Shofel2_T124_python/venv/lib/python3.10/site-packages/urwid/widget/columns.py

from __future__ import annotations

import typing
import warnings
from itertools import chain, repeat

from urwid.canvas import CanvasJoin, CompositeCanvas, SolidCanvas
from urwid.monitored_list import MonitoredFocusList, MonitoredList
from urwid.util import is_mouse_press

from .constants import Align, Sizing, WHSettings
from .container import WidgetContainerListContentsMixin, WidgetContainerMixin
from .widget import Widget

if typing.TYPE_CHECKING:
    from collections.abc import Iterable

    from typing_extensions import Literal


class ColumnsError(Exception):
    pass


class Columns(Widget, WidgetContainerMixin, WidgetContainerListContentsMixin):
    """
    Widgets arranged horizontally in columns from left to right
    """

    _sizing = frozenset([Sizing.FLOW, Sizing.BOX])

    def __init__(
        self,
        widget_list: Iterable[
            Widget
            | tuple[Literal["pack", WHSettings.PACK] | int, Widget]
            | tuple[Literal["weight", WHSettings.WEIGHT], int, Widget]
        ],
        dividechars: int = 0,
        focus_column: int | None = None,
        min_width: int = 1,
        box_columns: Iterable[int] | None = None,
    ):
        """
        :param widget_list: iterable of flow or box widgets
        :param dividechars: number of blank characters between columns
        :param focus_column: index into widget_list of column in focus,
            if ``None`` the first selectable widget will be chosen.
        :param min_width: minimum width for each column which is not
            calling widget.pack() in *widget_list*.
        :param box_columns: a list of column indexes containing box widgets
            whose height is set to the maximum of the rows
            required by columns not listed in *box_columns*.

        *widget_list* may also contain tuples such as:

        (*given_width*, *widget*)
            make this column *given_width* screen columns wide, where *given_width*
            is an int
        (``'pack'``, *widget*)
            call :meth:`pack() <Widget.pack>` to calculate the width of this column
        (``'weight'``, *weight*, *widget*)
            give this column a relative *weight* (number) to calculate its width from the
            screen columns remaining

        Widgets not in a tuple are the same as (``'weight'``, ``1``, *widget*)

        If the Columns widget is treated as a box widget then all children
        are treated as box widgets, and *box_columns* is ignored.

        If the Columns widget is treated as a flow widget then the rows
        are calculated as the largest rows() returned from all columns
        except the ones listed in *box_columns*.  The box widgets in
        *box_columns* will be displayed with this calculated number of rows,
        filling the full height.
        """
        self._selectable = False
        super().__init__()
        self._contents = MonitoredFocusList()
        self._contents.set_modified_callback(self._contents_modified)
        self._contents.set_focus_changed_callback(lambda f: self._invalidate())
        self._contents.set_validate_contents_modified(self._validate_contents_modified)

        box_columns = set(box_columns or ())

        for i, original in enumerate(widget_list):
            w = original
            if not isinstance(w, tuple):
                self.contents.append((w, (WHSettings.WEIGHT, 1, i in box_columns)))
            elif w[0] in (Sizing.FLOW, WHSettings.PACK):  # 'pack' used to be called 'flow'
                f = WHSettings.PACK
                _ignored, w = w
                self.contents.append((w, (f, None, i in box_columns)))
            elif len(w) == 2:
                width, w = w
                self.contents.append((w, (WHSettings.GIVEN, width, i in box_columns)))
            elif w[0] == Sizing.FIXED:  # backwards compatibility
                f = WHSettings.GIVEN
                _ignored, width, w = w
                self.contents.append((w, (WHSettings.GIVEN, width, i in box_columns)))
            elif w[0] == WHSettings.WEIGHT:
                f, width, w = w
                self.contents.append((w, (f, width, i in box_columns)))
            else:
                raise ColumnsError(f"initial widget list item invalid: {original!r}")
            if focus_column is None and w.selectable():
                focus_column = i

        self.dividechars = dividechars

        if self.contents and focus_column is not None:
            self.focus_position = focus_column
        self.pref_col = None
        self.min_width = min_width
        self._cache_maxcol = None

