anki/qt/aqt/table.py
2021-03-30 23:44:35 +02:00

1132 lines
38 KiB
Python

# -*- coding: utf-8 -*-
# Copyright: Ankitects Pty Ltd and contributors
# License: GNU AGPL, version 3 or later; http://www.gnu.org/licenses/agpl.html
from __future__ import annotations
import time
from abc import ABC, abstractmethod, abstractproperty
from dataclasses import dataclass
from operator import itemgetter
from typing import (
Any,
Callable,
Dict,
Generator,
List,
Optional,
Sequence,
Tuple,
Union,
cast,
)
import aqt
import aqt.forms
from anki.cards import Card, CardId
from anki.collection import BrowserRow, Collection, Config, OpChanges
from anki.consts import *
from anki.errors import NotFoundError
from anki.notes import Note, NoteId
from anki.utils import ids2str, isWin
from aqt import colors, gui_hooks
from aqt.qt import *
from aqt.theme import theme_manager
from aqt.utils import (
KeyboardModifiersPressed,
qtMenuShortcutWorkaround,
restoreHeader,
showInfo,
tr,
)
ItemId = Union[CardId, NoteId]
ItemList = Union[Sequence[CardId], Sequence[NoteId]]
@dataclass
class SearchContext:
search: str
browser: aqt.browser.Browser
order: Union[bool, str] = True
# if set, provided ids will be used instead of the regular search
ids: Optional[Sequence[ItemId]] = None
class Table:
SELECTION_LIMIT: int = 500
def __init__(self, browser: aqt.browser.Browser) -> None:
self.browser = browser
self.col: Collection = browser.col
self._state: ItemState = (
NoteState(self.col)
if self.col.get_config_bool(Config.Bool.BROWSER_TABLE_SHOW_NOTES_MODE)
else CardState(self.col)
)
self._model = DataModel(self.col, self._state)
self._view: Optional[QTableView] = None
self._current_item: Optional[ItemId] = None
self._selected_items: Sequence[ItemId] = []
def set_view(self, view: QTableView) -> None:
self._view = view
self._setup_view()
self._setup_headers()
# Public Methods
######################################################################
# Get metadata
def len(self) -> int:
return self._model.len_rows()
def len_selection(self) -> int:
return len(self._view.selectionModel().selectedRows())
def has_current(self) -> bool:
return self._view.selectionModel().currentIndex().isValid()
def has_previous(self) -> bool:
return self.has_current() and self._current().row() > 0
def has_next(self) -> bool:
return self.has_current() and self._current().row() < self.len() - 1
def is_notes_mode(self) -> bool:
return self._state.is_notes_mode()
# Get objects
def get_current_card(self) -> Optional[Card]:
if not self.has_current():
return None
return self._model.get_card(self._current())
def get_current_note(self) -> Optional[Note]:
if not self.has_current():
return None
return self._model.get_note(self._current())
def get_single_selected_card(self) -> Optional[Card]:
"""If there is only one row selected return its card, else None.
This may be a different one than the current card."""
if self.len_selection() != 1:
return None
return self._model.get_card(self._selected()[0])
# Get ids
def get_selected_card_ids(self) -> Sequence[CardId]:
return self._model.get_card_ids(self._selected())
def get_selected_note_ids(self) -> Sequence[NoteId]:
return self._model.get_note_ids(self._selected())
def get_card_ids_from_selected_note_ids(self) -> Sequence[CardId]:
return self._state.card_ids_from_note_ids(self.get_selected_note_ids())
# Selecting
def select_all(self) -> None:
self._view.selectAll()
def clear_selection(self) -> None:
self._view.selectionModel().clear()
def invert_selection(self) -> None:
selection = self._view.selectionModel().selection()
self.select_all()
self._view.selectionModel().select(
selection,
cast(
QItemSelectionModel.SelectionFlags,
QItemSelectionModel.Deselect | QItemSelectionModel.Rows,
),
)
def select_single_card(self, card_id: CardId) -> None:
"""Try to set the selection to the item corresponding to the given card."""
self.clear_selection()
try:
self._view.selectRow(self._model.get_card_row(card_id))
except ValueError:
pass
# Reset
def reset(self) -> None:
"""Reload table data from collection and redraw."""
