upstream/ipython Files · IPython/core/completerlib.py

Backport PR : Let IPython.lib.guisupport detect terminal-integrated event loops...

Backport PR : Let IPython.lib.guisupport detect terminal-integrated event loops Closes gh-9974 This is a bit more invasive than most backported changes, but it fixes a regression in IPython 5. My thinking: - The `guisupport` APIs that worked before should continue working until/unless we deprecate them. - There should be a common way to check if an event loop is already running in both the terminal and an IPython kernel. - It should be possible to check for any event loop, not just Qt and Wx (which `guisupport` has checks for). My plan is to make a public attribute `shell.active_eventloop`, which is either None or a string naming the event loop which IPython will run when waiting for input. E.g. `qt` or `gtk3`. (Todo: should we also expose the event loop object in cases where there is one? Not sure if anything useful can be done with it). This PR adds that attribute for terminal IPython; if we agree on it I'll make a separate PR for ipykernel. The functions in guisupport then become a convenient shortcut for checking this, and we can decide whether to deprecate them in favour or something more uniform, or add similar convenience functions for other common event loops. Signed-off-by: Thomas Kluyver <thomas@kluyver.me.uk>

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      # encoding: utf-8

      """Implementations for various useful completers.

      These are all loaded by default by IPython.

      """

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

      #  Copyright (C) 2010-2011 The IPython Development Team.

      #

      #  Distributed under the terms of the BSD License.

      #

      #  The full license is in the file COPYING.txt, distributed with this software.

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

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

      # Imports

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

      from __future__ import print_function

      # Stdlib imports

      import glob

      import inspect

      import os

      import re

      import sys

      try:

          # Python >= 3.3

          from importlib.machinery import all_suffixes

          _suffixes = all_suffixes()

      except ImportError:

          from imp import get_suffixes

          _suffixes = [ s[0] for s in get_suffixes() ]

      # Third-party imports

      from time import time

      from zipimport import zipimporter

      # Our own imports

      from IPython.core.completer import expand_user, compress_user

      from IPython.core.error import TryNext

      from IPython.utils._process_common import arg_split

      from IPython.utils.py3compat import string_types

      # FIXME: this should be pulled in with the right call via the component system

      from IPython import get_ipython

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

      # Globals and constants

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

      # Time in seconds after which the rootmodules will be stored permanently in the

      # ipython ip.db database (kept in the user's .ipython dir).

      TIMEOUT_STORAGE = 2

      # Time in seconds after which we give up

      TIMEOUT_GIVEUP = 20

      # Regular expression for the python import statement

      import_re = re.compile(r'(?P<name>[a-zA-Z_][a-zA-Z0-9_]*?)'

                             r'(?P<package>[/\\]__init__)?'

                             r'(?P<suffix>%s)$' %

                             r'|'.join(re.escape(s) for s in _suffixes))

      # RE for the ipython %run command (python + ipython scripts)

      magic_run_re = re.compile(r'.*(\.ipy|\.ipynb|\.py[w]?)$')

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

      # Local utilities

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

      def module_list(path):

          """

          Return the list containing the names of the modules available in the given

          folder.

          """

          # sys.path has the cwd as an empty string, but isdir/listdir need it as '.'

          if path == '':

              path = '.'

          # A few local constants to be used in loops below

          pjoin = os.path.join

          if os.path.isdir(path):

              # Build a list of all files in the directory and all files

              # in its subdirectories. For performance reasons, do not

              # recurse more than one level into subdirectories.

              files = []

              for root, dirs, nondirs in os.walk(path, followlinks=True):

                  subdir = root[len(path)+1:]

                  if subdir:

                      files.extend(pjoin(subdir, f) for f in nondirs)

                      dirs[:] = [] # Do not recurse into additional subdirectories.

                  else:

                      files.extend(nondirs)

          else:

              try:

                  files = list(zipimporter(path)._files.keys())

              except:

                  files = []

          # Build a list of modules which match the import_re regex.

          modules = []

          for f in files:

              m = import_re.match(f)

              if m:

                  modules.append(m.group('name'))

          return list(set(modules))

      def get_root_modules():

          """

          Returns a list containing the names of all the modules available in the

          folders of the pythonpath.

          ip.db['rootmodules_cache'] maps sys.path entries to list of modules.