    def _contents_modified(self) -> None:
        """
        Recalculate whether this widget should be selectable whenever the
        contents has been changed.
        """
        self._selectable = any(w.selectable() for w, o in self.contents)
        self._invalidate()

    def _validate_contents_modified(self, slc, new_items) -> None:
        for item in new_items:
            try:
                w, (t, n, b) = item
                if t not in (WHSettings.PACK, WHSettings.GIVEN, WHSettings.WEIGHT):
                    raise ColumnsError(f"added content invalid {item!r}")
            except (TypeError, ValueError) as exc:  # noqa: PERF203
                raise ColumnsError(f"added content invalid {item!r}").with_traceback(exc.__traceback__) from exc

    @property
    def widget_list(self) -> MonitoredList:
        """
        A list of the widgets in this Columns

        .. note:: only for backwards compatibility. You should use the new
            standard container property :attr:`contents`.
        """
        warnings.warn(
            "only for backwards compatibility. You should use the new standard container `contents`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        ml = MonitoredList(w for w, t in self.contents)

        def user_modified():
            self.widget_list = ml

        ml.set_modified_callback(user_modified)
        return ml

    @widget_list.setter
    def widget_list(self, widgets):
        warnings.warn(
            "only for backwards compatibility. You should use the new standard container `contents`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        focus_position = self.focus_position
        self.contents = [
            # need to grow contents list if widgets is longer
            (new, options)
            for (new, (w, options)) in zip(widgets, chain(self.contents, repeat((None, (WHSettings.WEIGHT, 1, False)))))
        ]
        if focus_position < len(widgets):
            self.focus_position = focus_position

    @property
    def column_types(self) -> MonitoredList:
        """
        A list of the old partial options values for widgets in this Pile,
        for backwards compatibility only.  You should use the new standard
        container property .contents to modify Pile contents.
        """
        warnings.warn(
            "for backwards compatibility only."
            "You should use the new standard container property .contents to modify Pile contents.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        ml = MonitoredList(
            # return the old column type names
            ({WHSettings.GIVEN: Sizing.FIXED, WHSettings.PACK: Sizing.FLOW}.get(t, t), n)
            for w, (t, n, b) in self.contents
        )

        def user_modified():
            self.column_types = ml

        ml.set_modified_callback(user_modified)
        return ml

    @column_types.setter
    def column_types(self, column_types):
        warnings.warn(
            "for backwards compatibility only."
            "You should use the new standard container property .contents to modify Pile contents.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        focus_position = self.focus_position
        self.contents = [
            (w, ({Sizing.FIXED: WHSettings.GIVEN, Sizing.FLOW: WHSettings.PACK}.get(new_t, new_t), new_n, b))
            for ((new_t, new_n), (w, (t, n, b))) in zip(column_types, self.contents)
        ]
        if focus_position < len(column_types):
            self.focus_position = focus_position

    @property
    def box_columns(self) -> MonitoredList:
        """
        A list of the indexes of the columns that are to be treated as
        box widgets when the Columns is treated as a flow widget.

        .. note:: only for backwards compatibility. You should use the new
            standard container property :attr:`contents`.
        """
        warnings.warn(
            "only for backwards compatibility.You should use the new standard container property `contents`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        ml = MonitoredList(i for i, (w, (t, n, b)) in enumerate(self.contents) if b)

        def user_modified():
            self.box_columns = ml

        ml.set_modified_callback(user_modified)
        return ml

    @box_columns.setter
    def box_columns(self, box_columns):
        warnings.warn(
            "only for backwards compatibility.You should use the new standard container property `contents`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        box_columns = set(box_columns)
        self.contents = [(w, (t, n, i in box_columns)) for (i, (w, (t, n, b))) in enumerate(self.contents)]

    @property
    def has_flow_type(self) -> bool:
        """
        .. deprecated:: 1.0 Read values from :attr:`contents` instead.
        """
        warnings.warn(
            ".has_flow_type is deprecated, read values from .contents instead.",
            DeprecationWarning,
            stacklevel=2,
        )
        return WHSettings.PACK in self.column_types

    @has_flow_type.setter
    def has_flow_type(self, value):
        warnings.warn(
            ".has_flow_type is deprecated, read values from .contents instead.",
            DeprecationWarning,
            stacklevel=2,
        )

    @property
    def contents(self):
        """
        The contents of this Columns as a list of `(widget, options)` tuples.
        This list may be modified like a normal list and the Columns
        widget will update automatically.

