/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include "mozilla/Assertions.h" #include "mozilla/Selection.h" #include "mozilla/dom/Element.h" #include "nsAString.h" #include "nsAlgorithm.h" #include "nsCOMPtr.h" #include "nsDebug.h" #include "nsEditProperty.h" #include "nsEditor.h" #include "nsEditorUtils.h" #include "nsError.h" #include "nsGkAtoms.h" #include "nsHTMLEditUtils.h" #include "nsHTMLEditor.h" #include "nsIAtom.h" #include "nsIContent.h" #include "nsIDOMElement.h" #include "nsIDOMNode.h" #include "nsIDOMRange.h" #include "nsIEditor.h" #include "nsIFrame.h" #include "nsIHTMLEditor.h" #include "nsINode.h" #include "nsIPresShell.h" #include "nsISupportsUtils.h" #include "nsITableCellLayout.h" // For efficient access to table cell #include "nsITableEditor.h" #include "nsLiteralString.h" #include "nsQueryFrame.h" #include "nsString.h" #include "nsTArray.h" #include "nsTableCellFrame.h" #include "nsTableOuterFrame.h" #include "nscore.h" #include using namespace mozilla; /*************************************************************************** * stack based helper class for restoring selection after table edit */ class MOZ_STACK_CLASS nsSetSelectionAfterTableEdit { private: nsCOMPtr mEd; nsCOMPtr mTable; int32_t mCol, mRow, mDirection, mSelected; public: nsSetSelectionAfterTableEdit(nsITableEditor *aEd, nsIDOMElement* aTable, int32_t aRow, int32_t aCol, int32_t aDirection, bool aSelected) : mEd(do_QueryInterface(aEd)) { mTable = aTable; mRow = aRow; mCol = aCol; mDirection = aDirection; mSelected = aSelected; } ~nsSetSelectionAfterTableEdit() { if (mEd) mEd->SetSelectionAfterTableEdit(mTable, mRow, mCol, mDirection, mSelected); } // This is needed to abort the caret reset in the destructor // when one method yields control to another void CancelSetCaret() {mEd = nullptr; mTable = nullptr;} }; // Stack-class to turn on/off selection batching for table selection class MOZ_STACK_CLASS nsSelectionBatcherForTable { private: nsCOMPtr mSelection; public: nsSelectionBatcherForTable(nsISelection *aSelection) { nsCOMPtr sel(aSelection); mSelection = do_QueryInterface(sel); if (mSelection) mSelection->StartBatchChanges(); } virtual ~nsSelectionBatcherForTable() { if (mSelection) mSelection->EndBatchChanges(); } }; // Table Editing helper utilities (not exposed in IDL) NS_IMETHODIMP nsHTMLEditor::InsertCell(nsIDOMElement *aCell, int32_t aRowSpan, int32_t aColSpan, bool aAfter, bool aIsHeader, nsIDOMElement **aNewCell) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); if (aNewCell) *aNewCell = nullptr; // And the parent and offsets needed to do an insert nsCOMPtr cellParent; nsresult res = aCell->GetParentNode(getter_AddRefs(cellParent)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(cellParent, NS_ERROR_NULL_POINTER); int32_t cellOffset = GetChildOffset(aCell, cellParent); nsCOMPtr newCell; if (aIsHeader) res = CreateElementWithDefaults(NS_LITERAL_STRING("th"), getter_AddRefs(newCell)); else res = CreateElementWithDefaults(NS_LITERAL_STRING("td"), getter_AddRefs(newCell)); if(NS_FAILED(res)) return res; if(!newCell) return NS_ERROR_FAILURE; //Optional: return new cell created if (aNewCell) { *aNewCell = newCell.get(); NS_ADDREF(*aNewCell); } if( aRowSpan > 1) { // Note: Do NOT use editor transaction for this nsAutoString newRowSpan; newRowSpan.AppendInt(aRowSpan, 10); newCell->SetAttribute(NS_LITERAL_STRING("rowspan"), newRowSpan); } if( aColSpan > 1) { // Note: Do NOT use editor transaction for this nsAutoString newColSpan; newColSpan.AppendInt(aColSpan, 10); newCell->SetAttribute(NS_LITERAL_STRING("colspan"), newColSpan); } if(aAfter) cellOffset++; //Don't let Rules System change the selection nsAutoTxnsConserveSelection dontChangeSelection(this); return InsertNode(newCell, cellParent, cellOffset); } NS_IMETHODIMP