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update test_cd with pushd/popd
update test_cd with pushd/popd

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r707:8de6d199
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test_handlers.py
202 lines | 6.9 KiB | text/x-python | PythonLexer
/ test / test_handlers.py
dan.milstein
Major refactoring of prefilter mechanism. Much of the transformation process has been moved out of the iplib.InteractiveShell class and into a separate module, IPython.prefilter. In addition, extensive tests have been added for prefiltering.
r657 """Test the various handlers which do the actual rewriting of the line."""
from StringIO import StringIO
import sys
vivainio
dirname in term title now fails more gracefully
r662 sys.path.append('..')
dan.milstein
Major refactoring of prefilter mechanism. Much of the transformation process has been moved out of the iplib.InteractiveShell class and into a separate module, IPython.prefilter. In addition, extensive tests have been added for prefiltering.
r657
failures = []
num_tests = 0
def run(tests):
"""Loop through a list of (pre, post) inputs, where pre is the string
handed to ipython, and post is how that string looks after it's been
transformed (i.e. ipython's notion of _i)"""
for pre, post in tests:
global num_tests
num_tests += 1
ip.runlines(pre)
ip.runlines('_i') # Not sure why I need this...
actual = ip.user_ns['_i']
dan.milstein
Changing input filtering to require whitespace separation between the initial command (alias, magic, autocall) and rest of line. ...
r707 if actual != None:
actual = actual.rstrip('\n')
dan.milstein
Major refactoring of prefilter mechanism. Much of the transformation process has been moved out of the iplib.InteractiveShell class and into a separate module, IPython.prefilter. In addition, extensive tests have been added for prefiltering.
r657 if actual != post:
failures.append('Expected %r to become %r, found %r' % (
pre, post, actual))
# Shutdown stdout/stderr so that ipython isn't noisy during tests. Have to
# do this *before* importing IPython below.
#
# NOTE: this means that, if you stick print statements into code as part of
# debugging, you won't see the results (unless you comment out some of the
# below). I keep on doing this, so apparently it's easy. Or I am an idiot.
old_stdout = sys.stdout
old_stderr = sys.stderr
sys.stdout = StringIO()
sys.stderr = StringIO()
import IPython
import IPython.ipapi
IPython.Shell.start()
ip = IPython.ipapi.get()
class CallableIndexable(object):
def __getitem__(self, idx): return True
def __call__(self, *args, **kws): return True
try:
# alias expansion
# We're using 'true' as our syscall of choice because it doesn't
# write anything to stdout.
# Turn off actual execution of aliases, because it's noisy
dan.milstein
Changing input filtering to require whitespace separation between the initial command (alias, magic, autocall) and rest of line. ...
r707 old_system_cmd = ip.system
ip.system = lambda cmd: None
dan.milstein
Major refactoring of prefilter mechanism. Much of the transformation process has been moved out of the iplib.InteractiveShell class and into a separate module, IPython.prefilter. In addition, extensive tests have been added for prefiltering.
r657
ip.IP.alias_table['an_alias'] = (0, 'true')
# These are useful for checking a particular recursive alias issue
ip.IP.alias_table['top'] = (0, 'd:/cygwin/top')
ip.IP.alias_table['d'] = (0, 'true')
run([("an_alias", '_ip.system("true ")'), # alias
# Below: recursive aliases should expand whitespace-surrounded
# chars, *not* initial chars which happen to be aliases:
("top", '_ip.system("d:/cygwin/top ")'),
])
dan.milstein
Changing input filtering to require whitespace separation between the initial command (alias, magic, autocall) and rest of line. ...
r707 ip.system = old_system_cmd
dan.milstein
Major refactoring of prefilter mechanism. Much of the transformation process has been moved out of the iplib.InteractiveShell class and into a separate module, IPython.prefilter. In addition, extensive tests have been added for prefiltering.
