upstream/ipython Files · IPython/html/widgets/interaction.py

refactor to improve cell switching in edit mode...

refactor to improve cell switching in edit mode This code was repeated in both CodeCell and TextCell, both of which are extensions of Cell, so this just unifies the logic in Cell. TextCell had logic here to check if the cell was rendered or not, but I don't believe it is possible to end up triggering such a code path. (Should that be required, I can always just add back these methods to TextCell, performing the .rendered==True check, and calling the Cell prior to this, code mirror at_top would only return true on if the cursor was at the first character of the top line. Now, pressing up arrow on any character on the top line will take you to the cell above. The same applies for the bottom line. Pressing down arrow would only go to the next cell if the cursor was at a location *after* the last character (something that is only possible to achieve in vim mode if the last line is empty, for example). Now, down arrow on any character of the last line will go to the next cell.

MinRK - - Load All Authors

File last commit:

r15398:ee4033c1


                r15754:d60e793e

Download file

             interaction.py
        
                    256 lines
            
             | 9.3 KiB
            
                | text/x-python
            
             |
                PythonLexer
            
             / IPython / html / widgets / interaction.py
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      """Interact with functions using widgets."""

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

      # Copyright (c) 2013, the IPython Development Team.

      #

      # Distributed under the terms of the Modified BSD License.

      #

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

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

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

      # Imports

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

      from __future__ import print_function

      try:  # Python >= 3.3

          from inspect import signature, Parameter

      except ImportError:

          from IPython.utils.signatures import signature, Parameter

      from inspect import getcallargs

      from IPython.core.getipython import get_ipython

      from IPython.html.widgets import (Widget, TextWidget,

          FloatSliderWidget, IntSliderWidget, CheckboxWidget, DropdownWidget,

          ContainerWidget, DOMWidget)

      from IPython.display import display, clear_output

      from IPython.utils.py3compat import string_types, unicode_type

      from IPython.utils.traitlets import HasTraits, Any, Unicode

      empty = Parameter.empty

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

      # Classes and Functions

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

      def _matches(o, pattern):

          """Match a pattern of types in a sequence."""

          if not len(o) == len(pattern):

              return False

          comps = zip(o,pattern)

          return all(isinstance(obj,kind) for obj,kind in comps)

      def _get_min_max_value(min, max, value=None, step=None):

          """Return min, max, value given input values with possible None."""

          if value is None:

              if not max > min:

                  raise ValueError('max must be greater than min: (min={0}, max={1})'.format(min, max))

              value = min + abs(min-max)/2

              value = type(min)(value)

          elif min is None and max is None:

              if value == 0.0:

                  min, max, value = 0.0, 1.0, 0.5

              elif value == 0:

                  min, max, value = 0, 1, 0

              elif isinstance(value, (int, float)):

                  min, max = (-value, 3*value) if value > 0 else (3*value, -value)

              else:

                  raise TypeError('expected a number, got: %r' % value)

          else:

              raise ValueError('unable to infer range, value from: ({0}, {1}, {2})'.format(min, max, value))

          if step is not None:

              # ensure value is on a step

              r = (value - min) % step

              value = value - r

          return min, max, value

      def _widget_abbrev_single_value(o):

          """Make widgets from single values, which can be used as parameter defaults."""

          if isinstance(o, string_types):

              return TextWidget(value=unicode_type(o))

          elif isinstance(o, dict):

              return DropdownWidget(values=o)

          elif isinstance(o, bool):

              return CheckboxWidget(value=o)

          elif isinstance(o, float):

              min, max, value = _get_min_max_value(None, None, o)

              return FloatSliderWidget(value=o, min=min, max=max)

          elif isinstance(o, int):

              min, max, value = _get_min_max_value(None, None, o)

              return IntSliderWidget(value=o, min=min, max=max)

          else:

              return None

      def _widget_abbrev(o):

          """Make widgets from abbreviations: single values, lists or tuples."""

          float_or_int = (float, int)

          if isinstance(o, (list, tuple)):

              if o and all(isinstance(x, string_types) for x in o):

                  return DropdownWidget(values=[unicode_type(k) for k in o])

              elif _matches(o, (float_or_int, float_or_int)):

                  min, max, value = _get_min_max_value(o[0], o[1])

                  if all(isinstance(_, int) for _ in o):

                      cls = IntSliderWidget

                  else:

                      cls = FloatSliderWidget

                  return cls(value=value, min=min, max=max)

              elif _matches(o, (float_or_int, float_or_int, float_or_int)):

                  step = o[2]

                  if step <= 0:

                      raise ValueError("step must be >= 0, not %r" % step)

                  min, max, value = _get_min_max_value(o[0], o[1], step=step)

                  if all(isinstance(_, int) for _ in o):

                      cls = IntSliderWidget

                  else:

                      cls = FloatSliderWidget

                  return cls(value=value, min=min, max=max, step=step)

          else:

              return _widget_abbrev_single_value(o)

      def _widget_from_abbrev(abbrev, default=empty):