nsHTMLEditor::SetColSpan(nsIDOMElement *aCell, int32_t aColSpan) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); nsAutoString newSpan; newSpan.AppendInt(aColSpan, 10); return SetAttribute(aCell, NS_LITERAL_STRING("colspan"), newSpan); } NS_IMETHODIMP nsHTMLEditor::SetRowSpan(nsIDOMElement *aCell, int32_t aRowSpan) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); nsAutoString newSpan; newSpan.AppendInt(aRowSpan, 10); return SetAttribute(aCell, NS_LITERAL_STRING("rowspan"), newSpan); } /****************************************************************/ // Table Editing interface methods NS_IMETHODIMP nsHTMLEditor::InsertTableCell(int32_t aNumber, bool aAfter) { nsCOMPtr table; nsCOMPtr curCell; nsCOMPtr cellParent; int32_t cellOffset, startRowIndex, startColIndex; nsresult res = GetCellContext(nullptr, getter_AddRefs(table), getter_AddRefs(curCell), getter_AddRefs(cellParent), &cellOffset, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(curCell, NS_EDITOR_ELEMENT_NOT_FOUND); // Get more data for current cell in row we are inserting at (we need COLSPAN) int32_t curStartRowIndex, curStartColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; res = GetCellDataAt(table, startRowIndex, startColIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(curCell, NS_ERROR_FAILURE); int32_t newCellIndex = aAfter ? (startColIndex+colSpan) : startColIndex; //We control selection resetting after the insert... nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, newCellIndex, ePreviousColumn, false); //...so suppress Rules System selection munging nsAutoTxnsConserveSelection dontChangeSelection(this); int32_t i; for (i = 0; i < aNumber; i++) { nsCOMPtr newCell; res = CreateElementWithDefaults(NS_LITERAL_STRING("td"), getter_AddRefs(newCell)); if (NS_SUCCEEDED(res) && newCell) { if (aAfter) cellOffset++; res = InsertNode(newCell, cellParent, cellOffset); if(NS_FAILED(res)) break; } } return res; } NS_IMETHODIMP nsHTMLEditor::GetFirstRow(nsIDOMElement* aTableElement, nsIDOMNode** aRowNode) { NS_ENSURE_TRUE(aRowNode, NS_ERROR_NULL_POINTER); *aRowNode = nullptr; NS_ENSURE_TRUE(aTableElement, NS_ERROR_NULL_POINTER); nsCOMPtr tableElement; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), aTableElement, getter_AddRefs(tableElement)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(tableElement, NS_ERROR_NULL_POINTER); nsCOMPtr tableChild; res = tableElement->GetFirstChild(getter_AddRefs(tableChild)); NS_ENSURE_SUCCESS(res, res); while (tableChild) { nsCOMPtr content = do_QueryInterface(tableChild); if (content) { nsIAtom *atom = content->Tag(); if (atom == nsEditProperty::tr) { // Found a row directly under *aRowNode = tableChild; NS_ADDREF(*aRowNode); return NS_OK; } // Look for row in one of the row container elements if (atom == nsEditProperty::tbody || atom == nsEditProperty::thead || atom == nsEditProperty::tfoot) { nsCOMPtr rowNode; res = tableChild->GetFirstChild(getter_AddRefs(rowNode)); NS_ENSURE_SUCCESS(res, res); // We can encounter textnodes here -- must find a row while (rowNode && !nsHTMLEditUtils::IsTableRow(rowNode)) { nsCOMPtr nextNode; res = rowNode->GetNextSibling(getter_AddRefs(nextNode)); NS_ENSURE_SUCCESS(res, res); rowNode = nextNode; } if(rowNode) { *aRowNode = rowNode.get(); NS_ADDREF(*aRowNode); return NS_OK; } } } // Here if table child was a CAPTION or COLGROUP // or child of a row parent wasn't a row (bad HTML?), // or first child was a textnode // Look in next table child nsCOMPtr nextChild; res = tableChild->GetNextSibling(getter_AddRefs(nextChild)); NS_ENSURE_SUCCESS(res, res); tableChild = nextChild; }; // If here, row was not found return NS_EDITOR_ELEMENT_NOT_FOUND; } NS_IMETHODIMP nsHTMLEditor::GetNextRow(nsIDOMNode* aCurrentRowNode, nsIDOMNode **aRowNode) { NS_ENSURE_TRUE(aRowNode, NS_ERROR_NULL_POINTER); *aRowNode = nullptr; NS_ENSURE_TRUE(aCurrentRowNode, NS_ERROR_NULL_POINTER); if (!nsHTMLEditUtils::IsTableRow(aCurrentRowNode)) return NS_ERROR_FAILURE; nsCOMPtr nextRow; nsresult res = aCurrentRowNode->GetNextSibling(getter_AddRefs(nextRow)); NS_ENSURE_SUCCESS(res, res); nsCOMPtr nextNode; // Skip over any textnodes here while (nextRow && !nsHTMLEditUtils::IsTableRow(nextRow)) { res = nextRow->GetNextSibling(getter_AddRefs(nextNode)); NS_ENSURE_SUCCESS(res, res); nextRow = nextNode; } if(nextRow) { *aRowNode = nextRow.get(); NS_ADDREF(*aRowNode); return NS_OK; } // No row found, search for rows in other table sections nsCOMPtr rowParent; res = aCurrentRowNode->GetParentNode(getter_AddRefs(rowParent)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(rowParent, NS_ERROR_NULL_POINTER); nsCOMPtr parentSibling; res = rowParent->GetNextSibling(getter_AddRefs(parentSibling)); NS_ENSURE_SUCCESS(res, res); while (parentSibling) { res = parentSibling->GetFirstChild(getter_AddRefs(nextRow)); NS_ENSURE_SUCCESS(res, res); // We can encounter textnodes here -- must find a row while (nextRow && !nsHTMLEditUtils::IsTableRow(nextRow)) { res = nextRow->GetNextSibling(getter_AddRefs(nextNode)); NS_ENSURE_SUCCESS(res, res); nextRow = nextNode; } if(nextRow) { *aRowNode = nextRow.get(); NS_ADDREF(*aRowNode); return NS_OK; } #ifdef DEBUG_cmanske printf("GetNextRow: firstChild of row's parent's sibling is not a TR!\n"); #endif // We arrive here only if a table section has no children // or first child of section is not a row (bad HTML or more "_moz_text" nodes!) // So look for another section sibling res = parentSibling->GetNextSibling(getter_AddRefs(nextNode)); NS_ENSURE_SUCCESS(res, res); parentSibling = nextNode; } // If here, row was not found return NS_EDITOR_ELEMENT_NOT_FOUND; } NS_IMETHODIMP nsHTMLEditor::GetLastCellInRow(nsIDOMNode* aRowNode, nsIDOMNode** aCellNode) { NS_ENSURE_TRUE(aCellNode, NS_ERROR_NULL_POINTER); *aCellNode = nullptr; NS_ENSURE_TRUE(aRowNode, NS_ERROR_NULL_POINTER); nsCOMPtr rowChild; nsresult res = aRowNode->GetLastChild(getter_AddRefs(rowChild)); NS_ENSURE_SUCCESS(res, res); while (rowChild && !nsHTMLEditUtils::IsTableCell(rowChild)) { // Skip over textnodes nsCOMPtr previousChild; res = rowChild->GetPreviousSibling(getter_AddRefs(previousChild)); NS_ENSURE_SUCCESS(res, res); rowChild = previousChild; }; if (rowChild) { *aCellNode = rowChild.get(); NS_ADDREF(*aCellNode); return NS_OK; } // If here, cell was not found return NS_EDITOR_ELEMENT_NOT_FOUND; } NS_IMETHODIMP nsHTMLEditor::InsertTableColumn(int32_t aNumber, bool aAfter) { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr curCell; int32_t startRowIndex, startColIndex; nsresult res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(curCell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(curCell, NS_EDITOR_ELEMENT_NOT_FOUND); // Get more data for current cell (we need ROWSPAN) int32_t curStartRowIndex, curStartColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; res = GetCellDataAt(table, startRowIndex, startColIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(curCell, NS_ERROR_FAILURE); nsAutoEditBatch beginBatching(this); // Prevent auto insertion of BR in new cell until we're done nsAutoRules beginRulesSniffing(this, EditAction::insertNode, nsIEditor::eNext); // Use column after current cell if requested if (aAfter) { startColIndex += actualColSpan; //Detect when user is adding after a COLSPAN=0 case // Assume they want to stop the "0" behavior and // really add a new column. Thus we set the // colspan to its true value if (colSpan == 0) SetColSpan(curCell, actualColSpan); } int32_t rowCount, colCount, rowIndex; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); //We reset caret in destructor... nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousRow, false); //.. so