#!/usr/bin/python # # Urwid widget decoration 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 urwid.util import int_scale from urwid.widget import (Widget, WidgetError, BOX, FLOW, LEFT, CENTER, RIGHT, PACK, CLIP, GIVEN, RELATIVE, RELATIVE_100, TOP, MIDDLE, BOTTOM, delegate_to_widget_mixin) from urwid.split_repr import remove_defaults from urwid.canvas import CompositeCanvas, SolidCanvas from urwid.widget import Divider, Edit, Text, SolidFill # doctests class WidgetDecoration(Widget): # "decorator" was already taken """ original_widget -- the widget being decorated This is a base class for decoration widgets, widgets that contain one or more widgets and only ever have a single focus. This type of widget will affect the display or behaviour of the original_widget but it is not part of determining a chain of focus. Don't actually do this -- use a WidgetDecoration subclass instead, these are not real widgets: >>> WidgetDecoration(Text(u"hi")) > """ def __init__(self, original_widget): self._original_widget = original_widget def _repr_words(self): return self.__super._repr_words() + [repr(self._original_widget)] def _get_original_widget(self): return self._original_widget def _set_original_widget(self, original_widget): self._original_widget = original_widget self._invalidate() original_widget = property(_get_original_widget, _set_original_widget) def _get_base_widget(self): """ Return the widget without decorations. If there is only one Decoration then this is the same as original_widget. >>> t = Text('hello') >>> wd1 = WidgetDecoration(t) >>> wd2 = WidgetDecoration(wd1) >>> wd3 = WidgetDecoration(wd2) >>> wd3.original_widget is wd2 True >>> wd3.base_widget is t True """ w = self while hasattr(w, '_original_widget'): w = w._original_widget return w base_widget = property(_get_base_widget) def selectable(self): return self._original_widget.selectable() def sizing(self): return self._original_widget.sizing() class WidgetPlaceholder(delegate_to_widget_mixin('_original_widget'), WidgetDecoration): """ This is a do-nothing decoration widget that can be used for swapping between widgets without modifying the container of this widget. This can be useful for making an interface with a number of distinct pages or for showing and hiding menu or status bars. The widget displayed is stored as the self.original_widget property and can be changed by assigning a new widget to it. """ pass class AttrMapError(WidgetError): pass class AttrMap(delegate_to_widget_mixin('_original_widget'), WidgetDecoration): """ AttrMap is a decoration that maps one set of attributes to another. This object will pass all function calls and variable references to the wrapped widget. """ def __init__(self, w, attr_map, focus_map=None): """ :param w: widget to wrap (stored as self.original_widget) :type w: widget :param attr_map: attribute to apply to *w*, or dict of old display attribute: new display attribute mappings :type attr_map: display attribute or dict :param focus_map: attribute to apply when in focus or dict of old display attribute: new display attribute mappings; if ``None`` use *attr* :type focus_map: display attribute or dict >>> AttrMap(Divider(u"!"), 'bright') attr_map={None: 'bright'}> >>> AttrMap(Edit(), 'notfocus', 'focus') attr_map={None: 'notfocus'} focus_map={None: 'focus'}> >>> size = (5,) >>> am = AttrMap(Text(u"hi"), 'greeting', 'fgreet') >>> am.render(size, focus=False).content().next() # ... = b in Python 3 [('greeting', None, ...'hi ')] >>> am.render(size, focus=True).content().next() [('fgreet', None, ...'hi ')] >>> am2 = AttrMap(Text(('word', u"hi")), {'word':'greeting', None:'bg'}) >>> am2 attr_map={'word': 'greeting', None: 'bg'}> >>> am2.render(size).content().next() [('greeting', None, ...'hi'), ('bg', None, ...' ')] """ self.__super.__init__(w) if type(attr_map) != dict: self.set_attr_map({None: attr_map}) else: self.set_attr_map(attr_map) if focus_map is not None and type(focus_map) != dict: self.set_focus_map({None: focus_map}) else: self.set_focus_map(focus_map) def _repr_attrs(self): # only include the focus_attr when it takes effect (not None) d = dict(self.