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Edit File: widget.py
#!/usr/bin/python # # Urwid basic widget classes # Copyright (C) 2004-2012 Ian Ward # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # Urwid web site: http://excess.org/urwid/ from __future__ import division, print_function from operator import attrgetter from urwid.compat import text_type, with_metaclass from urwid.util import (MetaSuper, decompose_tagmarkup, calc_width, is_wide_char, move_prev_char, move_next_char) from urwid.text_layout import calc_pos, calc_coords, shift_line from urwid import signals from urwid import text_layout from urwid.canvas import (CanvasCache, CompositeCanvas, SolidCanvas, apply_text_layout) from urwid.command_map import (command_map, CURSOR_LEFT, CURSOR_RIGHT, CURSOR_UP, CURSOR_DOWN, CURSOR_MAX_LEFT, CURSOR_MAX_RIGHT) from urwid.split_repr import split_repr, remove_defaults, python3_repr # define some names for these constants to avoid misspellings in the source # and to document the constant strings we are using # Widget sizing methods FLOW = 'flow' BOX = 'box' FIXED = 'fixed' # Text alignment modes LEFT = 'left' RIGHT = 'right' CENTER = 'center' # Filler alignment TOP = 'top' MIDDLE = 'middle' BOTTOM = 'bottom' # Text wrapping modes SPACE = 'space' ANY = 'any' CLIP = 'clip' # Width and Height settings PACK = 'pack' GIVEN = 'given' RELATIVE = 'relative' RELATIVE_100 = (RELATIVE, 100) WEIGHT = 'weight' class WidgetMeta(MetaSuper, signals.MetaSignals): """ Bases: :class:`MetaSuper`, :class:`MetaSignals` Automatic caching of render and rows methods. Class variable *no_cache* is a list of names of methods to not cache automatically. Valid method names for *no_cache* are ``'render'`` and ``'rows'``. Class variable *ignore_focus* if defined and set to ``True`` indicates that the canvas this widget renders is not affected by the focus parameter, so it may be ignored when caching. """ def __init__(cls, name, bases, d): no_cache = d.get("no_cache", []) super(WidgetMeta, cls).__init__(name, bases, d) if "render" in d: if "render" not in no_cache: render_fn = cache_widget_render(cls) else: render_fn = nocache_widget_render(cls) cls.render = render_fn if "rows" in d and "rows" not in no_cache: cls.rows = cache_widget_rows(cls) if "no_cache" in d: del cls.no_cache if "ignore_focus" in d: del cls.ignore_focus class WidgetError(Exception): pass def validate_size(widget, size, canv): """ Raise a WidgetError if a canv does not match size size. """ if (size and size[1:] != (0,) and size[0] != canv.cols()) or \ (len(size)>1 and size[1] != canv.rows()): raise WidgetError("Widget %r rendered (%d x %d) canvas" " when passed size %r!" % (widget, canv.cols(), canv.rows(), size)) def update_wrapper(new_fn, fn): """ Copy as much of the function detail from fn to new_fn as we can. """ try: new_fn.__name__ = fn.__name__ new_fn.__dict__.update(fn.__dict__) new_fn.__doc__ = fn.__doc__ new_fn.__module__ = fn.__module__ except TypeError: pass # python2.3 ignore read-only attributes def cache_widget_render(cls): """ Return a function that wraps the cls.render() method and fetches and stores canvases with CanvasCache. """ ignore_focus = bool(getattr(cls, "ignore_focus", False)) fn = cls.render def cached_render(self, size, focus=False): focus = focus and not ignore_focus canv = CanvasCache.fetch(self, cls, size, focus) if canv: return canv canv = fn(self, size, focus=focus) validate_size(self, size, canv) if canv.widget_info: canv = CompositeCanvas(canv) canv.finalize(self, size, focus) CanvasCache.store(cls, canv) return canv cached_render.original_fn = fn update_wrapper(cached_render, fn) return cached_render def nocache_widget_render(cls): """ Return a function that wraps the cls.render() method and finalizes the canvas that it returns. """ fn = cls.render if hasattr(fn, "original_fn"): fn = fn.original_fn def finalize_render(self, size, focus=False): canv = fn(self, size, focus=focus) if canv.widget_info: canv = CompositeCanvas(canv) validate_size(self, size, canv) canv.finalize(self, size, focus) return canv finalize_render.original_fn = fn update_wrapper(finalize_render, fn) return finalize_render def nocache_widget_render_instance(self): """ Return a function that wraps the cls.render() method and finalizes the canvas that it returns, but does not cache the canvas. """ fn = self.render.original_fn def finalize_render(size, focus=False): canv = fn(self, size, focus=focus) if canv.widget_info: canv = CompositeCanvas(canv) canv.finalize(self, size, focus) return canv finalize_render.original_fn = fn update_wrapper(finalize_render, fn) return finalize_render def cache_widget_rows(cls): """ Return a function that wraps the cls.rows() method and returns rows from the CanvasCache if available. """ ignore_focus = bool(getattr(cls, "ignore_focus", False)) fn = cls.rows def cached_rows(self, size, focus=False): focus = focus and not ignore_focus canv = CanvasCache.fetch(self, cls, size, focus) if canv: return canv.rows() return fn(self, size, focus) update_wrapper(cached_rows, fn) return cached_rows class Widget(with_metaclass(WidgetMeta, object)): """ Widget base class .. attribute:: _selectable :annotation: = False The default :meth:`.selectable` method returns this value. .. attribute:: _sizing :annotation: = frozenset(['flow', 'box', 'fixed']) The default :meth:`.sizing` method returns this value. .. attribute:: _command_map :annotation: = urwid.command_map A shared :class:`CommandMap` instance. May be redefined in subclasses or widget instances. .. method:: render(size, focus=False) .. note:: This method is not implemented in :class:`.Widget` but must be implemented by any concrete subclass :param size: One of the following, *maxcol* and *maxrow* are integers > 0: (*maxcol*, *maxrow*) for box sizing -- the parent chooses the exact size of this widget (*maxcol*,) for flow sizing -- the parent chooses only the number of columns for this widget () for fixed sizing -- this widget is a fixed size which can't be adjusted by the parent :type size: widget size :param focus: set to ``True`` if this widget or one of its children is in