##// END OF EJS Templates
First step in reintegrating Jedi...
First step in reintegrating Jedi If Jedi is installed expose a private API use it with prompt toolkit. Jedi does not _yet_ provide all the completion IPython has, so this is still a bit awkward. In order to debug this (and see what is Jedi provided we for now inject a fake Jedi/IPython delimiter in the menu. Jedi completion and this behavior are enabled by default, but could likely be opt-in. Add also a number of debug flags to be able to track why jedi is not working, and/or what completions are found by IPython and not Jedi. That should give us a bit of heads up and feedback to know whether we can remove part of the IPython completer, and more especially if we can drop `python_matches`. Once `python_matches` is dropped and some other of the current matchers are either dropped or converted to the new API, that should simplify the internal quite a bit. That would just be too much for an already BIG pull-request.

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shellapp.py
405 lines | 15.6 KiB | text/x-python | PythonLexer
# encoding: utf-8
"""
A mixin for :class:`~IPython.core.application.Application` classes that
launch InteractiveShell instances, load extensions, etc.
"""
# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.
import glob
import os
import sys
from traitlets.config.application import boolean_flag
from traitlets.config.configurable import Configurable
from traitlets.config.loader import Config
from IPython.core import pylabtools
from IPython.utils import py3compat
from IPython.utils.contexts import preserve_keys
from IPython.utils.path import filefind
from traitlets import (
Unicode, Instance, List, Bool, CaselessStrEnum, observe,
)
from IPython.terminal import pt_inputhooks
#-----------------------------------------------------------------------------
# Aliases and Flags
#-----------------------------------------------------------------------------
gui_keys = tuple(sorted(pt_inputhooks.backends) + sorted(pt_inputhooks.aliases))
backend_keys = sorted(pylabtools.backends.keys())
backend_keys.insert(0, 'auto')
shell_flags = {}
addflag = lambda *args: shell_flags.update(boolean_flag(*args))
addflag('autoindent', 'InteractiveShell.autoindent',
'Turn on autoindenting.', 'Turn off autoindenting.'
)
addflag('automagic', 'InteractiveShell.automagic',
"""Turn on the auto calling of magic commands. Type %%magic at the
IPython prompt for more information.""",
'Turn off the auto calling of magic commands.'
)
addflag('pdb', 'InteractiveShell.pdb',
"Enable auto calling the pdb debugger after every exception.",
"Disable auto calling the pdb debugger after every exception."
)
addflag('pprint', 'PlainTextFormatter.pprint',
"Enable auto pretty printing of results.",
"Disable auto pretty printing of results."
)
addflag('color-info', 'InteractiveShell.color_info',
"""IPython can display information about objects via a set of functions,
and optionally can use colors for this, syntax highlighting
source code and various other elements. This is on by default, but can cause
problems with some pagers. If you see such problems, you can disable the
colours.""",
"Disable using colors for info related things."
)
nosep_config = Config()
nosep_config.InteractiveShell.separate_in = ''
nosep_config.InteractiveShell.separate_out = ''
nosep_config.InteractiveShell.separate_out2 = ''
shell_flags['nosep']=(nosep_config, "Eliminate all spacing between prompts.")
shell_flags['pylab'] = (
{'InteractiveShellApp' : {'pylab' : 'auto'}},
"""Pre-load matplotlib and numpy for interactive use with
the default matplotlib backend."""
)
shell_flags['matplotlib'] = (
{'InteractiveShellApp' : {'matplotlib' : 'auto'}},
"""Configure matplotlib for interactive use with
the default matplotlib backend."""
)
# it's possible we don't want short aliases for *all* of these:
shell_aliases = dict(
autocall='InteractiveShell.autocall',
colors='InteractiveShell.colors',
logfile='InteractiveShell.logfile',
logappend='InteractiveShell.logappend',
c='InteractiveShellApp.code_to_run',
m='InteractiveShellApp.module_to_run',
ext='InteractiveShellApp.extra_extension',
gui='InteractiveShellApp.gui',
pylab='InteractiveShellApp.pylab',
matplotlib='InteractiveShellApp.matplotlib',
)
shell_aliases['cache-size'] = 'InteractiveShell.cache_size'
#-----------------------------------------------------------------------------
# Main classes and functions
#-----------------------------------------------------------------------------
class InteractiveShellApp(Configurable):
"""A Mixin for applications that start InteractiveShell instances.
Provides configurables for loading extensions and executing files
as part of configuring a Shell environment.
The following methods should be called by the :meth:`initialize` method
of the subclass:
- :meth:`init_path`
- :meth:`init_shell` (to be implemented by the subclass)
- :meth:`init_gui_pylab`
- :meth:`init_extensions`
- :meth:`init_code`
"""
extensions = List(Unicode(),
help="A list of dotted module names of IPython extensions to load."
