582 lines
24 KiB
Python
582 lines
24 KiB
Python
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# -*- coding: utf-8 -*-
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"""This module implements the displaying of widgets appropriately"""
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from __future__ import division
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from __future__ import absolute_import
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from __future__ import print_function
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from __future__ import unicode_literals
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from builtins import range
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from builtins import object
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from logging import getLogger
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from wcwidth import wcswidth
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from asciimatics.event import KeyboardEvent, MouseEvent
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from asciimatics.exceptions import Highlander, InvalidFields
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from asciimatics.screen import Screen
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from asciimatics.utilities import _DotDict
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from asciimatics.widgets.utilities import _euclidian_distance
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from asciimatics.widgets.widget import Widget
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# Logging
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logger = getLogger(__name__)
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class Layout(object):
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"""
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Widget layout handler.
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All Widgets must be contained within a Layout within a Frame.The Layout class is responsible
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for deciding the exact size and location of the widgets. The logic uses similar ideas as
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used in modern web frameworks and is as follows.
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1. The Frame owns one or more Layouts. The Layouts stack one above each other when
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displayed - i.e. the first Layout in the Frame is above the second, etc.
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2. Each Layout defines the horizontal constraints by defining columns as a percentage of the
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full canvas width.
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3. The Widgets are assigned a column within the Layout that owns them.
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4. The Layout then decides the exact size and location to make the
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Widget best fit the canvas as constrained by the above.
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"""
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__slots__ = ["_column_sizes", "_columns", "_frame", "_has_focus", "_live_col", "_live_widget",
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"_fill_frame"]
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def __init__(self, columns, fill_frame=False):
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"""
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:param columns: A list of numbers specifying the width of each column in this layout.
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:param fill_frame: Whether this Layout should attempt to fill the rest of the Frame.
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Defaults to False.
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The Layout will automatically normalize the units used for the columns, e.g. converting
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[2, 6, 2] to [20%, 60%, 20%] of the available canvas.
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"""
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total_size = sum(columns)
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self._column_sizes = [x / total_size for x in columns]
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self._columns = [[] for _ in columns]
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self._frame = None
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self._has_focus = False
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self._live_col = 0
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self._live_widget = -1
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self._fill_frame = fill_frame
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@property
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def fill_frame(self):
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"""
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Whether this Layout is variable height or not.
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"""
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return self._fill_frame
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@property
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def frame_update_count(self):
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"""
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The number of frames before this Layout should be updated.
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"""
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result = 1000000
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for column in self._columns:
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for widget in column:
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if widget.frame_update_count > 0:
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result = min(result, widget.frame_update_count)
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return result
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def register_frame(self, frame):
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"""
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Register the Frame that owns this Widget.
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:param frame: The owning Frame.
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"""
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self._frame = frame
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for column in self._columns:
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for widget in column:
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widget.register_frame(self._frame)
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def add_widget(self, widget, column=0):
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"""
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Add a widget to this Layout.
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If you are adding this Widget to the Layout dynamically after starting to play the Scene,
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don't forget to ensure that the value is explicitly set before the next update.
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:param widget: The widget to be added.
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:param column: The column within the widget for this widget. Defaults to zero.
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:returns: The passed in widget (so you can store a reference if needed).
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"""
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# Make sure that the Layout is fully initialised before we try to add any widgets.
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if self._frame is None:
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raise RuntimeError("You must add the Layout to the Frame before you can add a Widget.")
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# Now process the widget.
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self._columns[column].append(widget)
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widget.register_frame(self._frame)
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if widget.name in self._frame.data:
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widget.value = self._frame.data[widget.name]
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return widget
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def clear_widgets(self):
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"""
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Clear all widgets from this Layout.
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This method allows users of the Layout to dynamically recreate a new Layout. After calling
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this method, you can add new widgetsback into the Layout and then need to call `fix` to
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force the Frame to recalculate the resulting new overall layout.
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"""
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self._columns = [[] for _ in self._columns]
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self._live_col = 0
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self._live_widget = -1
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def focus(self, force_first=False, force_last=False, force_column=None,
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force_widget=None):
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"""
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Call this to give this Layout the input focus.
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:param force_first: Optional parameter to force focus to first widget.
