BookStack/resources/js/wysiwyg/lexical/table/LexicalTableUtils.ts

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/**
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
*/
import type {TableMapType, TableMapValueType} from './LexicalTableSelection';
import type {ElementNode, PointType} from 'lexical';
import {$findMatchingParent} from '@lexical/utils';
import {
$createParagraphNode,
$createTextNode,
$getSelection,
$isRangeSelection,
LexicalNode,
} from 'lexical';
import invariant from 'lexical/shared/invariant';
import {InsertTableCommandPayloadHeaders} from '.';
import {
$createTableCellNode,
$isTableCellNode,
TableCellHeaderState,
TableCellHeaderStates,
TableCellNode,
} from './LexicalTableCellNode';
import {$createTableNode, $isTableNode, TableNode} from './LexicalTableNode';
import {TableDOMTable} from './LexicalTableObserver';
import {
$createTableRowNode,
$isTableRowNode,
TableRowNode,
} from './LexicalTableRowNode';
import {$isTableSelection} from './LexicalTableSelection';
export function $createTableNodeWithDimensions(
rowCount: number,
columnCount: number,
includeHeaders: InsertTableCommandPayloadHeaders = true,
): TableNode {
const tableNode = $createTableNode();
for (let iRow = 0; iRow < rowCount; iRow++) {
const tableRowNode = $createTableRowNode();
for (let iColumn = 0; iColumn < columnCount; iColumn++) {
let headerState = TableCellHeaderStates.NO_STATUS;
if (typeof includeHeaders === 'object') {
if (iRow === 0 && includeHeaders.rows) {
headerState |= TableCellHeaderStates.ROW;
}
if (iColumn === 0 && includeHeaders.columns) {
headerState |= TableCellHeaderStates.COLUMN;
}
} else if (includeHeaders) {
if (iRow === 0) {
headerState |= TableCellHeaderStates.ROW;
}
if (iColumn === 0) {
headerState |= TableCellHeaderStates.COLUMN;
}
}
const tableCellNode = $createTableCellNode(headerState);
const paragraphNode = $createParagraphNode();
paragraphNode.append($createTextNode());
tableCellNode.append(paragraphNode);
tableRowNode.append(tableCellNode);
}
tableNode.append(tableRowNode);
}
return tableNode;
}
export function $getTableCellNodeFromLexicalNode(
startingNode: LexicalNode,
): TableCellNode | null {
const node = $findMatchingParent(startingNode, (n) => $isTableCellNode(n));
if ($isTableCellNode(node)) {
return node;
}
return null;
}
export function $getTableRowNodeFromTableCellNodeOrThrow(
startingNode: LexicalNode,
): TableRowNode {
const node = $findMatchingParent(startingNode, (n) => $isTableRowNode(n));
if ($isTableRowNode(node)) {
return node;
}
throw new Error('Expected table cell to be inside of table row.');
}
export function $getTableNodeFromLexicalNodeOrThrow(
startingNode: LexicalNode,
): TableNode {
const node = $findMatchingParent(startingNode, (n) => $isTableNode(n));
if ($isTableNode(node)) {
return node;
}
throw new Error('Expected table cell to be inside of table.');
}
export function $getTableRowIndexFromTableCellNode(
tableCellNode: TableCellNode,
): number {
const tableRowNode = $getTableRowNodeFromTableCellNodeOrThrow(tableCellNode);
const tableNode = $getTableNodeFromLexicalNodeOrThrow(tableRowNode);
return tableNode.getChildren().findIndex((n) => n.is(tableRowNode));
}
export function $getTableColumnIndexFromTableCellNode(
tableCellNode: TableCellNode,
): number {
const tableRowNode = $getTableRowNodeFromTableCellNodeOrThrow(tableCellNode);
return tableRowNode.getChildren().findIndex((n) => n.is(tableCellNode));