suppress Rules System selection munging nsAutoTxnsConserveSelection dontChangeSelection(this); // If we are inserting after all existing columns // Make sure table is "well formed" // before appending new column if (startColIndex >= colCount) NormalizeTable(table); nsCOMPtr rowNode; for ( rowIndex = 0; rowIndex < rowCount; rowIndex++) { #ifdef DEBUG_cmanske if (rowIndex == rowCount-1) printf(" ***InsertTableColumn: Inserting cell at last row: %d\n", rowIndex); #endif if (startColIndex < colCount) { // We are inserting before an existing column res = GetCellDataAt(table, rowIndex, startColIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); // Don't fail entire process if we fail to find a cell // (may fail just in particular rows with < adequate cells per row) if (curCell) { if (curStartColIndex < startColIndex) { // We have a cell spanning this location // Simply increase its colspan to keep table rectangular // Note: we do nothing if colsSpan=0, // since it should automatically span the new column if (colSpan > 0) SetColSpan(curCell, colSpan+aNumber); } else { // Simply set selection to the current cell // so we can let InsertTableCell() do the work // Insert a new cell before current one selection->Collapse(curCell, 0); res = InsertTableCell(aNumber, false); } } } else { // Get current row and append new cells after last cell in row if(rowIndex == 0) res = GetFirstRow(table.get(), getter_AddRefs(rowNode)); else { nsCOMPtr nextRow; res = GetNextRow(rowNode.get(), getter_AddRefs(nextRow)); rowNode = nextRow; } NS_ENSURE_SUCCESS(res, res); if (rowNode) { nsCOMPtr lastCell; res = GetLastCellInRow(rowNode, getter_AddRefs(lastCell)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(lastCell, NS_ERROR_FAILURE); curCell = do_QueryInterface(lastCell); if (curCell) { // Simply add same number of cells to each row // Although tempted to check cell indexes for curCell, // the effects of COLSPAN>1 in some cells makes this futile! // We must use NormalizeTable first to assure // that there are cells in each cellmap location selection->Collapse(curCell, 0); res = InsertTableCell(aNumber, true); } } } } return res; } NS_IMETHODIMP nsHTMLEditor::InsertTableRow(int32_t aNumber, bool aAfter) { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr curCell; int32_t startRowIndex, startColIndex; nsresult res = GetCellContext(nullptr, getter_AddRefs(table), getter_AddRefs(curCell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(curCell, NS_EDITOR_ELEMENT_NOT_FOUND); // Get more data for current cell in row we are inserting at (we need COLSPAN) int32_t curStartRowIndex, curStartColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; res = GetCellDataAt(table, startRowIndex, startColIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(curCell, NS_ERROR_FAILURE); int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); nsAutoEditBatch beginBatching(this); // Prevent auto insertion of BR in new cell until we're done nsAutoRules beginRulesSniffing(this, EditAction::insertNode, nsIEditor::eNext); if (aAfter) { // Use row after current cell startRowIndex += actualRowSpan; //Detect when user is adding after a ROWSPAN=0 case // Assume they want to stop the "0" behavior and // really add a new row. Thus we set the // rowspan to its true value if (rowSpan == 0) SetRowSpan(curCell, actualRowSpan); } //We control selection resetting after the insert... nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousColumn, false); //...so suppress Rules System selection munging nsAutoTxnsConserveSelection dontChangeSelection(this); nsCOMPtr cellForRowParent; int32_t cellsInRow = 0; if (startRowIndex < rowCount) { // We are inserting above an existing row // Get each cell in the insert row to adjust for COLSPAN effects while we // count how many cells are needed