focus :type focus: bool :returns: A :class:`Canvas` subclass instance containing the rendered content of this widget :class:`Text` widgets return a :class:`TextCanvas` (arbitrary text and display attributes), :class:`SolidFill` widgets return a :class:`SolidCanvas` (a single character repeated across the whole surface) and container widgets return a :class:`CompositeCanvas` (one or more other canvases arranged arbitrarily). If *focus* is ``False``, the returned canvas may not have a cursor position set. There is some metaclass magic defined in the :class:`Widget` metaclass :class:`WidgetMeta` that causes the result of this method to be cached by :class:`CanvasCache`. Later calls will automatically look up the value in the cache first. As a small optimization the class variable :attr:`ignore_focus` may be defined and set to ``True`` if this widget renders the same canvas regardless of the value of the *focus* parameter. Any time the content of a widget changes it should call :meth:`_invalidate` to remove any cached canvases, or the widget may render the cached canvas instead of creating a new one. .. method:: rows(size, focus=False) .. note:: This method is not implemented in :class:`.Widget` but must be implemented by any flow widget. See :meth:`.sizing`. See :meth:`Widget.render` for parameter details. :returns: The number of rows required for this widget given a number of columns in *size* This is the method flow widgets use to communicate their size to other widgets without having to render a canvas. This should be a quick calculation as this function may be called a number of times in normal operation. If your implementation may take a long time you should add your own caching here. There is some metaclass magic defined in the :class:`Widget` metaclass :class:`WidgetMeta` that causes the result of this function to be retrieved from any canvas cached by :class:`CanvasCache`, so if your widget has been rendered you may not receive calls to this function. The class variable :attr:`ignore_focus` may be defined and set to ``True`` if this widget renders the same size regardless of the value of the *focus* parameter. .. method:: keypress(size, key) .. note:: This method is not implemented in :class:`.Widget` but must be implemented by any selectable widget. See :meth:`.selectable`. :param size: See :meth:`Widget.render` for details :type size: widget size :param key: a single keystroke value; see :ref:`keyboard-input` :type key: bytes or unicode :returns: ``None`` if *key* was handled by this widget or *key* (the same value passed) if *key* was not handled by this widget Container widgets will typically call the :meth:`keypress` method on whichever of their children is set as the focus. The standard widgets use :attr:`_command_map` to determine what action should be performed for a given *key*. You may modify these values to your liking globally, at some level in the widget hierarchy or on individual widgets. See :class:`CommandMap` for the defaults. In your own widgets you may use whatever logic you like: filtering or translating keys, selectively passing along events etc. .. method:: mouse_event(size, event, button, col, row, focus) .. note:: This method is not implemented in :class:`.Widget` but may be implemented by a subclass. Not implementing this method is equivalent to having a method that always returns ``False``. :param size: See :meth:`Widget.render` for details. :type size: widget size :param event: Values such as ``'mouse press'``, ``'ctrl mouse press'``, ``'mouse release'``, ``'meta mouse release'``, ``'mouse drag'``; see :ref:`mouse-input` :type event: mouse event :param button: 1 through 5 for press events, often 0 for release events (which button was released is often not known) :type button: int :param col: Column of the event, 0 is the left edge of this widget :type col: int :param row: Row of the event, 0 it the top row of this widget :type row: int :param focus: Set to ``True`` if this widget or one of its children is in focus :type focus: bool :returns: ``True`` if the event was handled by this widget, ``False`` otherwise Container widgets will typically call the :meth:`mouse_event` method on whichever of their children is at the position (*col*, *row*). .. method:: get_cursor_coords(size) .. note:: This method is not implemented in :class:`.Widget` but must be implemented by any widget that may return cursor coordinates as part of the canvas that :meth:`render` returns. :param size: See :meth:`Widget.render` for details. :type size: widget size :returns: (*col*, *row*) if this widget has a cursor, ``None`` otherwise Return the cursor coordinates (*col*, *row*) of a cursor that will appear as part of the canvas rendered by this widget when in focus, or ``None`` if no cursor is displayed. The :class:`ListBox` widget uses this method to make sure a cursor in the focus widget is not scrolled out of view. It is a separate method to avoid having to render the whole widget while calculating layout. Container widgets will typically call the :meth:`.get_cursor_coords` method on their focus widget. .. method:: get_pref_col(size) .. note:: This method is not implemented in :class:`.Widget` but may be implemented by a subclass. :param size: See :meth:`Widget.render` for details. :type size: widget size :returns: a column number or ``'left'`` for the leftmost available column or ``'right'`` for the rightmost available column Return the preferred column for the cursor to be displayed in this widget. This value might not be the same as the column returned from :meth:`get_cursor_coords`. The :class:`ListBox` and :class:`Pile` widgets call this method on a widget losing focus and use the value returned to call :meth:`.move_cursor_to_coords` on the widget becoming the focus. This allows the focus to move up and down through widgets while keeping the cursor in approximately the same column on screen. .. method:: move_cursor_to_coords(size, col, row) .. note:: This method is not implemented in :class:`.Widget` but may be implemented by a subclass. Not implementing this method is equivalent to having a