "foo    bar"

      def test_find_assign_magic():

          check_find(ipt2.MagicAssign, MULTILINE_MAGIC_ASSIGN)

          check_find(ipt2.MagicAssign, MULTILINE_SYSTEM_ASSIGN, match=False)

          check_find(ipt2.MagicAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT, match=False)

      def test_transform_assign_magic():

          check_transform(ipt2.MagicAssign, MULTILINE_MAGIC_ASSIGN)

      def test_find_assign_system():

          check_find(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN)

          check_find(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT)

          check_find(ipt2.SystemAssign, (["a =  !ls\n"], (1, 5), None))

          check_find(ipt2.SystemAssign, (["a=!ls\n"], (1, 2), None))

          check_find(ipt2.SystemAssign, MULTILINE_MAGIC_ASSIGN, match=False)

      def test_transform_assign_system():

          check_transform(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN)

          check_transform(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT)

      def test_find_magic_escape():

          check_find(ipt2.EscapedCommand, MULTILINE_MAGIC)

          check_find(ipt2.EscapedCommand, INDENTED_MAGIC)

          check_find(ipt2.EscapedCommand, MULTILINE_MAGIC_ASSIGN, match=False)

      def test_transform_magic_escape():

          check_transform(ipt2.EscapedCommand, MULTILINE_MAGIC)

          check_transform(ipt2.EscapedCommand, INDENTED_MAGIC)

          check_transform(ipt2.EscapedCommand, CRLF_MAGIC)

      def test_find_autocalls():

          for case in [AUTOCALL_QUOTE, AUTOCALL_QUOTE2, AUTOCALL_PAREN]:

              print("Testing %r" % case[0])

              check_find(ipt2.EscapedCommand, case)

      def test_transform_autocall():

          for case in [AUTOCALL_QUOTE, AUTOCALL_QUOTE2, AUTOCALL_PAREN]:

              print("Testing %r" % case[0])

              check_transform(ipt2.EscapedCommand, case)

      def test_find_help():

          for case in [SIMPLE_HELP, DETAILED_HELP, MAGIC_HELP, HELP_IN_EXPR]:

              check_find(ipt2.HelpEnd, case)

          tf = check_find(ipt2.HelpEnd, HELP_CONTINUED_LINE)

          assert tf.q_line == 1

          assert tf.q_col == 3

          tf = check_find(ipt2.HelpEnd, HELP_MULTILINE)

          assert tf.q_line == 1

          assert tf.q_col == 8

          # ? in a comment does not trigger help

          check_find(ipt2.HelpEnd, (["foo # bar?\n"], None, None), match=False)

          # Nor in a string

          check_find(ipt2.HelpEnd, (["foo = '''bar?\n"], None, None), match=False)

      def test_transform_help():

          tf = ipt2.HelpEnd((1, 0), (1, 9))

          assert tf.transform(HELP_IN_EXPR[0]) == HELP_IN_EXPR[2]

          tf = ipt2.HelpEnd((1, 0), (2, 3))

          assert tf.transform(HELP_CONTINUED_LINE[0]) == HELP_CONTINUED_LINE[2]

          tf = ipt2.HelpEnd((1, 0), (2, 8))

          assert tf.transform(HELP_MULTILINE[0]) == HELP_MULTILINE[2]

          tf = ipt2.HelpEnd((1, 0), (1, 0))

          assert tf.transform(HELP_UNICODE[0]) == HELP_UNICODE[2]

      def test_find_assign_op_dedent():

          """

          be careful that empty token like dedent are not counted as parens

          """

          class Tk:

              def __init__(self, s):

                  self.string = s

          assert _find_assign_op([Tk(s) for s in ("", "a", "=", "b")]) == 2

          assert (

              _find_assign_op([Tk(s) for s in ("", "(", "a", "=", "b", ")", "=", "5")]) == 6

          )

      examples = [

          pytest.param("a = 1", "complete", None),

          pytest.param("for a in range(5):", "incomplete", 4),

          pytest.param("for a in range(5):\n    if a > 0:", "incomplete", 8),

          pytest.param("raise = 2", "invalid", None),

          pytest.param("a = [1,\n2,", "incomplete", 0),

          pytest.param("(\n))", "incomplete", 0),

          pytest.param("\\\r\n", "incomplete", 0),

          pytest.param("a = '''\n   hi", "incomplete", 3),

          pytest.param("def a():\n x=1\n global x", "invalid", None),

          pytest.param(

              "a \\ ",

              "invalid",

              None,

              marks=pytest.mark.xfail(

                  reason="Bug in python 3.9.8 – bpo 45738",

                  condition=sys.version_info

                  in [(3, 9, 8, "final", 0), (3, 11, 0, "alpha", 2)],

                  raises=SystemError,

                  strict=True,

              ),

          ),  # Nothing allowed after backslash,

          pytest.param("1\\\n+2", "complete", None),

      ]