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:param force_last: Optional parameter to force focus to last widget.
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:param force_column: Optional parameter to mandate the new column index.
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:param force_widget: Optional parameter to mandate the new widget index.
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The force_column and force_widget parameters must both be set together or they will
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otherwise be ignored.
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:raises IndexError: if a force option specifies a bad column or widget, or if the whole
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Layout is readonly.
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"""
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logger.debug("Focus: %s", self)
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had_focus = self._has_focus
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col, wid = self._live_col, self._live_widget
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self._has_focus = True
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if force_widget is not None and force_column is not None:
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self._live_col = force_column
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self._live_widget = force_widget
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elif force_first:
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self._live_col = 0
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self._live_widget = -1
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self._find_next_widget(1)
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elif force_last:
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self._live_col = len(self._columns) - 1
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self._live_widget = len(self._columns[self._live_col])
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self._find_next_widget(-1)
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if self._live_widget == -1:
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raise IndexError("No live widgets")
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if (col, wid) != (self._live_col, self._live_widget) or not had_focus:
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self._columns[self._live_col][self._live_widget].focus()
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def blur(self):
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"""
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Call this to take the input focus from this Layout.
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"""
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logger.debug("Blur: %s", self)
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if self._has_focus:
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self._has_focus = False
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try:
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self._columns[self._live_col][self._live_widget].blur()
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except IndexError:
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# don't worry if there are no active widgets in the Layout
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pass
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def fix(self, start_x, start_y, max_width, max_height):
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"""
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Fix the location and size of all the Widgets in this Layout.
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:param start_x: The start column for the Layout.
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:param start_y: The start line for the Layout.
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:param max_width: Max width to allow this layout.
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:param max_height: Max height to allow this layout.
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:returns: The next line to be used for any further Layouts.
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"""
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x = start_x
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width = max_width
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y = w = 0
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max_y = start_y
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string_len = wcswidth if self._frame.canvas.unicode_aware else len
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dimensions = []
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for i, column in enumerate(self._columns):
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# For each column determine if we need a tab offset for labels.
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# Only allow labels to take up 1/3 of the column.
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if len(column) > 0:
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offset = max([0 if c.label is None else string_len(c.label) + 1 for c in column])
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else:
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offset = 0
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offset = int(min(offset,
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width * self._column_sizes[i] // 3))
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# Start tracking new column
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dimensions.append(_DotDict())
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dimensions[i].parameters = []
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dimensions[i].offset = offset
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# Do first pass to figure out the gaps for widgets that want to fill remaining space.
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fill_layout = None
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fill_column = None
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y = start_y
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w = int(width * self._column_sizes[i])
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for widget in column:
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h = widget.required_height(offset, w)
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if h == Widget.FILL_FRAME:
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if fill_layout is None and fill_column is None:
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dimensions[i].parameters.append([widget, x, w, h])
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fill_layout = widget
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else:
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# Two filling widgets in one column - this is a bug.
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raise Highlander("Too many Widgets filling Layout")
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elif h == Widget.FILL_COLUMN:
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if fill_layout is None and fill_column is None:
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dimensions[i].parameters.append([widget, x, w, h])
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fill_column = widget
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else:
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# Two filling widgets in one column - this is a bug.
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raise Highlander("Too many Widgets filling Layout")
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else:
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dimensions[i].parameters.append([widget, x, w, h])
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y += h
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# Note space used by this column.
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dimensions[i].height = y
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# Update tracking variables fpr the next column.
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max_y = max(max_y, y)
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x += w
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# Finally check whether the Layout is allowed to expand.
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if self.fill_frame:
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max_y = max(max_y, start_y + max_height)
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# Now apply calculated sizes, updating any widgets that need to fill space.
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for column in dimensions:
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y = start_y
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for widget, x, w, h in column.parameters:
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if h == Widget.FILL_FRAME:
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h = max(1, start_y + max_height - column.height)
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elif h == Widget.FILL_COLUMN:
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h = max_y - column.height
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widget.set_layout(x, y, column.offset, w, h)
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y += h
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return max_y
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def get_current_widget(self):
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"""
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Return the current widget with the focus, or None if there isn't one.
