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#!/usr/bin/python # # Urwid listbox class # 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 urwid.compat import xrange, with_metaclass from urwid.util import is_mouse_press from urwid.canvas import SolidCanvas, CanvasCombine from urwid.widget import Widget, nocache_widget_render_instance, BOX, GIVEN from urwid.decoration import calculate_top_bottom_filler, normalize_valign from urwid import signals from urwid.signals import connect_signal from urwid.monitored_list import MonitoredList, MonitoredFocusList from urwid.container import WidgetContainerMixin from urwid.command_map import (CURSOR_UP, CURSOR_DOWN, CURSOR_PAGE_UP, CURSOR_PAGE_DOWN, CURSOR_MAX_LEFT, CURSOR_MAX_RIGHT) class ListWalkerError(Exception): pass class ListWalker(with_metaclass(signals.MetaSignals, object)): signals = ["modified"] def _modified(self): signals.emit_signal(self, "modified") def get_focus(self): """ This default implementation relies on a focus attribute and a __getitem__() method defined in a subclass. Override and don't call this method if these are not defined. """ try: focus = self.focus return self[focus], focus except (IndexError, KeyError, TypeError): return None, None def get_next(self, position): """ This default implementation relies on a next_position() method and a __getitem__() method defined in a subclass. Override and don't call this method if these are not defined. """ try: position = self.next_position(position) return self[position], position except (IndexError, KeyError): return None, None def get_prev(self, position): """ This default implementation relies on a prev_position() method and a __getitem__() method defined in a subclass. Override and don't call this method if these are not defined. """ try: position = self.prev_position(position) return self[position], position except (IndexError, KeyError): return None, None class PollingListWalker(object): # NOT ListWalker subclass def __init__(self, contents): """ contents -- list to poll for changes This class is deprecated. Use SimpleFocusListWalker instead. """ import warnings warnings.warn("PollingListWalker is deprecated, " "use SimpleFocusListWalker instead.", DeprecationWarning) self.contents = contents if not getattr(contents, '__getitem__', None): raise ListWalkerError("PollingListWalker expecting list like " "object, got: %r" % (contents,)) self.focus = 0 def _clamp_focus(self): if self.focus >= len(self.contents): self.focus = len(self.contents)-1 def get_focus(self): """Return (focus widget, focus position).""" if len(self.contents) == 0: return None, None self._clamp_focus() return self.contents[self.focus], self.focus def set_focus(self, position): """Set focus position.""" # this class is deprecated, otherwise I might have fixed this: assert type(position) == int self.focus = position def get_next(self, start_from): """ Return (widget after start_from, position after start_from). """ pos = start_from + 1 if len(self.contents) <= pos: return None, None return self.contents[pos],pos def get_prev(self, start_from): """ Return (widget before start_from, position before start_from). """ pos = start_from - 1 if pos < 0: return None, None return self.contents[pos],pos class SimpleListWalker(MonitoredList, ListWalker): def __init__(self, contents): """ contents -- list to copy into this object Changes made to this object (when it is treated as a list) are detected automatically and will cause ListBox objects using this list walker to be updated. """ if not getattr(contents, '__getitem__', None): raise ListWalkerError("SimpleListWalker expecting list like object, got: %r"%(contents,)) MonitoredList.__init__(self, contents) self.focus = 0 def _get_contents(self): """ Return self. Provides compatibility with old SimpleListWalker class. """ return self contents = property(_get_contents) def _modified(self): if self.focus >= len(self): self.focus = max(0, len(self)-1) ListWalker._modified(self) def set_modified_callback(self, callback): """ This function inherited from MonitoredList is not implemented in SimpleListWalker. Use connect_signal(list_walker, "modified", ...) instead. """ raise NotImplementedError('Use connect_signal(' 'list_walker, "modified", ...) instead.') def set_focus(self, position): """Set focus position.""" try: if position < 0 or position >= len(self): raise ValueError except (TypeError, ValueError): raise IndexError("No widget at position %s" % (position,)) self.focus = position self._modified() def next_position(self, position): """ Return position after start_from. """ if len(self) - 1 <= position: raise IndexError return position + 1 def prev_position(self, position): """ Return position before start_from. """ if position <= 0: raise IndexError return position - 1 def positions(self, reverse=False): """ Optional method for returning an iterable of positions. """ if reverse: return xrange(len(self) - 1, -1, -1) return xrange(len(self)) class SimpleFocusListWalker(ListWalker, MonitoredFocusList): def __init__(self, contents): """ contents -- list to copy into this object Changes made to this object (when it is treated as a list) are detected automatically and will cause ListBox objects using this list walker to be updated. Also, items added or removed before the widget in focus with normal list methods will cause the focus to be updated intelligently. """ if not getattr(contents, '__getitem__', None): raise ListWalkerError("SimpleFocusListWalker expecting list like " "object, got: %r"%(contents,)) MonitoredFocusList.