        .. seealso:: Create new options tuples with the :meth:`options` method
        """
        return self._contents

    @contents.setter
    def contents(self, c):
        self._contents[:] = c

    @staticmethod
    def options(
        width_type: (
            Literal["pack", "given", "weight", WHSettings.PACK, WHSettings.GIVEN, WHSettings.WEIGHT]
        ) = WHSettings.WEIGHT,
        width_amount: int | None = 1,
        box_widget: bool = False,
    ) -> tuple[Literal[WHSettings.PACK], None, bool] | tuple[Literal[WHSettings.GIVEN, WHSettings.WEIGHT], int, bool]:
        """
        Return a new options tuple for use in a Pile's .contents list.

        This sets an entry's width type: one of the following:

        ``'pack'``
            Call the widget's :meth:`Widget.pack` method to determine how wide
            this column should be. *width_amount* is ignored.
        ``'given'``
            Make column exactly width_amount screen-columns wide.
        ``'weight'``
            Allocate the remaining space to this column by using
            *width_amount* as a weight value.

        :param width_type: ``'pack'``, ``'given'`` or ``'weight'``
        :param width_amount: ``None`` for ``'pack'``, a number of screen columns
            for ``'given'`` or a weight value (number) for ``'weight'``
        :param box_widget: set to `True` if this widget is to be treated as a box
            widget when the Columns widget itself is treated as a flow widget.
        :type box_widget: bool
        """
        if width_type == WHSettings.PACK:
            width_amount = None
        if width_type not in (WHSettings.PACK, WHSettings.GIVEN, WHSettings.WEIGHT):
            raise ColumnsError(f"invalid width_type: {width_type!r}")
        return (WHSettings(width_type), width_amount, box_widget)

    def _invalidate(self) -> None:
        self._cache_maxcol = None
        super()._invalidate()

    def set_focus_column(self, num: int) -> None:
        """
        Set the column in focus by its index in :attr:`widget_list`.

        :param num: index of focus-to-be entry
        :type num: int

        .. note:: only for backwards compatibility. You may also use the new
            standard container property :attr:`focus_position` to set the focus.
        """
        warnings.warn(
            "only for backwards compatibility.You may also use the new standard container property `focus_position`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        self.focus_position = num

    def get_focus_column(self) -> int:
        """
        Return the focus column index.

        .. note:: only for backwards compatibility. You may also use the new
            standard container property :attr:`focus_position` to get the focus.
        """
        warnings.warn(
            "only for backwards compatibility.You may also use the new standard container property `focus_position`",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        return self.focus_position

    def set_focus(self, item: Widget | int) -> None:
        """
        Set the item in focus

        .. note:: only for backwards compatibility. You may also use the new
            standard container property :attr:`focus_position` to get the focus.

        :param item: widget or integer index"""
        warnings.warn(
            "only for backwards compatibility."
            "You may also use the new standard container property `focus_position` to get the focus.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        if isinstance(item, int):
            self.focus_position = item
            return
        for i, (w, _options) in enumerate(self.contents):
            if item == w:
                self.focus_position = i
                return
        raise ValueError(f"Widget not found in Columns contents: {item!r}")

    @property
    def focus(self) -> Widget | None:
        """
        the child widget in focus or None when Columns is empty

        Return the widget in focus, for backwards compatibility.  You may
        also use the new standard container property .focus to get the
        child widget in focus.
        """
        if not self.contents:
            return None
        return self.contents[self.focus_position][0]

    def _get_focus(self) -> Widget:
        warnings.warn(
            f"method `{self.__class__.__name__}._get_focus` is deprecated, "
            f"please use `{self.__class__.__name__}.focus` property",
            DeprecationWarning,
            stacklevel=3,
        )
        if not self.contents:
            return None
        return self.contents[self.focus_position][0]

    def get_focus(self):
        """
        Return the widget in focus, for backwards compatibility.