          """

          ip = get_ipython()

          rootmodules_cache = ip.db.get('rootmodules_cache', {})

          rootmodules = list(sys.builtin_module_names)

          start_time = time()

          store = False

          for path in sys.path:

              try:

                  modules = rootmodules_cache[path]

              except KeyError:

                  modules = module_list(path)

                  try:

                      modules.remove('__init__')

                  except ValueError:

                      pass

                  if path not in ('', '.'): # cwd modules should not be cached

                      rootmodules_cache[path] = modules

                  if time() - start_time > TIMEOUT_STORAGE and not store:

                      store = True

                      print("\nCaching the list of root modules, please wait!")

                      print("(This will only be done once - type '%rehashx' to "

                            "reset cache!)\n")

                      sys.stdout.flush()

                  if time() - start_time > TIMEOUT_GIVEUP:

                      print("This is taking too long, we give up.\n")

                      return []

              rootmodules.extend(modules)

          if store:

              ip.db['rootmodules_cache'] = rootmodules_cache

          rootmodules = list(set(rootmodules))

          return rootmodules

      def is_importable(module, attr, only_modules):

          if only_modules:

              return inspect.ismodule(getattr(module, attr))

          else:

              return not(attr[:2] == '__' and attr[-2:] == '__')

      def try_import(mod, only_modules=False):

          try:

              m = __import__(mod)

          except:

              return []

          mods = mod.split('.')

          for module in mods[1:]:

              m = getattr(m, module)

          m_is_init = hasattr(m, '__file__') and '__init__' in m.__file__

          completions = []

          if (not hasattr(m, '__file__')) or (not only_modules) or m_is_init:

              completions.extend( [attr for attr in dir(m) if

                                   is_importable(m, attr, only_modules)])

          completions.extend(getattr(m, '__all__', []))

          if m_is_init:

              completions.extend(module_list(os.path.dirname(m.__file__)))

          completions = {c for c in completions if isinstance(c, string_types)}

          completions.discard('__init__')

          return list(completions)

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

      # Completion-related functions.

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

      def quick_completer(cmd, completions):

          """ Easily create a trivial completer for a command.

          Takes either a list of completions, or all completions in string (that will

          be split on whitespace).

          Example::

              [d:\ipython]|1> import ipy_completers

              [d:\ipython]|2> ipy_completers.quick_completer('foo', ['bar','baz'])

              [d:\ipython]|3> foo b<TAB>

              bar baz

              [d:\ipython]|3> foo ba

          """

          if isinstance(completions, string_types):

              completions = completions.split()

          def do_complete(self, event):

              return completions

          get_ipython().set_hook('complete_command',do_complete, str_key = cmd)

      def module_completion(line):

          """

          Returns a list containing the completion possibilities for an import line.

          The line looks like this :

          'import xml.d'

          'from xml.dom import'

          """

          words = line.split(' ')

          nwords = len(words)

          # from whatever <tab> -> 'import '

          if nwords == 3 and words[0] == 'from':

              return ['import ']

          # 'from xy<tab>' or 'import xy<tab>'

          if nwords < 3 and (words[0] in {'%aimport', 'import', 'from'}) :

              if nwords == 1:

                  return get_root_modules()

              mod = words[1].split('.')

              if len(mod) < 2:

                  return get_root_modules()

              completion_list = try_import('.'.join(mod[:-1]), True)

              return ['.'.join(mod[:-1] + [el]) for el in completion_list]

          # 'from xyz import abc<tab>'

          if nwords >= 3 and words[0] == 'from':

              mod = words[1]

              return try_import(mod)

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

      # Completers

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

      # These all have the func(self, event) signature to be used as custom

      # completers

      def module_completer(self,event):

          """Give completions after user has typed 'import ...' or 'from ...'"""

          # This works in all versions of python.  While 2.5 has

          # pkgutil.walk_packages(), that particular routine is fairly dangerous,

          # since it imports *EVERYTHING* on sys.path.  That is: a) very slow b) full

          # of possibly problematic side effects.

          # This search the folders in the sys.path for available modules.

          return module_completion(event.line)

      # FIXME: there's a lot of logic common to the run, cd and builtin file

      # completers, that is currently reimplemented in each.

      def magic_run_completer(self, event):

          """Complete files that end in .py or .ipy or .ipynb for the %run command.