method that always returns ``False``. :param size: See :meth:`Widget.render` for details. :type size: widget size :param col: new column for the cursor, 0 is the left edge of this widget :type col: int :param row: new row for the cursor, 0 it the top row of this widget :type row: int :returns: ``True`` if the position was set successfully anywhere on *row*, ``False`` otherwise """ _selectable = False _sizing = frozenset([FLOW, BOX, FIXED]) _command_map = command_map def _invalidate(self): """ Mark cached canvases rendered by this widget as dirty so that they will not be used again. """ CanvasCache.invalidate(self) def _emit(self, name, *args): """ Convenience function to emit signals with self as first argument. """ signals.emit_signal(self, name, self, *args) def selectable(self): """ :returns: ``True`` if this is a widget that is designed to take the focus, i.e. it contains something the user might want to interact with, ``False`` otherwise, This default implementation returns :attr:`._selectable`. Subclasses may leave these is if the are not selectable, or if they are always selectable they may set the :attr:`_selectable` class variable to ``True``. If this method returns ``True`` then the :meth:`.keypress` method must be implemented. Returning ``False`` does not guarantee that this widget will never be in focus, only that this widget will usually be skipped over when changing focus. It is still possible for non selectable widgets to have the focus (typically when there are no other selectable widgets visible). """ return self._selectable def sizing(self): """ :returns: A frozenset including one or more of ``'box'``, ``'flow'`` and ``'fixed'``. Default implementation returns the value of :attr:`._sizing`, which for this class includes all three. The sizing modes returned indicate the modes that may be supported by this widget, but is not sufficient to know that using that sizing mode will work. Subclasses should make an effort to remove sizing modes they know will not work given the state of the widget, but many do not yet do this. If a sizing mode is missing from the set then the widget should fail when used in that mode. If ``'flow'`` is among the values returned then the other methods in this widget must be able to accept a single-element tuple (*maxcol*,) to their ``size`` parameter, and the :meth:`rows` method must be defined. If ``'box'`` is among the values returned then the other methods must be able to accept a two-element tuple (*maxcol*, *maxrow*) to their size parameter. If ``'fixed'`` is among the values returned then the other methods must be able to accept an empty tuple () to their size parameter, and the :meth:`pack` method must be defined. """ return self._sizing def pack(self, size, focus=False): """ See :meth:`Widget.render` for parameter details. :returns: A "packed" size (*maxcol*, *maxrow*) for this widget Calculate and return a minimum size where all content could still be displayed. Fixed widgets must implement this method and return their size when ``()`` is passed as the *size* parameter. This default implementation returns the *size* passed, or the *maxcol* passed and the value of :meth:`rows` as the *maxrow* when (*maxcol*,) is passed as the *size* parameter. .. note:: This is a new method that hasn't been fully implemented across the standard widget types. In particular it has not yet been implemented for container widgets. :class:`Text` widgets have implemented this method. You can use :meth:`Text.pack` to calculate the minimum columns and rows required to display a text widget without wrapping, or call it iteratively to calculate the minimum number of columns required to display the text wrapped into a target number of rows. """ if not size: if FIXED in self.sizing(): raise NotImplementedError('Fixed widgets must override' ' Widget.pack()') raise WidgetError('Cannot pack () size, this is not a fixed' ' widget: %s' % repr(self)) elif len(size) == 1: if FLOW in self.sizing(): return size + (self.rows(size, focus),) raise WidgetError('Cannot pack (maxcol,) size, this is not a' ' flow widget: %s' % repr(self)) return size base_widget = property(lambda self:self, doc=""" Read-only property that steps through decoration widgets and returns the one at the base. This default implementation returns self. """) focus = property(lambda self:None, doc=""" Read-only property returning the child widget in focus for container widgets. This default implementation always returns ``None``, indicating that this widget has no children. """) def _not_a_container(self, val=None): raise IndexError( "No focus_position, %r is not a container widget" % self) focus_position = property(_not_a_container, _not_a_container, doc=""" Property for reading and setting the focus position for container widgets. This default implementation raises :exc:`IndexError`, making normal widgets fail the same way accessing :attr:`.focus_position` on an empty container widget would. """) def __repr__(self): """ A friendly __repr__ for widgets, designed to be extended by subclasses with _repr_words and _repr_attr methods. """ return split_repr(self) def _repr_words(self): words = [] if self.selectable(): words = ["selectable"] + words if self.sizing() and self.sizing() != frozenset([FLOW, BOX, FIXED]): sizing_modes = list(self.sizing()) sizing_modes.sort() words.append("/".join(sizing_modes)) return words + ["widget"] def _repr_attrs(self): return {} class FlowWidget(Widget): """ Deprecated. Inherit from Widget and add: _sizing = frozenset(['flow']) at the top of your class definition instead. Base class of widgets that determine their rows from the number of columns available. """ _sizing = frozenset([FLOW]) def rows(self, size, focus=False): """ All flow widgets must implement this function. """ raise NotImplementedError() def render(self, size, focus=False): """ All widgets must implement this function. """ raise NotImplementedError() class BoxWidget(Widget): """ Deprecated. Inherit from Widget and add: _sizing = frozenset(['box']) _selectable = True at the top of your class definition instead. Base class of width