        .. note:: only for backwards compatibility. You may also use the new
            standard container property :attr:`focus` to get the focus.
        """
        warnings.warn(
            "only for backwards compatibility."
            "You may also use the new standard container property `focus` to get the focus.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        if not self.contents:
            return None
        return self.contents[self.focus_position][0]

    @property
    def focus_position(self) -> int | None:
        """
        index of child widget in focus.
        Raises :exc:`IndexError` if read when Columns is empty, or when set to an invalid index.
        """
        if not self.contents:
            raise IndexError("No focus_position, Columns is empty")
        return self.contents.focus

    @focus_position.setter
    def focus_position(self, position: int) -> None:
        """
        Set the widget in focus.

        position -- index of child widget to be made focus
        """
        try:
            if position < 0 or position >= len(self.contents):
                raise IndexError(f"No Columns child widget at position {position}")
        except TypeError as exc:
            raise IndexError(f"No Columns child widget at position {position}").with_traceback(
                exc.__traceback__
            ) from exc
        self.contents.focus = position

    def _get_focus_position(self) -> int | None:
        warnings.warn(
            f"method `{self.__class__.__name__}._get_focus_position` is deprecated, "
            f"please use `{self.__class__.__name__}.focus_position` property",
            DeprecationWarning,
            stacklevel=3,
        )
        if not self.contents:
            raise IndexError("No focus_position, Columns is empty")
        return self.contents.focus

    def _set_focus_position(self, position: int) -> None:
        """
        Set the widget in focus.

        position -- index of child widget to be made focus
        """
        warnings.warn(
            f"method `{self.__class__.__name__}._set_focus_position` is deprecated, "
            f"please use `{self.__class__.__name__}.focus_position` property",
            DeprecationWarning,
            stacklevel=3,
        )
        try:
            if position < 0 or position >= len(self.contents):
                raise IndexError(f"No Columns child widget at position {position}")
        except TypeError as exc:
            raise IndexError(f"No Columns child widget at position {position}").with_traceback(
                exc.__traceback__
            ) from exc
        self.contents.focus = position

    @property
    def focus_col(self):
        """
        A property for reading and setting the index of the column in
        focus.

        .. note:: only for backwards compatibility. You may also use the new
            standard container property :attr:`focus_position` to get the focus.
        """
        warnings.warn(
            "only for backwards compatibility."
            "You may also use the new standard container property `focus_position` to get the focus.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        return self.focus_position

    @focus_col.setter
    def focus_col(self, new_position) -> None:
        warnings.warn(
            "only for backwards compatibility."
            "You may also use the new standard container property `focus_position` to get the focus.",
            PendingDeprecationWarning,
            stacklevel=2,
        )
        self.focus_position = new_position

    def column_widths(self, size: tuple[int] | tuple[int, int], focus: bool = False) -> list[int]:
        """
        Return a list of column widths.

        0 values in the list mean hide corresponding column completely
        """
        maxcol = size[0]
        # FIXME: get rid of this check and recalculate only when
        # a 'pack' widget has been modified.
        if maxcol == self._cache_maxcol and not any(t == WHSettings.PACK for w, (t, n, b) in self.contents):
            return self._cache_column_widths

        widths = []

        weighted = []
        shared = maxcol + self.dividechars

        for i, (w, (t, width, _b)) in enumerate(self.contents):
            if t == WHSettings.GIVEN:
                static_w = width
            elif t == WHSettings.PACK:
                # FIXME: should be able to pack with a different
                # maxcol value
                static_w = w.pack((maxcol,), focus and i == self.focus_position)[0]
            else:
                static_w = self.min_width

            if shared < static_w + self.dividechars and i > self.focus_position:
                break

            widths.append(static_w)
            shared -= static_w + self.dividechars
            if t not in (WHSettings.GIVEN, WHSettings.PACK):
                weighted.append((width, i))