r657
call_idx = CallableIndexable()
ip.to_user_ns('call_idx')
# For many of the below, we're also checking that leading whitespace
# turns off the esc char, which it should unless there is a continuation
# line.
run([('"no change"', '"no change"'), # normal
("!true", '_ip.system("true")'), # shell_escapes
("!! true", '_ip.magic("sx true")'), # shell_escapes + magic
("!!true", '_ip.magic("sx true")'), # shell_escapes + magic
("%lsmagic", '_ip.magic("lsmagic ")'), # magic
("lsmagic", '_ip.magic("lsmagic ")'), # magic
("a = b # PYTHON-MODE", '_i'), # emacs -- avoids _in cache
# post-esc-char whitespace goes inside
("! true", '_ip.system(" true")'),
# Leading whitespace generally turns off escape characters
(" ! true", ' ! true'),
(" !true", ' !true'),
# handle_help
# These are weak tests -- just looking at what the help handlers
# logs, which is not how it really does its work. But it still
# lets us check the key paths through the handler.
("x=1 # what?", "x=1 # what?"), # no help if valid python
("len?", "#?len"), # this is what help logs when it runs
("len??", "#?len?"),
("?len", "#?len"),
])
# multi_line_specials
ip.options.multi_line_specials = 0
# W/ multi_line_specials off, leading ws kills esc chars/autoexpansion
run([
('if 1:\n !true', 'if 1:\n !true'),
('if 1:\n lsmagic', 'if 1:\n lsmagic'),
('if 1:\n an_alias', 'if 1:\n an_alias'),
])
ip.options.multi_line_specials = 1
# initial indents must be preserved.
run([
('if 1:\n !true', 'if 1:\n _ip.system("true")'),
('if 1:\n lsmagic', 'if 1:\n _ip.magic("lsmagic ")'),
('if 1:\n an_alias', 'if 1:\n _ip.system("true ")'),
# Weird one
('if 1:\n !!true', 'if 1:\n _ip.magic("sx true")'),
# Even with m_l_s on, all esc_chars except ! are off
('if 1:\n %lsmagic', 'if 1:\n %lsmagic'),
('if 1:\n /fun 1 2', 'if 1:\n /fun 1 2'),
('if 1:\n ;fun 1 2', 'if 1:\n ;fun 1 2'),
('if 1:\n ,fun 1 2', 'if 1:\n ,fun 1 2'),
('if 1:\n ?fun 1 2', 'if 1:\n ?fun 1 2'),
# What about !!
])
# Objects which are instances of IPyAutocall are *always* autocalled
import IPython.ipapi
class Autocallable(IPython.ipapi.IPyAutocall):
def __call__(self):
return "called"
autocallable = Autocallable()
ip.to_user_ns('autocallable')
# auto
ip.options.autocall = 0
# Only explicit escapes or instances of IPyAutocallable should get
# expanded
run([
('len "abc"', 'len "abc"'),
('autocallable', 'autocallable()'),
(",list 1 2 3", 'list("1", "2", "3")'),
(";list 1 2 3", 'list("1 2 3")'),
("/len range(1,4)", 'len(range(1,4))'),
])
ip.options.autocall = 1
run([
(",list 1 2 3", 'list("1", "2", "3")'),
(";list 1 2 3", 'list("1 2 3")'),
("/len range(1,4)", 'len(range(1,4))'),
('len "abc"', 'len("abc")'),
('len "abc";', 'len("abc");'), # ; is special -- moves out of parens
# Autocall is turned off if first arg is [] and the object
# is both callable and indexable. Like so:
('len [1,2]', 'len([1,2])'), # len doesn't support __getitem__...
('call_idx [1]', 'call_idx [1]'), # call_idx *does*..
('call_idx 1', 'call_idx(1)'),
('len', 'len '), # only at 2 does it auto-call on single args
])
ip.options.autocall = 2
run([
(",list 1 2 3", 'list("1", "2", "3")'),
(";list 1 2 3", 'list("1 2 3")'),
("/len range(1,4)", 'len(range(1,4))'),
('len "abc"', 'len("abc")'),
('len "abc";', 'len("abc");'),
('len [1,2]', 'len([1,2])'),
('call_idx [1]', 'call_idx [1]'),
('call_idx 1', 'call_idx(1)'),
# This is what's different:
('len', 'len()'), # only at 2 does it auto-call on single args
])
ip.options.autocall = 1
# Ignoring handle_emacs, 'cause it doesn't do anything.
finally:
sys.stdout = old_stdout
sys.stderr = old_stderr
num_f = len(failures)
#if verbose:
# print
print "%s tests run, %s failure%s" % (num_tests,
num_f,
num_f != 1 and "s" or "")
for f in failures:
print f