      @pytest.mark.parametrize("code, expected, number", examples)

      def test_check_complete_param(code, expected, number):

          cc = ipt2.TransformerManager().check_complete

          assert cc(code) == (expected, number)

      @pytest.mark.xfail(platform.python_implementation() == "PyPy", reason="fail on pypy")

      @pytest.mark.xfail(

          reason="Bug in python 3.9.8 – bpo 45738",

          condition=sys.version_info in [(3, 9, 8, "final", 0), (3, 11, 0, "alpha", 2)],

          raises=SystemError,

          strict=True,

      )

      def test_check_complete():

          cc = ipt2.TransformerManager().check_complete

          example = dedent(

              """

              if True:

                  a=1"""

          )

          assert cc(example) == ("incomplete", 4)

          assert cc(example + "\n") == ("complete", None)

          assert cc(example + "\n    ") == ("complete", None)

          # no need to loop on all the letters/numbers.

          short = "12abAB" + string.printable[62:]

          for c in short:

              # test does not raise:

              cc(c)

              for k in short:

                  cc(c + k)

          assert cc("def f():\n  x=0\n  \\\n  ") == ("incomplete", 2)

      @pytest.mark.xfail(platform.python_implementation() == "PyPy", reason="fail on pypy")

      @pytest.mark.parametrize(

          "value, expected",

          [

              ('''def foo():\n    """''', ("incomplete", 4)),

              ("""async with example:\n    pass""", ("incomplete", 4)),

              ("""async with example:\n    pass\n    """, ("complete", None)),

          ],

      )

      def test_check_complete_II(value, expected):

          """

          Test that multiple line strings are properly handled.

          Separate test function for convenience

          """

          cc = ipt2.TransformerManager().check_complete

          assert cc(value) == expected

      @pytest.mark.parametrize(

          "value, expected",

          [

              (")", ("invalid", None)),

              ("]", ("invalid", None)),

              ("}", ("invalid", None)),

              (")(", ("invalid", None)),

              ("][", ("invalid", None)),

              ("}{", ("invalid", None)),

              ("]()(", ("invalid", None)),

              ("())(", ("invalid", None)),

              (")[](", ("invalid", None)),

              ("()](", ("invalid", None)),

          ],

      )

      def test_check_complete_invalidates_sunken_brackets(value, expected):

          """

          Test that a single line with more closing brackets than the opening ones is

          interpreted as invalid

          """

          cc = ipt2.TransformerManager().check_complete

          assert cc(value) == expected

      def test_null_cleanup_transformer():

          manager = ipt2.TransformerManager()

          manager.cleanup_transforms.insert(0, null_cleanup_transformer)

          assert manager.transform_cell("") == ""

      def test_side_effects_I():

          count = 0

          def counter(lines):

              nonlocal count

              count += 1

              return lines

          counter.has_side_effects = True

          manager = ipt2.TransformerManager()

          manager.cleanup_transforms.insert(0, counter)

          assert manager.check_complete("a=1\n") == ("complete", None)

          assert count == 0

      def test_side_effects_II():

          count = 0

          def counter(lines):

              nonlocal count

              count += 1

              return lines

          counter.has_side_effects = True

          manager = ipt2.TransformerManager()

          manager.line_transforms.insert(0, counter)

          assert manager.check_complete("b=1\n") == ("complete", None)

          assert count == 0

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				"""Tests for the token-based transformers in IPython.core.inputtransformer2

				Line-based transformers are the simpler ones; token-based transformers are
				more complex. See test_inputtransformer2_line for tests for line-based
				transformations.
				"""
				import platform
				import string
				import sys
				from textwrap import dedent

				import pytest

				from IPython.core import inputtransformer2 as ipt2
				from IPython.core.inputtransformer2 import _find_assign_op, make_tokens_by_line