        # drop columns on the left until we fit
        for i, _w in enumerate(widths):
            if shared >= 0:
                break
            shared += widths[i] + self.dividechars
            widths[i] = 0
            if weighted and weighted[0][1] == i:
                del weighted[0]

        if shared:
            # divide up the remaining space between weighted cols
            weighted.sort()
            wtotal = sum(weight for weight, i in weighted)
            grow = shared + len(weighted) * self.min_width
            for weight, i in weighted:
                width = int(float(grow) * weight / wtotal + 0.5)
                width = max(self.min_width, width)
                widths[i] = width
                grow -= width
                wtotal -= weight

        self._cache_maxcol = maxcol
        self._cache_column_widths = widths
        return widths

    def render(self, size: tuple[int] | tuple[int, int], focus: bool = False) -> SolidCanvas | CompositeCanvas:
        """
        Render columns and return canvas.

        :param size: see :meth:`Widget.render` for details
        :param focus: ``True`` if this widget is in focus
        :type focus: bool
        """
        widths = self.column_widths(size, focus)

        box_maxrow = None
        if len(size) == 1:
            box_maxrow = 1
            # two-pass mode to determine maxrow for box columns
            for i, (mc, (w, (_t, _n, b))) in enumerate(zip(widths, self.contents)):
                if b:
                    continue
                rows = w.rows((mc,), focus=focus and self.focus_position == i)
                box_maxrow = max(box_maxrow, rows)

        data = []
        for i, (mc, (w, (_t, _n, b))) in enumerate(zip(widths, self.contents)):
            # if the widget has a width of 0, hide it
            if mc <= 0:
                continue

            if box_maxrow and b:
                sub_size = (mc, box_maxrow)
            else:
                sub_size = (mc,) + size[1:]

            canv = w.render(sub_size, focus=focus and self.focus_position == i)

            if i < len(widths) - 1:
                mc += self.dividechars  # noqa: PLW2901
            data.append((canv, i, self.focus_position == i, mc))

        if not data:
            return SolidCanvas(" ", size[0], (size[1:] + (1,))[0])

        canv = CanvasJoin(data)
        if canv.cols() < size[0]:
            canv.pad_trim_left_right(0, size[0] - canv.cols())
        return canv

    def get_cursor_coords(self, size):
        """Return the cursor coordinates from the focus widget."""
        w, (t, n, b) = self.contents[self.focus_position]

        if not w.selectable():
            return None
        if not hasattr(w, "get_cursor_coords"):
            return None

        widths = self.column_widths(size)
        if len(widths) <= self.focus_position:
            return None
        colw = widths[self.focus_position]

        if len(size) == 1 and b:
            coords = w.get_cursor_coords((colw, self.rows(size)))
        else:
            coords = w.get_cursor_coords((colw,) + size[1:])
        if coords is None:
            return None
        x, y = coords
        x += sum([self.dividechars + wc for wc in widths[: self.focus_position] if wc > 0])
        return x, y

    def move_cursor_to_coords(self, size: tuple[int] | tuple[int, int], col: int, row: int) -> bool:
        """
        Choose a selectable column to focus based on the coords.

        see :meth:`Widget.move_cursor_coords` for details
        """
        widths = self.column_widths(size)

        best = None
        x = 0
        for i, (width, (w, options)) in enumerate(zip(widths, self.contents)):
            end = x + width
            if w.selectable():
                if col != Align.RIGHT and (col == Align.LEFT or x > col) and best is None:
                    # no other choice
                    best = i, x, end, w, options
                    break
                if col != Align.RIGHT and x > col and col - best[2] < x - col:
                    # choose one on left
                    break
                best = i, x, end, w, options
                if col != Align.RIGHT and col < end:
                    # choose this one
                    break
            x = end + self.dividechars