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"""
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return self._columns[self._live_col][self._live_widget] if self._has_focus else None
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def get_nearest_widget(self, target_widget, direction):
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"""
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Find the nearest enabled widget to the specified target widget, bearing in mind direction of travel.
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Direction of travel is defined to be the movement from current Layout to next. This is important
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for the case where we wrap back to the beginning or end of the Layouts - and so should still only
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look for the widgets nearest the top/bottom (depending on direction of travel).
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This function may return None if there is no match (e.g. all widgets are disabled).
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:param target_widget: the target widget to match.
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:param direction: The direction of travel across Layouts.
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"""
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best_distance = 999999999
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match = None
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for i, column in enumerate(self._columns):
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indexed_column = list(enumerate(column))
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if direction < 0:
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indexed_column = reversed(indexed_column)
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# Force this to be a list for python 2/3 compatibility.
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live_widgets = [x for x in filter(
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lambda x: x[1].is_tab_stop and not x[1].disabled, indexed_column)]
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try:
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j, candidate = live_widgets[0]
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new_distance = _euclidian_distance(target_widget, candidate)
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if new_distance < best_distance:
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best_distance = new_distance
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match = candidate, i, j
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except IndexError:
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pass
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return match
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def _find_nearest_horizontal_widget(self, direction):
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"""
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Find the nearest widget to the left or right of the current widget with the focus.
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:param direction: The direction to move through the columns.
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"""
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current_col = self._live_col
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current_widget = self._columns[self._live_col][self._live_widget]
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while True:
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current_col += direction
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# Check if we need to wrap back to the beginning or end of the columns.
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if current_col >= len(self._columns):
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current_col = 0
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if current_col < 0:
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current_col = len(self._columns) - 1
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# Check if we've got back where we started - if so we had no match and we're done.
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if self._live_col == current_col:
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return
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# OK - we're still looking. FInd the closest live widget.
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live_widgets = filter(lambda x: x[1].is_tab_stop and not x[1].disabled,
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enumerate(self._columns[current_col]))
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best_distance = 999999999
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best_index = -1
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for index, widget in live_widgets:
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self._live_col = current_col
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# An exact match on line (i.e. same Y value) trumps any closest distance. Break out now if
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# we find a match that way.
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if widget.get_location()[1] == current_widget.get_location()[1]:
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self._live_col = current_col
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self._live_widget = index
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return
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new_distance = _euclidian_distance(current_widget, widget)
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if new_distance < best_distance:
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best_distance = new_distance
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best_index = index
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if best_index >= 0:
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self._live_col = current_col
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self._live_widget = best_index
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return
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def _find_next_widget(self, direction, stay_in_col=False):
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"""
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Find the next widget to get the focus, following TAB logic
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:param direction: The direction to move through the widgets.
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:param stay_in_col: Whether to limit search to current column. (Used for up/down in columns).
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"""
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current_widget = self._live_widget
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current_col = self._live_col
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while 0 <= self._live_col < len(self._columns):
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self._live_widget += direction
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while 0 <= self._live_widget < len(self._columns[self._live_col]):
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widget = self._columns[self._live_col][self._live_widget]
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if widget.is_tab_stop and not widget.disabled:
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return
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self._live_widget += direction
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# No need to do more if we are staying in the column.
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if stay_in_col:
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break
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# If we got here move to the ne t column.
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self._live_col += direction
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self._live_widget = -1 if direction > 0 else len(self._columns[self._live_col])
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if self._live_col == current_col:
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break
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# We've exhausted our search - give up and stay where we were.
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self._live_widget = current_widget
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def _update_focus(self, column, widget, set_focus=True):
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"""
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Helper function to move focus if new state matches the passed in state.
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:param column: Old index of column with focus.
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:param widget: Old index of widget with focus.
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:param set_focus: Whether to set a new focus or not.
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"""
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if (column, widget) != (self._live_col, self._live_widget):
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self._columns[column][widget].blur()
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if set_focus:
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self._columns[self._live_col][self._live_widget].focus()
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def process_event(self, event, hover_focus):
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"""
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Process any input event.
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:param event: The event that was triggered.
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:param hover_focus: Whether to trigger focus change on mouse moves.
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:returns: None if the Effect processed the event, else the original event.
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"""
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# Check whether this Layout is read-only - i.e. has no active focus.