and height constrained widgets such as the top level widget attached to the display object """ _selectable = True _sizing = frozenset([BOX]) def render(self, size, focus=False): """ All widgets must implement this function. """ raise NotImplementedError() def fixed_size(size): """ raise ValueError if size != (). Used by FixedWidgets to test size parameter. """ if size != (): raise ValueError("FixedWidget takes only () for size." \ "passed: %r" % (size,)) class FixedWidget(Widget): """ Deprecated. Inherit from Widget and add: _sizing = frozenset(['fixed']) at the top of your class definition instead. Base class of widgets that know their width and height and cannot be resized """ _sizing = frozenset([FIXED]) def render(self, size, focus=False): """ All widgets must implement this function. """ raise NotImplementedError() def pack(self, size=None, focus=False): """ All fixed widgets must implement this function. """ raise NotImplementedError() class Divider(Widget): """ Horizontal divider widget """ _sizing = frozenset([FLOW]) ignore_focus = True def __init__(self,div_char=u" ",top=0,bottom=0): """ :param div_char: character to repeat across line :type div_char: bytes or unicode :param top: number of blank lines above :type top: int :param bottom: number of blank lines below :type bottom: int >>> Divider() <Divider flow widget> >>> Divider(u'-') <Divider flow widget '-'> >>> Divider(u'x', 1, 2) <Divider flow widget 'x' bottom=2 top=1> """ self.__super.__init__() self.div_char = div_char self.top = top self.bottom = bottom def _repr_words(self): return self.__super._repr_words() + [ python3_repr(self.div_char)] * (self.div_char != u" ") def _repr_attrs(self): attrs = dict(self.__super._repr_attrs()) if self.top: attrs['top'] = self.top if self.bottom: attrs['bottom'] = self.bottom return attrs def rows(self, size, focus=False): """ Return the number of lines that will be rendered. >>> Divider().rows((10,)) 1 >>> Divider(u'x', 1, 2).rows((10,)) 4 """ (maxcol,) = size return self.top + 1 + self.bottom def render(self, size, focus=False): """ Render the divider as a canvas and return it. >>> Divider().render((10,)).text # ... = b in Python 3 [...' '] >>> Divider(u'-', top=1).render((10,)).text [...' ', ...'----------'] >>> Divider(u'x', bottom=2).render((5,)).text [...'xxxxx', ...' ', ...' '] """ (maxcol,) = size canv = SolidCanvas(self.div_char, maxcol, 1) canv = CompositeCanvas(canv) if self.top or self.bottom: canv.pad_trim_top_bottom(self.top, self.bottom) return canv class SolidFill(BoxWidget): """ A box widget that fills an area with a single character """ _selectable = False ignore_focus = True def __init__(self, fill_char=" "): """ :param fill_char: character to fill area with :type fill_char: bytes or unicode >>> SolidFill(u'8') <SolidFill box widget '8'> """ self.__super.__init__() self.fill_char = fill_char def _repr_words(self): return self.__super._repr_words() + [python3_repr(self.fill_char)] def render(self, size, focus=False ): """ Render the Fill as a canvas and return it. >>> SolidFill().render((4,2)).text # ... = b in Python 3 [...' ', ...' '] >>> SolidFill('#').render((5,3)).text [...'#####', ...'#####', ...'#####'] """ maxcol, maxrow = size return SolidCanvas(self.fill_char, maxcol, maxrow) class TextError(Exception): pass class Text(Widget): """ a horizontally resizeable text widget """ _sizing = frozenset([FLOW]) ignore_focus = True _repr_content_length_max = 140 def __init__(self, markup, align=LEFT, wrap=SPACE, layout=None): """ :param markup: content of text widget, one of: bytes or unicode text to be displayed (*display attribute*, *text markup*) *text markup* with *display attribute* applied to all parts of *text markup* with no display attribute already applied [*text markup*, *text markup*, ... ] all *text markup* in the list joined together :type markup: :ref:`text-markup` :param align: typically ``'left'``, ``'center'`` or ``'right'`` :type align: text alignment mode :param wrap: typically ``'space'``, ``'any'`` or ``'clip'`` :type wrap: text wrapping mode :param layout: defaults to a shared :class:`StandardTextLayout` instance :type layout: text layout instance >>> Text(u"Hello") <Text flow widget 'Hello'> >>> t = Text(('bold', u"stuff"), 'right', 'any') >>> t <Text flow widget 'stuff' align='right' wrap='any'> >>> print(t.text) stuff >>> t.attrib [('bold', 5)] """ self.__super.__init__() self._cache_maxcol = None self.set_text(markup) self.set_layout(align, wrap, layout) def _repr_words(self): """ Show the text in the repr in python3 format (b prefix for byte strings) and truncate if it's too long """ first = self.__super._repr_words() text = self.get_text()[0] rest = python3_repr(text) if len(rest) > self._repr_content_length_max: rest = (rest[:self._repr_content_length_max * 2 // 3 - 3] + '...' + rest[-self._repr_content_length_max // 3:]) return first + [rest] def _repr_attrs(self): attrs = dict(self.__super._repr_attrs(), align=self._align_mode, wrap=self._wrap_mode) return remove_defaults(attrs, Text.__init__) def _invalidate(self): self._cache_maxcol = None self.__super._invalidate() def set_text(self,markup): """ Set content of text widget. :param markup: see :class:`Text` for description. :type markup: text markup >>> t = Text(u"foo") >>> print(t.text) foo >>> t.set_text(u"bar") >>> print(t.text) bar >>> t.text = u"baz" # not supported because text stores text but set_text() takes markup Traceback (most recent call last): AttributeError: can't set attribute """ self._text, self._attrib = decompose_tagmarkup(markup) self._invalidate() def get_text(self): """ :returns: (*text*, *display attributes*) *text* complete bytes/unicode content of text widget *display attributes* run length encoded display attributes for *text*, eg. ``[('attr1', 10), ('attr2', 5)]`` >>> Text(u"Hello").get_text() # ... = u in Python 2 (...'Hello', []) >>> Text(('bright', u"Headline")).get_text() (...'Headline', [('bright', 8)]) >>> Text([('a', u"one"), u"two", ('b', u"three")]).get_text() (...'onetwothree', [('a', 3), (None, 3), ('b', 5)]) """ return self._text, self._attrib text = property(lambda