__super._repr_attrs(), attr_map=self._attr_map) if self._focus_map is not None: d['focus_map'] = self._focus_map return d def get_attr_map(self): # make a copy so ours is not accidentally modified # FIXME: a dictionary that detects modifications would be better return dict(self._attr_map) def set_attr_map(self, attr_map): """ Set the attribute mapping dictionary {from_attr: to_attr, ...} Note this function does not accept a single attribute the way the constructor does. You must specify {None: attribute} instead. >>> w = AttrMap(Text(u"hi"), None) >>> w.set_attr_map({'a':'b'}) >>> w attr_map={'a': 'b'}> """ for from_attr, to_attr in attr_map.items(): if not from_attr.__hash__ or not to_attr.__hash__: raise AttrMapError("%r:%r attribute mapping is invalid. " "Attributes must be hashable" % (from_attr, to_attr)) self._attr_map = attr_map self._invalidate() attr_map = property(get_attr_map, set_attr_map) def get_focus_map(self): # make a copy so ours is not accidentally modified # FIXME: a dictionary that detects modifications would be better if self._focus_map: return dict(self._focus_map) def set_focus_map(self, focus_map): """ Set the focus attribute mapping dictionary {from_attr: to_attr, ...} If None this widget will use the attr mapping instead (no change when in focus). Note this function does not accept a single attribute the way the constructor does. You must specify {None: attribute} instead. >>> w = AttrMap(Text(u"hi"), {}) >>> w.set_focus_map({'a':'b'}) >>> w attr_map={} focus_map={'a': 'b'}> >>> w.set_focus_map(None) >>> w attr_map={}> """ if focus_map is not None: for from_attr, to_attr in focus_map.items(): if not from_attr.__hash__ or not to_attr.__hash__: raise AttrMapError("%r:%r attribute mapping is invalid. " "Attributes must be hashable" % (from_attr, to_attr)) self._focus_map = focus_map self._invalidate() focus_map = property(get_focus_map, set_focus_map) def render(self, size, focus=False): """ Render wrapped widget and apply attribute. Return canvas. """ attr_map = self._attr_map if focus and self._focus_map is not None: attr_map = self._focus_map canv = self._original_widget.render(size, focus=focus) canv = CompositeCanvas(canv) canv.fill_attr_apply(attr_map) return canv class AttrWrap(AttrMap): def __init__(self, w, attr, focus_attr=None): """ w -- widget to wrap (stored as self.original_widget) attr -- attribute to apply to w focus_attr -- attribute to apply when in focus, if None use attr This widget is a special case of the new AttrMap widget, and it will pass all function calls and variable references to the wrapped widget. This class is maintained for backwards compatibility only, new code should use AttrMap instead. >>> AttrWrap(Divider(u"!"), 'bright') attr='bright'> >>> AttrWrap(Edit(), 'notfocus', 'focus') attr='notfocus' focus_attr='focus'> >>> size = (5,) >>> aw = AttrWrap(Text(u"hi"), 'greeting', 'fgreet') >>> aw.render(size, focus=False).content().next() [('greeting', None, ...'hi ')] >>> aw.render(size, focus=True).content().next() [('fgreet', None, ...'hi ')] """ self.__super.__init__(w, attr, focus_attr) def _repr_attrs(self): # only include the focus_attr when it takes effect (not None) d = dict(self.__super._repr_attrs(), attr=self.attr) del d['attr_map'] if 'focus_map' in d: del d['focus_map'] if self.focus_attr is not None: d['focus_attr'] = self.focus_attr return d # backwards compatibility, widget used to be stored as w get_w = WidgetDecoration._get_original_widget set_w = WidgetDecoration._set_original_widget w = property(get_w, set_w) def get_attr(self): return self.attr_map[None] def set_attr(self, attr): """ Set the attribute to apply to the wrapped widget >> w = AttrWrap(Divider("-"), None) >> w.set_attr('new_attr') >> w attr='new_attr'> """ self.set_attr_map({None: attr}) attr = property(get_attr, set_attr) def get_focus_attr(self): focus_map = self.focus_map if focus_map: return focus_map[None] def set_focus_attr(self, focus_attr): """ Set the attribute to apply to the wapped widget when it is in focus If None this widget will use the attr instead (no change when in focus). >> w = AttrWrap(Divider("-"), 'old') >> w.set_focus_attr('new_attr') >> w attr='old' focus_attr='new_attr'> >> w.set_focus_attr(None) >> w attr='old'> """ self.set_focus_map({None: focus_attr}) focus_attr = property(get_focus_attr, set_focus_attr) def __getattr__(self,name): """ Call getattr on wrapped widget. This has been the longstanding behaviour of AttrWrap, but is discouraged. New code should be using AttrMap and .base_widget or .original_widget instead. """ return getattr(self._original_widget, name) def sizing(self): return self._original_widget.sizing() class BoxAdapterError(Exception): pass class BoxAdapter(WidgetDecoration): """ Adapter for using a box widget where a flow widget would usually go """ no_cache = ["rows"] def __init__(self, box_widget, height): """ Create a flow widget that contains a box widget :param box_widget: box widget to wrap :type box_widget: Widget :param height: number of rows for box widget :type height: int >>> BoxAdapter(SolidFill(u"x"), 5) # 5-rows of x's height=5> """ if hasattr(box_widget, 'sizing') and BOX not in box_widget.sizing(): raise BoxAdapterError("%r is not a box widget" % box_widget) WidgetDecoration.__init__(self,box_widget) self.height = height def _repr_attrs(self): return dict(self.__super._repr_attrs(), height=self.height) # originally stored as box_widget, keep for compatibility box_widget = property(WidgetDecoration._get_original_widget, WidgetDecoration._set_original_widget) def sizing(self): return set([FLOW]) def rows(self, size, focus=False): """ Return the predetermined height (behave like a flow widget) >>> BoxAdapter(SolidFill(u"x"), 5).rows((20,)) 5 """ return self.height # The next few functions simply tack-on our height and pass through # to self._original_widget def get_cursor_coords(self, size): (maxcol,) = size if not hasattr(self._original_widget,'get_cursor_coords'): return None return self._original_widget.get_cursor_coords((maxcol, self.height)) def get_pref_col(self, size): (maxcol,) = size if not hasattr(self._original_widget,'get_pref_col'): return None return self._original_widget.get_pref_col((maxcol, self.height)) def keypress(self, size, key): (maxcol,) = size return self._original_widget.keypress((maxcol, self.height), key) def move_cursor_to_coords(self, size, col, row): (maxcol,) = size if not hasattr(self._original_widget,'move_cursor_to_coords'): return True return self._original_widget.move_cursor_to_coords((maxcol, self.height), col, row ) def mouse_event(self, size, event, button, col, row, focus): (maxcol,) = size if not hasattr(self._original_widget,'mouse_event'): return False return self._original_widget.mouse_event((maxcol, self.height), event, button, col, row, focus) def render(self, size, focus=False): (maxcol,) = size canv = self._original_widget.render((maxcol, self.height), focus) canv = CompositeCanvas(canv) return canv def __getattr__(self, name): """ Pass calls to box widget. """ return getattr(self.box_widget, name) class PaddingError(Exception): pass class Padding(WidgetDecoration): def __init__(self, w, align=LEFT, width=RELATIVE_100, min_width=None, left=0, right=0): """ :param w: a box, flow or fixed widget to pad on the left and/or right this widget is stored as self.original_widget :type w: Widget :param align: one of: ``'left'``, ``'center'``, ``'right'`` (``'relative'``, *percentage* 0=left 100=right) :param width: one of: *given width* integer number of columns for self.original_widget ``'pack'`` try to pack self.original_widget to its ideal size (``'relative'``, *percentage of total width*) make width depend on the container's width ``'clip'`` to enable clipping mode for a fixed widget :param min_width: the minimum number of columns for self.original_widget or ``None`` :type min_width: int :param left: a fixed number of columns to pad on the left :type left: int :param right: a fixed number of columns to pad on the