upstream/ipython Files · IPython/utils/frame.py

Refuse to install event loop hooks when not using `prompt_toolkit` (#14132)...

Refuse to install event loop hooks when not using `prompt_toolkit` (#14132) Without this, `%gui` is effectively a no-op but the user thinks it works. For example. If running `ipython`: ``` In [1]: import matplotlib; matplotlib.use('QtAgg'); from matplotlib import pyplot; pyplot.ion(); pyplot.plot([1, 2, 3, 4]) Installed qt6 event loop hook. Out[1]: [<matplotlib.lines.Line2D at 0x1ba2f59d2a0>] ``` The window appears and responds as expected. If running `ipython --simple-prompt`, the user would see the same output, when in fact no event loop hook was installed since it's not supported without `prompt_toolkit`. The resulting Qt window is unresponsive because the event loop is not running, i.e. with `--simple-prompt`, Qt windows should block (but `pyplot` doesn't/can't know to do that) With this PR, the user will see: ``` In [1]: import matplotlib; matplotlib.use('QtAgg'); from matplotlib import pyplot; pyplot.ion(); pyplot.plot([1, 2, 3, 4]) Cannot install event loop hook for "qt" when running with `--simple-prompt`. NOTE: Tk is supported natively; use Tk apps and Tk backends with `--simple-prompt`. Out[1]: [<matplotlib.lines.Line2D at 0x170be0c0310>] ``` They'll still get an unresponsive Qt window, but they'll at least be told this can't work (while anything using Tk will work just fine).

Matthias Bussonnier - - Load All Authors

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      # encoding: utf-8

      """

      Utilities for working with stack frames.

      """

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

      #  Copyright (C) 2008-2011  The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

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

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

      # Imports

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

      import sys

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

      # Code

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

      def extract_vars(*names,**kw):

          """Extract a set of variables by name from another frame.

          Parameters

          ----------

          *names : str

              One or more variable names which will be extracted from the caller's

              frame.

          **kw : integer, optional

              How many frames in the stack to walk when looking for your variables.

              The default is 0, which will use the frame where the call was made.

          Examples

          --------

          ::

              In [2]: def func(x):

                 ...:     y = 1

                 ...:     print(sorted(extract_vars('x','y').items()))

                 ...:

              In [3]: func('hello')

              [('x', 'hello'), ('y', 1)]

          """

          depth = kw.get('depth',0)

          callerNS = sys._getframe(depth+1).f_locals

          return dict((k,callerNS[k]) for k in names)

      def extract_vars_above(*names):

          """Extract a set of variables by name from another frame.

          Similar to extractVars(), but with a specified depth of 1, so that names

          are extracted exactly from above the caller.

          This is simply a convenience function so that the very common case (for us)

          of skipping exactly 1 frame doesn't have to construct a special dict for

          keyword passing."""

          callerNS = sys._getframe(2).f_locals

          return dict((k,callerNS[k]) for k in names)

      def debugx(expr,pre_msg=''):

          """Print the value of an expression from the caller's frame.

          Takes an expression, evaluates it in the caller's frame and prints both

          the given expression and the resulting value (as well as a debug mark

          indicating the name of the calling function.  The input must be of a form

          suitable for eval().

          An optional message can be passed, which will be prepended to the printed

          expr->value pair."""

          cf = sys._getframe(1)

          print('[DBG:%s] %s%s -> %r' % (cf.f_code.co_name,pre_msg,expr,

                                         eval(expr,cf.f_globals,cf.f_locals)))

      # deactivate it by uncommenting the following line, which makes it a no-op

      #def debugx(expr,pre_msg=''): pass

      def extract_module_locals(depth=0):

          """Returns (module, locals) of the function `depth` frames away from the caller"""

          f = sys._getframe(depth + 1)

          global_ns = f.f_globals

          module = sys.modules[global_ns['__name__']]

          return (module, f.f_locals)

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				# encoding: utf-8
				"""
				Utilities for working with stack frames.
				"""

				#-----------------------------------------------------------------------------
				# Copyright (C) 2008-2011 The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				import sys

				#-----------------------------------------------------------------------------
				# Code
				#-----------------------------------------------------------------------------

				def extract_vars(names,*kw):
				"""Extract a set of variables by name from another frame.

				Parameters
				----------
				*names : str
				One or more variable names which will be extracted from the caller's
				frame.
				**kw : integer, optional
				How many frames in the stack to walk when looking for your variables.
				The default is 0, which will use the frame where the call was made.

				Examples
				--------
				::

				In [2]: def func(x):
				...: y = 1
				...: print(sorted(extract_vars('x','y').items()))
				...:

				In [3]: func('hello')
				[('x', 'hello'), ('y', 1)]
				"""

				depth = kw.get('depth',0)

				callerNS = sys._getframe(depth+1).f_locals
				return dict((k,callerNS[k]) for k in names)


				def extract_vars_above(*names):
				"""Extract a set of variables by name from another frame.

				Similar to extractVars(), but with a specified depth of 1, so that names
				are extracted exactly from above the caller.

				This is simply a convenience function so that the very common case (for us)
				of skipping exactly 1 frame doesn't have to construct a special dict for
				keyword passing."""

				callerNS = sys._getframe(2).f_locals
				return dict((k,callerNS[k]) for k in names)


				def debugx(expr,pre_msg=''):
				"""Print the value of an expression from the caller's frame.

				Takes an expression, evaluates it in the caller's frame and prints both
				the given expression and the resulting value (as well as a debug mark
				indicating the name of the calling function. The input must be of a form
				suitable for eval().

				An optional message can be passed, which will be prepended to the printed
				expr->value pair."""

				cf = sys._getframe(1)
				print('[DBG:%s] %s%s -> %r' % (cf.f_code.co_name,pre_msg,expr,
				eval(expr,cf.f_globals,cf.f_locals)))


				# deactivate it by uncommenting the following line, which makes it a no-op
				#def debugx(expr,pre_msg=''): pass

				def extract_module_locals(depth=0):
				"""Returns (module, locals) of the function `depth` frames away from the caller"""
				f = sys._getframe(depth + 1)
				global_ns = f.f_globals
				module = sys.modules[global_ns['__name__']]
				return (module, f.f_locals)