upstream/ipython Files · IPython/lib/tests/test_irunner.py

Added GTK support to ZeroMQ kernel....

Added GTK support to ZeroMQ kernel. We use an approach which is a combination of an gtk timer callback into our execution loop, like we do for Qt and Wx, I've run as tests several GTK examples found on the net, as well as multiple matplotlib scripts, and so far everything works as expected. The only catch is that we silently trap gtk.main_quit(), so examples that call it with a 'close' button or similar seem to not do anything. But their windows close normally and no other problems have been found. This solution uses code taken from an old bug report of ours: https://bugs.launchpad.net/ipython/+bug/270856 specifically the attachment in this comment: https://bugs.launchpad.net/ipython/+bug/270856/comments/6 along with the changes suggested by Michiel de Hoon there. Thanks to Ville and Michiel for that old discussion, which put me on the right track to figure out the details of the logic needed for GTK.

Fernando Perez - - Load All Authors

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      """Test suite for the irunner module.

      Not the most elegant or fine-grained, but it does cover at least the bulk

      functionality."""

      # Global to make tests extra verbose and help debugging

      VERBOSE = True

      # stdlib imports

      import cStringIO as StringIO

      import sys

      import unittest

      # IPython imports

      from IPython.lib import irunner

      # Testing code begins

      class RunnerTestCase(unittest.TestCase):

          def setUp(self):

              self.out = StringIO.StringIO()

              #self.out = sys.stdout

          def _test_runner(self,runner,source,output):

              """Test that a given runner's input/output match."""

              runner.run_source(source)

              out = self.out.getvalue()

              #out = ''

              # this output contains nasty \r\n lineends, and the initial ipython

              # banner.  clean it up for comparison, removing lines of whitespace

              output_l = [l for l in output.splitlines() if l and not l.isspace()]

              out_l = [l for l in out.splitlines() if l and not l.isspace()]

              mismatch  = 0

              if len(output_l) != len(out_l):

                  self.fail('mismatch in number of lines')

              for n in range(len(output_l)):

                  # Do a line-by-line comparison

                  ol1 = output_l[n].strip()

                  ol2 = out_l[n].strip()

                  if ol1 != ol2:

                      mismatch += 1

                      if VERBOSE:

                          print '<<< line %s does not match:' % n

                          print repr(ol1)

                          print repr(ol2)

                          print '>>>'

              self.assert_(mismatch==0,'Number of mismatched lines: %s' %

                           mismatch)

          def testIPython(self):

              """Test the IPython runner."""

              source = """

      print 'hello, this is python'

      # some more code

      x=1;y=2

      x+y**2

      # An example of autocall functionality

      from math import *

      autocall 1

      cos pi

      autocall 0

      cos pi

      cos(pi)

      for i in range(5):

          print i,

      print "that's all folks!"

      %Exit

      """

              output = """\

      In [1]: print 'hello, this is python'

      hello, this is python

      # some more code

      In [2]: x=1;y=2

      In [3]: x+y**2

      Out[3]: 5

      # An example of autocall functionality

      In [4]: from math import *

      In [5]: autocall 1

      Automatic calling is: Smart

      In [6]: cos pi

      ------> cos(pi)

      Out[6]: -1.0

      In [7]: autocall 0

      Automatic calling is: OFF

      In [8]: cos pi

         File "<ipython console>", line 1

           cos pi

                ^

      SyntaxError: invalid syntax

      In [9]: cos(pi)

      Out[9]: -1.0

      In [10]: for i in range(5):

         ....:     print i,

         ....:

      0 1 2 3 4

      In [11]: print "that's all folks!"

      that's all folks!

      In [12]: %Exit

      """

              runner = irunner.IPythonRunner(out=self.out)

              self._test_runner(runner,source,output)

          def testPython(self):

              """Test the Python runner."""

              runner = irunner.PythonRunner(out=self.out)

              source = """

      print 'hello, this is python'

      # some more code

      x=1;y=2

      x+y**2

      from math import *

      cos(pi)

      for i in range(5):

          print i,

      print "that's all folks!"