self.begin_reset()
self.end_reset()
def begin_reset(self) -> None:
self._save_selection()
self._model.begin_reset()
def end_reset(self) -> None:
self._model.end_reset()
self._restore_selection(self._intersected_selection)
def on_backend_will_block(self) -> None:
# make sure the card list doesn't try to refresh itself during the operation,
# as that will block the UI
self._model.begin_blocking()
def on_backend_did_block(self) -> None:
self._model.end_blocking()
def redraw_cells(self) -> None:
self._model.redraw_cells()
def op_executed(self, op: OpChanges, focused: bool) -> None:
print("op executed")
if op.card or op.note or op.deck or op.notetype:
self._model.empty_cache()
if focused:
self.redraw_cells()
# Modify table
def search(self, txt: str) -> None:
self._save_selection()
self._model.search(SearchContext(search=txt, browser=self.browser))
self._restore_selection(self._intersected_selection)
def toggle_state(self, is_notes_mode: bool, last_search: str) -> None:
if is_notes_mode == self.is_notes_mode():
return
self._save_selection()
self._state = self._model.toggle_state(
SearchContext(search=last_search, browser=self.browser)
)
self.col.set_config_bool(
Config.Bool.BROWSER_TABLE_SHOW_NOTES_MODE, self.is_notes_mode()
)
self._set_sort_indicator()
self._set_column_sizes()
self._restore_selection(self._toggled_selection)
# Move cursor
def to_previous_row(self) -> None:
self._move_current(QAbstractItemView.MoveUp)
def to_next_row(self) -> None:
self._move_current(QAbstractItemView.MoveDown)
def to_first_row(self) -> None:
self._move_current_to_row(0)
def to_last_row(self) -> None:
self._move_current_to_row(self._model.len_rows() - 1)
# Private methods
######################################################################
# Helpers
def _current(self) -> QModelIndex:
return self._view.selectionModel().currentIndex()
def _selected(self) -> List[QModelIndex]:
return self._view.selectionModel().selectedRows()
def _set_current(self, row: int, column: int = 0) -> None:
index = self._model.index(
row, self._view.horizontalHeader().logicalIndex(column)
)
self._view.selectionModel().setCurrentIndex(index, QItemSelectionModel.NoUpdate)
def _select_rows(self, rows: List[int]) -> None:
selection = QItemSelection()
for row in rows:
selection.select(
self._model.index(row, 0),
self._model.index(row, self._model.len_columns() - 1),
)
self._view.selectionModel().select(selection, QItemSelectionModel.SelectCurrent)
def _set_sort_indicator(self) -> None:
hh = self._view.horizontalHeader()
index = self._model.active_column_index(self._state.sort_column)
if index is None:
hh.setSortIndicatorShown(False)
return
if self._state.sort_backwards:
order = Qt.DescendingOrder
else:
order = Qt.AscendingOrder
hh.blockSignals(True)
hh.setSortIndicator(index, order)
hh.blockSignals(False)
hh.setSortIndicatorShown(True)
def _set_column_sizes(self) -> None:
hh = self._view.horizontalHeader()
hh.setSectionResizeMode(QHeaderView.Interactive)
hh.setSectionResizeMode(
hh.logicalIndex(self._model.len_columns() - 1), QHeaderView.Stretch
)
# this must be set post-resize or it doesn't work
hh.setCascadingSectionResizes(False)
# Setup
def _setup_view(self) -> None:
self._view.setSortingEnabled(True)
self._view.setModel(self._model)
self._view.selectionModel()
self._view.setItemDelegate(StatusDelegate(self.browser, self._model))
qconnect(
self._view.selectionModel().selectionChanged, self.browser.onRowChanged
)
self._view.setWordWrap(False)
self._update_font()
if not theme_manager.night_mode:
self._view.setStyleSheet(
"QTableView{ selection-background-color: rgba(150, 150, 150, 50); "
"selection-color: black; }"
)
elif theme_manager.macos_dark_mode():
self._view.setStyleSheet(