          """

          comps = arg_split(event.line, strict=False)

          # relpath should be the current token that we need to complete.

          if (len(comps) > 1) and (not event.line.endswith(' ')):

              relpath = comps[-1].strip("'\"")

          else:

              relpath = ''

          #print("\nev=", event)  # dbg

          #print("rp=", relpath)  # dbg

          #print('comps=', comps)  # dbg

          lglob = glob.glob

          isdir = os.path.isdir

          relpath, tilde_expand, tilde_val = expand_user(relpath)

          # Find if the user has already typed the first filename, after which we

          # should complete on all files, since after the first one other files may

          # be arguments to the input script.

          if any(magic_run_re.match(c) for c in comps):

              matches =  [f.replace('\\','/') + ('/' if isdir(f) else '')

                                  for f in lglob(relpath+'*')]

          else:

              dirs = [f.replace('\\','/') + "/" for f in lglob(relpath+'*') if isdir(f)]

              pys =  [f.replace('\\','/')

                      for f in lglob(relpath+'*.py') + lglob(relpath+'*.ipy') +

                      lglob(relpath+'*.ipynb') + lglob(relpath + '*.pyw')]

              matches = dirs + pys

          #print('run comp:', dirs+pys) # dbg

          return [compress_user(p, tilde_expand, tilde_val) for p in matches]

      def cd_completer(self, event):

          """Completer function for cd, which only returns directories."""

          ip = get_ipython()

          relpath = event.symbol

          #print(event) # dbg

          if event.line.endswith('-b') or ' -b ' in event.line:

              # return only bookmark completions

              bkms = self.db.get('bookmarks', None)

              if bkms:

                  return bkms.keys()

              else:

                  return []

          if event.symbol == '-':

              width_dh = str(len(str(len(ip.user_ns['_dh']) + 1)))

              # jump in directory history by number

              fmt = '-%0' + width_dh +'d [%s]'

              ents = [ fmt % (i,s) for i,s in enumerate(ip.user_ns['_dh'])]

              if len(ents) > 1:

                  return ents

              return []

          if event.symbol.startswith('--'):

              return ["--" + os.path.basename(d) for d in ip.user_ns['_dh']]

          # Expand ~ in path and normalize directory separators.

          relpath, tilde_expand, tilde_val = expand_user(relpath)

          relpath = relpath.replace('\\','/')

          found = []

          for d in [f.replace('\\','/') + '/' for f in glob.glob(relpath+'*')

                    if os.path.isdir(f)]:

              if ' ' in d:

                  # we don't want to deal with any of that, complex code

                  # for this is elsewhere

                  raise TryNext

              found.append(d)

          if not found:

              if os.path.isdir(relpath):

                  return [compress_user(relpath, tilde_expand, tilde_val)]

              # if no completions so far, try bookmarks

              bks = self.db.get('bookmarks',{})

              bkmatches = [s for s in bks if s.startswith(event.symbol)]

              if bkmatches:

                  return bkmatches

              raise TryNext

          return [compress_user(p, tilde_expand, tilde_val) for p in found]

      def reset_completer(self, event):

          "A completer for %reset magic"

          return '-f -s in out array dhist'.split()

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				# encoding: utf-8
				"""Implementations for various useful completers.

				These are all loaded by default by IPython.
				"""
				#-----------------------------------------------------------------------------
				# Copyright (C) 2010-2011 The IPython Development Team.
				#
				# Distributed under the terms of the BSD License.
				#
				# The full license is in the file COPYING.txt, distributed with this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------
				from __future__ import print_function

				# Stdlib imports
				import glob
				import inspect
				import os
				import re
				import sys

				try:
				# Python >= 3.3
				from importlib.machinery import all_suffixes
				_suffixes = all_suffixes()
				except ImportError:
				from imp import get_suffixes
				_suffixes = [ s[0] for s in get_suffixes() ]

				# Third-party imports
				from time import time
				from zipimport import zipimporter

				# Our own imports
				from IPython.core.completer import expand_user, compress_user
				from IPython.core.error import TryNext
				from IPython.utils._process_common import arg_split
				from IPython.utils.py3compat import string_types

				# FIXME: this should be pulled in with the right call via the component system
				from IPython import get_ipython

				#-----------------------------------------------------------------------------
				# Globals and constants
				#-----------------------------------------------------------------------------

				# Time in seconds after which the rootmodules will be stored permanently in the
				# ipython ip.db database (kept in the user's .ipython dir).
				TIMEOUT_STORAGE = 2

				# Time in seconds after which we give up
				TIMEOUT_GIVEUP = 20

				# Regular expression for the python import statement
				import_re = re.compile(r'(?P<name>[a-zA-Z_][a-zA-Z0-9_]*?)'
				r'(?P<package>[/\\]__init__)?'
				r'(?P<suffix>%s)$' %
				r'\|'.join(re.escape(s) for s in _suffixes))

				# RE for the ipython %run command (python + ipython scripts)
				magic_run_re = re.compile(r'.*(\.ipy\|\.ipynb\|\.py[w]?)$')

				#-----------------------------------------------------------------------------
				# Local utilities
				#-----------------------------------------------------------------------------

				def module_list(path):
				"""
				Return the list containing the names of the modules available in the given
				folder.
				"""
				# sys.path has the cwd as an empty string, but isdir/listdir need it as '.'
				if path == '':
				path = '.'

