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

tab management new/existing kernel....

tab management new/existing kernel. working 2 kinds of tab with Ctrl+Shift+T -> tab attached on same kernel with Ctrl+T -> tab attached on new kernel closing event management is way far from the one of the mainWindow and "first tab" is still handeled differently as the other ones as some action are still attaches to it directly

Thomas Kluyver - - Load All Authors

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             dtexample.py
        
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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.

      """

      from IPython.utils.py3compat import doctest_refactor_print

      def pyfunc():

          """Some pure python tests...

          >>> pyfunc()

          'pyfunc'

          >>> import os

          >>> 2+3

          5

          >>> for i in range(3):

          ...     print i,

          ...     print i+1,

          ...

          0 1 1 2 2 3

          """

          return 'pyfunc'

      @doctest_refactor_print

      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,

             ....:     print i+1,

             ....:

          0 1 1 2 2 3

          Examples that access the operating system work:

          In [1]: !echo hello

          hello

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

          In [3]: !cat /tmp/foo

          hello

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

          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 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

      @doctest_refactor_print

      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'

      @doctest_refactor_print

      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.
				"""
				from IPython.utils.py3compat import doctest_refactor_print

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

				>>> pyfunc()
				'pyfunc'

				>>> import os

				>>> 2+3
				5

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

				@doctest_refactor_print
				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,
				....: print i+1,
				....:
				0 1 1 2 2 3


				Examples that access the operating system work:

				In [1]: !echo hello
				hello

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

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

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

				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 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

				@doctest_refactor_print
				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'

				@doctest_refactor_print
				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'