              """

              output = """\

      >>> print 'hello, this is python'

      hello, this is python

      # some more code

      >>> x=1;y=2

      >>> x+y**2

      5

      >>> from math import *

      >>> cos(pi)

      -1.0

      >>> for i in range(5):

      ...     print i,

      ...

      0 1 2 3 4

      >>> print "that's all folks!"

      that's all folks!

      """

              self._test_runner(runner,source,output)

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				"""Test suite for the irunner module.

				Not the most elegant or fine-grained, but it does cover at least the bulk
				functionality."""

				# Global to make tests extra verbose and help debugging
				VERBOSE = True

				# stdlib imports
				import cStringIO as StringIO
				import sys
				import unittest

				# IPython imports
				from IPython.lib import irunner

				# Testing code begins
				class RunnerTestCase(unittest.TestCase):

				def setUp(self):
				self.out = StringIO.StringIO()
				#self.out = sys.stdout

				def _test_runner(self,runner,source,output):
				"""Test that a given runner's input/output match."""

				runner.run_source(source)
				out = self.out.getvalue()
				#out = ''
				# this output contains nasty \r\n lineends, and the initial ipython
				# banner. clean it up for comparison, removing lines of whitespace
				output_l = [l for l in output.splitlines() if l and not l.isspace()]
				out_l = [l for l in out.splitlines() if l and not l.isspace()]
				mismatch = 0
				if len(output_l) != len(out_l):
				self.fail('mismatch in number of lines')
				for n in range(len(output_l)):
				# Do a line-by-line comparison
				ol1 = output_l[n].strip()
				ol2 = out_l[n].strip()
				if ol1 != ol2:
				mismatch += 1
				if VERBOSE:
				print '<<< line %s does not match:' % n
				print repr(ol1)
				print repr(ol2)
				print '>>>'
				self.assert_(mismatch==0,'Number of mismatched lines: %s' %
				mismatch)

				def testIPython(self):
				"""Test the IPython runner."""
				source = """
				print 'hello, this is python'
				# some more code
				x=1;y=2
				x+y**2

				# An example of autocall functionality
				from math import *
				autocall 1
				cos pi
				autocall 0
				cos pi
				cos(pi)

				for i in range(5):
				print i,

				print "that's all folks!"

				%Exit
				"""
				output = """\
				In [1]: print 'hello, this is python'
				hello, this is python


				# some more code
				In [2]: x=1;y=2

				In [3]: x+y**2
				Out[3]: 5


				# An example of autocall functionality
				In [4]: from math import *

				In [5]: autocall 1
				Automatic calling is: Smart

				In [6]: cos pi
				------> cos(pi)
				Out[6]: -1.0

				In [7]: autocall 0
				Automatic calling is: OFF

				In [8]: cos pi
				File "<ipython console>", line 1
				cos pi
				^
				SyntaxError: invalid syntax


				In [9]: cos(pi)
				Out[9]: -1.0


				In [10]: for i in range(5):
				....: print i,
				....:
				0 1 2 3 4

				In [11]: print "that's all folks!"
				that's all folks!


				In [12]: %Exit
				"""
				runner = irunner.IPythonRunner(out=self.out)
				self._test_runner(runner,source,output)

				def testPython(self):
				"""Test the Python runner."""
				runner = irunner.PythonRunner(out=self.out)
				source = """
				print 'hello, this is python'

				# some more code
				x=1;y=2
				x+y**2

				from math import *
				cos(pi)

				for i in range(5):
				print i,

				print "that's all folks!"
				"""
				output = """\
				>>> print 'hello, this is python'
				hello, this is python

				# some more code
				>>> x=1;y=2
				>>> x+y**2
				5

				>>> from math import *
				>>> cos(pi)
				-1.0

				>>> for i in range(5):
				... print i,
				...
				0 1 2 3 4
				>>> print "that's all folks!"
				that's all folks!
				"""
				self._test_runner(runner,source,output)