				# A few local constants to be used in loops below
				pjoin = os.path.join

				if os.path.isdir(path):
				# Build a list of all files in the directory and all files
				# in its subdirectories. For performance reasons, do not
				# recurse more than one level into subdirectories.
				files = []
				for root, dirs, nondirs in os.walk(path, followlinks=True):
				subdir = root[len(path)+1:]
				if subdir:
				files.extend(pjoin(subdir, f) for f in nondirs)
				dirs[:] = [] # Do not recurse into additional subdirectories.
				else:
				files.extend(nondirs)

				else:
				try:
				files = list(zipimporter(path)._files.keys())
				except:
				files = []

				# Build a list of modules which match the import_re regex.
				modules = []
				for f in files:
				m = import_re.match(f)
				if m:
				modules.append(m.group('name'))
				return list(set(modules))


				def get_root_modules():
				"""
				Returns a list containing the names of all the modules available in the
				folders of the pythonpath.

				ip.db['rootmodules_cache'] maps sys.path entries to list of modules.
				"""
				ip = get_ipython()
				rootmodules_cache = ip.db.get('rootmodules_cache', {})
				rootmodules = list(sys.builtin_module_names)
				start_time = time()
				store = False
				for path in sys.path:
				try:
				modules = rootmodules_cache[path]
				except KeyError:
				modules = module_list(path)
				try:
				modules.remove('__init__')
				except ValueError:
				pass
				if path not in ('', '.'): # cwd modules should not be cached
				rootmodules_cache[path] = modules
				if time() - start_time > TIMEOUT_STORAGE and not store:
				store = True
				print("\nCaching the list of root modules, please wait!")
				print("(This will only be done once - type '%rehashx' to "
				"reset cache!)\n")
				sys.stdout.flush()
				if time() - start_time > TIMEOUT_GIVEUP:
				print("This is taking too long, we give up.\n")
				return []
				rootmodules.extend(modules)
				if store:
				ip.db['rootmodules_cache'] = rootmodules_cache
				rootmodules = list(set(rootmodules))
				return rootmodules


				def is_importable(module, attr, only_modules):
				if only_modules:
				return inspect.ismodule(getattr(module, attr))
				else:
				return not(attr[:2] == '__' and attr[-2:] == '__')

				def try_import(mod, only_modules=False):
				try:
				m = __import__(mod)
				except:
				return []
				mods = mod.split('.')
				for module in mods[1:]:
				m = getattr(m, module)

				m_is_init = hasattr(m, '__file__') and '__init__' in m.__file__

				completions = []
				if (not hasattr(m, '__file__')) or (not only_modules) or m_is_init:
				completions.extend( [attr for attr in dir(m) if
				is_importable(m, attr, only_modules)])

				completions.extend(getattr(m, '__all__', []))
				if m_is_init:
				completions.extend(module_list(os.path.dirname(m.__file__)))
				completions = {c for c in completions if isinstance(c, string_types)}
				completions.discard('__init__')
				return list(completions)


				#-----------------------------------------------------------------------------
				# Completion-related functions.
				#-----------------------------------------------------------------------------

				def quick_completer(cmd, completions):
				""" Easily create a trivial completer for a command.

				Takes either a list of completions, or all completions in string (that will
				be split on whitespace).

				Example::

				[d:\ipython]\|1> import ipy_completers
				[d:\ipython]\|2> ipy_completers.quick_completer('foo', ['bar','baz'])
				[d:\ipython]\|3> foo b<TAB>
				bar baz
				[d:\ipython]\|3> foo ba
				"""

				if isinstance(completions, string_types):
				completions = completions.split()

				def do_complete(self, event):
				return completions

				get_ipython().set_hook('complete_command',do_complete, str_key = cmd)

				def module_completion(line):
				"""
				Returns a list containing the completion possibilities for an import line.