				MULTILINE_MAGIC = (
				"""\
				a = f()
				%foo \\
				bar
				g()
				""".splitlines(
				keepends=True
				),
				(2, 0),
				"""\
				a = f()
				get_ipython().run_line_magic('foo', ' bar')
				g()
				""".splitlines(
				keepends=True
				),
				)

				INDENTED_MAGIC = (
				"""\
				for a in range(5):
				%ls
				""".splitlines(
				keepends=True
				),
				(2, 4),
				"""\
				for a in range(5):
				get_ipython().run_line_magic('ls', '')
				""".splitlines(
				keepends=True
				),
				)

				CRLF_MAGIC = (
				["a = f()\n", "%ls\r\n", "g()\n"],
				(2, 0),
				["a = f()\n", "get_ipython().run_line_magic('ls', '')\n", "g()\n"],
				)

				MULTILINE_MAGIC_ASSIGN = (
				"""\
				a = f()
				b = %foo \\
				bar
				g()
				""".splitlines(
				keepends=True
				),
				(2, 4),
				"""\
				a = f()
				b = get_ipython().run_line_magic('foo', ' bar')
				g()
				""".splitlines(
				keepends=True
				),
				)

				MULTILINE_SYSTEM_ASSIGN = ("""\
				a = f()
				b = !foo \\
				bar
				g()
				""".splitlines(keepends=True), (2, 4), """\
				a = f()
				b = get_ipython().getoutput('foo bar')
				g()
				""".splitlines(keepends=True))

				#####

				MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT = (
				"""\
				def test():
				for i in range(1):
				print(i)
				res =! ls
				""".splitlines(
				keepends=True
				),
				(4, 7),
				"""\
				def test():
				for i in range(1):
				print(i)
				res =get_ipython().getoutput(\' ls\')
				""".splitlines(
				keepends=True
				),
				)

				######

				AUTOCALL_QUOTE = ([",f 1 2 3\n"], (1, 0), ['f("1", "2", "3")\n'])

				AUTOCALL_QUOTE2 = ([";f 1 2 3\n"], (1, 0), ['f("1 2 3")\n'])

				AUTOCALL_PAREN = (["/f 1 2 3\n"], (1, 0), ["f(1, 2, 3)\n"])

				SIMPLE_HELP = (["foo?\n"], (1, 0), ["get_ipython().run_line_magic('pinfo', 'foo')\n"])

				DETAILED_HELP = (
				["foo??\n"],
				(1, 0),
				["get_ipython().run_line_magic('pinfo2', 'foo')\n"],
				)

				MAGIC_HELP = (["%foo?\n"], (1, 0), ["get_ipython().run_line_magic('pinfo', '%foo')\n"])

				HELP_IN_EXPR = (
				["a = b + c?\n"],
				(1, 0),
				["get_ipython().run_line_magic('pinfo', 'c')\n"],
				)

				HELP_CONTINUED_LINE = (
				"""\
				a = \\
				zip?
				""".splitlines(
				keepends=True
				),
				(1, 0),
				[r"get_ipython().run_line_magic('pinfo', 'zip')" + "\n"],
				)

				HELP_MULTILINE = (
				"""\
				(a,
				b) = zip?
				""".splitlines(
				keepends=True
				),
				(1, 0),
				[r"get_ipython().run_line_magic('pinfo', 'zip')" + "\n"],
				)

				HELP_UNICODE = (
				["π.foo?\n"],
				(1, 0),
				["get_ipython().run_line_magic('pinfo', 'π.foo')\n"],
				)


				def null_cleanup_transformer(lines):
				"""
				A cleanup transform that returns an empty list.
				"""
				return []


				def test_check_make_token_by_line_never_ends_empty():
				"""
				Check that not sequence of single or double characters ends up leading to en empty list of tokens
				"""
				from string import printable

				for c in printable:
				assert make_tokens_by_line(c)[-1] != []
				for k in printable:
				assert make_tokens_by_line(c + k)[-1] != []


				def check_find(transformer, case, match=True):
				sample, expected_start, _ = case
				tbl = make_tokens_by_line(sample)
				res = transformer.find(tbl)
				if match:
				# start_line is stored 0-indexed, expected values are 1-indexed
				assert (res.start_line + 1, res.start_col) == expected_start
				return res
				else:
				assert res is None