f"QTableView {{ gridline-color: {colors.FRAME_BG} }}"
)
self._view.setContextMenuPolicy(Qt.CustomContextMenu)
qconnect(self._view.customContextMenuRequested, self._on_context_menu)
def _update_font(self) -> None:
# we can't choose different line heights efficiently, so we need
# to pick a line height big enough for any card template
curmax = 16
for m in self.col.models.all():
for t in m["tmpls"]:
bsize = t.get("bsize", 0)
if bsize > curmax:
curmax = bsize
self._view.verticalHeader().setDefaultSectionSize(curmax + 6)
def _setup_headers(self) -> None:
vh = self._view.verticalHeader()
hh = self._view.horizontalHeader()
if not isWin:
vh.hide()
hh.show()
restoreHeader(hh, "editor")
hh.setHighlightSections(False)
hh.setMinimumSectionSize(50)
hh.setSectionsMovable(True)
self._set_column_sizes()
hh.setContextMenuPolicy(Qt.CustomContextMenu)
qconnect(hh.customContextMenuRequested, self._on_header_context)
self._set_sort_indicator()
qconnect(hh.sortIndicatorChanged, self._on_sort_column_changed)
qconnect(hh.sectionMoved, self._on_column_moved)
# Slots
def _on_context_menu(self, _point: QPoint) -> None:
menu = QMenu()
if self.is_notes_mode():
main = self.browser.form.menu_Notes
other = self.browser.form.menu_Cards
other_name = tr.qt_accel_cards()
else:
main = self.browser.form.menu_Cards
other = self.browser.form.menu_Notes
other_name = tr.qt_accel_notes()
for action in main.actions():
menu.addAction(action)
menu.addSeparator()
sub_menu = menu.addMenu(other_name)
for action in other.actions():
sub_menu.addAction(action)
gui_hooks.browser_will_show_context_menu(self.browser, menu)
qtMenuShortcutWorkaround(menu)
menu.exec_(QCursor.pos())
def _on_header_context(self, pos: QPoint) -> None:
gpos = self._view.mapToGlobal(pos)
m = QMenu()
for column, name in self._state.columns:
a = m.addAction(name)
a.setCheckable(True)
a.setChecked(self._model.active_column_index(column) is not None)
qconnect(
a.toggled,
lambda checked, column=column: self._on_column_toggled(checked, column),
)
gui_hooks.browser_header_will_show_context_menu(self.browser, m)
m.exec_(gpos)
def _on_column_moved(self, *_args: Any) -> None:
self._set_column_sizes()
def _on_column_toggled(self, checked: bool, column: str) -> None:
if not checked and self._model.len_columns() < 2:
showInfo(tr.browsing_you_must_have_at_least_one())
return
self._model.toggle_column(column)
self._set_column_sizes()
# sorted field may have been hidden or revealed
self._set_sort_indicator()
if checked:
self._scroll_to_column(self._model.len_columns() - 1)
def _on_sort_column_changed(self, index: int, order: int) -> None:
order = bool(order)
sort_column = self._model.active_column(index)
if sort_column in ("question", "answer"):
showInfo(tr.browsing_sorting_on_this_column_is_not())
sort_column = self._state.sort_column
if self._state.sort_column != sort_column:
self._state.sort_column = sort_column
# default to descending for non-text fields
if sort_column == "noteFld":
order = not order
self._state.sort_backwards = order
self.browser.search()
else:
if self._state.sort_backwards != order:
self._state.sort_backwards = order
self._reverse()
self._set_sort_indicator()
def _reverse(self) -> None:
self._save_selection()
self._model.reverse()
self._restore_selection(self._intersected_selection)
# Restore selection
def _save_selection(self) -> None:
"""Save the current item and selected items."""
if self.has_current():
self._current_item = self._model.get_item(self._current())
self._selected_items = self._model.get_items(self._selected())
def _restore_selection(self, new_selected_and_current: Callable) -> None:
"""Restore the saved selection and current element as far as possible and scroll to the
new current element. Clear the saved selection.