right :type right: int Clipping Mode: (width= ``'clip'``) In clipping mode this padding widget will behave as a flow widget and self.original_widget will be treated as a fixed widget. self.original_widget will will be clipped to fit the available number of columns. For example if align is ``'left'`` then self.original_widget may be clipped on the right. >>> size = (7,) >>> def pr(w): ... for t in w.render(size).text: ... print "|%s|" % (t.decode('ascii'),) >>> pr(Padding(Text(u"Head"), ('relative', 20), 'pack')) | Head | >>> pr(Padding(Divider(u"-"), left=2, right=1)) | ---- | >>> pr(Padding(Divider(u"*"), 'center', 3)) | *** | >>> p=Padding(Text(u"1234"), 'left', 2, None, 1, 1) >>> p left=1 right=1 width=2> >>> pr(p) # align against left | 12 | | 34 | >>> p.align = 'right' >>> pr(p) # align against right | 12 | | 34 | >>> pr(Padding(Text(u"hi\\nthere"), 'right', 'pack')) # pack text first | hi | | there| """ self.__super.__init__(w) # convert obsolete parameters 'fixed left' and 'fixed right': if type(align) == tuple and align[0] in ('fixed left', 'fixed right'): if align[0]=='fixed left': left = align[1] align = LEFT else: right = align[1] align = RIGHT if type(width) == tuple and width[0] in ('fixed left', 'fixed right'): if width[0]=='fixed left': left = width[1] else: right = width[1] width = RELATIVE_100 # convert old clipping mode width=None to width='clip' if width is None: width = CLIP self.left = left self.right = right self._align_type, self._align_amount = normalize_align(align, PaddingError) self._width_type, self._width_amount = normalize_width(width, PaddingError) self.min_width = min_width def sizing(self): if self._width_type == CLIP: return set([FLOW]) return self.original_widget.sizing() def _repr_attrs(self): attrs = dict(self.__super._repr_attrs(), align=self.align, width=self.width, left=self.left, right=self.right, min_width=self.min_width) return remove_defaults(attrs, Padding.__init__) def _get_align(self): """ Return the padding alignment setting. """ return simplify_align(self._align_type, self._align_amount) def _set_align(self, align): """ Set the padding alignment. """ self._align_type, self._align_amount = normalize_align(align, PaddingError) self._invalidate() align = property(_get_align, _set_align) def _get_width(self): """ Return the padding width. """ return simplify_width(self._width_type, self._width_amount) def _set_width(self, width): """ Set the padding width. """ self._width_type, self._width_amount = normalize_width(width, PaddingError) self._invalidate() width = property(_get_width, _set_width) def render(self, size, focus=False): left, right = self.padding_values(size, focus) maxcol = size[0] maxcol -= left+right if self._width_type == CLIP: canv = self._original_widget.render((), focus) else: canv = self._original_widget.render((maxcol,)+size[1:], focus) if canv.cols() == 0: canv = SolidCanvas(' ', size[0], canv.rows()) canv = CompositeCanvas(canv) canv.set_depends([self._original_widget]) return canv canv = CompositeCanvas(canv) canv.set_depends([self._original_widget]) if left != 0 or right != 0: canv.pad_trim_left_right(left, right) return canv def padding_values(self, size, focus): """Return the number of columns to pad on the left and right. Override this method to define custom padding behaviour.""" maxcol = size[0] if self._width_type == CLIP: width, ignore = self._original_widget.pack((), focus=focus) return calculate_left_right_padding(maxcol, self._align_type, self._align_amount, CLIP, width, None, self.left, self.right) if self._width_type == PACK: maxwidth = max(maxcol - self.left - self.right, self.min_width or 0) (width, ignore) = self._original_widget.pack((maxwidth,), focus=focus) return calculate_left_right_padding(maxcol, self._align_type, self._align_amount, GIVEN, width, self.min_width, self.left, self.right) return calculate_left_right_padding(maxcol, self._align_type, self._align_amount, self._width_type, self._width_amount, self.min_width, self.left, self.right) def rows(self, size, focus=False): """Return