int32_t colIndex = 0; // This returns NS_TABLELAYOUT_CELL_NOT_FOUND when we run past end of row, // which passes the NS_SUCCEEDED macro while ( NS_OK == GetCellDataAt(table, startRowIndex, colIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected) ) { if (curCell) { if (curStartRowIndex < startRowIndex) { // We have a cell spanning this location // Simply increase its rowspan //Note that if rowSpan == 0, we do nothing, // since that cell should automatically extend into the new row if (rowSpan > 0) SetRowSpan(curCell, rowSpan+aNumber); } else { // We have a cell in the insert row // Count the number of cells we need to add to the new row cellsInRow += actualColSpan; // Save cell we will use below if (!cellForRowParent) cellForRowParent = curCell; } // Next cell in row colIndex += actualColSpan; } else colIndex++; } } else { // We are adding a new row after all others // If it weren't for colspan=0 effect, // we could simply use colCount for number of new cells... cellsInRow = colCount; // ...but we must compensate for all cells with rowSpan = 0 in the last row int32_t lastRow = rowCount-1; int32_t tempColIndex = 0; while ( NS_OK == GetCellDataAt(table, lastRow, tempColIndex, getter_AddRefs(curCell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected) ) { if (rowSpan == 0) cellsInRow -= actualColSpan; tempColIndex += actualColSpan; // Save cell from the last row that we will use below if (!cellForRowParent && curStartRowIndex == lastRow) cellForRowParent = curCell; } } if (cellsInRow > 0) { // The row parent and offset where we will insert new row nsCOMPtr parentOfRow; int32_t newRowOffset; NS_NAMED_LITERAL_STRING(trStr, "tr"); if (cellForRowParent) { nsCOMPtr parentRow; res = GetElementOrParentByTagName(trStr, cellForRowParent, getter_AddRefs(parentRow)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(parentRow, NS_ERROR_NULL_POINTER); parentRow->GetParentNode(getter_AddRefs(parentOfRow)); NS_ENSURE_TRUE(parentOfRow, NS_ERROR_NULL_POINTER); newRowOffset = GetChildOffset(parentRow, parentOfRow); // Adjust for when adding past the end if (aAfter && startRowIndex >= rowCount) newRowOffset++; } else return NS_ERROR_FAILURE; for (int32_t row = 0; row < aNumber; row++) { // Create a new row nsCOMPtr newRow; res = CreateElementWithDefaults(trStr, getter_AddRefs(newRow)); if (NS_SUCCEEDED(res)) { NS_ENSURE_TRUE(newRow, NS_ERROR_FAILURE); for (int32_t i = 0; i < cellsInRow; i++) { nsCOMPtr newCell; res = CreateElementWithDefaults(NS_LITERAL_STRING("td"), getter_AddRefs(newCell)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(newCell, NS_ERROR_FAILURE); // Don't use transaction system yet! (not until entire row is inserted) nsCOMPtrresultNode; res = newRow->AppendChild(newCell, getter_AddRefs(resultNode)); NS_ENSURE_SUCCESS(res, res); } // Use transaction system to insert the entire row+cells // (Note that rows are inserted at same childoffset each time) res = InsertNode(newRow, parentOfRow, newRowOffset); NS_ENSURE_SUCCESS(res, res); } } } return res; } // Editor helper only // XXX Code changed for bug 217717 and now we don't need aSelection param // TODO: Remove aSelection param NS_IMETHODIMP nsHTMLEditor::DeleteTable2(nsIDOMElement *aTable, nsISelection *aSelection) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); // Select the table nsresult res = ClearSelection(); if (NS_SUCCEEDED(res)) res = AppendNodeToSelectionAsRange(aTable); NS_ENSURE_SUCCESS(res, res); return DeleteSelection(nsIEditor::eNext, nsIEditor::eStrip); } NS_IMETHODIMP nsHTMLEditor::DeleteTable() { nsCOMPtr selection; nsCOMPtr table; nsresult res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), nullptr, nullptr, nullptr, nullptr, nullptr); NS_ENSURE_SUCCESS(res, res); nsAutoEditBatch beginBatching(this); return DeleteTable2(table, selection); } NS_IMETHODIMP