          """Build a Widget instance given an abbreviation or Widget."""

          if isinstance(abbrev, Widget) or isinstance(abbrev, fixed):

              return abbrev

          widget = _widget_abbrev(abbrev)

          if default is not empty and isinstance(abbrev, (list, tuple, dict)):

              # if it's not a single-value abbreviation,

              # set the initial value from the default

              try:

                  widget.value = default

              except Exception:

                  # ignore failure to set default

                  pass

          if widget is None:

              raise ValueError("%r cannot be transformed to a Widget" % (abbrev,))

          return widget

      def _yield_abbreviations_for_parameter(param, kwargs):

          """Get an abbreviation for a function parameter."""

          name = param.name

          kind = param.kind

          ann = param.annotation

          default = param.default

          not_found = (name, empty, empty)

          if kind in (Parameter.POSITIONAL_OR_KEYWORD, Parameter.KEYWORD_ONLY):

              if name in kwargs:

                  value = kwargs.pop(name)

              elif ann is not empty:

                  value = ann

              elif default is not empty:

                  value = default

              else:

                  yield not_found

              yield (name, value, default)

          elif kind == Parameter.VAR_KEYWORD:

              # In this case name=kwargs and we yield the items in kwargs with their keys.

              for k, v in kwargs.copy().items():

                  kwargs.pop(k)

                  yield k, v, empty

      def _find_abbreviations(f, kwargs):

          """Find the abbreviations for a function and kwargs passed to interact."""

          new_kwargs = []

          for param in signature(f).parameters.values():

              for name, value, default in _yield_abbreviations_for_parameter(param, kwargs):

                  if value is empty:

                      raise ValueError('cannot find widget or abbreviation for argument: {!r}'.format(name))

                  new_kwargs.append((name, value, default))

          return new_kwargs

      def _widgets_from_abbreviations(seq):

          """Given a sequence of (name, abbrev) tuples, return a sequence of Widgets."""

          result = []

          for name, abbrev, default in seq:

              widget = _widget_from_abbrev(abbrev, default)

              widget.description = name

              result.append(widget)

          return result

      def interactive(__interact_f, **kwargs):

          """Build a group of widgets to interact with a function."""

          f = __interact_f

          co = kwargs.pop('clear_output', True)

          kwargs_widgets = []

          container = ContainerWidget()

          container.result = None

          container.args = []

          container.kwargs = dict()

          kwargs = kwargs.copy()

          new_kwargs = _find_abbreviations(f, kwargs)

          # Before we proceed, let's make sure that the user has passed a set of args+kwargs

          # that will lead to a valid call of the function. This protects against unspecified

          # and doubly-specified arguments.

          getcallargs(f, **{n:v for n,v,_ in new_kwargs})

          # Now build the widgets from the abbreviations.

          kwargs_widgets.extend(_widgets_from_abbreviations(new_kwargs))

          # This has to be done as an assignment, not using container.children.append,

          # so that traitlets notices the update. We skip any objects (such as fixed) that

          # are not DOMWidgets.

          c = [w for w in kwargs_widgets if isinstance(w, DOMWidget)]

          container.children = c

          # Build the callback

          def call_f(name, old, new):

              container.kwargs = {}

              for widget in kwargs_widgets:

                  value = widget.value

                  container.kwargs[widget.description] = value

              if co:

                  clear_output(wait=True)

              try:

                  container.result = f(**container.kwargs)

              except Exception as e:

                  ip = get_ipython()

                  if ip is None:

                      container.log.warn("Exception in interact callback: %s", e, exc_info=True)

                  else:

                      ip.showtraceback()

          # Wire up the widgets

          for widget in kwargs_widgets:

              widget.on_trait_change(call_f, 'value')

          container.on_displayed(lambda _: call_f(None, None, None))

          return container

      def interact(__interact_f=None, **kwargs):

          """interact(f, **kwargs)

          Interact with a function using widgets."""