__init__(self, contents) def set_modified_callback(self, callback): """ This function inherited from MonitoredList is not implemented in SimpleFocusListWalker. Use connect_signal(list_walker, "modified", ...) instead. """ raise NotImplementedError('Use connect_signal(' 'list_walker, "modified", ...) instead.') def set_focus(self, position): """Set focus position.""" self.focus = position self._modified() def next_position(self, position): """ Return position after start_from. """ if len(self) - 1 <= position: raise IndexError return position + 1 def prev_position(self, position): """ Return position before start_from. """ if position <= 0: raise IndexError return position - 1 def positions(self, reverse=False): """ Optional method for returning an iterable of positions. """ if reverse: return xrange(len(self) - 1, -1, -1) return xrange(len(self)) class ListBoxError(Exception): pass class ListBox(Widget, WidgetContainerMixin): """ a horizontally stacked list of widgets """ _selectable = True _sizing = frozenset([BOX]) def __init__(self, body): """ :param body: a ListWalker subclass such as :class:`SimpleFocusListWalker` that contains widgets to be displayed inside the list box :type body: ListWalker """ self.body = body try: connect_signal(self._body, "modified", self._invalidate) except NameError: # our list walker has no modified signal so we must not # cache our canvases because we don't know when our # content has changed self.render = nocache_widget_render_instance(self) # offset_rows is the number of rows between the top of the view # and the top of the focused item self.offset_rows = 0 # inset_fraction is used when the focused widget is off the # top of the view. it is the fraction of the widget cut off # at the top. (numerator, denominator) self.inset_fraction = (0,1) # pref_col is the preferred column for the cursor when moving # between widgets that use the cursor (edit boxes etc.) self.pref_col = 'left' # variable for delayed focus change used by set_focus self.set_focus_pending = 'first selectable' # variable for delayed valign change used by set_focus_valign self.set_focus_valign_pending = None def _get_body(self): return self._body def _set_body(self, body): if getattr(body, 'get_focus', None): self._body = body else: self._body = SimpleListWalker(body) self._invalidate() body = property(_get_body, _set_body, doc=""" a ListWalker subclass such as :class:`SimpleFocusListWalker` that contains widgets to be displayed inside the list box """) def calculate_visible(self, size, focus=False ): """ Returns the widgets that would be displayed in the ListBox given the current *size* and *focus*. see :meth:`Widget.render` for parameter details :returns: (*middle*, *top*, *bottom*) or (``None``, ``None``, ``None``) *middle* (*row offset*(when +ve) or *inset*(when -ve), *focus widget*, *focus position*, *focus rows*, *cursor coords* or ``None``) *top* (*# lines to trim off top*, list of (*widget*, *position*, *rows*) tuples above focus in order from bottom to top) *bottom* (*# lines to trim off bottom*, list of (*widget*, *position*, *rows*) tuples below focus in order from top to bottom) """ (maxcol, maxrow) = size # 0. set the focus if a change is pending if self.set_focus_pending or self.set_focus_valign_pending: self._set_focus_complete( (maxcol, maxrow), focus ) # 1. start with the focus widget focus_widget, focus_pos = self._body.get_focus() if focus_widget is None: #list box is empty? return None,None,None top_pos = focus_pos offset_rows, inset_rows = self.get_focus_offset_inset( (maxcol,maxrow)) # force at least one line of focus to be visible if maxrow and offset_rows >= maxrow: offset_rows = maxrow -1 # adjust position so cursor remains visible cursor = None if maxrow and focus_widget.selectable() and focus: if hasattr(focus_widget,'get_cursor_coords'): cursor=focus_widget.get_cursor_coords((maxcol,)) if cursor is not None: cx, cy = cursor effective_cy = cy + offset_rows - inset_rows if effective_cy < 0: # cursor above top? inset_rows = cy elif effective_cy >= maxrow: # cursor below bottom? offset_rows = maxrow - cy -1 if offset_rows < 0: # need to trim the top inset_rows, offset_rows = -offset_rows, 0 # set trim_top by focus trimmimg trim_top = inset_rows focus_rows = focus_widget.rows((maxcol,),True) # 2. collect the widgets above the focus pos = focus_pos fill_lines = offset_rows fill_above = [] top_pos = pos while fill_lines > 0: prev, pos = self._body.get_prev( pos ) if prev is None: # run out of widgets above? offset_rows -= fill_lines break top_pos = pos p_rows = prev.rows( (maxcol,) ) if p_rows: # filter out 0-height widgets fill_above.append( (prev, pos, p_rows) ) if p_rows > fill_lines: # crosses top edge? trim_top = p_rows-fill_lines break fill_lines -= p_rows trim_bottom = focus_rows + offset_rows - inset_rows - maxrow if trim_bottom < 0: trim_bottom = 0 # 3. collect the widgets below the focus pos = focus_pos fill_lines = maxrow - focus_rows - offset_rows + inset_rows fill_below = [] while fill_lines > 0: next, pos = self._body.get_next( pos ) if next is None: # run out of widgets below? break n_rows = next.rows( (maxcol,) ) if n_rows: # filter out 0-height widgets fill_below.append( (next, pos, n_rows) ) if n_rows > fill_lines: # crosses bottom edge? trim_bottom = n_rows-fill_lines fill_lines -= n_rows break fill_lines -= n_rows # 4. fill from top again if necessary & possible fill_lines = max(0, fill_lines) if fill_lines >0 and trim_top >0: if fill_lines <= trim_top: trim_top -= fill_lines offset_rows += fill_lines fill_lines = 0 else: fill_lines -= trim_top offset_rows += trim_top trim_top = 0 pos = top_pos while fill_lines > 0: prev, pos = self._body.get_prev( pos ) if prev is None: break p_rows = prev.rows( (maxcol,) ) fill_above.append( (prev, pos, p_rows) ) if p_rows > fill_lines: # more than required trim_top = p_rows-fill_lines offset_rows += fill_lines break fill_lines -= p_rows offset_rows += p_rows # 5. return the interesting bits return ((offset_rows - inset_rows, focus_widget, focus_pos, focus_rows, cursor ), (trim_top, fill_above), (trim_bottom, fill_below)) def render(self, size, focus=False ): """ Render ListBox and return canvas. see :meth:`Widget.render` for details """ (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol, maxrow), focus=focus) if middle is None: return SolidCanvas(" ", maxcol, maxrow) _ignore, focus_widget, focus_pos, focus_rows, cursor = middle trim_top, fill_above = top trim_bottom, fill_below = bottom combinelist = [] rows = 0 fill_above.reverse() # fill_above is in bottom-up order for widget,w_pos,w_rows in fill_above: canvas = widget.render((maxcol,)) if w_rows != canvas.rows(): raise ListBoxError("Widget %r at position %r within listbox calculated %d rows but rendered %d!"% (widget,w_pos,w_rows, canvas.rows())) rows += w_rows combinelist.append((canvas, w_pos, False)) focus_canvas = focus_widget.render((maxcol,), focus=focus) if focus_canvas.rows() != focus_rows: raise ListBoxError("Focus Widget %r at position %r within listbox calculated %d rows but rendered %d!"% (focus_widget,focus_pos,focus_rows, focus_canvas.rows())) c_cursor = focus_canvas.cursor if cursor != c_cursor: raise ListBoxError("Focus Widget %r at position %r within listbox calculated cursor coords %r but rendered cursor coords %r!" %(focus_widget,focus_pos,cursor,c_cursor)) rows += focus_rows combinelist.append((focus_canvas, focus_pos, True)) for widget,w_pos,w_rows in fill_below: canvas = widget.render((maxcol,)) if w_rows != canvas.rows(): raise ListBoxError("Widget %r at position %r within listbox calculated %d rows but rendered %d!"% (widget,w_pos,w_rows, canvas.rows())) rows += w_rows combinelist.append((canvas, w_pos, False)) final_canvas = CanvasCombine(combinelist) if trim_top: final_canvas.trim(trim_top) rows -= trim_top if trim_bottom: final_canvas.trim_end(trim_bottom) rows -= trim_bottom if rows > maxrow: raise ListBoxError("Listbox contents too long! Probably urwid's fault (please report): %r" % ((top,middle,bottom),)) if rows < maxrow: bottom_pos = focus_pos if fill_below: bottom_pos = fill_below[-1][1] if trim_bottom != 0 or self._body.get_next(bottom_pos) != (None,None): raise ListBoxError("Listbox contents too short! Probably urwid's fault (please report): %r" % ((top,middle,bottom),)) final_canvas.pad_trim_top_bottom(0, maxrow - rows) return final_canvas def get_cursor_coords(self, size): """ See :meth:`Widget.get_cursor_coords` for details """ (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol, maxrow), True) if middle is None: return None offset_inset, _ignore1, _ignore2, _ignore3, cursor = middle if not cursor: return None x, y = cursor y += offset_inset if y < 0 or y >= maxrow: return None return (x, y) def set_focus_valign(self, valign): """Set the focus widget's display offset and inset. :param valign: one of: 'top', 'middle', 'bottom' ('fixed top', rows) ('fixed bottom', rows) ('relative', percentage 0=top 100=bottom) """ vt, va = normalize_valign(valign,ListBoxError) self.set_focus_valign_pending = vt, va def set_focus(self, position, coming_from=None): """ Set the focus position and try to keep the old focus in view. :param position: a position compatible with :meth:`self._body.set_focus` :param coming_from: set to 'above' or 'below' if you know that old position is above or below the new position. :type coming_from: str """ if coming_from not in ('above', 'below', None): raise ListBoxError("coming_from value invalid: %r" % (coming_from,)) focus_widget, focus_pos = self._body.get_focus() if focus_widget is None: raise IndexError("Can't set focus, ListBox is empty") self.set_focus_pending = coming_from, focus_widget, focus_pos self._body.set_focus(position) def get_focus(self): """ Return a `(focus widget, focus position)` tuple, for backwards compatibility. You may also use the new standard container properties :attr:`focus` and :attr:`focus_position` to read these values. """ return self._body.get_focus() def _get_focus(self): """ Return the widget in focus according to our :obj:`list walker <ListWalker>`. """ return self._body.get_focus()[0] focus = property(_get_focus, doc="the child widget in focus or None when ListBox is empty") def _get_focus_position(self): """ Return the list walker position of the widget in focus. The type of value returned depends on the :obj:`list walker <ListWalker>`. """ w, pos = self._body.get_focus() if w is None: raise IndexError("No focus_position, ListBox is empty") return pos focus_position = property(_get_focus_position, set_focus, doc=""" the position of child widget in focus. The valid values for this position depend on the list walker in use. :exc:`IndexError` will be raised by reading this property when the ListBox is empty or setting this property to an invalid position. """) def _contents(self): class ListBoxContents(object): __getitem__ = self._contents__getitem__ return ListBoxContents() def _contents__getitem__(self, key): # try list walker protocol v2 first getitem = getattr(self._body, '__getitem__', None) if getitem: try: return (getitem(key), None) except (IndexError, KeyError): raise KeyError("ListBox.contents key not found: %r" % (key,)) # fall back to v1 w, old_focus = self._body.get_focus() try: try: self._body.set_focus(key) return self._body.get_focus()[0] except (IndexError, KeyError): raise KeyError("ListBox.contents key not found: %r" % (key,)) finally: self._body.set_focus(old_focus) contents = property(lambda self: self._contents, doc=""" An object that allows reading widgets from the ListBox's list walker as a `(widget, options)` tuple. `None` is currently the only value for options. .. warning:: This object may not be used to set or iterate over contents. You must use the list walker stored as :attr:`.body` to perform manipulation and iteration, if supported. """) def options(self): """ There are currently no options for ListBox contents. Return None as a placeholder for future options. """ return None def _set_focus_valign_complete(self, size, focus): """ Finish setting the offset and inset now that we have have a maxcol & maxrow. """ (maxcol, maxrow) = size vt,va = self.set_focus_valign_pending self.set_focus_valign_pending = None self.set_focus_pending = None focus_widget, focus_pos = self._body.get_focus() if focus_widget is None: return rows = focus_widget.rows((maxcol,), focus) rtop, rbot = calculate_top_bottom_filler(maxrow, vt, va, GIVEN, rows, None, 0, 0) self.shift_focus((maxcol, maxrow), rtop) def _set_focus_first_selectable(self, size, focus): """ Choose the first visible, selectable widget below the current focus as the focus widget. """ (maxcol, maxrow) = size self.set_focus_valign_pending = None self.set_focus_pending = None middle, top, bottom = self.calculate_visible( (maxcol, maxrow), focus=focus) if middle is None: return row_offset, focus_widget, focus_pos, focus_rows, cursor = middle trim_top, fill_above = top trim_bottom, fill_below = bottom if focus_widget.selectable(): return if trim_bottom: fill_below = fill_below[:-1] new_row_offset = row_offset + focus_rows for widget, pos, rows in fill_below: if widget.selectable(): self._body.set_focus(pos) self.shift_focus((maxcol, maxrow), new_row_offset) return new_row_offset += rows def _set_focus_complete(self, size, focus): """ Finish setting the position now that we have maxcol & maxrow. """ (maxcol, maxrow) = size self._invalidate() if self.set_focus_pending == "first selectable": return self._set_focus_first_selectable( (maxcol,maxrow), focus) if self.set_focus_valign_pending is not None: return self._set_focus_valign_complete( (maxcol,maxrow), focus) coming_from, focus_widget, focus_pos = self.set_focus_pending self.set_focus_pending = None # new position new_focus_widget, position = self._body.get_focus() if focus_pos == position: # do nothing return # restore old focus temporarily self._body.set_focus(focus_pos) middle,top,bottom=self.calculate_visible((maxcol,maxrow),focus) focus_offset, focus_widget, focus_pos, focus_rows, cursor=middle trim_top, fill_above = top trim_bottom, fill_below = bottom offset = focus_offset for widget, pos, rows in fill_above: offset -= rows if pos == position: self.change_focus((maxcol, maxrow), pos, offset, 'below' ) return offset = focus_offset + focus_rows for widget, pos, rows in fill_below: if pos == position: self.change_focus((maxcol, maxrow), pos, offset, 'above' ) return offset += rows # failed to find widget among visible widgets self._body.set_focus( position ) widget, position = self._body.get_focus() rows = widget.rows((maxcol,), focus) if coming_from=='below': offset = 0 elif coming_from=='above': offset = maxrow-rows else: offset = (maxrow-rows) // 2 self.shift_focus((maxcol, maxrow), offset) def shift_focus(self, size, offset_inset): """ Move the location of the current focus relative to the top. This is used internally by methods that know the widget's *size*. See also :meth:`.set_focus_valign`. :param size: see :meth:`Widget.render` for details :param offset_inset: either the number of rows between the top of the listbox and the start of the focus widget (+ve value) or the number of lines of the focus widget hidden off the top edge of the listbox (-ve value) or ``0`` if the top edge of the focus widget is aligned with the top edge of the listbox. :type offset_inset: int """ (maxcol, maxrow) = size if offset_inset >= 0: if offset_inset >= maxrow: raise ListBoxError("Invalid offset_inset: %r, only %r rows in list box"% (offset_inset, maxrow)) self.offset_rows = offset_inset self.inset_fraction = (0,1) else: target, _ignore = self._body.get_focus() tgt_rows = target.rows( (maxcol,), True ) if offset_inset + tgt_rows <= 0: raise ListBoxError("Invalid offset_inset: %r, only %r rows in target!" %(offset_inset, tgt_rows)) self.offset_rows = 0 self.inset_fraction = (-offset_inset,tgt_rows) self._invalidate() def update_pref_col_from_focus(self, size): """Update self.pref_col from the focus widget.""" # TODO: should this not be private? (maxcol, maxrow) = size widget, old_pos = self._body.get_focus() if widget is None: return pref_col = None if hasattr(widget,'get_pref_col'): pref_col = widget.get_pref_col((maxcol,)) if pref_col is None and hasattr(widget,'get_cursor_coords'): coords = widget.get_cursor_coords((maxcol,)) if type(coords) == tuple: pref_col,y = coords if pref_col is not None: self.pref_col = pref_col def change_focus(self, size, position, offset_inset = 0, coming_from = None, cursor_coords = None, snap_rows = None): """ Change the current focus widget. This is used internally by methods that know the widget's *size*. See also :meth:`.set_focus`. :param size: see :meth:`Widget.render` for details :param position: a position compatible with :meth:`self._body.set_focus` :param offset_inset: either the number of rows between the top of the listbox and the start of the focus widget (+ve value) or the number of lines of the focus widget hidden off the top edge of the listbox (-ve value) or 0 if the top edge of the focus widget is aligned with the top edge of the