}
export type TableCellSiblings = {
above: TableCellNode | null | undefined;
below: TableCellNode | null | undefined;
left: TableCellNode | null | undefined;
right: TableCellNode | null | undefined;
};
export function $getTableCellSiblingsFromTableCellNode(
tableCellNode: TableCellNode,
table: TableDOMTable,
): TableCellSiblings {
const tableNode = $getTableNodeFromLexicalNodeOrThrow(tableCellNode);
const {x, y} = tableNode.getCordsFromCellNode(tableCellNode, table);
return {
above: tableNode.getCellNodeFromCords(x, y - 1, table),
below: tableNode.getCellNodeFromCords(x, y + 1, table),
left: tableNode.getCellNodeFromCords(x - 1, y, table),
right: tableNode.getCellNodeFromCords(x + 1, y, table),
};
}
export function $removeTableRowAtIndex(
tableNode: TableNode,
indexToDelete: number,
): TableNode {
const tableRows = tableNode.getChildren();
if (indexToDelete >= tableRows.length || indexToDelete < 0) {
throw new Error('Expected table cell to be inside of table row.');
}
const targetRowNode = tableRows[indexToDelete];
targetRowNode.remove();
return tableNode;
}
export function $insertTableRow(
tableNode: TableNode,
targetIndex: number,
shouldInsertAfter = true,
rowCount: number,
table: TableDOMTable,
): TableNode {
const tableRows = tableNode.getChildren();
if (targetIndex >= tableRows.length || targetIndex < 0) {
throw new Error('Table row target index out of range');
}
const targetRowNode = tableRows[targetIndex];
if ($isTableRowNode(targetRowNode)) {
for (let r = 0; r < rowCount; r++) {
const tableRowCells = targetRowNode.getChildren<TableCellNode>();
const tableColumnCount = tableRowCells.length;
const newTableRowNode = $createTableRowNode();
for (let c = 0; c < tableColumnCount; c++) {
const tableCellFromTargetRow = tableRowCells[c];
invariant(
$isTableCellNode(tableCellFromTargetRow),
'Expected table cell',
);
const {above, below} = $getTableCellSiblingsFromTableCellNode(
tableCellFromTargetRow,
table,
);
let headerState = TableCellHeaderStates.NO_STATUS;
const width =
(above && above.getWidth()) ||
(below && below.getWidth()) ||
undefined;
if (
(above && above.hasHeaderState(TableCellHeaderStates.COLUMN)) ||
(below && below.hasHeaderState(TableCellHeaderStates.COLUMN))
) {
headerState |= TableCellHeaderStates.COLUMN;
}
const tableCellNode = $createTableCellNode(headerState, 1, width);
tableCellNode.append($createParagraphNode());
newTableRowNode.append(tableCellNode);
}
if (shouldInsertAfter) {
targetRowNode.insertAfter(newTableRowNode);
} else {
targetRowNode.insertBefore(newTableRowNode);
}
}
} else {
throw new Error('Row before insertion index does not exist.');
}
return tableNode;
}
const getHeaderState = (
currentState: TableCellHeaderState,
possibleState: TableCellHeaderState,
): TableCellHeaderState => {
if (
currentState === TableCellHeaderStates.BOTH ||
currentState === possibleState
) {
return possibleState;
}
return TableCellHeaderStates.NO_STATUS;
};
export function $insertTableRow__EXPERIMENTAL(insertAfter = true): void {
const selection = $getSelection();
invariant(
$isRangeSelection(selection) || $isTableSelection(selection),
'Expected a RangeSelection or TableSelection',
);
const focus = selection.focus.getNode();
const [focusCell, , grid] = $getNodeTriplet(focus);
const [gridMap, focusCellMap] = $computeTableMap(grid, focusCell, focusCell);
const columnCount = gridMap[0].length;
const {startRow: focusStartRow} = focusCellMap;