self:self.get_text()[0], doc=""" Read-only property returning the complete bytes/unicode content of this widget """) attrib = property(lambda self:self.get_text()[1], doc=""" Read-only property returning the run-length encoded display attributes of this widget """) def set_align_mode(self, mode): """ Set text alignment mode. Supported modes depend on text layout object in use but defaults to a :class:`StandardTextLayout` instance :param mode: typically ``'left'``, ``'center'`` or ``'right'`` :type mode: text alignment mode >>> t = Text(u"word") >>> t.set_align_mode('right') >>> t.align 'right' >>> t.render((10,)).text # ... = b in Python 3 [...' word'] >>> t.align = 'center' >>> t.render((10,)).text [...' word '] >>> t.align = 'somewhere' Traceback (most recent call last): TextError: Alignment mode 'somewhere' not supported. """ if not self.layout.supports_align_mode(mode): raise TextError("Alignment mode %r not supported."% (mode,)) self._align_mode = mode self._invalidate() def set_wrap_mode(self, mode): """ Set text wrapping mode. Supported modes depend on text layout object in use but defaults to a :class:`StandardTextLayout` instance :param mode: typically ``'space'``, ``'any'`` or ``'clip'`` :type mode: text wrapping mode >>> t = Text(u"some words") >>> t.render((6,)).text # ... = b in Python 3 [...'some ', ...'words '] >>> t.set_wrap_mode('clip') >>> t.wrap 'clip' >>> t.render((6,)).text [...'some w'] >>> t.wrap = 'any' # Urwid 0.9.9 or later >>> t.render((6,)).text [...'some w', ...'ords '] >>> t.wrap = 'somehow' Traceback (most recent call last): TextError: Wrap mode 'somehow' not supported. """ if not self.layout.supports_wrap_mode(mode): raise TextError("Wrap mode %r not supported."%(mode,)) self._wrap_mode = mode self._invalidate() def set_layout(self, align, wrap, layout=None): """ Set the text layout object, alignment and wrapping modes at the same time. :type align: text alignment mode :param wrap: typically 'space', 'any' or 'clip' :type wrap: text wrapping mode :param layout: defaults to a shared :class:`StandardTextLayout` instance :type layout: text layout instance >>> t = Text(u"hi") >>> t.set_layout('right', 'clip') >>> t <Text flow widget 'hi' align='right' wrap='clip'> """ if layout is None: layout = text_layout.default_layout self._layout = layout self.set_align_mode(align) self.set_wrap_mode(wrap) align = property(lambda self:self._align_mode, set_align_mode) wrap = property(lambda self:self._wrap_mode, set_wrap_mode) layout = property(lambda self:self._layout) def render(self, size, focus=False): """ Render contents with wrapping and alignment. Return canvas. See :meth:`Widget.render` for parameter details. >>> Text(u"important things").render((18,)).text # ... = b in Python 3 [...'important things '] >>> Text(u"important things").render((11,)).text [...'important ', ...'things '] """ (maxcol,) = size text, attr = self.get_text() #assert isinstance(text, unicode) trans = self.get_line_translation( maxcol, (text,attr) ) return apply_text_layout(text, attr, trans, maxcol) def rows(self, size, focus=False): """ Return the number of rows the rendered text requires. See :meth:`Widget.rows` for parameter details. >>> Text(u"important things").rows((18,)) 1 >>> Text(u"important things").rows((11,)) 2 """ (maxcol,) = size return len(self.get_line_translation(maxcol)) def get_line_translation(self, maxcol, ta=None): """ Return layout structure used to map self.text to a canvas. This method is used internally, but may be useful for debugging custom layout classes. :param maxcol: columns available for display :type maxcol: int :param ta: ``None`` or the (*text*, *display attributes*) tuple returned from :meth:`.get_text` :type ta: text and display attributes """ if not self._cache_maxcol or self._cache_maxcol != maxcol: self._update_cache_translation(maxcol, ta) return self._cache_translation def _update_cache_translation(self,maxcol, ta): if ta: text, attr = ta else: text, attr = self.get_text() self._cache_maxcol = maxcol self._cache_translation = self._calc_line_translation( text, maxcol ) def _calc_line_translation(self, text, maxcol ): return self.layout.layout( text, self._cache_maxcol, self._align_mode, self._wrap_mode ) def pack(self, size=None, focus=False): """ Return the number of screen columns and rows required for this Text widget to be displayed without wrapping or clipping, as a single element tuple. :param size: ``None`` for unlimited screen columns or (*maxcol*,) to specify a maximum column size :type size: widget size >>> Text(u"important things").pack() (16, 1) >>> Text(u"important things").pack((15,)) (9, 2) >>> Text(u"important things").pack((8,)) (8, 2) """ text, attr = self.get_text() if size is not None: (maxcol,) = size if not hasattr(self.layout, "pack"): return size trans = self.get_line_translation( maxcol, (text,attr)) cols = self.layout.pack( maxcol, trans ) return (cols, len(trans)) i = 0 cols = 0 while i < len(text): j = text.find('\n', i) if j == -1: j = len(text) c = calc_width(text, i, j) if c>cols: cols = c i = j+1 return (cols, text.count('\n') + 1) class EditError(TextError): pass class Edit(Text): """ Text editing widget implements cursor movement, text insertion and deletion. A caption may prefix the editing area. Uses text class for text layout. Users of this class may listen for ``"change"`` or ``"postchange"`` events. See :func:``connect_signal``. * ``"change"`` is sent just before the value of edit_text changes. It receives the new text as an argument. Note that ``"change"`` cannot change the text in question as edit_text changes the text afterwards. * ``"postchange"`` is sent after the value of edit_text changes. It receives the old value of the text as an argument and thus is appropriate for changing the text. It is possible for a ``"postchange"`` event handler to get into a loop of changing the text and then being called when the event is re-emitted. It is up to the event handler to guard against this case (for instance, by not changing the text if it is signaled for for text that it has already changed once). """ # (this variable is picked