).tag(config=True)
extra_extension = Unicode('',
help="dotted module name of an IPython extension to load."
).tag(config=True)
reraise_ipython_extension_failures = Bool(False,
help="Reraise exceptions encountered loading IPython extensions?",
).tag(config=True)
# Extensions that are always loaded (not configurable)
default_extensions = List(Unicode(), [u'storemagic']).tag(config=False)
hide_initial_ns = Bool(True,
help="""Should variables loaded at startup (by startup files, exec_lines, etc.)
be hidden from tools like %who?"""
).tag(config=True)
exec_files = List(Unicode(),
help="""List of files to run at IPython startup."""
).tag(config=True)
exec_PYTHONSTARTUP = Bool(True,
help="""Run the file referenced by the PYTHONSTARTUP environment
variable at IPython startup."""
).tag(config=True)
file_to_run = Unicode('',
help="""A file to be run""").tag(config=True)
exec_lines = List(Unicode(),
help="""lines of code to run at IPython startup."""
).tag(config=True)
code_to_run = Unicode('',
help="Execute the given command string."
).tag(config=True)
module_to_run = Unicode('',
help="Run the module as a script."
).tag(config=True)
gui = CaselessStrEnum(gui_keys, allow_none=True,
help="Enable GUI event loop integration with any of {0}.".format(gui_keys)
).tag(config=True)
matplotlib = CaselessStrEnum(backend_keys, allow_none=True,
help="""Configure matplotlib for interactive use with
the default matplotlib backend."""
).tag(config=True)
pylab = CaselessStrEnum(backend_keys, allow_none=True,
help="""Pre-load matplotlib and numpy for interactive use,
selecting a particular matplotlib backend and loop integration.
"""
).tag(config=True)
pylab_import_all = Bool(True,
help="""If true, IPython will populate the user namespace with numpy, pylab, etc.
and an ``import *`` is done from numpy and pylab, when using pylab mode.
When False, pylab mode should not import any names into the user namespace.
"""
).tag(config=True)
shell = Instance('IPython.core.interactiveshell.InteractiveShellABC',
allow_none=True)
# whether interact-loop should start
interact = Bool(True)
user_ns = Instance(dict, args=None, allow_none=True)
@observe('user_ns')
def _user_ns_changed(self, change):
if self.shell is not None:
self.shell.user_ns = change['new']
self.shell.init_user_ns()
def init_path(self):
"""Add current working directory, '', to sys.path"""
if sys.path[0] != '':
sys.path.insert(0, '')
def init_shell(self):
raise NotImplementedError("Override in subclasses")
def init_gui_pylab(self):
"""Enable GUI event loop integration, taking pylab into account."""
enable = False
shell = self.shell
if self.pylab:
enable = lambda key: shell.enable_pylab(key, import_all=self.pylab_import_all)
key = self.pylab
elif self.matplotlib:
enable = shell.enable_matplotlib
key = self.matplotlib
elif self.gui:
enable = shell.enable_gui
key = self.gui
if not enable:
return
try:
r = enable(key)
except ImportError:
self.log.warning("Eventloop or matplotlib integration failed. Is matplotlib installed?")
self.shell.showtraceback()
return
except Exception:
self.log.warning("GUI event loop or pylab initialization failed")
self.shell.showtraceback()
return
if isinstance(r, tuple):
gui, backend = r[:2]
self.log.info("Enabling GUI event loop integration, "
"eventloop=%s, matplotlib=%s", gui, backend)
if key == "auto":
print("Using matplotlib backend: %s" % backend)
else:
gui = r
self.log.info("Enabling GUI event loop integration, "
"eventloop=%s", gui)
def init_extensions(self):
"""Load all IPython extensions in IPythonApp.extensions.
This uses the :meth:`ExtensionManager.load_extensions` to load all
the extensions listed in ``self.extensions``.