				def check_transform(transformer_cls, case):
				lines, start, expected = case
				transformer = transformer_cls(start)
				assert transformer.transform(lines) == expected


				def test_continued_line():
				lines = MULTILINE_MAGIC_ASSIGN[0]
				assert ipt2.find_end_of_continued_line(lines, 1) == 2

				assert ipt2.assemble_continued_line(lines, (1, 5), 2) == "foo bar"


				def test_find_assign_magic():
				check_find(ipt2.MagicAssign, MULTILINE_MAGIC_ASSIGN)
				check_find(ipt2.MagicAssign, MULTILINE_SYSTEM_ASSIGN, match=False)
				check_find(ipt2.MagicAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT, match=False)


				def test_transform_assign_magic():
				check_transform(ipt2.MagicAssign, MULTILINE_MAGIC_ASSIGN)


				def test_find_assign_system():
				check_find(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN)
				check_find(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT)
				check_find(ipt2.SystemAssign, (["a = !ls\n"], (1, 5), None))
				check_find(ipt2.SystemAssign, (["a=!ls\n"], (1, 2), None))
				check_find(ipt2.SystemAssign, MULTILINE_MAGIC_ASSIGN, match=False)


				def test_transform_assign_system():
				check_transform(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN)
				check_transform(ipt2.SystemAssign, MULTILINE_SYSTEM_ASSIGN_AFTER_DEDENT)


				def test_find_magic_escape():
				check_find(ipt2.EscapedCommand, MULTILINE_MAGIC)
				check_find(ipt2.EscapedCommand, INDENTED_MAGIC)
				check_find(ipt2.EscapedCommand, MULTILINE_MAGIC_ASSIGN, match=False)


				def test_transform_magic_escape():
				check_transform(ipt2.EscapedCommand, MULTILINE_MAGIC)
				check_transform(ipt2.EscapedCommand, INDENTED_MAGIC)
				check_transform(ipt2.EscapedCommand, CRLF_MAGIC)


				def test_find_autocalls():
				for case in [AUTOCALL_QUOTE, AUTOCALL_QUOTE2, AUTOCALL_PAREN]:
				print("Testing %r" % case[0])
				check_find(ipt2.EscapedCommand, case)


				def test_transform_autocall():
				for case in [AUTOCALL_QUOTE, AUTOCALL_QUOTE2, AUTOCALL_PAREN]:
				print("Testing %r" % case[0])
				check_transform(ipt2.EscapedCommand, case)


				def test_find_help():
				for case in [SIMPLE_HELP, DETAILED_HELP, MAGIC_HELP, HELP_IN_EXPR]:
				check_find(ipt2.HelpEnd, case)

				tf = check_find(ipt2.HelpEnd, HELP_CONTINUED_LINE)
				assert tf.q_line == 1
				assert tf.q_col == 3

				tf = check_find(ipt2.HelpEnd, HELP_MULTILINE)
				assert tf.q_line == 1
				assert tf.q_col == 8

				# ? in a comment does not trigger help
				check_find(ipt2.HelpEnd, (["foo # bar?\n"], None, None), match=False)
				# Nor in a string
				check_find(ipt2.HelpEnd, (["foo = '''bar?\n"], None, None), match=False)


				def test_transform_help():
				tf = ipt2.HelpEnd((1, 0), (1, 9))
				assert tf.transform(HELP_IN_EXPR[0]) == HELP_IN_EXPR[2]

				tf = ipt2.HelpEnd((1, 0), (2, 3))
				assert tf.transform(HELP_CONTINUED_LINE[0]) == HELP_CONTINUED_LINE[2]

				tf = ipt2.HelpEnd((1, 0), (2, 8))
				assert tf.transform(HELP_MULTILINE[0]) == HELP_MULTILINE[2]

				tf = ipt2.HelpEnd((1, 0), (1, 0))
				assert tf.transform(HELP_UNICODE[0]) == HELP_UNICODE[2]


				def test_find_assign_op_dedent():
				"""
				be careful that empty token like dedent are not counted as parens
				"""

				class Tk:
				def __init__(self, s):
				self.string = s

				assert _find_assign_op([Tk(s) for s in ("", "a", "=", "b")]) == 2
				assert (
				_find_assign_op([Tk(s) for s in ("", "(", "a", "=", "b", ")", "=", "5")]) == 6
				)