up by the MetaSignals metaclass) signals = ["change", "postchange"] def valid_char(self, ch): """ Filter for text that may be entered into this widget by the user :param ch: character to be inserted :type ch: bytes or unicode This implementation returns True for all printable characters. """ return is_wide_char(ch,0) or (len(ch)==1 and ord(ch) >= 32) def selectable(self): return True def __init__(self, caption=u"", edit_text=u"", multiline=False, align=LEFT, wrap=SPACE, allow_tab=False, edit_pos=None, layout=None, mask=None): """ :param caption: markup for caption preceding edit_text, see :class:`Text` for description of text markup. :type caption: text markup :param edit_text: initial text for editing, type (bytes or unicode) must match the text in the caption :type edit_text: bytes or unicode :param multiline: True: 'enter' inserts newline False: return it :type multiline: bool :param align: typically 'left', 'center' or 'right' :type align: text alignment mode :param wrap: typically 'space', 'any' or 'clip' :type wrap: text wrapping mode :param allow_tab: True: 'tab' inserts 1-8 spaces False: return it :type allow_tab: bool :param edit_pos: initial position for cursor, None:end of edit_text :type edit_pos: int :param layout: defaults to a shared :class:`StandardTextLayout` instance :type layout: text layout instance :param mask: hide text entered with this character, None:disable mask :type mask: bytes or unicode >>> Edit() <Edit selectable flow widget '' edit_pos=0> >>> Edit(u"Y/n? ", u"yes") <Edit selectable flow widget 'yes' caption='Y/n? ' edit_pos=3> >>> Edit(u"Name ", u"Smith", edit_pos=1) <Edit selectable flow widget 'Smith' caption='Name ' edit_pos=1> >>> Edit(u"", u"3.14", align='right') <Edit selectable flow widget '3.14' align='right' edit_pos=4> """ self.__super.__init__("", align, wrap, layout) self.multiline = multiline self.allow_tab = allow_tab self._edit_pos = 0 self.set_caption(caption) self._edit_text = '' self.set_edit_text(edit_text) if edit_pos is None: edit_pos = len(edit_text) self.set_edit_pos(edit_pos) self.set_mask(mask) self._shift_view_to_cursor = False def _repr_words(self): return self.__super._repr_words()[:-1] + [ python3_repr(self._edit_text)] + [ 'caption=' + python3_repr(self._caption)] * bool(self._caption) + [ 'multiline'] * (self.multiline is True) def _repr_attrs(self): attrs = dict(self.__super._repr_attrs(), edit_pos=self._edit_pos) return remove_defaults(attrs, Edit.__init__) def get_text(self): """ Returns ``(text, display attributes)``. See :meth:`Text.get_text` for details. Text returned includes the caption and edit_text, possibly masked. >>> Edit(u"What? ","oh, nothing.").get_text() # ... = u in Python 2 (...'What? oh, nothing.', []) >>> Edit(('bright',u"user@host:~$ "),"ls").get_text() (...'user@host:~$ ls', [('bright', 13)]) >>> Edit(u"password:", u"seekrit", mask=u"*").get_text() (...'password:*******', []) """ if self._mask is None: return self._caption + self._edit_text, self._attrib else: return self._caption + (self._mask * len(self._edit_text)), self._attrib def set_text(self, markup): """ Not supported by Edit widget. >>> Edit().set_text("test") Traceback (most recent call last): EditError: set_text() not supported. Use set_caption() or set_edit_text() instead. """ # FIXME: this smells. reimplement Edit as a WidgetWrap subclass to # clean this up # hack to let Text.__init__() work if not hasattr(self, '_text') and markup == "": self._text = None return raise EditError("set_text() not supported. Use set_caption()" " or set_edit_text() instead.") def get_pref_col(self, size): """ Return the preferred column for the cursor, or the current cursor x value. May also return ``'left'`` or ``'right'`` to indicate the leftmost or rightmost column available. This method is used internally and by other widgets when moving the cursor up or down between widgets so that the column selected is one that the user would expect. >>> size = (10,) >>> Edit().get_pref_col(size) 0 >>> e = Edit(u"", u"word") >>> e.get_pref_col(size) 4 >>> e.keypress(size, 'left') >>> e.get_pref_col(size) 3 >>> e.keypress(size, 'end') >>> e.get_pref_col(size) 'right' >>> e = Edit(u"", u"2\\nwords") >>> e.keypress(size, 'left') >>> e.keypress(size, 'up') >>> e.get_pref_col(size) 4 >>> e.keypress(size, 'left') >>> e.get_pref_col(size) 0 """ (maxcol,) = size pref_col, then_maxcol = self.pref_col_maxcol if then_maxcol != maxcol: return self.get_cursor_coords((maxcol,))[0] else: return pref_col def update_text(self): """ No longer supported. >>> Edit().update_text() Traceback (most recent call last): EditError: update_text() has been removed. Use set_caption() or set_edit_text() instead. """ raise EditError("update_text() has been removed. Use " "set_caption() or set_edit_text() instead.") def set_caption(self, caption): """ Set the caption markup for this widget. :param caption: markup for caption preceding edit_text, see :meth:`Text.__init__` for description of text markup. >>> e = Edit("") >>> e.set_caption("cap1") >>> print(e.caption) cap1 >>> e.set_caption(('bold', "cap2")) >>> print(e.caption) cap2 >>> e.attrib [('bold', 4)] >>> e.caption = "cap3" # not supported because caption stores text but set_caption() takes markup Traceback (most recent call last): AttributeError: can't set attribute """ self._caption, self._attrib = decompose_tagmarkup(caption) self._invalidate() caption = property(lambda self:self._caption, doc=""" Read-only property returning the caption for this widget. """) def set_edit_pos(self, pos): """ Set the cursor position with a self.edit_text offset. Clips pos to [0, len(edit_text)]. :param pos: cursor position :type pos: int >>> e = Edit(u"", u"word") >>> e.edit_pos 4 >>> e.set_edit_pos(2) >>> e.edit_pos 2 >>> e.edit_pos = -1 # Urwid 0.9.9 or later >>> e.edit_pos 0 >>> e.edit_pos = 20 >>> e.edit_pos 4 """ if pos < 0: pos = 0 if pos > len(self._edit_text): pos = len(self._edit_text) self.highlight = None self.pref_col_maxcol = None, None self._edit_pos = pos self._invalidate() edit_pos = property(lambda self:self._edit_pos, set_edit_pos, doc=""" Property controlling