the rows needed for self.original_widget.""" (maxcol,) = size left, right = self.padding_values(size, focus) if self._width_type == PACK: pcols, prows = self._original_widget.pack((maxcol-left-right,), focus) return prows if self._width_type == CLIP: fcols, frows = self._original_widget.pack((), focus) return frows return self._original_widget.rows((maxcol-left-right,), focus=focus) def keypress(self, size, key): """Pass keypress to self._original_widget.""" maxcol = size[0] left, right = self.padding_values(size, True) maxvals = (maxcol-left-right,)+size[1:] return self._original_widget.keypress(maxvals, key) def get_cursor_coords(self,size): """Return the (x,y) coordinates of cursor within self._original_widget.""" if not hasattr(self._original_widget,'get_cursor_coords'): return None left, right = self.padding_values(size, True) maxcol = size[0] maxvals = (maxcol-left-right,)+size[1:] if maxvals[0] == 0: return None coords = self._original_widget.get_cursor_coords(maxvals) if coords is None: return None x, y = coords return x+left, y def move_cursor_to_coords(self, size, x, y): """Set the cursor position with (x,y) coordinates of self._original_widget. Returns True if move succeeded, False otherwise. """ if not hasattr(self._original_widget,'move_cursor_to_coords'): return True left, right = self.padding_values(size, True) maxcol = size[0] maxvals = (maxcol-left-right,)+size[1:] if type(x)==int: if x < left: x = left elif x >= maxcol-right: x = maxcol-right-1 x -= left return self._original_widget.move_cursor_to_coords(maxvals, x, y) def mouse_event(self, size, event, button, x, y, focus): """Send mouse event if position is within self._original_widget.""" if not hasattr(self._original_widget,'mouse_event'): return False left, right = self.padding_values(size, focus) maxcol = size[0] if x < left or x >= maxcol-right: return False maxvals = (maxcol-left-right,)+size[1:] return self._original_widget.mouse_event(maxvals, event, button, x-left, y, focus) def get_pref_col(self, size): """Return the preferred column from self._original_widget, or None.""" if not hasattr(self._original_widget,'get_pref_col'): return None left, right = self.padding_values(size, True) maxcol = size[0] maxvals = (maxcol-left-right,)+size[1:] x = self._original_widget.get_pref_col(maxvals) if type(x) == int: return x+left return x class FillerError(Exception): pass class Filler(WidgetDecoration): def __init__(self, body, valign=MIDDLE, height=PACK, min_height=None, top=0, bottom=0): """ :param body: a flow widget or box widget to be filled around (stored as self.original_widget) :type body: Widget :param valign: one of: ``'top'``, ``'middle'``, ``'bottom'``, (``'relative'``, *percentage* 0=top 100=bottom) :param height: one of: ``'pack'`` if body is a flow widget *given height* integer number of rows for self.original_widget (``'relative'``, *percentage of total height*) make height depend on container's height :param min_height: one of: ``None`` if no minimum or if body is a flow widget *minimum height* integer number of rows for the widget when height not fixed :param top: a fixed number of rows to fill at the top :type top: int :param bottom: a fixed number of rows to fill at the bottom :type bottom: int If body is a flow widget then height must be ``'flow'`` and *min_height* will be ignored. Filler widgets will try to satisfy height argument first by reducing the valign amount when necessary. If height still cannot be satisfied it will also be reduced. """ self.__super.