upstream/ipython Files · IPython/testing/plugin/dtexample.py

`AssertionError`: `assert _xterm_term_title_saved` in WSL (#14480)...

`AssertionError`: `assert _xterm_term_title_saved` in WSL (#14480) `AssertionError`: `assert _xterm_term_title_saved` In some (unknown) situation, it is possible that the `_xterm_term_title_saved` is unset, but the code would make a call to `_restore_term_title_xterm`, resulting in `AssertionError`. At least on replicatable reproduction is returning from `ipython` to `pudb` via `^D^D` on an empty cell. See more details in https://github.com/ipython/ipython/pull/14480 Signed-off-by: Stavros Ntentos <133706+stdedos@users.noreply.github.com> <details> <summary><em>was:</em></summary> In some (unknown) situation, it is possible that the `_xterm_term_title_saved` is unset, but the code would make a call to `_restore_term_title_xterm`, resulting in `AssertionError`. As title stacking does not seem to be getting traction (https://github.com/microsoft/terminal/issues/14575), do not set the `xterm` variants of `_set_term_title` / `_restore_term_title`. WSL detection: https://superuser.com/a/1749811/533196 Additionally, almost-`black` the file. </details>

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      """Simple example using doctests.

      This file just contains doctests both using plain python and IPython prompts.

      All tests should be loaded by nose.

      """

      import os

      def pyfunc():

          """Some pure python tests...

          >>> pyfunc()

          'pyfunc'

          >>> import os

          >>> 2+3

          5

          >>> for i in range(3):

          ...     print(i, end=' ')

          ...     print(i+1, end=' ')

          ...

          0 1 1 2 2 3 

          """

          return 'pyfunc'

      def ipfunc():

          """Some ipython tests...

          In [1]: import os

          In [3]: 2+3

          Out[3]: 5

          In [26]: for i in range(3):

             ....:     print(i, end=' ')

             ....:     print(i+1, end=' ')

             ....:

          0 1 1 2 2 3

          It's OK to use '_' for the last result, but do NOT try to use IPython's

          numbered history of _NN outputs, since those won't exist under the

          doctest environment:

          In [7]: 'hi'

          Out[7]: 'hi'

          In [8]: print(repr(_))

          'hi'

          In [7]: 3+4

          Out[7]: 7

          In [8]: _+3

          Out[8]: 10

          In [9]: ipfunc()

          Out[9]: 'ipfunc'

          """

          return "ipfunc"

      def ipos():

          """Examples that access the operating system work:

          In [1]: !echo hello

          hello

          In [2]: !echo hello > /tmp/foo_iptest

          In [3]: !cat /tmp/foo_iptest

          hello

          In [4]: rm -f /tmp/foo_iptest

          """

          pass

      ipos.__skip_doctest__ = os.name == "nt"

      def ranfunc():

          """A function with some random output.

             Normal examples are verified as usual:

             >>> 1+3

             4

             But if you put '# random' in the output, it is ignored:

             >>> 1+3

             junk goes here...  # random

             >>> 1+2

             again,  anything goes #random

             if multiline, the random mark is only needed once.

             >>> 1+2

             You can also put the random marker at the end:

             # random

             >>> 1+2

             # random

             .. or at the beginning.

             More correct input is properly verified:

             >>> ranfunc()

             'ranfunc'

          """

          return 'ranfunc'

      def random_all():

          """A function where we ignore the output of ALL examples.

          Examples:

            # all-random

            This mark tells the testing machinery that all subsequent examples should

            be treated as random (ignoring their output).  They are still executed,

            so if a they raise an error, it will be detected as such, but their

            output is completely ignored.

            >>> 1+3

            junk goes here...

            >>> 1+3

            klasdfj;

            >>> 1+2

            again,  anything goes

            blah...

          """

          pass

      def iprand():

          """Some ipython tests with random output.

          In [7]: 3+4

          Out[7]: 7

          In [8]: print('hello')

          world  # random

          In [9]: iprand()

          Out[9]: 'iprand'

          """

          return 'iprand'

      def iprand_all():

          """Some ipython tests with fully random output.

          # all-random

          In [7]: 1

          Out[7]: 99

          In [8]: print('hello')

          world

          In [9]: iprand_all()

          Out[9]: 'junk'

          """

          return 'iprand_all'

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				"""Simple example using doctests.

				This file just contains doctests both using plain python and IPython prompts.
				All tests should be loaded by nose.
				"""

				import os


				def pyfunc():
				"""Some pure python tests...

				>>> pyfunc()
				'pyfunc'

				>>> import os

				>>> 2+3
				5

				>>> for i in range(3):
				... print(i, end=' ')
				... print(i+1, end=' ')
				...
				0 1 1 2 2 3
				"""
				return 'pyfunc'

				def ipfunc():
				"""Some ipython tests...

				In [1]: import os

				In [3]: 2+3
				Out[3]: 5

				In [26]: for i in range(3):
				....: print(i, end=' ')
				....: print(i+1, end=' ')
				....:
				0 1 1 2 2 3


				It's OK to use '_' for the last result, but do NOT try to use IPython's
				numbered history of _NN outputs, since those won't exist under the
				doctest environment:

				In [7]: 'hi'
				Out[7]: 'hi'

				In [8]: print(repr(_))
				'hi'

				In [7]: 3+4
				Out[7]: 7

				In [8]: _+3
				Out[8]: 10

				In [9]: ipfunc()
				Out[9]: 'ipfunc'
				"""
				return "ipfunc"


				def ipos():
				"""Examples that access the operating system work:

				In [1]: !echo hello
				hello

				In [2]: !echo hello > /tmp/foo_iptest

				In [3]: !cat /tmp/foo_iptest
				hello

				In [4]: rm -f /tmp/foo_iptest
				"""
				pass


				ipos.__skip_doctest__ = os.name == "nt"


				def ranfunc():
				"""A function with some random output.

				Normal examples are verified as usual:
				>>> 1+3
				4

				But if you put '# random' in the output, it is ignored:
				>>> 1+3
				junk goes here... # random

				>>> 1+2
				again, anything goes #random
				if multiline, the random mark is only needed once.

				>>> 1+2
				You can also put the random marker at the end:
				# random

				>>> 1+2
				# random
				.. or at the beginning.

				More correct input is properly verified:
				>>> ranfunc()
				'ranfunc'
				"""
				return 'ranfunc'


				def random_all():
				"""A function where we ignore the output of ALL examples.

				Examples:

				# all-random

				This mark tells the testing machinery that all subsequent examples should
				be treated as random (ignoring their output). They are still executed,
				so if a they raise an error, it will be detected as such, but their
				output is completely ignored.

				>>> 1+3
				junk goes here...

				>>> 1+3
				klasdfj;

				>>> 1+2
				again, anything goes
				blah...
				"""
				pass

				def iprand():
				"""Some ipython tests with random output.

				In [7]: 3+4
				Out[7]: 7

				In [8]: print('hello')
				world # random

				In [9]: iprand()
				Out[9]: 'iprand'
				"""
				return 'iprand'

				def iprand_all():
				"""Some ipython tests with fully random output.

				# all-random

				In [7]: 1
				Out[7]: 99

				In [8]: print('hello')
				world

				In [9]: iprand_all()
				Out[9]: 'junk'
				"""
				return 'iprand_all'