if (insertAfter) {
const focusEndRow = focusStartRow + focusCell.__rowSpan - 1;
const focusEndRowMap = gridMap[focusEndRow];
const newRow = $createTableRowNode();
for (let i = 0; i < columnCount; i++) {
const {cell, startRow} = focusEndRowMap[i];
if (startRow + cell.__rowSpan - 1 <= focusEndRow) {
const currentCell = focusEndRowMap[i].cell as TableCellNode;
const currentCellHeaderState = currentCell.__headerState;
const headerState = getHeaderState(
currentCellHeaderState,
TableCellHeaderStates.COLUMN,
);
newRow.append(
$createTableCellNode(headerState).append($createParagraphNode()),
);
} else {
cell.setRowSpan(cell.__rowSpan + 1);
}
}
const focusEndRowNode = grid.getChildAtIndex(focusEndRow);
invariant(
$isTableRowNode(focusEndRowNode),
'focusEndRow is not a TableRowNode',
);
focusEndRowNode.insertAfter(newRow);
} else {
const focusStartRowMap = gridMap[focusStartRow];
const newRow = $createTableRowNode();
for (let i = 0; i < columnCount; i++) {
const {cell, startRow} = focusStartRowMap[i];
if (startRow === focusStartRow) {
const currentCell = focusStartRowMap[i].cell as TableCellNode;
const currentCellHeaderState = currentCell.__headerState;
const headerState = getHeaderState(
currentCellHeaderState,
TableCellHeaderStates.COLUMN,
);
newRow.append(
$createTableCellNode(headerState).append($createParagraphNode()),
);
} else {
cell.setRowSpan(cell.__rowSpan + 1);
}
}
const focusStartRowNode = grid.getChildAtIndex(focusStartRow);
invariant(
$isTableRowNode(focusStartRowNode),
'focusEndRow is not a TableRowNode',
);
focusStartRowNode.insertBefore(newRow);
}
}
export function $insertTableColumn(
tableNode: TableNode,
targetIndex: number,
shouldInsertAfter = true,
columnCount: number,
table: TableDOMTable,
): TableNode {
const tableRows = tableNode.getChildren();
const tableCellsToBeInserted = [];
for (let r = 0; r < tableRows.length; r++) {
const currentTableRowNode = tableRows[r];
if ($isTableRowNode(currentTableRowNode)) {
for (let c = 0; c < columnCount; c++) {
const tableRowChildren = currentTableRowNode.getChildren();
if (targetIndex >= tableRowChildren.length || targetIndex < 0) {
throw new Error('Table column target index out of range');
}
const targetCell = tableRowChildren[targetIndex];
invariant($isTableCellNode(targetCell), 'Expected table cell');
const {left, right} = $getTableCellSiblingsFromTableCellNode(
targetCell,
table,
);
let headerState = TableCellHeaderStates.NO_STATUS;
if (
(left && left.hasHeaderState(TableCellHeaderStates.ROW)) ||
(right && right.hasHeaderState(TableCellHeaderStates.ROW))
) {
headerState |= TableCellHeaderStates.ROW;
}
const newTableCell = $createTableCellNode(headerState);
newTableCell.append($createParagraphNode());
tableCellsToBeInserted.push({
newTableCell,
targetCell,
});
}
}
}
tableCellsToBeInserted.forEach(({newTableCell, targetCell}) => {
if (shouldInsertAfter) {
targetCell.insertAfter(newTableCell);
} else {
targetCell.insertBefore(newTableCell);
}
});
return tableNode;
}
export function $insertTableColumn__EXPERIMENTAL(insertAfter = true): void {
const selection = $getSelection();
invariant(
$isRangeSelection(selection) || $isTableSelection(selection),
'Expected a RangeSelection or TableSelection',
);
const anchor = selection.anchor.getNode();
const focus = selection.focus.getNode();
const [anchorCell] = $getNodeTriplet(anchor);
const [focusCell, , grid] = $getNodeTriplet(focus);