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logger.debug("Layout event: %s %s", self, event)
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if self._live_col < 0 or self._live_widget < 0:
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# Might just be that we've unset the focus - so check we can't find a focus.
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self._find_next_widget(1)
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if self._live_col < 0 or self._live_widget < 0:
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return event
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# Give the active widget the first refusal for this event if we already have focus.
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if self._has_focus:
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event = self._columns[self._live_col][self._live_widget].process_event(event)
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# Check for any movement keys if the widget refused them.
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if event is not None:
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if isinstance(event, KeyboardEvent):
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if event.key_code == Screen.KEY_TAB:
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# Move on to next widget, unless it is the last in the Layout.
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col, wid = self._live_col, self._live_widget
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self._find_next_widget(1)
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if self._live_col >= len(self._columns):
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self._live_col = 0
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self._live_widget = -1
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self._find_next_widget(1)
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self._update_focus(col, wid, set_focus=False)
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return event
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# If we got here, we still should have the focus.
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self._update_focus(col, wid)
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event = None
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elif event.key_code == Screen.KEY_BACK_TAB:
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# Move on to previous widget, unless it is the first in the Layout.
|
||
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col, wid = self._live_col, self._live_widget
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self._find_next_widget(-1)
|
||
|
if self._live_col < 0:
|
||
|
self._live_col = len(self._columns) - 1
|
||
|
self._live_widget = len(self._columns[self._live_col])
|
||
|
self._find_next_widget(-1)
|
||
|
self._update_focus(col, wid, set_focus=False)
|
||
|
return event
|
||
|
|
||
|
# If we got here, we still should have the focus.
|
||
|
self._update_focus(col, wid)
|
||
|
event = None
|
||
|
elif event.key_code == Screen.KEY_DOWN:
|
||
|
# Move on to nearest widget below our current focus.
|
||
|
col, wid = self._live_col, self._live_widget
|
||
|
self._find_next_widget(1, stay_in_col=True)
|
||
|
self._update_focus(col, wid)
|
||
|
event = event if wid == self._live_widget else None
|
||
|
elif event.key_code == Screen.KEY_UP:
|
||
|
# Move on to nearest widget above our current focus.
|
||
|
col, wid = self._live_col, self._live_widget
|
||
|
self._find_next_widget(-1, stay_in_col=True)
|
||
|
self._update_focus(col, wid)
|
||
|
event = event if wid == self._live_widget else None
|
||
|
elif event.key_code == Screen.KEY_LEFT:
|
||
|
# Move on to nearest widget to the left.
|
||
|
col, wid = self._live_col, self._live_widget
|
||
|
self._find_nearest_horizontal_widget(-1)
|
||
|
self._update_focus(col, wid)
|
||
|
event = None
|
||
|
elif event.key_code == Screen.KEY_RIGHT:
|
||
|
# Move on to nearest widget to the right.
|
||
|
col, wid = self._live_col, self._live_widget
|
||
|
self._find_nearest_horizontal_widget(1)
|
||
|
self._update_focus(col, wid)
|
||
|
event = None
|
||
|
elif isinstance(event, MouseEvent):
|
||
|
logger.debug("Check layout: %d, %d", event.x, event.y)
|
||
|
if ((hover_focus and event.buttons >= 0) or
|
||
|
event.buttons > 0):
|
||
|
# Mouse click - look to move focus.
|
||
|
for i, column in enumerate(self._columns):
|
||
|
for j, widget in enumerate(column):
|
||
|
if widget.is_mouse_over(event):
|
||
|
self._frame.switch_focus(self, i, j)
|
||
|
widget.process_event(event)
|
||
|
return None
|
||
|
return event
|
||
|
|
||
|
def update(self, frame_no):
|
||
|
"""
|
||
|
Redraw the widgets inside this Layout.
|
||
|
|
||
|
:param frame_no: The current frame to be drawn.
|
||
|
"""
|
||
|
for column in self._columns:
|
||
|
for widget in column:
|
||
|
# Don't bother with invisible widgets
|
||
|
if widget.is_visible:
|
||
|
widget.update(frame_no)
|
||
|
|
||
|
def save(self, validate):
|
||
|
"""
|
||
|
Save the current values in all the widgets back to the persistent data storage.
