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

Backport PR : Adapt inline backend to changes in matplotlib...

Backport PR : Adapt inline backend to changes in matplotlib Matplotlib recently merged https://github.com/matplotlib/matplotlib/pull/1125 that makes it simpler to use objective oriented figure creation by automatically creating the right canvas for the backend. To solve that all backends must provide a backend_xxx.FigureCanvas. This is obviosly missing from the inline backend. The change is needed to make the inline backend work with mpl's 1.2.x branch which is due to released soon. Simply setting the default canvas equal to a Agg canvas appears to work for both svg and png figures but I'm not sure weather that is the right approach. Should the canvas depend on the figure format and provide a svg canvas for a svg figure? (Note that before this change to matplotlib the canvas from a plt.figure call seams to be a agg type in all cases) Edit: I made the pull request against 0.13.1 since it would be good to have this in the stable branch for when mpl is released. Just let me know and I can rebase it against master

Thomas Spura - - Load All Authors

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      """Tests for the key interactiveshell module, where the main ipython class is defined.

      """

      #-----------------------------------------------------------------------------

      # Module imports

      #-----------------------------------------------------------------------------

      # stdlib

      import os

      import shutil

      import tempfile

      # third party

      import nose.tools as nt

      # our own packages

      from IPython.testing.globalipapp import get_ipython

      from IPython.utils import py3compat

      #-----------------------------------------------------------------------------

      # Globals

      #-----------------------------------------------------------------------------

      # Get the public instance of IPython

      ip = get_ipython()

      #-----------------------------------------------------------------------------

      # Test functions

      #-----------------------------------------------------------------------------

      def test_reset():

          """reset must clear most namespaces."""

          # Check that reset runs without error

          ip.reset()

          # Once we've reset it (to clear of any junk that might have been there from

          # other tests, we can count how many variables are in the user's namespace

          nvars_user_ns = len(ip.user_ns)

          nvars_hidden = len(ip.user_ns_hidden)

          # Now add a few variables to user_ns, and check that reset clears them

          ip.user_ns['x'] = 1

          ip.user_ns['y'] = 1

          ip.reset()

          # Finally, check that all namespaces have only as many variables as we

          # expect to find in them:

          nt.assert_equals(len(ip.user_ns), nvars_user_ns)

          nt.assert_equals(len(ip.user_ns_hidden), nvars_hidden)

      # Tests for reporting of exceptions in various modes, handling of SystemExit,

      # and %tb functionality.  This is really a mix of testing ultraTB and interactiveshell.

      def doctest_tb_plain():

          """

      In [18]: xmode plain

      Exception reporting mode: Plain

      In [19]: run simpleerr.py

      Traceback (most recent call last):

        ...line 32, in <module>

          bar(mode)

        ...line 16, in bar

          div0()

        ...line 8, in div0

          x/y

      ZeroDivisionError: ...

          """

      def doctest_tb_context():

          """

      In [3]: xmode context

      Exception reporting mode: Context

      In [4]: run simpleerr.py

      ---------------------------------------------------------------------------

      ZeroDivisionError                         Traceback (most recent call last)

      <BLANKLINE>

      ... in <module>()

           30         mode = 'div'

           31 

      ---> 32     bar(mode)

      <BLANKLINE>

      ... in bar(mode)

           14     "bar"

           15     if mode=='div':

      ---> 16         div0()

           17     elif mode=='exit':

           18         try:

      <BLANKLINE>

      ... in div0()

            6     x = 1

            7     y = 0

      ----> 8     x/y

            9 

           10 def sysexit(stat, mode):

      <BLANKLINE>

      ZeroDivisionError: ...

      """

      def doctest_tb_verbose():

          """

      In [5]: xmode verbose

      Exception reporting mode: Verbose

      In [6]: run simpleerr.py

      ---------------------------------------------------------------------------

      ZeroDivisionError                         Traceback (most recent call last)

      <BLANKLINE>

      ... in <module>()

           30         mode = 'div'

           31 

      ---> 32     bar(mode)

              global bar = <function bar at ...>

              global mode = 'div'

      <BLANKLINE>

      ... in bar(mode='div')

           14     "bar"

           15     if mode=='div':

      ---> 16         div0()

              global div0 = <function div0 at ...>

           17     elif mode=='exit':

           18         try:

      <BLANKLINE>

      ... in div0()

            6     x = 1

            7     y = 0

      ----> 8     x/y

              x = 1

              y = 0

            9 

           10 def sysexit(stat, mode):

      <BLANKLINE>

      ZeroDivisionError: ...

            """

      def doctest_tb_sysexit():

          """

      In [17]: %xmode plain

      Exception reporting mode: Plain

      In [18]: %run simpleerr.py exit

      An exception has occurred, use %tb to see the full traceback.

      SystemExit: (1, 'Mode = exit')

      In [19]: %run simpleerr.py exit 2

      An exception has occurred, use %tb to see the full traceback.

