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Add image message handler in ZMQTerminalInteractiveShell...
Add image message handler in ZMQTerminalInteractiveShell This change introduces handler for messages which contain image in ZMQTerminalInteractiveShell. This is useful, for example, when connecting to the kernel in which pylab inline backend is activated. Current image handler only supports PIL backend.

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test_irunner.py
180 lines | 3.7 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."""
from __future__ import print_function
# 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.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.assertTrue(mismatch==0,'Number of mismatched lines: %s' %
mismatch)
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)