"""
self.clear_selection()
if not self._model.is_empty():
rows, current = new_selected_and_current()
rows = self._qualify_selected_rows(rows, current)
current = current or rows[0]
self._select_rows(rows)
self._set_current(current)
# editor may pop up and hide the row later on
QTimer.singleShot(100, lambda: self._scroll_to_row(current))
if self.len_selection() == 0:
# no row change will fire
self.browser.onRowChanged(QItemSelection(), QItemSelection())
self._selected_items = []
self._current_item = None
def _qualify_selected_rows(
self, rows: List[int], current: Optional[int]
) -> List[int]:
"""Return between 1 and SELECTION_LIMIT rows, as far as possible from rows or current."""
if rows:
if len(rows) < self.SELECTION_LIMIT:
return rows
if current and current in rows:
return [current]
return rows[0:1]
return [current if current else 0]
def _intersected_selection(self) -> Tuple[List[int], Optional[int]]:
"""Return all rows of items that were in the saved selection and the row of the saved
current element if present.
"""
selected_rows = self._model.get_item_rows(self._selected_items)
current_row = self._current_item and self._model.get_item_row(
self._current_item
)
return selected_rows, current_row
def _toggled_selection(self) -> Tuple[List[int], Optional[int]]:
"""Convert the items of the saved selection and current element to the new state and
return their rows.
"""
selected_rows = self._model.get_item_rows(
self._state.get_new_items(self._selected_items)
)
current_row = None
if self._current_item:
if new_current := self._state.get_new_items([self._current_item]):
current_row = self._model.get_item_row(new_current[0])
return selected_rows, current_row
# Move
def _scroll_to_row(self, row: int) -> None:
"""Scroll vertically to row."""
top_border = self._view.rowViewportPosition(row)
bottom_border = top_border + self._view.rowHeight(0)
visible = top_border >= 0 and bottom_border < self._view.viewport().height()
if not visible:
horizontal = self._view.horizontalScrollBar().value()
self._view.scrollTo(self._model.index(row, 0), self._view.PositionAtCenter)
self._view.horizontalScrollBar().setValue(horizontal)
def _scroll_to_column(self, column: int) -> None:
"""Scroll horizontally to column."""
position = self._view.columnViewportPosition(column)
visible = 0 <= position < self._view.viewport().width()
if not visible:
vertical = self._view.verticalScrollBar().value()
self._view.scrollTo(
self._model.index(0, column), self._view.PositionAtCenter
)
self._view.verticalScrollBar().setValue(vertical)
def _move_current(self, direction: int, index: QModelIndex = None) -> None:
if not self.has_current():
return
if index is None:
index = self._view.moveCursor(
cast(QAbstractItemView.CursorAction, direction),
self.browser.mw.app.keyboardModifiers(),
)
self._view.selectionModel().setCurrentIndex(
index,
cast(
QItemSelectionModel.SelectionFlag,
QItemSelectionModel.Clear
| QItemSelectionModel.Select
| QItemSelectionModel.Rows,
),
)
def _move_current_to_row(self, row: int) -> None:
old = self._view.selectionModel().currentIndex()
self._move_current(None, self._model.index(row, 0))
if not KeyboardModifiersPressed().shift:
return
new = self._view.selectionModel().currentIndex()
selection = QItemSelection(new, old)
self._view.selectionModel().select(
selection,
cast(
QItemSelectionModel.SelectionFlag,
QItemSelectionModel.SelectCurrent | QItemSelectionModel.Rows,
),
)
# ItemStates
######################################################################
class ItemState(ABC):
_columns: List[Tuple[str, str]]
_active_columns: List[str]
_sort_column: str
_sort_backwards: bool
def __init__(self, col: Collection) -> None:
self.col = col
def is_notes_mode(self) -> bool:
"""Return True if the state is a NoteState."""
return isinstance(self, NoteState)
# Stateless Helpers
def note_ids_from_card_ids(self, items: Sequence[ItemId]) -> Sequence[NoteId]:
return self.col.db.list(
f"select distinct nid from cards where id in {ids2str(items)}"
)
def card_ids_from_note_ids(self, items: Sequence[ItemId]) -> Sequence[CardId]:
return self.col.db.list(f"select id from cards where nid in {ids2str(items)}")
# Columns and sorting
# abstractproperty is deprecated but used due to mypy limitations
# (https://github.com/python/mypy/issues/1362)
@abstractproperty
def columns(self) -> List[Tuple[str, str]]:
"""Return all for the state available columns."""