      SystemExit: (2, 'Mode = exit')

      In [20]: %tb

      Traceback (most recent call last):

        File ... in <module>

          bar(mode)

        File ... line 22, in bar

          sysexit(stat, mode)

        File ... line 11, in sysexit

          raise SystemExit(stat, 'Mode = %s' % mode)

      SystemExit: (2, 'Mode = exit')

      In [21]: %xmode context

      Exception reporting mode: Context

      In [22]: %tb

      ---------------------------------------------------------------------------

      SystemExit                                Traceback (most recent call last)

      <BLANKLINE>

      ...<module>()

           30         mode = 'div'

           31 

      ---> 32     bar(mode)

      <BLANKLINE>

      ...bar(mode)

           20         except:

           21             stat = 1

      ---> 22         sysexit(stat, mode)

           23     else:

           24         raise ValueError('Unknown mode')

      <BLANKLINE>

      ...sysexit(stat, mode)

            9 

           10 def sysexit(stat, mode):

      ---> 11     raise SystemExit(stat, 'Mode = %s' % mode)

           12 

           13 def bar(mode):

      <BLANKLINE>

      SystemExit: (2, 'Mode = exit')

      In [23]: %xmode verbose

      Exception reporting mode: Verbose

      In [24]: %tb

      ---------------------------------------------------------------------------

      SystemExit                                Traceback (most recent call last)

      <BLANKLINE>

      ... in <module>()

           30         mode = 'div'

           31 

      ---> 32     bar(mode)

              global bar = <function bar at ...>

              global mode = 'exit'

      <BLANKLINE>

      ... in bar(mode='exit')

           20         except:

           21             stat = 1

      ---> 22         sysexit(stat, mode)

              global sysexit = <function sysexit at ...>

              stat = 2

              mode = 'exit'

           23     else:

           24         raise ValueError('Unknown mode')

      <BLANKLINE>

      ... in sysexit(stat=2, mode='exit')

            9 

           10 def sysexit(stat, mode):

      ---> 11     raise SystemExit(stat, 'Mode = %s' % mode)

              global SystemExit = undefined

              stat = 2

              mode = 'exit'

           12 

           13 def bar(mode):

      <BLANKLINE>

      SystemExit: (2, 'Mode = exit')

          """

      def test_run_cell():

          import textwrap

          ip.run_cell('a = 10\na+=1')

          ip.run_cell('assert a == 11\nassert 1')

          nt.assert_equals(ip.user_ns['a'], 11)

          complex = textwrap.dedent("""

          if 1:

              print "hello"

              if 1:

                  print "world"

          if 2:

              print "foo"

          if 3:

              print "bar"

          if 4:

              print "bar"

          """)

          # Simply verifies that this kind of input is run

          ip.run_cell(complex)

      def test_db():

          """Test the internal database used for variable persistence."""

          ip.db['__unittest_'] = 12

          nt.assert_equals(ip.db['__unittest_'], 12)

          del ip.db['__unittest_']

          assert '__unittest_' not in ip.db

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				"""Tests for the key interactiveshell module, where the main ipython class is defined.
				"""
				#-----------------------------------------------------------------------------
				# Module imports
				#-----------------------------------------------------------------------------

				# stdlib
				import os
				import shutil
				import tempfile

				# third party
				import nose.tools as nt

				# our own packages
				from IPython.testing.globalipapp import get_ipython
				from IPython.utils import py3compat

				#-----------------------------------------------------------------------------
				# Globals
				#-----------------------------------------------------------------------------

				# Get the public instance of IPython
				ip = get_ipython()

				#-----------------------------------------------------------------------------
				# Test functions
				#-----------------------------------------------------------------------------

				def test_reset():
				"""reset must clear most namespaces."""

				# Check that reset runs without error
				ip.reset()

				# Once we've reset it (to clear of any junk that might have been there from
				# other tests, we can count how many variables are in the user's namespace
				nvars_user_ns = len(ip.user_ns)
				nvars_hidden = len(ip.user_ns_hidden)

				# Now add a few variables to user_ns, and check that reset clears them
				ip.user_ns['x'] = 1
				ip.user_ns['y'] = 1
				ip.reset()

				# Finally, check that all namespaces have only as many variables as we
				# expect to find in them:
				nt.assert_equals(len(ip.user_ns), nvars_user_ns)
				nt.assert_equals(len(ip.user_ns_hidden), nvars_hidden)


				# Tests for reporting of exceptions in various modes, handling of SystemExit,
				# and %tb functionality. This is really a mix of testing ultraTB and interactiveshell.

				def doctest_tb_plain():
				"""
				In [18]: xmode plain
				Exception reporting mode: Plain

				In [19]: run simpleerr.py
				Traceback (most recent call last):
				...line 32, in <module>
				bar(mode)
				...line 16, in bar
				div0()
				...line 8, in div0
				x/y
				ZeroDivisionError: ...
				"""


				def doctest_tb_context():
				"""
				In [3]: xmode context
				Exception reporting mode: Context