nsHTMLEditor::DeleteTableCell(int32_t aNumber) { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr cell; int32_t startRowIndex, startColIndex; nsresult res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a table or cell NS_ENSURE_TRUE(table && cell, NS_EDITOR_ELEMENT_NOT_FOUND); nsAutoEditBatch beginBatching(this); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); nsCOMPtr firstCell; nsCOMPtr range; res = GetFirstSelectedCell(getter_AddRefs(range), getter_AddRefs(firstCell)); NS_ENSURE_SUCCESS(res, res); int32_t rangeCount; res = selection->GetRangeCount(&rangeCount); NS_ENSURE_SUCCESS(res, res); if (firstCell && rangeCount > 1) { // When > 1 selected cell, // ignore aNumber and use selected cells cell = firstCell; int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Get indexes -- may be different than original cell res = GetCellIndexes(cell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // The setCaret object will call SetSelectionAfterTableEdit in its destructor nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousColumn, false); nsAutoTxnsConserveSelection dontChangeSelection(this); bool checkToDeleteRow = true; bool checkToDeleteColumn = true; while (cell) { bool deleteRow = false; bool deleteCol = false; if (checkToDeleteRow) { // Optimize to delete an entire row // Clear so we don't repeat AllCellsInRowSelected within the same row checkToDeleteRow = false; deleteRow = AllCellsInRowSelected(table, startRowIndex, colCount); if (deleteRow) { // First, find the next cell in a different row // to continue after we delete this row int32_t nextRow = startRowIndex; while (nextRow == startRowIndex) { res = GetNextSelectedCell(nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if (!cell) break; res = GetCellIndexes(cell, &nextRow, &startColIndex); NS_ENSURE_SUCCESS(res, res); } // Delete entire row res = DeleteRow(table, startRowIndex); NS_ENSURE_SUCCESS(res, res); if (cell) { // For the next cell: Subtract 1 for row we deleted startRowIndex = nextRow - 1; // Set true since we know we will look at a new row next checkToDeleteRow = true; } } } if (!deleteRow) { if (checkToDeleteColumn) { // Optimize to delete an entire column // Clear this so we don't repeat AllCellsInColSelected within the same Col checkToDeleteColumn = false; deleteCol = AllCellsInColumnSelected(table, startColIndex, colCount); if (deleteCol) { // First, find the next cell in a different column // to continue after we delete this column int32_t nextCol = startColIndex; while (nextCol == startColIndex) { res = GetNextSelectedCell(nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if (!cell) break; res = GetCellIndexes(cell, &startRowIndex, &nextCol); NS_ENSURE_SUCCESS(res, res); } // Delete entire Col res = DeleteColumn(table, startColIndex); NS_ENSURE_SUCCESS(res, res); if (cell) { // For the next cell, subtract 1 for col. deleted startColIndex = nextCol - 1; // Set true since we know we will look at a new column next checkToDeleteColumn = true; } } } if (!deleteCol) { // First get the next cell to delete nsCOMPtr nextCell; res = GetNextSelectedCell(getter_AddRefs(range), getter_AddRefs(nextCell)); NS_ENSURE_SUCCESS(res, res); // Then delete the cell res = DeleteNode(cell); NS_ENSURE_SUCCESS(res, res); // The next cell to delete cell = nextCell; if (cell) { res = GetCellIndexes(cell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } } } } } else for (int32_t i = 0; i < aNumber; i++) { res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); if (1 == GetNumberOfCellsInRow(table, startRowIndex)) { nsCOMPtr parentRow; res = GetElementOrParentByTagName(NS_LITERAL_STRING("tr"), cell, getter_AddRefs(parentRow)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(parentRow, NS_ERROR_NULL_POINTER); // We should delete the row instead, // but first