listbox (default if unspecified) :type offset_inset: int :param coming_from: either 'above', 'below' or unspecified `None` :type coming_from: str :param cursor_coords: (x, y) tuple indicating the desired column and row for the cursor, a (x,) tuple indicating only the column for the cursor, or unspecified :type cursor_coords: (int, int) :param snap_rows: the maximum number of extra rows to scroll when trying to "snap" a selectable focus into the view :type snap_rows: int """ (maxcol, maxrow) = size # update pref_col before change if cursor_coords: self.pref_col = cursor_coords[0] else: self.update_pref_col_from_focus((maxcol,maxrow)) self._invalidate() self._body.set_focus(position) target, _ignore = self._body.get_focus() tgt_rows = target.rows( (maxcol,), True) if snap_rows is None: snap_rows = maxrow - 1 # "snap" to selectable widgets align_top = 0 align_bottom = maxrow - tgt_rows if ( coming_from == 'above' and target.selectable() and offset_inset > align_bottom ): if snap_rows >= offset_inset - align_bottom: offset_inset = align_bottom elif snap_rows >= offset_inset - align_top: offset_inset = align_top else: offset_inset -= snap_rows if ( coming_from == 'below' and target.selectable() and offset_inset < align_top ): if snap_rows >= align_top - offset_inset: offset_inset = align_top elif snap_rows >= align_bottom - offset_inset: offset_inset = align_bottom else: offset_inset += snap_rows # convert offset_inset to offset_rows or inset_fraction if offset_inset >= 0: self.offset_rows = offset_inset self.inset_fraction = (0,1) else: if offset_inset + tgt_rows <= 0: raise ListBoxError("Invalid offset_inset: %s, only %s rows in target!" %(offset_inset, tgt_rows)) self.offset_rows = 0 self.inset_fraction = (-offset_inset,tgt_rows) if cursor_coords is None: if coming_from is None: return # must either know row or coming_from cursor_coords = (self.pref_col,) if not hasattr(target,'move_cursor_to_coords'): return attempt_rows = [] if len(cursor_coords) == 1: # only column (not row) specified # start from closest edge and move inwards (pref_col,) = cursor_coords if coming_from=='above': attempt_rows = range( 0, tgt_rows ) else: assert coming_from == 'below', "must specify coming_from ('above' or 'below') if cursor row is not specified" attempt_rows = range( tgt_rows, -1, -1) else: # both column and row specified # start from preferred row and move back to closest edge (pref_col, pref_row) = cursor_coords if pref_row < 0 or pref_row >= tgt_rows: raise ListBoxError("cursor_coords row outside valid range for target. pref_row:%r target_rows:%r"%(pref_row,tgt_rows)) if coming_from=='above': attempt_rows = range( pref_row, -1, -1 ) elif coming_from=='below': attempt_rows = range( pref_row, tgt_rows ) else: attempt_rows = [pref_row] for row in attempt_rows: if target.move_cursor_to_coords((maxcol,),pref_col,row): break def get_focus_offset_inset(self, size): """Return (offset rows, inset rows) for focus widget.""" (maxcol, maxrow) = size focus_widget, pos = self._body.get_focus() focus_rows = focus_widget.rows((maxcol,), True) offset_rows = self.offset_rows inset_rows = 0 if offset_rows == 0: inum, iden = self.inset_fraction if inum < 0 or iden < 0 or inum >= iden: raise ListBoxError("Invalid inset_fraction: %r"%(self.inset_fraction,)) inset_rows = focus_rows * inum // iden if inset_rows and inset_rows >= focus_rows: raise ListBoxError("urwid inset_fraction error (please report)") return offset_rows, inset_rows def make_cursor_visible(self, size): """Shift the focus widget so that its cursor is visible.""" (maxcol, maxrow) = size focus_widget, pos = self._body.get_focus() if focus_widget is None: return if not focus_widget.selectable(): return if not hasattr(focus_widget,'get_cursor_coords'): return cursor = focus_widget.get_cursor_coords((maxcol,)) if cursor is None: return cx, cy = cursor offset_rows, inset_rows = self.get_focus_offset_inset( (maxcol, maxrow)) if cy < inset_rows: self.shift_focus( (maxcol,maxrow), - (cy) ) return if offset_rows - inset_rows + cy >= maxrow: self.shift_focus( (maxcol,maxrow), maxrow-cy-1 ) return def keypress(self, size, key): """Move selection through the list elements scrolling when necessary. Keystrokes are first passed to widget in focus in case that widget can handle them. Keystrokes handled by this widget are: 'up' up one line (or widget) 'down' down one line (or widget) 'page up' move cursor up one listbox length (or widget) 'page down' move cursor down one listbox length (or widget) """ (maxcol, maxrow) = size if self.set_focus_pending or self.set_focus_valign_pending: self._set_focus_complete( (maxcol,maxrow), focus=True ) focus_widget, pos = self._body.get_focus() if focus_widget is None: # empty listbox, can't do anything return key if focus_widget.selectable(): key = focus_widget.keypress((maxcol,),key) if key is None: self.make_cursor_visible((maxcol,maxrow)) return None def actual_key(unhandled): if unhandled: return key # pass off the heavy lifting if self._command_map[key] == CURSOR_UP: return actual_key(self._keypress_up((maxcol, maxrow))) if self._command_map[key] == CURSOR_DOWN: return actual_key(self._keypress_down((maxcol, maxrow))) if self._command_map[key] == CURSOR_PAGE_UP: return actual_key(self._keypress_page_up((maxcol, maxrow))) if self._command_map[key] == CURSOR_PAGE_DOWN: return actual_key(self._keypress_page_down((maxcol, maxrow))) if self._command_map[key] == CURSOR_MAX_LEFT: return actual_key(self._keypress_max_left()) if self._command_map[key] == CURSOR_MAX_RIGHT: return actual_key(self._keypress_max_right()) return key def _keypress_max_left(self): self.focus_position = next(iter(self.body.positions())) self.set_focus_valign('top') return True def _keypress_max_right(self): self.focus_position = next(iter(self.body.positions(reverse=True))) self.set_focus_valign('bottom') return True def _keypress_up(self, size): (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) if middle is None: return True focus_row_offset,focus_widget,focus_pos,_ignore,cursor = middle trim_top, fill_above = top row_offset = focus_row_offset # look for selectable widget above pos = focus_pos widget = None for widget, pos, rows in fill_above: row_offset -= rows if rows and widget.selectable(): # this one will do self.change_focus((maxcol,maxrow), pos, row_offset, 'below') return # at this point we must scroll row_offset += 1 self._invalidate() while row_offset > 0: # need to scroll in another candidate widget widget, pos = self._body.get_prev(pos) if widget is None: # cannot scroll any further return True # keypress not handled rows = widget.rows((maxcol,), True) row_offset -= rows if rows and widget.selectable(): # this one will do self.change_focus((maxcol,maxrow), pos, row_offset, 'below') return if not focus_widget.selectable() or focus_row_offset+1>=maxrow: # just take top one if focus is not selectable # or if focus has moved out of view if widget is None: self.shift_focus((maxcol,maxrow), row_offset) return self.change_focus((maxcol,maxrow), pos, row_offset, 'below') return # check if cursor will stop scroll from taking effect if cursor is not None: x,y = cursor if y+focus_row_offset+1 >= maxrow: # cursor position is a problem, # choose another focus if widget is None: # try harder to get prev widget widget, pos = self._body.get_prev(pos) if widget is None: return # can't do anything rows = widget.rows((maxcol,), True) row_offset -= rows if -row_offset >= rows: # must scroll further than 1 line row_offset = - (rows-1) self.change_focus((maxcol,maxrow),pos, row_offset, 'below') return # if all else fails, just shift the current focus. self.shift_focus((maxcol,maxrow), focus_row_offset+1) def _keypress_down(self, size): (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) if middle is None: return True focus_row_offset,focus_widget,focus_pos,focus_rows,cursor=middle trim_bottom, fill_below = bottom row_offset = focus_row_offset + focus_rows rows = focus_rows # look for selectable widget below pos = focus_pos widget = None for widget, pos, rows in fill_below: if rows and widget.selectable(): # this one will do self.change_focus((maxcol,maxrow), pos, row_offset, 'above') return row_offset += rows # at this point we must scroll row_offset -= 1 self._invalidate() while row_offset < maxrow: # need to scroll in another candidate widget widget, pos = self._body.get_next(pos) if widget is None: # cannot scroll any further return True # keypress not handled rows = widget.rows((maxcol,)) if rows and widget.selectable(): # this one will do self.change_focus((maxcol,maxrow), pos, row_offset, 'above') return row_offset += rows if not focus_widget.selectable() or focus_row_offset+focus_rows-1 <= 0: # just take bottom one if current is not selectable # or if focus has moved out of view if widget is None: self.shift_focus((maxcol,maxrow), row_offset-rows) return # FIXME: catch this bug in testcase #self.change_focus((maxcol,maxrow), pos, # row_offset+rows, 'above') self.change_focus((maxcol,maxrow), pos, row_offset-rows, 'above') return # check if cursor will stop scroll from taking effect if cursor is not None: x,y = cursor if y+focus_row_offset-1 < 0: # cursor position is a problem, # choose another focus if widget is None: # try harder to get next widget widget, pos = self._body.get_next(pos) if widget is None: return # can't do anything else: row_offset -= rows if row_offset >= maxrow: # must scroll further than 1 line row_offset = maxrow-1 self.change_focus((maxcol,maxrow),pos, row_offset, 'above', ) return # if all else fails, keep the current focus. self.shift_focus((maxcol,maxrow), focus_row_offset-1) def _keypress_page_up(self, size): (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) if middle is None: return True row_offset, focus_widget, focus_pos, focus_rows, cursor = middle trim_top, fill_above = top # topmost_visible is row_offset rows above top row of # focus (+ve) or -row_offset rows below top row of focus (-ve) topmost_visible = row_offset # scroll_from_row is (first match) # 1. topmost visible row if focus is not selectable # 2. row containing cursor if focus has a cursor # 3. top row of focus widget if it is visible # 4. topmost visible row otherwise if not focus_widget.selectable(): scroll_from_row = topmost_visible elif cursor is not None: x,y = cursor scroll_from_row = -y elif row_offset >= 0: scroll_from_row = 0 else: scroll_from_row = topmost_visible # snap_rows is maximum extra rows to scroll when # snapping to new a focus snap_rows = topmost_visible - scroll_from_row # move row_offset to the new desired value (1 "page" up) row_offset = scroll_from_row + maxrow # not used below: scroll_from_row = topmost_visible = None # gather potential target widgets t = [] # add current focus t.append((row_offset,focus_widget,focus_pos,focus_rows)) pos = focus_pos # include widgets from calculate_visible(..) for widget, pos, rows in fill_above: row_offset -= rows t.append( (row_offset, widget, pos, rows) ) # add newly visible ones, including within snap_rows snap_region_start = len(t) while row_offset > -snap_rows: widget, pos = self._body.get_prev(pos) if widget is None: break rows = widget.rows((maxcol,)) row_offset -= rows # determine if one below puts current one into snap rgn if row_offset > 0: snap_region_start += 1 