        if best is None:
            return False
        i, x, end, w, (t, n, b) = best
        if hasattr(w, "move_cursor_to_coords"):
            if isinstance(col, int):
                move_x = min(max(0, col - x), end - x - 1)
            else:
                move_x = col
            if len(size) == 1 and b:
                rval = w.move_cursor_to_coords((end - x, self.rows(size)), move_x, row)
            else:
                rval = w.move_cursor_to_coords((end - x,) + size[1:], move_x, row)
            if rval is False:
                return False

        self.focus_position = i
        self.pref_col = col
        return True

    def mouse_event(
        self,
        size: tuple[int] | tuple[int, int],
        event,
        button: int,
        col: int,
        row: int,
        focus: bool,
    ) -> bool | None:
        """
        Send event to appropriate column.
        May change focus on button 1 press.
        """
        widths = self.column_widths(size)

        x = 0
        for i, (width, (w, (_t, _n, b))) in enumerate(zip(widths, self.contents)):
            if col < x:
                return False
            w = self.contents[i][0]  # noqa: PLW2901
            end = x + width

            if col >= end:
                x = end + self.dividechars
                continue

            focus = focus and self.focus_position == i
            if is_mouse_press(event) and button == 1 and w.selectable():
                self.focus_position = i

            if not hasattr(w, "mouse_event"):
                return False

            if len(size) == 1 and b:
                return w.mouse_event((end - x, self.rows(size)), event, button, col - x, row, focus)
            return w.mouse_event((end - x,) + size[1:], event, button, col - x, row, focus)
        return False

    def get_pref_col(self, size: tuple[int] | tuple[int, int]) -> int:
        """Return the pref col from the column in focus."""
        widths = self.column_widths(size)

        w, (t, n, b) = self.contents[self.focus_position]
        if len(widths) <= self.focus_position:
            return 0
        col = None
        cwidth = widths[self.focus_position]
        if hasattr(w, "get_pref_col"):
            if len(size) == 1 and b:
                col = w.get_pref_col((cwidth, self.rows(size)))
            else:
                col = w.get_pref_col((cwidth,) + size[1:])
            if isinstance(col, int):
                col += self.focus_position * self.dividechars
                col += sum(widths[: self.focus_position])
        if col is None:
            col = self.pref_col
        if col is None and w.selectable():
            col = cwidth // 2
            col += self.focus_position * self.dividechars
            col += sum(widths[: self.focus_position])
        return col

    def rows(self, size: tuple[int] | tuple[int, int], focus: bool = False) -> int:
        """
        Return the number of rows required by the columns.
        This only makes sense if :attr:`widget_list` contains flow widgets.

        see :meth:`Widget.rows` for details
        """
        widths = self.column_widths(size, focus)

        rows = 1
        for i, (mc, (w, (_t, _n, b))) in enumerate(zip(widths, self.contents)):
            if b:
                continue
            rows = max(rows, w.rows((mc,), focus=focus and self.focus_position == i))
        return rows

    def keypress(self, size: tuple[int] | tuple[int, int], key: str) -> str | None:
        """
        Pass keypress to the focus column.

        :param size: `(maxcol,)` if :attr:`widget_list` contains flow widgets or
            `(maxcol, maxrow)` if it contains box widgets.
        :type size: int, int
        """
        if self.focus_position is None:
            return key

        widths = self.column_widths(size)
        if self.focus_position >= len(widths):
            return key

        i = self.focus_position
        mc = widths[i]
        w, (t, n, b) = self.contents[i]
        if self._command_map[key] not in ("cursor up", "cursor down", "cursor page up", "cursor page down"):
            self.pref_col = None
        if w.selectable():
            if len(size) == 1 and b:
                key = w.keypress((mc, self.rows(size, True)), key)
            else:
                key = w.keypress((mc,) + size[1:], key)

        if self._command_map[key] not in ("cursor left", "cursor right"):
            return key

        if self._command_map[key] == "cursor left":
            candidates = list(range(i - 1, -1, -1))  # count backwards to 0
        else:  # key == 'right'
            candidates = list(range(i + 1, len(self.contents)))

        for j in candidates:
            if not self.contents[j][0].selectable():
                continue

            self.focus_position = j
            return None
        return key