				In [4]: run simpleerr.py
				---------------------------------------------------------------------------
				ZeroDivisionError Traceback (most recent call last)
				<BLANKLINE>
				... in <module>()
				30 mode = 'div'
				31
				---> 32 bar(mode)
				<BLANKLINE>
				... in bar(mode)
				14 "bar"
				15 if mode=='div':
				---> 16 div0()
				17 elif mode=='exit':
				18 try:
				<BLANKLINE>
				... in div0()
				6 x = 1
				7 y = 0
				----> 8 x/y
				9
				10 def sysexit(stat, mode):
				<BLANKLINE>
				ZeroDivisionError: ...
				"""


				def doctest_tb_verbose():
				"""
				In [5]: xmode verbose
				Exception reporting mode: Verbose

				In [6]: run simpleerr.py
				---------------------------------------------------------------------------
				ZeroDivisionError Traceback (most recent call last)
				<BLANKLINE>
				... in <module>()
				30 mode = 'div'
				31
				---> 32 bar(mode)
				global bar = <function bar at ...>
				global mode = 'div'
				<BLANKLINE>
				... in bar(mode='div')
				14 "bar"
				15 if mode=='div':
				---> 16 div0()
				global div0 = <function div0 at ...>
				17 elif mode=='exit':
				18 try:
				<BLANKLINE>
				... in div0()
				6 x = 1
				7 y = 0
				----> 8 x/y
				x = 1
				y = 0
				9
				10 def sysexit(stat, mode):
				<BLANKLINE>
				ZeroDivisionError: ...
				"""

				def doctest_tb_sysexit():
				"""
				In [17]: %xmode plain
				Exception reporting mode: Plain

				In [18]: %run simpleerr.py exit
				An exception has occurred, use %tb to see the full traceback.
				SystemExit: (1, 'Mode = exit')

				In [19]: %run simpleerr.py exit 2
				An exception has occurred, use %tb to see the full traceback.
				SystemExit: (2, 'Mode = exit')

				In [20]: %tb
				Traceback (most recent call last):
				File ... in <module>
				bar(mode)
				File ... line 22, in bar
				sysexit(stat, mode)
				File ... line 11, in sysexit
				raise SystemExit(stat, 'Mode = %s' % mode)
				SystemExit: (2, 'Mode = exit')

				In [21]: %xmode context
				Exception reporting mode: Context

				In [22]: %tb
				---------------------------------------------------------------------------
				SystemExit Traceback (most recent call last)
				<BLANKLINE>
				...<module>()
				30 mode = 'div'
				31
				---> 32 bar(mode)
				<BLANKLINE>
				...bar(mode)
				20 except:
				21 stat = 1
				---> 22 sysexit(stat, mode)
				23 else:
				24 raise ValueError('Unknown mode')
				<BLANKLINE>
				...sysexit(stat, mode)
				9
				10 def sysexit(stat, mode):
				---> 11 raise SystemExit(stat, 'Mode = %s' % mode)
				12
				13 def bar(mode):
				<BLANKLINE>
				SystemExit: (2, 'Mode = exit')

				In [23]: %xmode verbose
				Exception reporting mode: Verbose

				In [24]: %tb
				---------------------------------------------------------------------------
				SystemExit Traceback (most recent call last)
				<BLANKLINE>
				... in <module>()
				30 mode = 'div'
				31
				---> 32 bar(mode)
				global bar = <function bar at ...>
				global mode = 'exit'
				<BLANKLINE>
				... in bar(mode='exit')
				20 except:
				21 stat = 1
				---> 22 sysexit(stat, mode)
				global sysexit = <function sysexit at ...>
				stat = 2
				mode = 'exit'
				23 else:
				24 raise ValueError('Unknown mode')
				<BLANKLINE>
				... in sysexit(stat=2, mode='exit')
				9
				10 def sysexit(stat, mode):
				---> 11 raise SystemExit(stat, 'Mode = %s' % mode)
				global SystemExit = undefined
				stat = 2
				mode = 'exit'
				12
				13 def bar(mode):
				<BLANKLINE>
				SystemExit: (2, 'Mode = exit')
				"""


				def test_run_cell():
				import textwrap
				ip.run_cell('a = 10\na+=1')
				ip.run_cell('assert a == 11\nassert 1')

				nt.assert_equals(ip.user_ns['a'], 11)
				complex = textwrap.dedent("""
				if 1:
				print "hello"
				if 1:
				print "world"

				if 2:
				print "foo"

				if 3:
				print "bar"

				if 4:
				print "bar"

				""")
				# Simply verifies that this kind of input is run
				ip.run_cell(complex)


				def test_db():
				"""Test the internal database used for variable persistence."""
				ip.db['__unittest_'] = 12
				nt.assert_equals(ip.db['__unittest_'], 12)
				del ip.db['__unittest_']
				assert '__unittest_' not in ip.db