          # positional arg support in: https://gist.github.com/8851331

          if __interact_f is not None:

              # This branch handles the cases:

              # 1. interact(f, **kwargs)

              # 2. @interact

              #    def f(*args, **kwargs):

              #        ...

              f = __interact_f

              w = interactive(f, **kwargs)

              f.widget = w

              display(w)

              return f

          else:

              # This branch handles the case:

              # @interact(a=30, b=40)

              # def f(*args, **kwargs):

              #     ...

              def dec(f):

                  w = interactive(f, **kwargs)

                  f.widget = w

                  display(w)

                  return f

              return dec

      class fixed(HasTraits):

          """A pseudo-widget whose value is fixed and never synced to the client."""

          value = Any(help="Any Python object")

          description = Unicode('', help="Any Python object")

          def __init__(self, value, **kwargs):

              super(fixed, self).__init__(value=value, **kwargs)

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				"""Interact with functions using widgets."""

				#-----------------------------------------------------------------------------
				# Copyright (c) 2013, the IPython Development Team.
				#
				# Distributed under the terms of the Modified BSD License.
				#
				# The full license is in the file COPYING.txt, distributed with this software.
				#-----------------------------------------------------------------------------

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

				from __future__ import print_function

				try: # Python >= 3.3
				from inspect import signature, Parameter
				except ImportError:
				from IPython.utils.signatures import signature, Parameter
				from inspect import getcallargs

				from IPython.core.getipython import get_ipython
				from IPython.html.widgets import (Widget, TextWidget,
				FloatSliderWidget, IntSliderWidget, CheckboxWidget, DropdownWidget,
				ContainerWidget, DOMWidget)
				from IPython.display import display, clear_output
				from IPython.utils.py3compat import string_types, unicode_type
				from IPython.utils.traitlets import HasTraits, Any, Unicode

				empty = Parameter.empty

				#-----------------------------------------------------------------------------
				# Classes and Functions
				#-----------------------------------------------------------------------------


				def _matches(o, pattern):
				"""Match a pattern of types in a sequence."""
				if not len(o) == len(pattern):
				return False
				comps = zip(o,pattern)
				return all(isinstance(obj,kind) for obj,kind in comps)


				def _get_min_max_value(min, max, value=None, step=None):
				"""Return min, max, value given input values with possible None."""
				if value is None:
				if not max > min:
				raise ValueError('max must be greater than min: (min={0}, max={1})'.format(min, max))
				value = min + abs(min-max)/2
				value = type(min)(value)
				elif min is None and max is None:
				if value == 0.0:
				min, max, value = 0.0, 1.0, 0.5
				elif value == 0:
				min, max, value = 0, 1, 0
				elif isinstance(value, (int, float)):
				min, max = (-value, 3value) if value > 0 else (3value, -value)
				else:
				raise TypeError('expected a number, got: %r' % value)
				else:
				raise ValueError('unable to infer range, value from: ({0}, {1}, {2})'.format(min, max, value))
				if step is not None:
				# ensure value is on a step
				r = (value - min) % step
				value = value - r
				return min, max, value

				def _widget_abbrev_single_value(o):
				"""Make widgets from single values, which can be used as parameter defaults."""
				if isinstance(o, string_types):
				return TextWidget(value=unicode_type(o))
				elif isinstance(o, dict):
				return DropdownWidget(values=o)
				elif isinstance(o, bool):
				return CheckboxWidget(value=o)
				elif isinstance(o, float):
				min, max, value = _get_min_max_value(None, None, o)
				return FloatSliderWidget(value=o, min=min, max=max)
				elif isinstance(o, int):
				min, max, value = _get_min_max_value(None, None, o)
				return IntSliderWidget(value=o, min=min, max=max)
				else:
				return None

				def _widget_abbrev(o):
				"""Make widgets from abbreviations: single values, lists or tuples."""
				float_or_int = (float, int)
				if isinstance(o, (list, tuple)):
				if o and all(isinstance(x, string_types) for x in o):
				return DropdownWidget(values=[unicode_type(k) for k in o])
				elif _matches(o, (float_or_int, float_or_int)):
				min, max, value = _get_min_max_value(o[0], o[1])
				if all(isinstance(_, int) for _ in o):
				cls = IntSliderWidget
				else:
				cls = FloatSliderWidget
				return cls(value=value, min=min, max=max)
				elif _matches(o, (float_or_int, float_or_int, float_or_int)):
				step = o[2]
				if step <= 0:
				raise ValueError("step must be >= 0, not %r" % step)
				min, max, value = _get_min_max_value(o[0], o[1], step=step)
				if all(isinstance(_, int) for _ in o):
				cls = IntSliderWidget
				else:
				cls = FloatSliderWidget
				return cls(value=value, min=min, max=max, step=step)
				else:
				return _widget_abbrev_single_value(o)

				def _widget_from_abbrev(abbrev, default=empty):
				"""Build a Widget instance given an abbreviation or Widget."""
				if isinstance(abbrev, Widget) or isinstance(abbrev, fixed):
				return abbrev