const [gridMap, focusCellMap, anchorCellMap] = $computeTableMap(
grid,
focusCell,
anchorCell,
);
const rowCount = gridMap.length;
const startColumn = insertAfter
? Math.max(focusCellMap.startColumn, anchorCellMap.startColumn)
: Math.min(focusCellMap.startColumn, anchorCellMap.startColumn);
const insertAfterColumn = insertAfter
? startColumn + focusCell.__colSpan - 1
: startColumn - 1;
const gridFirstChild = grid.getFirstChild();
invariant(
$isTableRowNode(gridFirstChild),
'Expected firstTable child to be a row',
);
let firstInsertedCell: null | TableCellNode = null;
function $createTableCellNodeForInsertTableColumn(
headerState: TableCellHeaderState = TableCellHeaderStates.NO_STATUS,
) {
const cell = $createTableCellNode(headerState).append(
$createParagraphNode(),
);
if (firstInsertedCell === null) {
firstInsertedCell = cell;
}
return cell;
}
let loopRow: TableRowNode = gridFirstChild;
rowLoop: for (let i = 0; i < rowCount; i++) {
if (i !== 0) {
const currentRow = loopRow.getNextSibling();
invariant(
$isTableRowNode(currentRow),
'Expected row nextSibling to be a row',
);
loopRow = currentRow;
}
const rowMap = gridMap[i];
const currentCellHeaderState = (
rowMap[insertAfterColumn < 0 ? 0 : insertAfterColumn]
.cell as TableCellNode
).__headerState;
const headerState = getHeaderState(
currentCellHeaderState,
TableCellHeaderStates.ROW,
);
if (insertAfterColumn < 0) {
$insertFirst(
loopRow,
$createTableCellNodeForInsertTableColumn(headerState),
);
continue;
}
const {
cell: currentCell,
startColumn: currentStartColumn,
startRow: currentStartRow,
} = rowMap[insertAfterColumn];
if (currentStartColumn + currentCell.__colSpan - 1 <= insertAfterColumn) {
let insertAfterCell: TableCellNode = currentCell;
let insertAfterCellRowStart = currentStartRow;
let prevCellIndex = insertAfterColumn;
while (insertAfterCellRowStart !== i && insertAfterCell.__rowSpan > 1) {
prevCellIndex -= currentCell.__colSpan;
if (prevCellIndex >= 0) {
const {cell: cell_, startRow: startRow_} = rowMap[prevCellIndex];
insertAfterCell = cell_;
insertAfterCellRowStart = startRow_;
} else {
loopRow.append($createTableCellNodeForInsertTableColumn(headerState));
continue rowLoop;
}
}
insertAfterCell.insertAfter(
$createTableCellNodeForInsertTableColumn(headerState),
);
} else {
currentCell.setColSpan(currentCell.__colSpan + 1);
}
}
if (firstInsertedCell !== null) {
$moveSelectionToCell(firstInsertedCell);
}
}
export function $deleteTableColumn(
tableNode: TableNode,
targetIndex: number,
): TableNode {
const tableRows = tableNode.getChildren();
for (let i = 0; i < tableRows.length; i++) {
const currentTableRowNode = tableRows[i];
if ($isTableRowNode(currentTableRowNode)) {
const tableRowChildren = currentTableRowNode.getChildren();
if (targetIndex >= tableRowChildren.length || targetIndex < 0) {
throw new Error('Table column target index out of range');
}
tableRowChildren[targetIndex].remove();
}
}
return tableNode;
}
export function $deleteTableRow__EXPERIMENTAL(): void {
const selection = $getSelection();
invariant(
$isRangeSelection(selection) || $isTableSelection(selection),
'Expected a RangeSelection or TableSelection',
);
const anchor = selection.anchor.getNode();
const focus = selection.focus.getNode();
const [anchorCell, , grid] = $getNodeTriplet(anchor);
const [focusCell] = $getNodeTriplet(focus);
const [gridMap, anchorCellMap, focusCellMap] = $computeTableMap(
grid,
anchorCell,
