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

Complete implementation of interactive traceback support....

Complete implementation of interactive traceback support. Ever since IPython started, we've had no proper tracebacks for interactively entered code. The terminal version was fairly uncomfortable for more than just a few lines of code, so this was never too big of a deal. But the new architecture allows clients with complex multiline input, and having proper tracebacks becomes now critical for real-world use. Thanks to Robert Kern for key implementation ideas and original patch. Closes gh-177.

Fernando Perez - - Load All Authors

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      """Tests for input handlers.

      """

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

      # Module imports

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

      # third party

      import nose.tools as nt

      # our own packages

      from IPython.core import autocall

      from IPython.testing import decorators as dec

      from IPython.testing.globalipapp import get_ipython

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

      # Globals

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

      # Get the public instance of IPython

      ip = get_ipython()

      failures = []

      num_tests = 0

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

      # Test functions

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

      class CallableIndexable(object):

          def __getitem__(self, idx): return True

          def __call__(self, *args, **kws): return True

      class Autocallable(autocall.IPyAutocall):

          def __call__(self):

              return "called"

      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']

              if actual != None:

                  actual = actual.rstrip('\n')

              if actual != post:

                  failures.append('Expected %r to become %r, found %r' % (

                      pre, post, actual))

      def test_handlers():

          # 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

          old_system_cmd = ip.system

          ip.system = lambda cmd: None

          ip.alias_manager.alias_table['an_alias'] = (0, 'true')

          # These are useful for checking a particular recursive alias issue

          ip.alias_manager.alias_table['top'] = (0, 'd:/cygwin/top')

          ip.alias_manager.alias_table['d'] =   (0, 'true')

          run([("an_alias",    'get_ipython().system("true ")'),     # alias

               # Below: recursive aliases should expand whitespace-surrounded

               # chars, *not* initial chars which happen to be aliases:

               ("top",         'get_ipython().system("d:/cygwin/top ")'),

               ])

          ip.system = old_system_cmd

          call_idx = CallableIndexable()

          ip.user_ns['call_idx'] = 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",       'get_ipython().system("true")'),      # shell_escapes

               ("!! true",     'get_ipython().magic("sx  true")'),   # shell_escapes + magic

               ("!!true",      'get_ipython().magic("sx true")'),    # shell_escapes + magic

               ("%lsmagic",    'get_ipython().magic("lsmagic ")'),   # magic

               ("lsmagic",     'get_ipython().magic("lsmagic ")'),   # magic

               #("a = b # PYTHON-MODE", '_i'),          # emacs -- avoids _in cache

               # post-esc-char whitespace goes inside

               ("! true",   'get_ipython().system(" 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

               ])

          # multi_line_specials

          ip.prefilter_manager.multi_line_specials = False

          # 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.prefilter_manager.multi_line_specials = True

          # initial indents must be preserved.

          run([

               ('if 1:\n    !true',    'if 1:\n    get_ipython().system("true")'),

               ('if 2:\n    lsmagic',  'if 2:\n    get_ipython().magic("lsmagic ")'),

               ('if 1:\n    an_alias', 'if 1:\n    get_ipython().system("true ")'),

               # Weird one

               ('if 1:\n    !!true',   'if 1:\n    get_ipython().magic("sx true")'),

               # Even with m_l_s on, autocall is off even with special chars

               ('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

          autocallable = Autocallable()

          ip.user_ns['autocallable'] = autocallable

          # auto 

          ip.magic('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.magic('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.magic('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.magic('autocall 1')

          nt.assert_equals(failures, [])

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				"""Tests for input handlers.
				"""
				#-----------------------------------------------------------------------------
				# Module imports
				#-----------------------------------------------------------------------------

				# third party
				import nose.tools as nt

				# our own packages
				from IPython.core import autocall
				from IPython.testing import decorators as dec
				from IPython.testing.globalipapp import get_ipython

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

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

				failures = []
				num_tests = 0

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

				class CallableIndexable(object):
				def __getitem__(self, idx): return True
				def __call__(self, args, *kws): return True


				class Autocallable(autocall.IPyAutocall):
				def __call__(self):
				return "called"


				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']
				if actual != None:
				actual = actual.rstrip('\n')
				if actual != post:
				failures.append('Expected %r to become %r, found %r' % (
				pre, post, actual))


				def test_handlers():
				# 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
				old_system_cmd = ip.system
				ip.system = lambda cmd: None


				ip.alias_manager.alias_table['an_alias'] = (0, 'true')
				# These are useful for checking a particular recursive alias issue
				ip.alias_manager.alias_table['top'] = (0, 'd:/cygwin/top')
				ip.alias_manager.alias_table['d'] = (0, 'true')
				run([("an_alias", 'get_ipython().system("true ")'), # alias
				# Below: recursive aliases should expand whitespace-surrounded
				# chars, not initial chars which happen to be aliases:
				("top", 'get_ipython().system("d:/cygwin/top ")'),
				])
				ip.system = old_system_cmd

				call_idx = CallableIndexable()
				ip.user_ns['call_idx'] = 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", 'get_ipython().system("true")'), # shell_escapes
				("!! true", 'get_ipython().magic("sx true")'), # shell_escapes + magic
				("!!true", 'get_ipython().magic("sx true")'), # shell_escapes + magic
				("%lsmagic", 'get_ipython().magic("lsmagic ")'), # magic
				("lsmagic", 'get_ipython().magic("lsmagic ")'), # magic
				#("a = b # PYTHON-MODE", '_i'), # emacs -- avoids _in cache

				# post-esc-char whitespace goes inside
				("! true", 'get_ipython().system(" 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
				])

				# multi_line_specials
				ip.prefilter_manager.multi_line_specials = False
				# 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.prefilter_manager.multi_line_specials = True
				# initial indents must be preserved.
				run([
				('if 1:\n !true', 'if 1:\n get_ipython().system("true")'),
				('if 2:\n lsmagic', 'if 2:\n get_ipython().magic("lsmagic ")'),
				('if 1:\n an_alias', 'if 1:\n get_ipython().system("true ")'),
				# Weird one
				('if 1:\n !!true', 'if 1:\n get_ipython().magic("sx true")'),

				# Even with m_l_s on, autocall is off even with special chars
				('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
				autocallable = Autocallable()
				ip.user_ns['autocallable'] = autocallable

				# auto
				ip.magic('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.magic('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.magic('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.magic('autocall 1')

				nt.assert_equals(failures, [])