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Clear inputhook after printing exception information....
Clear inputhook after printing exception information. Makes this codepath more robust against KeyboardInterrupt raised during exception printing in Qt4 inputhook. Credit goes to @cboos for spotting this.

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test_irunner.py
182 lines | 3.8 KiB | text/x-python | PythonLexer
"""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 StringIO
import sys
import unittest
# IPython imports
from IPython.lib import irunner
from IPython.testing.decorators import known_failure_py3
from IPython.utils.py3compat import doctest_refactor_print
# 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):
message = ("Mismatch in number of lines\n\n"
"Expected:\n"
"~~~~~~~~~\n"
"%s\n\n"
"Got:\n"
"~~~~~~~~~\n"
"%s"
) % ("\n".join(output_l), "\n".join(out_l))
self.fail(message)
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)
# The SyntaxError appears differently in Python 3, for some reason.
@known_failure_py3
def testIPython(self):
"""Test the IPython runner."""
source = doctest_refactor_print("""
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 = doctest_refactor_print("""\
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-input-8-6bd7313dd9a9>", 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 = doctest_refactor_print("""
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 = doctest_refactor_print("""\
>>> 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)