				The line looks like this :
				'import xml.d'
				'from xml.dom import'
				"""

				words = line.split(' ')
				nwords = len(words)

				# from whatever <tab> -> 'import '
				if nwords == 3 and words[0] == 'from':
				return ['import ']

				# 'from xy<tab>' or 'import xy<tab>'
				if nwords < 3 and (words[0] in {'%aimport', 'import', 'from'}) :
				if nwords == 1:
				return get_root_modules()
				mod = words[1].split('.')
				if len(mod) < 2:
				return get_root_modules()
				completion_list = try_import('.'.join(mod[:-1]), True)
				return ['.'.join(mod[:-1] + [el]) for el in completion_list]

				# 'from xyz import abc<tab>'
				if nwords >= 3 and words[0] == 'from':
				mod = words[1]
				return try_import(mod)

				#-----------------------------------------------------------------------------
				# Completers
				#-----------------------------------------------------------------------------
				# These all have the func(self, event) signature to be used as custom
				# completers

				def module_completer(self,event):
				"""Give completions after user has typed 'import ...' or 'from ...'"""

				# This works in all versions of python. While 2.5 has
				# pkgutil.walk_packages(), that particular routine is fairly dangerous,
				# since it imports EVERYTHING on sys.path. That is: a) very slow b) full
				# of possibly problematic side effects.
				# This search the folders in the sys.path for available modules.

				return module_completion(event.line)

				# FIXME: there's a lot of logic common to the run, cd and builtin file
				# completers, that is currently reimplemented in each.

				def magic_run_completer(self, event):
				"""Complete files that end in .py or .ipy or .ipynb for the %run command.
				"""
				comps = arg_split(event.line, strict=False)
				# relpath should be the current token that we need to complete.
				if (len(comps) > 1) and (not event.line.endswith(' ')):
				relpath = comps[-1].strip("'\"")
				else:
				relpath = ''

				#print("\nev=", event) # dbg
				#print("rp=", relpath) # dbg
				#print('comps=', comps) # dbg

				lglob = glob.glob
				isdir = os.path.isdir
				relpath, tilde_expand, tilde_val = expand_user(relpath)

				# Find if the user has already typed the first filename, after which we
				# should complete on all files, since after the first one other files may
				# be arguments to the input script.

				if any(magic_run_re.match(c) for c in comps):
				matches = [f.replace('\\','/') + ('/' if isdir(f) else '')
				for f in lglob(relpath+'*')]
				else:
				dirs = [f.replace('\\','/') + "/" for f in lglob(relpath+'*') if isdir(f)]
				pys = [f.replace('\\','/')
				for f in lglob(relpath+'.py') + lglob(relpath+'.ipy') +
				lglob(relpath+'.ipynb') + lglob(relpath + '.pyw')]

				matches = dirs + pys

				#print('run comp:', dirs+pys) # dbg
				return [compress_user(p, tilde_expand, tilde_val) for p in matches]


				def cd_completer(self, event):
				"""Completer function for cd, which only returns directories."""
				ip = get_ipython()
				relpath = event.symbol

				#print(event) # dbg
				if event.line.endswith('-b') or ' -b ' in event.line:
				# return only bookmark completions
				bkms = self.db.get('bookmarks', None)
				if bkms:
				return bkms.keys()
				else:
				return []

				if event.symbol == '-':
				width_dh = str(len(str(len(ip.user_ns['_dh']) + 1)))
				# jump in directory history by number
				fmt = '-%0' + width_dh +'d [%s]'
				ents = [ fmt % (i,s) for i,s in enumerate(ip.user_ns['_dh'])]
				if len(ents) > 1:
				return ents
				return []

				if event.symbol.startswith('--'):
				return ["--" + os.path.basename(d) for d in ip.user_ns['_dh']]

				# Expand ~ in path and normalize directory separators.
				relpath, tilde_expand, tilde_val = expand_user(relpath)
				relpath = relpath.replace('\\','/')

				found = []
				for d in [f.replace('\\','/') + '/' for f in glob.glob(relpath+'*')
				if os.path.isdir(f)]:
				if ' ' in d:
				# we don't want to deal with any of that, complex code
				# for this is elsewhere
				raise TryNext

				found.append(d)

				if not found:
				if os.path.isdir(relpath):
				return [compress_user(relpath, tilde_expand, tilde_val)]

				# if no completions so far, try bookmarks
				bks = self.db.get('bookmarks',{})
				bkmatches = [s for s in bks if s.startswith(event.symbol)]
				if bkmatches:
				return bkmatches

				raise TryNext

				return [compress_user(p, tilde_expand, tilde_val) for p in found]

				def reset_completer(self, event):
				"A completer for %reset magic"
				return '-f -s in out array dhist'.split()