focusCell,
);
const {startRow: anchorStartRow} = anchorCellMap;
const {startRow: focusStartRow} = focusCellMap;
const focusEndRow = focusStartRow + focusCell.__rowSpan - 1;
if (gridMap.length === focusEndRow - anchorStartRow + 1) {
// Empty grid
grid.remove();
return;
}
const columnCount = gridMap[0].length;
const nextRow = gridMap[focusEndRow + 1];
const nextRowNode: null | TableRowNode = grid.getChildAtIndex(
focusEndRow + 1,
);
for (let row = focusEndRow; row >= anchorStartRow; row--) {
for (let column = columnCount - 1; column >= 0; column--) {
const {
cell,
startRow: cellStartRow,
startColumn: cellStartColumn,
} = gridMap[row][column];
if (cellStartColumn !== column) {
// Don't repeat work for the same Cell
continue;
}
// Rows overflowing top have to be trimmed
if (row === anchorStartRow && cellStartRow < anchorStartRow) {
cell.setRowSpan(cell.__rowSpan - (cellStartRow - anchorStartRow));
}
// Rows overflowing bottom have to be trimmed and moved to the next row
if (
cellStartRow >= anchorStartRow &&
cellStartRow + cell.__rowSpan - 1 > focusEndRow
) {
cell.setRowSpan(cell.__rowSpan - (focusEndRow - cellStartRow + 1));
invariant(nextRowNode !== null, 'Expected nextRowNode not to be null');
if (column === 0) {
$insertFirst(nextRowNode, cell);
} else {
const {cell: previousCell} = nextRow[column - 1];
previousCell.insertAfter(cell);
}
}
}
const rowNode = grid.getChildAtIndex(row);
invariant(
$isTableRowNode(rowNode),
'Expected GridNode childAtIndex(%s) to be RowNode',
String(row),
);
rowNode.remove();
}
if (nextRow !== undefined) {
const {cell} = nextRow[0];
$moveSelectionToCell(cell);
} else {
const previousRow = gridMap[anchorStartRow - 1];
const {cell} = previousRow[0];
$moveSelectionToCell(cell);
}
}
export function $deleteTableColumn__EXPERIMENTAL(): void {
const selection = $getSelection();
invariant(
$isRangeSelection(selection) || $isTableSelection(selection),
'Expected a RangeSelection or TableSelection',
);
const anchor = selection.anchor.getNode();
const focus = selection.focus.getNode();
const [anchorCell, , grid] = $getNodeTriplet(anchor);
const [focusCell] = $getNodeTriplet(focus);
const [gridMap, anchorCellMap, focusCellMap] = $computeTableMap(
grid,
anchorCell,
focusCell,
);
const {startColumn: anchorStartColumn} = anchorCellMap;
const {startRow: focusStartRow, startColumn: focusStartColumn} = focusCellMap;
const startColumn = Math.min(anchorStartColumn, focusStartColumn);
const endColumn = Math.max(
anchorStartColumn + anchorCell.__colSpan - 1,
focusStartColumn + focusCell.__colSpan - 1,
);
const selectedColumnCount = endColumn - startColumn + 1;
const columnCount = gridMap[0].length;
if (columnCount === endColumn - startColumn + 1) {
// Empty grid
grid.selectPrevious();
grid.remove();
return;
}
const rowCount = gridMap.length;
for (let row = 0; row < rowCount; row++) {
for (let column = startColumn; column <= endColumn; column++) {
const {cell, startColumn: cellStartColumn} = gridMap[row][column];
if (cellStartColumn < startColumn) {
if (column === startColumn) {
const overflowLeft = startColumn - cellStartColumn;
// Overflowing left
cell.setColSpan(
cell.__colSpan -
// Possible overflow right too
Math.min(selectedColumnCount, cell.__colSpan - overflowLeft),
);
}
} else if (cellStartColumn + cell.__colSpan - 1 > endColumn) {
if (column === endColumn) {
// Overflowing right
const inSelectedArea = endColumn - cellStartColumn + 1;