|
||
|
|
||
|
:param validate: whether to validate the saved data or not.
|
||
|
:raises: InvalidFields if any invalid data is found.
|
||
|
"""
|
||
|
invalid = []
|
||
|
for column in self._columns:
|
||
|
for widget in column:
|
||
|
if widget.is_valid or not validate:
|
||
|
if widget.name is not None:
|
||
|
# This relies on the fact that we are passed the actual
|
||
|
# dict and so can edit it directly. In this case, that
|
||
|
# is all we want - no need to update the widgets.
|
||
|
self._frame._data[widget.name] = widget.value
|
||
|
else:
|
||
|
invalid.append(widget.name)
|
||
|
if len(invalid) > 0:
|
||
|
raise InvalidFields(invalid)
|
||
|
|
||
|
def find_widget(self, name):
|
||
|
"""
|
||
|
Look for a widget with a specified name.
|
||
|
|
||
|
:param name: The name to search for.
|
||
|
|
||
|
:returns: The widget that matches or None if one couldn't be found.
|
||
|
"""
|
||
|
result = None
|
||
|
for column in self._columns:
|
||
|
for widget in column:
|
||
|
if widget.name is not None and name == widget.name:
|
||
|
result = widget
|
||
|
break
|
||
|
return result
|
||
|
|
||
|
def update_widgets(self, new_frame=None):
|
||
|
"""
|
||
|
Reset the values for any Widgets in this Layout based on the current Frame data store.
|
||
|
|
||
|
:param new_frame: optional old Frame - used when cloning scenes.
|
||
|
"""
|
||
|
for column in self._columns:
|
||
|
for widget in column:
|
||
|
logger.debug("Updating: %s", widget.name)
|
||
|
# First handle the normal case - pull the default data from the current frame.
|
||
|
if widget.name in self._frame.data:
|
||
|
widget.value = self._frame.data[widget.name]
|
||
|
elif widget.is_tab_stop:
|
||
|
# Make sure every active widget is properly initialised, by calling the setter.
|
||
|
# This will fix up any dodgy NoneType values, but preserve any values overridden
|
||
|
# by other code.
|
||
|
widget.value = widget.value
|
||
|
|
||
|
# If an old frame was present, give the widget a chance to clone internal state
|
||
|
# from the previous view. If there is no clone function, ignore the error.
|
||
|
if new_frame:
|
||
|
try:
|
||
|
widget.clone(new_frame.find_widget(widget.name))
|
||
|
except AttributeError:
|
||
|
pass
|
||
|
|
||
|
def reset(self):
|
||
|
"""
|
||
|
Reset this Layout and the Widgets it contains.
|
||
|
"""
|
||
|
# Ensure that the widgets are using the right values.
|
||
|
self.update_widgets()
|
||
|
|
||
|
# Reset all the widgets.
|
||
|
for column in self._columns:
|
||
|
for widget in column:
|
||
|
widget.reset()
|
||
|
widget.blur()
|
||
|
|
||
|
# Find the focus for the first widget
|
||
|
self._live_widget = -1
|
||
|
self._find_next_widget(1)
|
||
|
|
||
|
def enable(self, columns=None):
|
||
|
"""
|
||
|
Enable all widgets in the specified columns of this Layout.
|
||
|
|
||
|
:param columns: The list of columns to enable. Defaults to all columns.
|
||
|
"""
|
||
|
# Enable all widgets in required columns.
|
||
|
for column in columns if columns else range(len(self._columns)):
|
||
|
for widget in self._columns[column]:
|
||
|
widget.disabled = False
|
||
|
|
||
|
def disable(self, columns=None):
|
||
|
"""
|
||
|
Disable all widgets in the specified columns of this Layout.
|
||
|
|
||
|
:param columns: The list of columns to disable. Defaults to all columns.
|
||
|
"""
|
||
|
# Disable all widgets in required columns.
|
||
|
for column in columns if columns else range(len(self._columns)):
|
||
|
for widget in self._columns[column]:
|
||
|
widget.disabled = True
|
||
|
|
||
|
# Update focus if needed.
|
||
|
if columns is None or self._live_col in columns:
|
||
|
self._find_next_widget(1)
|