				examples = [
				pytest.param("a = 1", "complete", None),
				pytest.param("for a in range(5):", "incomplete", 4),
				pytest.param("for a in range(5):\n if a > 0:", "incomplete", 8),
				pytest.param("raise = 2", "invalid", None),
				pytest.param("a = [1,\n2,", "incomplete", 0),
				pytest.param("(\n))", "incomplete", 0),
				pytest.param("\\\r\n", "incomplete", 0),
				pytest.param("a = '''\n hi", "incomplete", 3),
				pytest.param("def a():\n x=1\n global x", "invalid", None),
				pytest.param(
				"a \\ ",
				"invalid",
				None,
				marks=pytest.mark.xfail(
				reason="Bug in python 3.9.8 – bpo 45738",
				condition=sys.version_info
				in [(3, 9, 8, "final", 0), (3, 11, 0, "alpha", 2)],
				raises=SystemError,
				strict=True,
				),
				), # Nothing allowed after backslash,
				pytest.param("1\\\n+2", "complete", None),
				]


				@pytest.mark.parametrize("code, expected, number", examples)
				def test_check_complete_param(code, expected, number):
				cc = ipt2.TransformerManager().check_complete
				assert cc(code) == (expected, number)


				@pytest.mark.xfail(platform.python_implementation() == "PyPy", reason="fail on pypy")
				@pytest.mark.xfail(
				reason="Bug in python 3.9.8 – bpo 45738",
				condition=sys.version_info in [(3, 9, 8, "final", 0), (3, 11, 0, "alpha", 2)],
				raises=SystemError,
				strict=True,
				)
				def test_check_complete():
				cc = ipt2.TransformerManager().check_complete

				example = dedent(
				"""
				if True:
				a=1"""
				)

				assert cc(example) == ("incomplete", 4)
				assert cc(example + "\n") == ("complete", None)
				assert cc(example + "\n ") == ("complete", None)

				# no need to loop on all the letters/numbers.
				short = "12abAB" + string.printable[62:]
				for c in short:
				# test does not raise:
				cc(c)
				for k in short:
				cc(c + k)

				assert cc("def f():\n x=0\n \\\n ") == ("incomplete", 2)


				@pytest.mark.xfail(platform.python_implementation() == "PyPy", reason="fail on pypy")
				@pytest.mark.parametrize(
				"value, expected",
				[
				('''def foo():\n """''', ("incomplete", 4)),
				("""async with example:\n pass""", ("incomplete", 4)),
				("""async with example:\n pass\n """, ("complete", None)),
				],
				)
				def test_check_complete_II(value, expected):
				"""
				Test that multiple line strings are properly handled.

				Separate test function for convenience

				"""
				cc = ipt2.TransformerManager().check_complete
				assert cc(value) == expected


				@pytest.mark.parametrize(
				"value, expected",
				[
				(")", ("invalid", None)),
				("]", ("invalid", None)),
				("}", ("invalid", None)),
				(")(", ("invalid", None)),
				("][", ("invalid", None)),
				("}{", ("invalid", None)),
				("]()(", ("invalid", None)),
				("())(", ("invalid", None)),
				(")[](", ("invalid", None)),
				("()](", ("invalid", None)),
				],
				)
				def test_check_complete_invalidates_sunken_brackets(value, expected):
				"""
				Test that a single line with more closing brackets than the opening ones is
				interpreted as invalid
				"""
				cc = ipt2.TransformerManager().check_complete
				assert cc(value) == expected


				def test_null_cleanup_transformer():
				manager = ipt2.TransformerManager()
				manager.cleanup_transforms.insert(0, null_cleanup_transformer)
				assert manager.transform_cell("") == ""


				def test_side_effects_I():
				count = 0

				def counter(lines):
				nonlocal count
				count += 1
				return lines

				counter.has_side_effects = True

				manager = ipt2.TransformerManager()
				manager.cleanup_transforms.insert(0, counter)
				assert manager.check_complete("a=1\n") == ("complete", None)
				assert count == 0


				def test_side_effects_II():
				count = 0

				def counter(lines):
				nonlocal count
				count += 1
				return lines

				counter.has_side_effects = True

				manager = ipt2.TransformerManager()
				manager.line_transforms.insert(0, counter)
				assert manager.check_complete("b=1\n") == ("complete", None)
				assert count == 0