cell.setColSpan(cell.__colSpan - inSelectedArea);
}
} else {
cell.remove();
}
}
}
const focusRowMap = gridMap[focusStartRow];
const nextColumn =
anchorStartColumn > focusStartColumn
? focusRowMap[anchorStartColumn + anchorCell.__colSpan]
: focusRowMap[focusStartColumn + focusCell.__colSpan];
if (nextColumn !== undefined) {
const {cell} = nextColumn;
$moveSelectionToCell(cell);
} else {
const previousRow =
focusStartColumn < anchorStartColumn
? focusRowMap[focusStartColumn - 1]
: focusRowMap[anchorStartColumn - 1];
const {cell} = previousRow;
$moveSelectionToCell(cell);
}
}
function $moveSelectionToCell(cell: TableCellNode): void {
const firstDescendant = cell.getFirstDescendant();
if (firstDescendant == null) {
cell.selectStart();
} else {
firstDescendant.getParentOrThrow().selectStart();
}
}
function $insertFirst(parent: ElementNode, node: LexicalNode): void {
const firstChild = parent.getFirstChild();
if (firstChild !== null) {
firstChild.insertBefore(node);
} else {
parent.append(node);
}
}
export function $unmergeCell(): void {
const selection = $getSelection();
invariant(
$isRangeSelection(selection) || $isTableSelection(selection),
'Expected a RangeSelection or TableSelection',
);
const anchor = selection.anchor.getNode();
const [cell, row, grid] = $getNodeTriplet(anchor);
const colSpan = cell.__colSpan;
const rowSpan = cell.__rowSpan;
if (colSpan > 1) {
for (let i = 1; i < colSpan; i++) {
cell.insertAfter(
$createTableCellNode(TableCellHeaderStates.NO_STATUS).append(
$createParagraphNode(),
),
);
}
cell.setColSpan(1);
}
if (rowSpan > 1) {
const [map, cellMap] = $computeTableMap(grid, cell, cell);
const {startColumn, startRow} = cellMap;
let currentRowNode;
for (let i = 1; i < rowSpan; i++) {
const currentRow = startRow + i;
const currentRowMap = map[currentRow];
currentRowNode = (currentRowNode || row).getNextSibling();
invariant(
$isTableRowNode(currentRowNode),
'Expected row next sibling to be a row',
);
let insertAfterCell: null | TableCellNode = null;
for (let column = 0; column < startColumn; column++) {
const currentCellMap = currentRowMap[column];
const currentCell = currentCellMap.cell;
if (currentCellMap.startRow === currentRow) {
insertAfterCell = currentCell;
}
if (currentCell.__colSpan > 1) {
column += currentCell.__colSpan - 1;
}
}
if (insertAfterCell === null) {
for (let j = 0; j < colSpan; j++) {
$insertFirst(
currentRowNode,
$createTableCellNode(TableCellHeaderStates.NO_STATUS).append(
$createParagraphNode(),
),
);
}
} else {
for (let j = 0; j < colSpan; j++) {
insertAfterCell.insertAfter(
$createTableCellNode(TableCellHeaderStates.NO_STATUS).append(
$createParagraphNode(),
),
);
}
}
}
cell.setRowSpan(1);
}
}
export function $computeTableMap(
grid: TableNode,
cellA: TableCellNode,
cellB: TableCellNode,
): [TableMapType, TableMapValueType, TableMapValueType] {
const [tableMap, cellAValue, cellBValue] = $computeTableMapSkipCellCheck(
grid,
cellA,
cellB,
);
invariant(cellAValue !== null, 'Anchor not found in Grid');
invariant(cellBValue !== null, 'Focus not found in Grid');
return [tableMap, cellAValue, cellBValue];
}
export function $computeTableMapSkipCellCheck(
grid: TableNode,
cellA: null | TableCellNode,
cellB: null | TableCellNode,
): [TableMapType, TableMapValueType | null, TableMapValueType | null] {
const tableMap: TableMapType = [];
let cellAValue: null | TableMapValueType = null;
let cellBValue: null | TableMapValueType = null;