__init__(body) # convert old parameters to the new top/bottom values if isinstance(height, tuple): if height[0] == 'fixed top': if not isinstance(valign, tuple) or valign[0] != 'fixed bottom': raise FillerError("fixed bottom height may only be used " "with fixed top valign") top = height[1] height = RELATIVE_100 elif height[0] == 'fixed bottom': if not isinstance(valign, tuple) or valign[0] != 'fixed top': raise FillerError("fixed top height may only be used " "with fixed bottom valign") bottom = height[1] height = RELATIVE_100 if isinstance(valign, tuple): if valign[0] == 'fixed top': top = valign[1] valign = TOP elif valign[0] == 'fixed bottom': bottom = valign[1] valign = BOTTOM # convert old flow mode parameter height=None to height='flow' if height is None or height == FLOW: height = PACK self.top = top self.bottom = bottom self.valign_type, self.valign_amount = normalize_valign(valign, FillerError) self.height_type, self.height_amount = normalize_height(height, FillerError) if self.height_type not in (GIVEN, PACK): self.min_height = min_height else: self.min_height = None def sizing(self): return set([BOX]) # always a box widget def _repr_attrs(self): attrs = dict(self.__super._repr_attrs(), valign=simplify_valign(self.valign_type, self.valign_amount), height=simplify_height(self.height_type, self.height_amount), top=self.top, bottom=self.bottom, min_height=self.min_height) return remove_defaults(attrs, Filler.__init__) # backwards compatibility, widget used to be stored as body get_body = WidgetDecoration._get_original_widget set_body = WidgetDecoration._set_original_widget body = property(get_body, set_body) def selectable(self): """Return selectable from body.""" return self._original_widget.selectable() def filler_values(self, size, focus): """ Return the number of rows to pad on the top and bottom. Override this method to define custom padding behaviour. """ (maxcol, maxrow) = size if self.height_type == PACK: height = self._original_widget.rows((maxcol,),focus=focus) return calculate_top_bottom_filler(maxrow, self.valign_type, self.valign_amount, GIVEN, height, None, self.top, self.bottom) return calculate_top_bottom_filler(maxrow, self.valign_type, self.valign_amount, self.height_type, self.height_amount, self.min_height, self.top, self.bottom) def render(self, size, focus=False): """Render self.original_widget with space above and/or below.""" (maxcol, maxrow) = size top, bottom = self.filler_values(size, focus) if self.height_type == PACK: canv = self._original_widget.render((maxcol,), focus) else: canv = self._original_widget.render((maxcol,maxrow-top-bottom),focus) canv = CompositeCanvas(canv) if maxrow and canv.rows() > maxrow and canv.cursor is not None: cx, cy = canv.cursor if cy >= maxrow: canv.trim(cy-maxrow+1,maxrow-top-bottom) if canv.rows() > maxrow: canv.trim(0, maxrow) return canv canv.pad_trim_top_bottom(top, bottom) return canv def keypress(self, size, key): """Pass keypress to self.original_widget.""" (maxcol, maxrow) = size if self.height_type == PACK: return self._original_widget.keypress((maxcol,), key) top, bottom = self.filler_values((maxcol,maxrow), True) return self._original_widget.keypress((maxcol,maxrow-top-bottom), key) def get_cursor_coords(self, size): """Return cursor coords from self.original_widget if any.""" (maxcol, maxrow) = size if not hasattr(self._original_widget, 'get_cursor_coords'): return None top, bottom = self.filler_values(size, True) if self.height_type == PACK: coords = self._original_widget.get_cursor_coords((maxcol,)) else: coords = self._original_widget.get_cursor_coords( (maxcol,maxrow-top-bottom)) if not coords: return None x, y = coords if y >= maxrow: y = maxrow-1 return x, y+top def get_pref_col(self, size): """Return pref_col from self.original_widget if any.""" (maxcol, maxrow) = size if not hasattr(self._original_widget, 'get_pref_col'): return None if self.height_type == PACK: x = self._original_widget.get_pref_col((maxcol,)) else: top, bottom = self.filler_values(size, True) x = self._original_widget.get_pref_col( (maxcol, maxrow-top-bottom)) return x def move_cursor_to_coords(self, size, col, row): """Pass to self.original_widget.""" (maxcol, maxrow) = size if not hasattr(self._original_widget, 'move_cursor_to_coords'): return True top, bottom = self.filler_values(size, True) if row < top or row >= maxcol-bottom: return False if self.height_type == PACK: return self._original_widget.move_cursor_to_coords((maxcol,), col, row-top) return self._original_widget.move_cursor_to_coords( (maxcol, maxrow-top-bottom), col, row-top) def