@abstractproperty
def active_columns(self) -> List[str]:
"""Return the saved or default columns for the state."""
@abstractmethod
def toggle_active_column(self, column: str) -> None:
"""Add or remove an active column."""
@abstractproperty
def sort_column(self) -> str:
"""Return the sort column from the config."""
@sort_column.setter
def sort_column(self, column: str) -> None:
"""Save the sort column in the config."""
@abstractproperty
def sort_backwards(self) -> bool:
"""Return the sort order from the config."""
@sort_backwards.setter
def sort_backwards(self, order: bool) -> None:
"""Save the sort order in the config."""
# Get objects
@abstractmethod
def get_card(self, item: ItemId) -> Card:
"""Return the item if it's a card or its first card if it's a note."""
@abstractmethod
def get_note(self, item: ItemId) -> Note:
"""Return the item if it's a note or its note if it's a card."""
# Get ids
@abstractmethod
def find_items(self, search: str, order: Union[bool, str]) -> Sequence[ItemId]:
"""Return the item ids fitting the given search and order."""
@abstractmethod
def get_item_from_card_id(self, card: CardId) -> ItemId:
"""Return the appropriate item id for a card id."""
@abstractmethod
def get_card_ids(self, items: Sequence[ItemId]) -> Sequence[CardId]:
"""Return the card ids for the given item ids."""
@abstractmethod
def get_note_ids(self, items: Sequence[ItemId]) -> Sequence[NoteId]:
"""Return the note ids for the given item ids."""
# Toggle
@abstractmethod
def toggle_state(self) -> ItemState:
"""Return an instance of the other state."""
@abstractmethod
def get_new_items(self, old_items: Sequence[ItemId]) -> ItemList:
"""Given a list of ids from the other state, return the corresponding ids for this state."""
class CardState(ItemState):
def __init__(self, col: Collection) -> None:
super().__init__(col)
self._load_columns()
self._active_columns = self.col.load_browser_card_columns()
self._sort_column = self.col.get_config("sortType")
self._sort_backwards = self.col.get_config_bool(
Config.Bool.BROWSER_SORT_BACKWARDS
)
def _load_columns(self) -> None:
self._columns = [
("question", tr.browsing_question()),
("answer", tr.browsing_answer()),
("template", tr.browsing_card()),
("deck", tr.decks_deck()),
("noteFld", tr.browsing_sort_field()),
("noteCrt", tr.browsing_created()),
("noteMod", tr.search_note_modified()),
("cardMod", tr.search_card_modified()),
("cardDue", tr.statistics_due_date()),
("cardIvl", tr.browsing_interval()),
("cardEase", tr.browsing_ease()),
("cardReps", tr.scheduling_reviews()),
("cardLapses", tr.scheduling_lapses()),
("noteTags", tr.editing_tags()),
("note", tr.browsing_note()),
]
self._columns.sort(key=itemgetter(1))
@property
def columns(self) -> List[Tuple[str, str]]:
return self._columns
@property
def active_columns(self) -> List[str]:
return self._active_columns
def toggle_active_column(self, column: str) -> None:
if column in self._active_columns:
self._active_columns.remove(column)
else:
self._active_columns.append(column)
self.col.set_browser_card_columns(self._active_columns)
@property
def sort_column(self) -> str:
return self._sort_column
@sort_column.setter
def sort_column(self, column: str) -> None:
self.col.set_config("sortType", column)
self._sort_column = column
@property
def sort_backwards(self) -> bool:
return self._sort_backwards
@sort_backwards.setter
def sort_backwards(self, order: bool) -> None:
self.col.set_config_bool(Config.Bool.BROWSER_SORT_BACKWARDS, order)
self._sort_backwards = order
def get_card(self, item: ItemId) -> Card:
return self.col.get_card(CardId(item))
def get_note(self, item: ItemId) -> Note:
return self.get_card(item).note()
def find_items(self, search: str, order: Union[bool, str]) -> Sequence[ItemId]:
return self.col.find_cards(search, order)
def get_item_from_card_id(self, card: CardId) -> ItemId:
return card
def get_card_ids(self, items: Sequence[ItemId]) -> Sequence[CardId]:
return cast(Sequence[CardId], items)
def get_note_ids(self, items: Sequence[ItemId]) -> Sequence[NoteId]:
return super().note_ids_from_card_ids(items)
def toggle_state(self) -> NoteState:
return NoteState(self.col)
def get_new_items(self, old_items: Sequence[ItemId]) -> Sequence[CardId]:
return super().card_ids_from_note_ids(old_items)
class NoteState(ItemState):
def __init__(self, col: Collection) -> None:
super().__init__(col)
self._load_columns()
self._active_columns = self.col.load_browser_note_columns()
self._sort_column = self.col.get_config("noteSortType")
self._sort_backwards = self.col.get_config_bool(
Config.Bool.BROWSER_NOTE_SORT_BACKWARDS
)
def _load_columns(self) -> None:
self._columns = [
("note", tr.browsing_note()),
("noteCards", tr.editing_cards()),
("noteCrt", tr.browsing_created()),
("noteDue", tr.statistics_due_date()),
("noteEase", tr.browsing_average_ease()),
("noteFld", tr.browsing_sort_field()),
("noteIvl", tr.browsing_average_interval()),
("noteLapses", tr.scheduling_lapses()),
("noteMod", tr.search_note_modified()),
("noteReps", tr.scheduling_reviews()),
("noteTags", tr.editing_tags()),
]
self._columns.sort(key=itemgetter(1))
@property
def columns(self) -> List[Tuple[str, str]]:
return self._columns
@property
def active_columns(self) -> List[str]:
return self._active_columns
def toggle_active_column(self, column: str) -> None:
if column in self._active_columns:
self._active_columns.remove(column)
else:
self._active_columns.append(column)
self.col.set_browser_note_columns(self._active_columns)
@property
def sort_column(self) -> str:
return self._sort_column
@sort_column.setter
def sort_column(self, column: str) -> None:
self.col.set_config("noteSortType", column)
self._sort_column = column
@property
def sort_backwards(self) -> bool:
return self._sort_backwards
@sort_backwards.setter
def sort_backwards(self, order: bool) -> None:
self.col.set_config_bool(Config.Bool.BROWSER_NOTE_SORT_BACKWARDS, order)
self._sort_backwards = order
def get_card(self, item: ItemId) -> Card:
return self.get_note(item).cards()[0]
def get_note(self, item: ItemId) -> Note:
return self.col.get_note(NoteId(item))
def find_items(self, search: str, order: Union[bool, str]) -> Sequence[ItemId]:
return self.col.find_notes(search, order)
def get_item_from_card_id(self, card: CardId) -> ItemId:
return self.get_card(card).note().id
def get_card_ids(self, items: Sequence[ItemId]) -> Sequence[CardId]:
return super().card_ids_from_note_ids(items)
def get_note_ids(self, items: Sequence[ItemId]) -> Sequence[NoteId]:
return cast(Sequence[NoteId], items)
def toggle_state(self) -> CardState:
return CardState(self.col)
def get_new_items(self, old_items: Sequence[ItemId]) -> Sequence[NoteId]:
return super().note_ids_from_card_ids(old_items)
# Data model
##########################################################################
@dataclass
class Cell:
text: str
is_rtl: bool
class CellRow:
is_deleted: bool = False
def __init__(
self,
cells: Generator[Tuple[str, bool], None, None],
color: BrowserRow.Color.V,
font_name: str,
font_size: int,
) -> None:
self.refreshed_at: float = time.time()
self.cells: Tuple[Cell, ...] = tuple(Cell(*cell) for cell in cells)
self.color: Optional[Tuple[str, str]] = backend_color_to_aqt_color(color)
self.font_name: str = font_name or "arial"
self.font_size: int = font_size if font_size > 0 else 12
def is_stale(self, threshold: float) -> bool:
return self.refreshed_at < threshold
@staticmethod
def generic(length: int, cell_text: str) -> CellRow:
return CellRow(
((cell_text, False) for cell in range(length)),
BrowserRow.COLOR_DEFAULT,
"arial",
12,
)
@staticmethod
def placeholder(length: int) -> CellRow:
return CellRow.generic(length, "...")