t.append( (row_offset, widget, pos, rows) ) # if we can't fill the top we need to adjust the row offsets row_offset, w, p, r = t[-1] if row_offset > 0: adjust = - row_offset t = [(ro+adjust, w, p, r) for (ro,w,p,r) in t] # if focus_widget (first in t) is off edge, remove it row_offset, w, p, r = t[0] if row_offset >= maxrow: del t[0] snap_region_start -= 1 # we'll need this soon self.update_pref_col_from_focus((maxcol,maxrow)) # choose the topmost selectable and (newly) visible widget # search within snap_rows then visible region search_order = (list(xrange(snap_region_start, len(t))) + list(xrange(snap_region_start-1, -1, -1))) #assert 0, repr((t, search_order)) bad_choices = [] cut_off_selectable_chosen = 0 for i in search_order: row_offset, widget, pos, rows = t[i] if not widget.selectable(): continue if not rows: continue # try selecting this widget pref_row = max(0, -row_offset) # if completely within snap region, adjust row_offset if rows + row_offset <= 0: self.change_focus( (maxcol,maxrow), pos, -(rows-1), 'below', (self.pref_col, rows-1), snap_rows-((-row_offset)-(rows-1))) else: self.change_focus( (maxcol,maxrow), pos, row_offset, 'below', (self.pref_col, pref_row), snap_rows ) # if we're as far up as we can scroll, take this one if (fill_above and self._body.get_prev(fill_above[-1][1]) == (None,None) ): pass #return # find out where that actually puts us middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) act_row_offset, _ign1, _ign2, _ign3, _ign4 = middle # discard chosen widget if it will reduce scroll amount # because of a fixed cursor (absolute last resort) if act_row_offset > row_offset+snap_rows: bad_choices.append(i) continue if act_row_offset < row_offset: bad_choices.append(i) continue # also discard if off top edge (second last resort) if act_row_offset < 0: bad_choices.append(i) cut_off_selectable_chosen = 1 continue return # anything selectable is better than what follows: if cut_off_selectable_chosen: return if fill_above and focus_widget.selectable(): # if we're at the top and have a selectable, return if self._body.get_prev(fill_above[-1][1]) == (None,None): pass #return # if still none found choose the topmost widget good_choices = [j for j in search_order if j not in bad_choices] for i in good_choices + search_order: row_offset, widget, pos, rows = t[i] if pos == focus_pos: continue if not rows: # never focus a 0-height widget continue # if completely within snap region, adjust row_offset if rows + row_offset <= 0: snap_rows -= (-row_offset) - (rows-1) row_offset = -(rows-1) self.change_focus( (maxcol,maxrow), pos, row_offset, 'below', None, snap_rows ) return # no choices available, just shift current one self.shift_focus((maxcol, maxrow), min(maxrow-1,row_offset)) # final check for pathological case where we may fall short middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) act_row_offset, _ign1, pos, _ign2, _ign3 = middle if act_row_offset >= row_offset: # no problem return # fell short, try to select anything else above if not t: return _ign1, _ign2, pos, _ign3 = t[-1] widget, pos = self._body.get_prev(pos) if widget is None: # no dice, we're stuck here return # bring in only one row if possible rows = widget.rows((maxcol,), True) self.change_focus((maxcol,maxrow), pos, -(rows-1), 'below', (self.pref_col, rows-1), 0 ) def _keypress_page_down(self, size): (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) if middle is None: return True row_offset, focus_widget, focus_pos, focus_rows, cursor = middle trim_bottom, fill_below = bottom # bottom_edge is maxrow-focus_pos rows below top row of focus bottom_edge = maxrow - row_offset # scroll_from_row is (first match) # 1. bottom edge if focus is not selectable # 2. row containing cursor + 1 if focus has a cursor # 3. bottom edge of focus widget if it is visible # 4. bottom edge otherwise if not focus_widget.selectable(): scroll_from_row = bottom_edge elif cursor is not None: x,y = cursor scroll_from_row = y + 1 elif bottom_edge >= focus_rows: scroll_from_row = focus_rows else: scroll_from_row = bottom_edge # snap_rows is maximum extra rows to scroll when # snapping to new a focus snap_rows = bottom_edge - scroll_from_row # move row_offset to the new desired value (1 "page" down) row_offset = -scroll_from_row # not used below: scroll_from_row = bottom_edge = None # gather potential target widgets t = [] # add current focus t.append((row_offset,focus_widget,focus_pos,focus_rows)) pos = focus_pos row_offset += focus_rows # include widgets from calculate_visible(..) for widget, pos, rows in fill_below: t.append( (row_offset, widget, pos, rows) ) row_offset += rows # add newly visible ones, including within snap_rows snap_region_start = len(t) while row_offset < maxrow+snap_rows: widget, pos = self._body.get_next(pos) if widget is None: break rows = widget.rows((maxcol,)) t.append( (row_offset, widget, pos, rows) ) row_offset += rows # determine if one above puts current one into snap rgn if row_offset < maxrow: snap_region_start += 1 # if we can't fill the bottom we need to adjust the row offsets row_offset, w, p, rows = t[-1] if row_offset + rows < maxrow: adjust = maxrow - (row_offset + rows) t = [(ro+adjust, w, p, r) for (ro,w,p,r) in t] # if focus_widget (first in t) is off edge, remove it row_offset, w, p, rows = t[0] if row_offset+rows <= 0: del t[0] snap_region_start -= 1 # we'll need this soon self.update_pref_col_from_focus((maxcol,maxrow)) # choose the bottommost selectable and (newly) visible widget # search within snap_rows then visible region search_order = (list(xrange(snap_region_start, len(t))) + list(xrange(snap_region_start-1, -1, -1))) #assert 