mouse_event(self, size, event, button, col, row, focus): """Pass to self.original_widget.""" (maxcol, maxrow) = size if not hasattr(self._original_widget, 'mouse_event'): return False top, bottom = self.filler_values(size, True) if row < top or row >= maxrow-bottom: return False if self.height_type == PACK: return self._original_widget.mouse_event((maxcol,), event, button, col, row-top, focus) return self._original_widget.mouse_event((maxcol, maxrow-top-bottom), event, button,col, row-top, focus) class WidgetDisable(WidgetDecoration): """ A decoration widget that disables interaction with the widget it wraps. This widget always passes focus=False to the wrapped widget, even if it somehow does become the focus. """ no_cache = ["rows"] ignore_focus = True def selectable(self): return False def rows(self, size, focus=False): return self._original_widget.rows(size, False) def sizing(self): return self._original_widget.sizing() def pack(self, size, focus=False): return self._original_widget.pack(size, False) def render(self, size, focus=False): canv = self._original_widget.render(size, False) return CompositeCanvas(canv) def normalize_align(align, err): """ Split align into (align_type, align_amount). Raise exception err if align doesn't match a valid alignment. """ if align in (LEFT, CENTER, RIGHT): return (align, None) elif type(align) == tuple and len(align) == 2 and align[0] == RELATIVE: return align raise err("align value %r is not one of 'left', 'center', " "'right', ('relative', percentage 0=left 100=right)" % (align,)) def simplify_align(align_type, align_amount): """ Recombine (align_type, align_amount) into an align value. Inverse of normalize_align. """ if align_type == RELATIVE: return (align_type, align_amount) return align_type def normalize_width(width, err): """ Split width into (width_type, width_amount). Raise exception err if width doesn't match a valid alignment. """ if width in (CLIP, PACK): return (width, None) elif type(width) == int: return (GIVEN, width) elif type(width) == tuple and len(width) == 2 and width[0] == RELATIVE: return width raise err("width value %r is not one of fixed number of columns, " "'pack', ('relative', percentage of total width), 'clip'" % (width,)) def simplify_width(width_type, width_amount): """ Recombine (width_type, width_amount) into an width value. Inverse of normalize_width. """ if width_type in (CLIP, PACK): return width_type elif width_type == GIVEN: return width_amount return (width_type, width_amount) def normalize_valign(valign, err): """ Split align into (valign_type, valign_amount). Raise exception err if align doesn't match a valid alignment. """ if valign in (TOP, MIDDLE, BOTTOM): return (valign, None) elif (isinstance(valign, tuple) and len(valign) == 2 and valign[0] == RELATIVE): return valign raise err("valign value %r is not one of 'top', 'middle', " "'bottom', ('relative', percentage 0=left 100=right)" % (valign,)) def simplify_valign(valign_type, valign_amount): """ Recombine (valign_type, valign_amount) into an valign value. Inverse of normalize_valign. """ if valign_type == RELATIVE: return (valign_type, valign_amount) return valign_type def normalize_height(height, err): """ Split height into (height_type, height_amount). Raise exception err if height isn't valid. """ if height in (FLOW, PACK): return (height, None) elif (isinstance(height, tuple) and len(height) == 2 and height[0] == RELATIVE): return height elif isinstance(height, int): return (GIVEN, height) raise err("height value %r is not one of fixed number of columns, " "'pack', ('relative', percentage of total height)" % (height,)) def simplify_height(height_type, height_amount): """ Recombine (height_type, height_amount) into an height value. Inverse of normalize_height. """ if height_type in (FLOW, PACK): return height_type elif height_type == GIVEN: return height_amount return (height_type, height_amount) def calculate_top_bottom_filler(maxrow, valign_type, valign_amount, height_type, height_amount, min_height, top, bottom): """ Return the