@staticmethod
def deleted(length: int) -> CellRow:
row = CellRow.generic(length, tr.browsing_row_deleted())
row.is_deleted = True
return row
def backend_color_to_aqt_color(color: BrowserRow.Color.V) -> Optional[Tuple[str, str]]:
if color == BrowserRow.COLOR_MARKED:
return colors.MARKED_BG
if color == BrowserRow.COLOR_SUSPENDED:
return colors.SUSPENDED_BG
if color == BrowserRow.COLOR_FLAG_RED:
return colors.FLAG1_BG
if color == BrowserRow.COLOR_FLAG_ORANGE:
return colors.FLAG2_BG
if color == BrowserRow.COLOR_FLAG_GREEN:
return colors.FLAG3_BG
if color == BrowserRow.COLOR_FLAG_BLUE:
return colors.FLAG4_BG
return None
class DataModel(QAbstractTableModel):
def __init__(self, col: Collection, state: ItemState) -> None:
QAbstractTableModel.__init__(self)
self.col: Collection = col
self._state: ItemState = state
self._items: Sequence[ItemId] = []
self._rows: Dict[int, CellRow] = {}
self._last_refresh = 0.0
# serve stale content to avoid hitting the DB?
self._block_updates = False
# Row Object Interface
######################################################################
# Get Rows
def get_cell(self, index: QModelIndex) -> Cell:
return self.get_row(index).cells[index.column()]
def get_row(self, index: QModelIndex) -> CellRow:
item = self.get_item(index)
if row := self._rows.get(item):
if not self._block_updates and row.is_stale(self._last_refresh):
# need to refresh
self._rows[item] = self._fetch_row_from_backend(item)
return self._rows[item]
# return row, even if it's stale
return row
if self._block_updates:
# blank row until we unblock
return CellRow.placeholder(self.len_columns())
# missing row, need to build
self._rows[item] = self._fetch_row_from_backend(item)
return self._rows[item]
def _fetch_row_from_backend(self, item: ItemId) -> CellRow:
try:
row = CellRow(*self.col.browser_row_for_id(item))
except NotFoundError:
return CellRow.deleted(self.len_columns())
except Exception as e:
return CellRow.generic(self.len_columns(), str(e))
gui_hooks.browser_did_fetch_row(
item, self._state.is_notes_mode(), row, self._state.active_columns
)
return row
# Reset
def empty_cache(self) -> None:
self._rows = {}
def reset(self) -> None:
self.begin_reset()
self.end_reset()
def begin_reset(self) -> None:
self.beginResetModel()
self.empty_cache()
def end_reset(self) -> None:
self.endResetModel()
# Block/Unblock
def begin_blocking(self) -> None:
self._block_updates = True
def end_blocking(self) -> None:
self._block_updates = False
self.redraw_cells()
def redraw_cells(self) -> None:
"Update cell contents, without changing search count/columns/sorting."
if self.is_empty():
return
top_left = self.index(0, 0)
bottom_right = self.index(self.len_rows() - 1, self.len_columns() - 1)
self._last_refresh = time.time()
self.dataChanged.emit(top_left, bottom_right) # type: ignore
# Item Interface
######################################################################
# Get metadata
def is_empty(self) -> bool:
return not self._items
def len_rows(self) -> int:
return len(self._items)
def len_columns(self) -> int:
return len(self._state.active_columns)
# Get items (card or note ids depending on state)
def get_item(self, index: QModelIndex) -> ItemId:
return self._items[index.row()]
def get_items(self, indices: List[QModelIndex]) -> Sequence[ItemId]:
return [self.get_item(index) for index in indices]
def get_card_ids(self, indices: List[QModelIndex]) -> Sequence[CardId]:
return self._state.get_card_ids(self.get_items(indices))
def get_note_ids(self, indices: List[QModelIndex]) -> Sequence[NoteId]:
return self._state.get_note_ids(self.get_items(indices))
# Get row numbers from items
def get_item_row(self, item: ItemId) -> Optional[int]:
for row, i in enumerate(self._items):
if i == item:
return row
return None
def get_item_rows(self, items: Sequence[ItemId]) -> List[int]:
rows = []
for row, i in enumerate(self._items):
if i in items:
rows.append(row)
return rows
def get_card_row(self, card_id: CardId) -> Optional[int]:
return self.get_item_row(self._state.get_item_from_card_id(card_id))
# Get objects (cards or notes)
def get_card(self, index: QModelIndex) -> Optional[Card]:
"""Try to return the indicated, possibly deleted card."""