the edit position for this widget. """) def set_mask(self, mask): """ Set the character for masking text away. :param mask: hide text entered with this character, None:disable mask :type mask: bytes or unicode """ self._mask = mask self._invalidate() def set_edit_text(self, text): """ Set the edit text for this widget. :param text: text for editing, type (bytes or unicode) must match the text in the caption :type text: bytes or unicode >>> e = Edit() >>> e.set_edit_text(u"yes") >>> print(e.edit_text) yes >>> e <Edit selectable flow widget 'yes' edit_pos=0> >>> e.edit_text = u"no" # Urwid 0.9.9 or later >>> print(e.edit_text) no """ text = self._normalize_to_caption(text) self.highlight = None self._emit("change", text) old_text = self._edit_text self._edit_text = text if self.edit_pos > len(text): self.edit_pos = len(text) self._emit("postchange", old_text) self._invalidate() def get_edit_text(self): """ Return the edit text for this widget. >>> e = Edit(u"What? ", u"oh, nothing.") >>> print(e.get_edit_text()) oh, nothing. >>> print(e.edit_text) oh, nothing. """ return self._edit_text edit_text = property(get_edit_text, set_edit_text, doc=""" Property controlling the edit text for this widget. """) def insert_text(self, text): """ Insert text at the cursor position and update cursor. This method is used by the keypress() method when inserting one or more characters into edit_text. :param text: text for inserting, type (bytes or unicode) must match the text in the caption :type text: bytes or unicode >>> e = Edit(u"", u"42") >>> e.insert_text(u".5") >>> e <Edit selectable flow widget '42.5' edit_pos=4> >>> e.set_edit_pos(2) >>> e.insert_text(u"a") >>> print(e.edit_text) 42a.5 """ text = self._normalize_to_caption(text) result_text, result_pos = self.insert_text_result(text) self.set_edit_text(result_text) self.set_edit_pos(result_pos) self.highlight = None def _normalize_to_caption(self, text): """ Return text converted to the same type as self.caption (bytes or unicode) """ tu = isinstance(text, text_type) cu = isinstance(self._caption, text_type) if tu == cu: return text if tu: return text.encode('ascii') # follow python2's implicit conversion return text.decode('ascii') def insert_text_result(self, text): """ Return result of insert_text(text) without actually performing the insertion. Handy for pre-validation. :param text: text for inserting, type (bytes or unicode) must match the text in the caption :type text: bytes or unicode """ # if there's highlighted text, it'll get replaced by the new text text = self._normalize_to_caption(text) if self.highlight: start, stop = self.highlight btext, etext = self.edit_text[:start], self.edit_text[stop:] result_text = btext + etext result_pos = start else: result_text = self.edit_text result_pos = self.edit_pos try: result_text = (result_text[:result_pos] + text + result_text[result_pos:]) except: assert 0, repr((self.edit_text, result_text, text)) result_pos += len(text) return (result_text, result_pos) def keypress(self, size, key): """ Handle editing keystrokes, return others. >>> e, size = Edit(), (20,) >>> e.keypress(size, 'x') >>> e.keypress(size, 'left') >>> e.keypress(size, '1') >>> print(e.edit_text) 1x >>> e.keypress(size, 'backspace') >>> e.keypress(size, 'end') >>> e.keypress(size, '2') >>> print(e.edit_text) x2 >>> e.keypress(size, 'shift f1') 'shift f1' """ (maxcol,) = size p = self.edit_pos if self.valid_char(key): if (isinstance(key, text_type) and not isinstance(self._caption, text_type)): # screen is sending us unicode input, must be using utf-8 # encoding because that's all we support, so convert it # to bytes to match our caption's type key = key.encode('utf-8') self.insert_text(key) elif key=="tab" and self.allow_tab: key = " "*(8-(self.edit_pos%8)) self.insert_text(key) elif key=="enter" and self.multiline: key = "\n" self.insert_text(key) elif self._command_map[key] == CURSOR_LEFT: if p==0: return key p = move_prev_char(self.edit_text,0,p) self.set_edit_pos(p) elif self._command_map[key] == CURSOR_RIGHT: if p >= len(self.edit_text): return key p = move_next_char(self.edit_text,p,len(self.edit_text)) self.set_edit_pos(p) elif self._command_map[key] in (CURSOR_UP, CURSOR_DOWN): self.highlight = None x,y = self.get_cursor_coords((maxcol,)) pref_col = self.get_pref_col((maxcol,)) assert pref_col is not None #if pref_col is None: # pref_col = x if self._command_map[key] == CURSOR_UP: y -= 1 else: y += 1 if not self.move_cursor_to_coords((maxcol,),pref_col,y): return key elif key=="backspace": self.pref_col_maxcol = None, None if not self._delete_highlighted(): if p == 0: return key p = move_prev_char(self.edit_text,0,p) self.set_edit_text( self.edit_text[:p] + self.edit_text[self.edit_pos:] ) self.set_edit_pos( p ) elif key=="delete": self.pref_col_maxcol = None, None if not self._delete_highlighted(): if p >= len(self.edit_text): return key p = move_next_char(self.edit_text,p,len(self.edit_text)) self.set_edit_text( self.edit_text[:self.edit_pos] + self.edit_text[p:] ) elif self._command_map[key] in (CURSOR_MAX_LEFT, CURSOR_MAX_RIGHT): self.highlight = None self.pref_col_maxcol = None, None x,y = self.get_cursor_coords((maxcol,)) if self._command_map[key] == CURSOR_MAX_LEFT: self.move_cursor_to_coords((maxcol,), LEFT, y) else: self.move_cursor_to_coords((maxcol,), RIGHT, y) return else: # key wasn't handled return key def move_cursor_to_coords(self, size, x, y): """ Set the cursor position with (x,y) coordinates. Returns True if move succeeded, False otherwise. >>> size = (10,) >>> e = Edit("","edit\\ntext") >>> e.move_cursor_to_coords(size, 5, 0) True >>> e.edit_pos 4 >>> e.move_cursor_to_coords(size, 5, 3) False >>> e.move_cursor_to_coords(size, 0, 1) True >>> e.edit_pos 5 """ (maxcol,) = size trans = self.get_line_translation(maxcol) top_x, top_y = self.position_coords(maxcol, 0) if y < top_y or y >= len(trans): return False pos = calc_pos( self.get_text()[0], trans, x, y ) e_pos = pos - len(self.caption) if e_pos < 0: e_pos = 0 if e_pos > len(self.edit_text): e_pos = len(self.edit_text) self.edit_pos = e_pos self.pref_col_maxcol = x, maxcol self._invalidate() return True def mouse_event(self, size, event, button, x, y, focus): """ Move the cursor to the location clicked for button 1. >>> size = (20,) >>> e = Edit("","words here") >>> e.mouse_event(size, 'mouse press', 1, 2, 0, True) True >>> e.edit_pos 2 """ (maxcol,) = size if button==1: return self.move_cursor_to_coords( (maxcol,), x, y ) def _delete_highlighted(self): """ Delete all highlighted text and update cursor position, if any text is highlighted. """ if not self.highlight: return start, stop = self.highlight btext, etext = self.edit_text[:start], self.edit_text[stop:] self.set_edit_text( btext + etext ) self.edit_pos = start self.highlight = None return True def render(self, size, focus=False): """ Render edit widget and return canvas. Include cursor when in focus. >>> c = Edit("? ","yes").render((10,), focus=True) >>> c.text # ... = b in Python 3 [...'