function write(startRow: number, startColumn: number, cell: TableCellNode) {
const value = {
cell,
startColumn,
startRow,
};
const rowSpan = cell.__rowSpan;
const colSpan = cell.__colSpan;
for (let i = 0; i < rowSpan; i++) {
if (tableMap[startRow + i] === undefined) {
tableMap[startRow + i] = [];
}
for (let j = 0; j < colSpan; j++) {
tableMap[startRow + i][startColumn + j] = value;
}
}
if (cellA !== null && cellA.is(cell)) {
cellAValue = value;
}
if (cellB !== null && cellB.is(cell)) {
cellBValue = value;
}
}
function isEmpty(row: number, column: number) {
return tableMap[row] === undefined || tableMap[row][column] === undefined;
}
const gridChildren = grid.getChildren();
for (let i = 0; i < gridChildren.length; i++) {
const row = gridChildren[i];
invariant(
$isTableRowNode(row),
'Expected GridNode children to be TableRowNode',
);
const rowChildren = row.getChildren();
let j = 0;
for (const cell of rowChildren) {
invariant(
$isTableCellNode(cell),
'Expected TableRowNode children to be TableCellNode',
);
while (!isEmpty(i, j)) {
j++;
}
write(i, j, cell);
j += cell.__colSpan;
}
}
return [tableMap, cellAValue, cellBValue];
}
export function $getNodeTriplet(
source: PointType | LexicalNode | TableCellNode,
): [TableCellNode, TableRowNode, TableNode] {
let cell: TableCellNode;
if (source instanceof TableCellNode) {
cell = source;
} else if ('__type' in source) {
const cell_ = $findMatchingParent(source, $isTableCellNode);
invariant(
$isTableCellNode(cell_),
'Expected to find a parent TableCellNode',
);
cell = cell_;
} else {
const cell_ = $findMatchingParent(source.getNode(), $isTableCellNode);
invariant(
$isTableCellNode(cell_),
'Expected to find a parent TableCellNode',
);
cell = cell_;
}
const row = cell.getParent();
invariant(
$isTableRowNode(row),
'Expected TableCellNode to have a parent TableRowNode',
);
const grid = row.getParent();
invariant(
$isTableNode(grid),
'Expected TableRowNode to have a parent GridNode',
);
return [cell, row, grid];
}
export function $getTableCellNodeRect(tableCellNode: TableCellNode): {
rowIndex: number;
columnIndex: number;
rowSpan: number;
colSpan: number;
} | null {
const [cellNode, , gridNode] = $getNodeTriplet(tableCellNode);
const rows = gridNode.getChildren<TableRowNode>();
const rowCount = rows.length;
const columnCount = rows[0].getChildren().length;
// Create a matrix of the same size as the table to track the position of each cell
const cellMatrix = new Array(rowCount);
for (let i = 0; i < rowCount; i++) {
cellMatrix[i] = new Array(columnCount);
}
for (let rowIndex = 0; rowIndex < rowCount; rowIndex++) {
const row = rows[rowIndex];
const cells = row.getChildren<TableCellNode>();
let columnIndex = 0;
for (let cellIndex = 0; cellIndex < cells.length; cellIndex++) {
// Find the next available position in the matrix, skip the position of merged cells
while (cellMatrix[rowIndex][columnIndex]) {
columnIndex++;
}
const cell = cells[cellIndex];
const rowSpan = cell.__rowSpan || 1;
const colSpan = cell.__colSpan || 1;
// Put the cell into the corresponding position in the matrix
for (let i = 0; i < rowSpan; i++) {
for (let j = 0; j < colSpan; j++) {
cellMatrix[rowIndex + i][columnIndex + j] = cell;
}
}
// Return to the original index, row span and column span of the cell.
if (cellNode === cell) {
return {
colSpan,
columnIndex,
rowIndex,
rowSpan,
};
}
columnIndex += colSpan;
}
}
return null;
}