try:
return self._state.get_card(self.get_item(index))
except NotFoundError:
return None
def get_note(self, index: QModelIndex) -> Optional[Note]:
"""Try to return the indicated, possibly deleted note."""
try:
return self._state.get_note(self.get_item(index))
except NotFoundError:
return None
# Table Interface
######################################################################
def toggle_state(self, context: SearchContext) -> ItemState:
self.beginResetModel()
self._state = self._state.toggle_state()
self.search(context)
return self._state
# Rows
def search(self, context: SearchContext) -> None:
self.begin_reset()
try:
gui_hooks.browser_will_search(context)
if context.ids is None:
context.ids = self._state.find_items(context.search, context.order)
gui_hooks.browser_did_search(context)
self._items = context.ids
finally:
self.end_reset()
def reverse(self) -> None:
self.beginResetModel()
self._items = list(reversed(self._items))
self.endResetModel()
# Columns
def active_column(self, index: int) -> str:
return self._state.active_columns[index]
def active_column_index(self, column: str) -> Optional[int]:
return (
self._state.active_columns.index(column)
if column in self._state.active_columns
else None
)
def toggle_column(self, column: str) -> None:
self.begin_reset()
self._state.toggle_active_column(column)
self.end_reset()
# Model interface
######################################################################
def rowCount(self, parent: QModelIndex = QModelIndex()) -> int:
if parent and parent.isValid():
return 0
return self.len_rows()
def columnCount(self, parent: QModelIndex = QModelIndex()) -> int:
if parent and parent.isValid():
return 0
return self.len_columns()
def data(self, index: QModelIndex = QModelIndex(), role: int = 0) -> Any:
if not index.isValid():
return QVariant()
if role == Qt.FontRole:
if self.active_column(index.column()) not in (
"question",
"answer",
"noteFld",
):
return QVariant()
qfont = QFont()
row = self.get_row(index)
qfont.setFamily(row.font_name)
qfont.setPixelSize(row.font_size)
return qfont
if role == Qt.TextAlignmentRole:
align: Union[Qt.AlignmentFlag, int] = Qt.AlignVCenter
if self.active_column(index.column()) not in (
"question",
"answer",
"template",
"deck",
"noteFld",
"note",
"noteTags",
):
align |= Qt.AlignHCenter
return align
if role in (Qt.DisplayRole, Qt.ToolTipRole):
return self.get_cell(index).text
return QVariant()
def headerData(
self, section: int, orientation: Qt.Orientation, role: int = 0
) -> Optional[str]:
if orientation == Qt.Vertical:
return None
elif role == Qt.DisplayRole and section < self.len_columns():
column = self.active_column(section)
txt = None
for stype, name in self._state.columns:
if column == stype:
txt = name
break
# give the user a hint an invalid column was added by an add-on
if not txt:
txt = tr.browsing_addon()
return txt
else:
return None
def flags(self, index: QModelIndex) -> Qt.ItemFlags:
if self.get_row(index).is_deleted:
return Qt.ItemFlags(Qt.NoItemFlags)
return cast(Qt.ItemFlags, Qt.ItemIsEnabled | Qt.ItemIsSelectable)
# Line painter
######################################################################
class StatusDelegate(QItemDelegate):
def __init__(self, browser: aqt.browser.Browser, model: DataModel) -> None:
QItemDelegate.__init__(self, browser)
self._model = model
def paint(
self, painter: QPainter, option: QStyleOptionViewItem, index: QModelIndex
) -> None:
if self._model.get_cell(index).is_rtl:
option.direction = Qt.RightToLeft
if row_color := self._model.get_row(index).color:
brush = QBrush(theme_manager.qcolor(row_color))
painter.save()
painter.fillRect(option.rect, brush)
painter.restore()
return QItemDelegate.paint(self, painter, option, index)