0, repr((t, search_order)) bad_choices = [] cut_off_selectable_chosen = 0 for i in search_order: row_offset, widget, pos, rows = t[i] if not widget.selectable(): continue if not rows: continue # try selecting this widget pref_row = min(maxrow-row_offset-1, rows-1) # if completely within snap region, adjust row_offset if row_offset >= maxrow: self.change_focus( (maxcol,maxrow), pos, maxrow-1, 'above', (self.pref_col, 0), snap_rows+maxrow-row_offset-1 ) else: self.change_focus( (maxcol,maxrow), pos, row_offset, 'above', (self.pref_col, pref_row), snap_rows ) # find out where that actually puts us middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) act_row_offset, _ign1, _ign2, _ign3, _ign4 = middle # discard chosen widget if it will reduce scroll amount # because of a fixed cursor (absolute last resort) if act_row_offset < row_offset-snap_rows: bad_choices.append(i) continue if act_row_offset > row_offset: bad_choices.append(i) continue # also discard if off top edge (second last resort) if act_row_offset+rows > maxrow: bad_choices.append(i) cut_off_selectable_chosen = 1 continue return # anything selectable is better than what follows: if cut_off_selectable_chosen: return # if still none found choose the bottommost widget good_choices = [j for j in search_order if j not in bad_choices] for i in good_choices + search_order: row_offset, widget, pos, rows = t[i] if pos == focus_pos: continue if not rows: # never focus a 0-height widget continue # if completely within snap region, adjust row_offset if row_offset >= maxrow: snap_rows -= snap_rows+maxrow-row_offset-1 row_offset = maxrow-1 self.change_focus( (maxcol,maxrow), pos, row_offset, 'above', None, snap_rows ) return # no choices available, just shift current one self.shift_focus((maxcol, maxrow), max(1-focus_rows,row_offset)) # final check for pathological case where we may fall short middle, top, bottom = self.calculate_visible( (maxcol,maxrow), True) act_row_offset, _ign1, pos, _ign2, _ign3 = middle if act_row_offset <= row_offset: # no problem return # fell short, try to select anything else below if not t: return _ign1, _ign2, pos, _ign3 = t[-1] widget, pos = self._body.get_next(pos) if widget is None: # no dice, we're stuck here return # bring in only one row if possible rows = widget.rows((maxcol,), True) self.change_focus((maxcol,maxrow), pos, maxrow-1, 'above', (self.pref_col, 0), 0 ) def mouse_event(self, size, event, button, col, row, focus): """ Pass the event to the contained widgets. May change focus on button 1 press. """ (maxcol, maxrow) = size middle, top, bottom = self.calculate_visible((maxcol, maxrow), focus=True) if middle is None: return False _ignore, focus_widget, focus_pos, focus_rows, cursor = middle trim_top, fill_above = top _ignore, fill_below = bottom fill_above.reverse() # fill_above is in bottom-up order w_list = ( fill_above + [ (focus_widget, focus_pos, focus_rows) ] + fill_below ) wrow = -trim_top for w, w_pos, w_rows in w_list: if wrow + w_rows > row: break wrow += w_rows else: return False focus = focus and w == focus_widget if is_mouse_press(event) and button==1: if w.selectable(): self.change_focus((maxcol,maxrow), w_pos, wrow) if not hasattr(w,'mouse_event'): return False return w.mouse_event((maxcol,), event, button, col, row-wrow, focus) def ends_visible(self, size, focus=False): """ Return a list that may contain ``'top'`` and/or ``'bottom'``. i.e. this function will return one of: [], [``'top'``], [``'bottom'``] or [``'top'``, ``'bottom'``]. convenience function for checking whether the top and bottom of the list are visible """ (maxcol, maxrow) = size l = [] middle,top,bottom = self.calculate_visible( (maxcol,maxrow), focus=focus ) if middle is None: # empty listbox return ['top','bottom'] trim_top, above = top trim_bottom, below = bottom if trim_bottom == 0: row_offset, w, pos, rows, c = middle row_offset += rows for w, pos, rows in below: row_offset += rows if row_offset < maxrow: l.append('bottom') elif self._body.get_next(pos) == (None,None): l.append('bottom') if trim_top == 0: row_offset, w, pos, rows, c = middle for w, pos, rows in above: row_offset -= rows if self._body.get_prev(pos) == (None,None): l.insert(0, 'top') return l def __iter__(self): """ Return an iterator over the positions in this ListBox. If self._body does not implement positions() then iterate from the focus widget down to the bottom, then from above the focus up to the top. This is the best we can do with a minimal list walker implementation. """ positions_fn = getattr(self._body, 'positions', None) if positions_fn: for pos in positions_fn(): yield pos return focus_widget, focus_pos = self._body.get_focus() if focus_widget is None: return pos = focus_pos while True: yield pos w, pos = self._body.get_next(pos) if not w: break pos = focus_pos while True: w, pos = self._body.get_prev(pos) if not w: break yield pos def __reversed__(self): """ Return a reversed iterator over the positions in this ListBox. If :attr:`body` does not implement :meth:`positions` then iterate from above the focus widget up to the top, then from the focus widget down to the bottom. Note that this is not actually the reverse of what `__iter__()` produces, but this is the best we can do with a minimal list walker implementation. """ positions_fn = getattr(self._body, 'positions', None) if positions_fn: for pos in positions_fn(reverse=True): yield pos return focus_widget, focus_pos = self._body.get_focus() if focus_widget is None: return pos = focus_pos while True: w, pos = self._body.get_prev(pos) if not w: break yield pos pos = focus_pos while True: yield pos w, pos = self._body.get_next(pos) if not w: break