amount of filler (or clipping) on the top and bottom part of maxrow rows to satisfy the following: valign_type -- 'top', 'middle', 'bottom', 'relative' valign_amount -- a percentage when align_type=='relative' height_type -- 'given', 'relative', 'clip' height_amount -- a percentage when width_type=='relative' otherwise equal to the height of the widget min_height -- a desired minimum width for the widget or None top -- a fixed number of rows to fill on the top bottom -- a fixed number of rows to fill on the bottom >>> ctbf = calculate_top_bottom_filler >>> ctbf(15, 'top', 0, 'given', 10, None, 2, 0) (2, 3) >>> ctbf(15, 'relative', 0, 'given', 10, None, 2, 0) (2, 3) >>> ctbf(15, 'relative', 100, 'given', 10, None, 2, 0) (5, 0) >>> ctbf(15, 'middle', 0, 'given', 4, None, 2, 0) (6, 5) >>> ctbf(15, 'middle', 0, 'given', 18, None, 2, 0) (0, 0) >>> ctbf(20, 'top', 0, 'relative', 60, None, 0, 0) (0, 8) >>> ctbf(20, 'relative', 30, 'relative', 60, None, 0, 0) (2, 6) >>> ctbf(20, 'relative', 30, 'relative', 60, 14, 0, 0) (2, 4) """ if height_type == RELATIVE: maxheight = max(maxrow - top - bottom, 0) height = int_scale(height_amount, 101, maxheight + 1) if min_height is not None: height = max(height, min_height) else: height = height_amount standard_alignments = {TOP:0, MIDDLE:50, BOTTOM:100} valign = standard_alignments.get(valign_type, valign_amount) # add the remainder of top/bottom to the filler filler = maxrow - height - top - bottom bottom += int_scale(100 - valign, 101, filler + 1) top = maxrow - height - bottom # reduce filler if we are clipping an edge if bottom < 0 < top: shift = min(top, -bottom) top -= shift bottom += shift elif top < 0 < bottom: shift = min(bottom, -top) bottom -= shift top += shift # no negative values for filler at the moment top = max(top, 0) bottom = max(bottom, 0) return top, bottom def calculate_left_right_padding(maxcol, align_type, align_amount, width_type, width_amount, min_width, left, right): """ Return the amount of padding (or clipping) on the left and right part of maxcol columns to satisfy the following: align_type -- 'left', 'center', 'right', 'relative' align_amount -- a percentage when align_type=='relative' width_type -- 'fixed', 'relative', 'clip' width_amount -- a percentage when width_type=='relative' otherwise equal to the width of the widget min_width -- a desired minimum width for the widget or None left -- a fixed number of columns to pad on the left right -- a fixed number of columns to pad on the right >>> clrp = calculate_left_right_padding >>> clrp(15, 'left', 0, 'given', 10, None, 2, 0) (2, 3) >>> clrp(15, 'relative', 0, 'given', 10, None, 2, 0) (2, 3) >>> clrp(15, 'relative', 100, 'given', 10, None, 2, 0) (5, 0) >>> clrp(15, 'center', 0, 'given', 4, None, 2, 0) (6, 5) >>> clrp(15, 'left', 0, 'clip', 18, None, 0, 0) (0, -3) >>> clrp(15, 'right', 0, 'clip', 18, None, 0, -1) (-2, -1) >>> clrp(15, 'center', 0, 'given', 18, None, 2, 0) (0, 0) >>> clrp(20, 'left', 0, 'relative', 60, None, 0, 0) (0, 8) >>> clrp(20, 'relative', 30, 'relative', 60, None, 0, 0) (2, 6) >>> clrp(20, 'relative', 30, 'relative', 60, 14, 0, 0) (2, 4) """ if width_type == RELATIVE: maxwidth = max(maxcol - left - right, 0) width = int_scale(width_amount, 101, maxwidth + 1) if min_width is not None: width = max(width, min_width) else: width = width_amount standard_alignments = {LEFT:0, CENTER:50, RIGHT:100} align = standard_alignments.get(align_type, align_amount) # add the remainder of left/right the padding padding = maxcol - width - left - right right += int_scale(100 - align, 101, padding + 1) left = maxcol - width - right # reduce padding if we are clipping an edge if right < 0 and left > 0: shift = min(left, -right) left -= shift right += shift elif left < 0 and right > 0: shift = min(right, -left) right -= shift left += shift # only clip if width_type == 'clip' if width_type != CLIP and (left < 0 or right < 0): left = max(left, 0) right = max(right, 0) return left, right def _test(): import doctest doctest.testmod() if __name__=='__main__': _test()