				widget = _widget_abbrev(abbrev)
				if default is not empty and isinstance(abbrev, (list, tuple, dict)):
				# if it's not a single-value abbreviation,
				# set the initial value from the default
				try:
				widget.value = default
				except Exception:
				# ignore failure to set default
				pass
				if widget is None:
				raise ValueError("%r cannot be transformed to a Widget" % (abbrev,))
				return widget

				def _yield_abbreviations_for_parameter(param, kwargs):
				"""Get an abbreviation for a function parameter."""
				name = param.name
				kind = param.kind
				ann = param.annotation
				default = param.default
				not_found = (name, empty, empty)
				if kind in (Parameter.POSITIONAL_OR_KEYWORD, Parameter.KEYWORD_ONLY):
				if name in kwargs:
				value = kwargs.pop(name)
				elif ann is not empty:
				value = ann
				elif default is not empty:
				value = default
				else:
				yield not_found
				yield (name, value, default)
				elif kind == Parameter.VAR_KEYWORD:
				# In this case name=kwargs and we yield the items in kwargs with their keys.
				for k, v in kwargs.copy().items():
				kwargs.pop(k)
				yield k, v, empty

				def _find_abbreviations(f, kwargs):
				"""Find the abbreviations for a function and kwargs passed to interact."""
				new_kwargs = []
				for param in signature(f).parameters.values():
				for name, value, default in _yield_abbreviations_for_parameter(param, kwargs):
				if value is empty:
				raise ValueError('cannot find widget or abbreviation for argument: {!r}'.format(name))
				new_kwargs.append((name, value, default))
				return new_kwargs

				def _widgets_from_abbreviations(seq):
				"""Given a sequence of (name, abbrev) tuples, return a sequence of Widgets."""
				result = []
				for name, abbrev, default in seq:
				widget = _widget_from_abbrev(abbrev, default)
				widget.description = name
				result.append(widget)
				return result

				def interactive(__interact_f, **kwargs):
				"""Build a group of widgets to interact with a function."""
				f = __interact_f
				co = kwargs.pop('clear_output', True)
				kwargs_widgets = []
				container = ContainerWidget()
				container.result = None
				container.args = []
				container.kwargs = dict()
				kwargs = kwargs.copy()

				new_kwargs = _find_abbreviations(f, kwargs)
				# Before we proceed, let's make sure that the user has passed a set of args+kwargs
				# that will lead to a valid call of the function. This protects against unspecified
				# and doubly-specified arguments.
				getcallargs(f, **{n:v for n,v,_ in new_kwargs})
				# Now build the widgets from the abbreviations.
				kwargs_widgets.extend(_widgets_from_abbreviations(new_kwargs))

				# This has to be done as an assignment, not using container.children.append,
				# so that traitlets notices the update. We skip any objects (such as fixed) that
				# are not DOMWidgets.
				c = [w for w in kwargs_widgets if isinstance(w, DOMWidget)]
				container.children = c

				# Build the callback
				def call_f(name, old, new):
				container.kwargs = {}
				for widget in kwargs_widgets:
				value = widget.value
				container.kwargs[widget.description] = value
				if co:
				clear_output(wait=True)
				try:
				container.result = f(**container.kwargs)
				except Exception as e:
				ip = get_ipython()
				if ip is None:
				container.log.warn("Exception in interact callback: %s", e, exc_info=True)
				else:
				ip.showtraceback()

				# Wire up the widgets
				for widget in kwargs_widgets:
				widget.on_trait_change(call_f, 'value')

				container.on_displayed(lambda _: call_f(None, None, None))

				return container

				def interact(__interact_f=None, **kwargs):
				"""interact(f, **kwargs)

				Interact with a function using widgets."""
				# positional arg support in: https://gist.github.com/8851331
				if __interact_f is not None:
				# This branch handles the cases:
				# 1. interact(f, **kwargs)
				# 2. @interact
				# def f(args, *kwargs):
				# ...
				f = __interact_f
				w = interactive(f, **kwargs)
				f.widget = w
				display(w)
				return f
				else:
				# This branch handles the case:
				# @interact(a=30, b=40)
				# def f(args, *kwargs):
				# ...
				def dec(f):
				w = interactive(f, **kwargs)
				f.widget = w
				display(w)
				return f
				return dec

				class fixed(HasTraits):
				"""A pseudo-widget whose value is fixed and never synced to the client."""
				value = Any(help="Any Python object")
				description = Unicode('', help="Any Python object")
				def __init__(self, value, **kwargs):
				super(fixed, self).__init__(value=value, **kwargs)