? yes '] >>> c.cursor (5, 0) """ (maxcol,) = size self._shift_view_to_cursor = bool(focus) canv = Text.render(self,(maxcol,)) if focus: canv = CompositeCanvas(canv) canv.cursor = self.get_cursor_coords((maxcol,)) # .. will need to FIXME if I want highlight to work again #if self.highlight: # hstart, hstop = self.highlight_coords() # d.coords['highlight'] = [ hstart, hstop ] return canv def get_line_translation(self, maxcol, ta=None ): trans = Text.get_line_translation(self, maxcol, ta) if not self._shift_view_to_cursor: return trans text, ignore = self.get_text() x,y = calc_coords( text, trans, self.edit_pos + len(self.caption) ) if x < 0: return ( trans[:y] + [shift_line(trans[y],-x)] + trans[y+1:] ) elif x >= maxcol: return ( trans[:y] + [shift_line(trans[y],-(x-maxcol+1))] + trans[y+1:] ) return trans def get_cursor_coords(self, size): """ Return the (*x*, *y*) coordinates of cursor within widget. >>> Edit("? ","yes").get_cursor_coords((10,)) (5, 0) """ (maxcol,) = size self._shift_view_to_cursor = True return self.position_coords(maxcol,self.edit_pos) def position_coords(self,maxcol,pos): """ Return (*x*, *y*) coordinates for an offset into self.edit_text. """ p = pos + len(self.caption) trans = self.get_line_translation(maxcol) x,y = calc_coords(self.get_text()[0], trans,p) return x,y class IntEdit(Edit): """Edit widget for integer values""" def valid_char(self, ch): """ Return true for decimal digits. """ return len(ch)==1 and ch in "0123456789" def __init__(self,caption="",default=None): """ caption -- caption markup default -- default edit value >>> IntEdit(u"", 42) <IntEdit selectable flow widget '42' edit_pos=2> """ if default is not None: val = str(default) else: val = "" self.__super.__init__(caption,val) def keypress(self, size, key): """ Handle editing keystrokes. Remove leading zeros. >>> e, size = IntEdit(u"", 5002), (10,) >>> e.keypress(size, 'home') >>> e.keypress(size, 'delete') >>> print(e.edit_text) 002 >>> e.keypress(size, 'end') >>> print(e.edit_text) 2 """ (maxcol,) = size unhandled = Edit.keypress(self,(maxcol,),key) if not unhandled: # trim leading zeros while self.edit_pos > 0 and self.edit_text[:1] == "0": self.set_edit_pos( self.edit_pos - 1) self.set_edit_text(self.edit_text[1:]) return unhandled def value(self): """ Return the numeric value of self.edit_text. >>> e, size = IntEdit(), (10,) >>> e.keypress(size, '5') >>> e.keypress(size, '1') >>> e.value() == 51 True """ if self.edit_text: return int(self.edit_text) else: return 0 def delegate_to_widget_mixin(attribute_name): """ Return a mixin class that delegates all standard widget methods to an attribute given by attribute_name. This mixin is designed to be used as a superclass of another widget. """ # FIXME: this is so common, let's add proper support for it # when layout and rendering are separated get_delegate = attrgetter(attribute_name) class DelegateToWidgetMixin(Widget): no_cache = ["rows"] # crufty metaclass work-around def render(self, size, focus=False): canv = get_delegate(self).render(size, focus=focus) return CompositeCanvas(canv) selectable = property(lambda self:get_delegate(self).selectable) get_cursor_coords = property( lambda self:get_delegate(self).get_cursor_coords) get_pref_col = property(lambda self:get_delegate(self).get_pref_col) keypress = property(lambda self:get_delegate(self).keypress) move_cursor_to_coords = property( lambda self:get_delegate(self).move_cursor_to_coords) rows = property(lambda self:get_delegate(self).rows) mouse_event = property(lambda self:get_delegate(self).mouse_event) sizing = property(lambda self:get_delegate(self).sizing) pack = property(lambda self:get_delegate(self).pack) return DelegateToWidgetMixin class WidgetWrapError(Exception): pass class WidgetWrap(delegate_to_widget_mixin('_wrapped_widget'), Widget): def __init__(self, w): """ w -- widget to wrap, stored as self._w This object will pass the functions defined in Widget interface definition to self._w. The purpose of this widget is to provide a base class for widgets that compose other widgets for their display and behaviour. The details of that composition should not affect users of the subclass. The subclass may decide to expose some of the wrapped widgets by behaving like a ContainerWidget or WidgetDecoration, or it may hide them from outside access. """ self._wrapped_widget = w def _set_w(self, w): """ Change the wrapped widget. This is meant to be called only by subclasses. >>> size = (10,) >>> ww = WidgetWrap(Edit("hello? ","hi")) >>> ww.render(size).text # ... = b in Python 3 [...'hello? hi '] >>> ww.selectable() True >>> ww._w = Text("goodbye") # calls _set_w() >>> ww.render(size).text [...'goodbye '] >>> ww.selectable() False """ self._wrapped_widget = w self._invalidate() _w = property(lambda self:self._wrapped_widget, _set_w) def _raise_old_name_error(self, val=None): raise WidgetWrapError("The WidgetWrap.w member variable has " "been renamed to WidgetWrap._w (not intended for use " "outside the class and its subclasses). " "Please update your code to use self._w " "instead of self.w.") w = property(_raise_old_name_error, _raise_old_name_error) def _test(): import doctest doctest.testmod() if __name__=='__main__': _test()