"""
try:
self.log.debug("Loading IPython extensions...")
extensions = self.default_extensions + self.extensions
if self.extra_extension:
extensions.append(self.extra_extension)
for ext in extensions:
try:
self.log.info("Loading IPython extension: %s" % ext)
self.shell.extension_manager.load_extension(ext)
except:
if self.reraise_ipython_extension_failures:
raise
msg = ("Error in loading extension: {ext}\n"
"Check your config files in {location}".format(
ext=ext,
location=self.profile_dir.location
))
self.log.warning(msg, exc_info=True)
except:
if self.reraise_ipython_extension_failures:
raise
self.log.warning("Unknown error in loading extensions:", exc_info=True)
def init_code(self):
"""run the pre-flight code, specified via exec_lines"""
self._run_startup_files()
self._run_exec_lines()
self._run_exec_files()
# Hide variables defined here from %who etc.
if self.hide_initial_ns:
self.shell.user_ns_hidden.update(self.shell.user_ns)
# command-line execution (ipython -i script.py, ipython -m module)
# should *not* be excluded from %whos
self._run_cmd_line_code()
self._run_module()
# flush output, so itwon't be attached to the first cell
sys.stdout.flush()
sys.stderr.flush()
def _run_exec_lines(self):
"""Run lines of code in IPythonApp.exec_lines in the user's namespace."""
if not self.exec_lines:
return
try:
self.log.debug("Running code from IPythonApp.exec_lines...")
for line in self.exec_lines:
try:
self.log.info("Running code in user namespace: %s" %
line)
self.shell.run_cell(line, store_history=False)
except:
self.log.warning("Error in executing line in user "
"namespace: %s" % line)
self.shell.showtraceback()
except:
self.log.warning("Unknown error in handling IPythonApp.exec_lines:")
self.shell.showtraceback()
def _exec_file(self, fname, shell_futures=False):
try:
full_filename = filefind(fname, [u'.', self.ipython_dir])
except IOError:
self.log.warning("File not found: %r"%fname)
return
# Make sure that the running script gets a proper sys.argv as if it
# were run from a system shell.
save_argv = sys.argv
sys.argv = [full_filename] + self.extra_args[1:]
try:
if os.path.isfile(full_filename):
self.log.info("Running file in user namespace: %s" %
full_filename)
# Ensure that __file__ is always defined to match Python
# behavior.
with preserve_keys(self.shell.user_ns, '__file__'):
self.shell.user_ns['__file__'] = fname
if full_filename.endswith('.ipy'):
self.shell.safe_execfile_ipy(full_filename,
shell_futures=shell_futures)
else:
# default to python, even without extension
self.shell.safe_execfile(full_filename,
self.shell.user_ns,
shell_futures=shell_futures,
raise_exceptions=True)
finally:
sys.argv = save_argv
def _run_startup_files(self):
"""Run files from profile startup directory"""
startup_dir = self.profile_dir.startup_dir
startup_files = []
if self.exec_PYTHONSTARTUP and os.environ.get('PYTHONSTARTUP', False) and \
not (self.file_to_run or self.code_to_run or self.module_to_run):
python_startup = os.environ['PYTHONSTARTUP']
self.log.debug("Running PYTHONSTARTUP file %s...", python_startup)
try:
self._exec_file(python_startup)
except:
self.log.warning("Unknown error in handling PYTHONSTARTUP file %s:", python_startup)
self.shell.showtraceback()
startup_files += glob.glob(os.path.join(startup_dir, '*.py'))
startup_files += glob.glob(os.path.join(startup_dir, '*.ipy'))
if not startup_files:
return
self.log.debug("Running startup files from %s...", startup_dir)
try:
for fname in sorted(startup_files):
self._exec_file(fname)
except:
self.log.warning("Unknown error in handling startup files:")
self.shell.showtraceback()
def _run_exec_files(self):
"""Run files from IPythonApp.exec_files"""
if not self.exec_files:
return
self.log.debug("Running files in IPythonApp.exec_files...")
try:
for fname in self.exec_files:
self._exec_file(fname)
except:
self.log.warning("Unknown error in handling IPythonApp.exec_files:")
self.shell.showtraceback()
def _run_cmd_line_code(self):
"""Run code or file specified at the command-line"""
if self.code_to_run:
line = self.code_to_run
try:
self.log.info("Running code given at command line (c=): %s" %
line)
self.shell.run_cell(line, store_history=False)
except:
self.log.warning("Error in executing line in user namespace: %s" %
line)
self.shell.showtraceback()
if not self.interact:
self.exit(1)
# Like Python itself, ignore the second if the first of these is present
elif self.file_to_run:
fname = self.file_to_run
if os.path.isdir(fname):
fname = os.path.join(fname, "__main__.py")
try:
self._exec_file(fname, shell_futures=True)
except:
self.shell.showtraceback(tb_offset=4)
if not self.interact:
self.exit(1)
def _run_module(self):
"""Run module specified at the command-line."""
if self.module_to_run:
# Make sure that the module gets a proper sys.argv as if it were
# run using `python -m`.
save_argv = sys.argv
sys.argv = [sys.executable] + self.extra_args
try:
self.shell.safe_run_module(self.module_to_run,
self.shell.user_ns)
finally:
sys.argv = save_argv