check if its the only row left // so we can delete the entire table int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); if (rowCount == 1) return DeleteTable2(table, selection); // We need to call DeleteTableRow to handle cells with rowspan res = DeleteTableRow(1); NS_ENSURE_SUCCESS(res, res); } else { // More than 1 cell in the row // The setCaret object will call SetSelectionAfterTableEdit in its destructor nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousColumn, false); nsAutoTxnsConserveSelection dontChangeSelection(this); res = DeleteNode(cell); // If we fail, don't try to delete any more cells??? NS_ENSURE_SUCCESS(res, res); } } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::DeleteTableCellContents() { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr cell; int32_t startRowIndex, startColIndex; nsresult res; res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); nsAutoEditBatch beginBatching(this); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); //Don't let Rules System change the selection nsAutoTxnsConserveSelection dontChangeSelection(this); nsCOMPtr firstCell; nsCOMPtr range; res = GetFirstSelectedCell(getter_AddRefs(range), getter_AddRefs(firstCell)); NS_ENSURE_SUCCESS(res, res); if (firstCell) { cell = firstCell; res = GetCellIndexes(cell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousColumn, false); while (cell) { DeleteCellContents(cell); if (firstCell) { // We doing a selected cells, so do all of them res = GetNextSelectedCell(nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); } else cell = nullptr; } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::DeleteCellContents(nsIDOMElement *aCell) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); nsCOMPtr child; bool hasChild; aCell->HasChildNodes(&hasChild); while (hasChild) { aCell->GetLastChild(getter_AddRefs(child)); nsresult res = DeleteNode(child); NS_ENSURE_SUCCESS(res, res); aCell->HasChildNodes(&hasChild); } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::DeleteTableColumn(int32_t aNumber) { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr cell; int32_t startRowIndex, startColIndex, rowCount, colCount; nsresult res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(table && cell, NS_EDITOR_ELEMENT_NOT_FOUND); res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Shortcut the case of deleting all columns in table if(startColIndex == 0 && aNumber >= colCount) return DeleteTable2(table, selection); // Check for counts too high aNumber = std::min(aNumber,(colCount-startColIndex)); nsAutoEditBatch beginBatching(this); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); // Test if deletion is controlled by selected cells nsCOMPtr firstCell; nsCOMPtr range; res = GetFirstSelectedCell(getter_AddRefs(range), getter_AddRefs(firstCell)); NS_ENSURE_SUCCESS(res, res); int32_t rangeCount; res = selection->GetRangeCount(&rangeCount); NS_ENSURE_SUCCESS(res, res); if (firstCell && rangeCount > 1) { // Fetch indexes again - may be different for selected cells res = GetCellIndexes(firstCell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } //We control selection resetting after the insert... nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousRow, false); if (firstCell && rangeCount > 1) { // Use selected cells to determine what rows to delete cell = firstCell; while (cell) { if (cell != firstCell) { res = GetCellIndexes(cell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } // Find the next cell in a different column // to continue after we delete this column int32_t nextCol = startColIndex; while (nextCol == startColIndex) { res = GetNextSelectedCell(getter_AddRefs(range), getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if (!cell) break; res = GetCellIndexes(cell, &startRowIndex, &nextCol); NS_ENSURE_SUCCESS(res, res); } res = DeleteColumn(table, startColIndex); NS_ENSURE_SUCCESS(res, res); } } else for (int32_t i = 0; i < aNumber; i++) { res = DeleteColumn(table, startColIndex); NS_ENSURE_SUCCESS(res, res); } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::DeleteColumn(nsIDOMElement *aTable, int32_t aColIndex) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); nsCOMPtr cell; nsCOMPtr cellInDeleteCol; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; int32_t rowIndex = 0; nsresult res = NS_OK; do { res = GetCellDataAt(aTable, rowIndex, aColIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); if (cell) { // Find cells that don't start in column we are deleting if (startColIndex < aColIndex || colSpan > 1 || colSpan == 0) { // We have a cell spanning this location // Decrease its colspan to keep table rectangular, // but if colSpan=0, it will adjust automatically if (colSpan > 0) { NS_ASSERTION((colSpan > 1),"Bad COLSPAN in DeleteTableColumn"); SetColSpan(cell, colSpan-1); } if (startColIndex == aColIndex) { // Cell is in column to be deleted, but must have colspan > 1, // so delete contents of cell instead of cell itself // (We must have reset colspan above) DeleteCellContents(cell); } // To next cell in column rowIndex += actualRowSpan; } else { // Delete the cell if (1 == GetNumberOfCellsInRow(aTable, rowIndex)) { // Only 1 cell in row - delete the row nsCOMPtr parentRow; res = GetElementOrParentByTagName(NS_LITERAL_STRING("tr"), cell, getter_AddRefs(parentRow)); NS_ENSURE_SUCCESS(res, res); if(!parentRow) return NS_ERROR_NULL_POINTER; // But first check if its the only row left // so we can delete the entire table // (This should never happen but it's the safe thing to do) int32_t rowCount, colCount; res = GetTableSize(aTable, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); if (rowCount == 1) { nsCOMPtr selection; res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); return DeleteTable2(aTable, selection); } // Delete the row by placing caret in cell we were to delete // We need to call DeleteTableRow to handle cells with rowspan res = DeleteRow(aTable, startRowIndex); NS_ENSURE_SUCCESS(res, res); // Note that we don't incremenet rowIndex // since a row was deleted and "next" // row now has current rowIndex } else { // A more "normal" deletion res = DeleteNode(cell); NS_ENSURE_SUCCESS(res, res); //Skip over any rows spanned by this cell rowIndex += actualRowSpan; } } } } while (cell); return NS_OK; } NS_IMETHODIMP nsHTMLEditor::DeleteTableRow(int32_t aNumber) { nsCOMPtr selection; nsCOMPtr table; nsCOMPtr cell; int32_t startRowIndex, startColIndex; int32_t rowCount, colCount; nsresult res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); // Don't fail if no cell found NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Shortcut the case of deleting all rows in table if(startRowIndex == 0 && aNumber >= rowCount) return DeleteTable2(table, selection); nsAutoEditBatch beginBatching(this); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); nsCOMPtr firstCell; nsCOMPtr range; res = GetFirstSelectedCell(getter_AddRefs(range), getter_AddRefs(firstCell)); NS_ENSURE_SUCCESS(res, res); int32_t rangeCount; res = selection->GetRangeCount(&rangeCount); NS_ENSURE_SUCCESS(res, res); if (firstCell && rangeCount > 1) { // Fetch indexes again - may be different for selected cells res = GetCellIndexes(firstCell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } //We control selection resetting after the insert... nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousRow, false); // Don't change selection during deletions nsAutoTxnsConserveSelection dontChangeSelection(this); if (firstCell && rangeCount > 1) { // Use selected cells to determine what rows to delete cell = firstCell; while (cell) { if (cell != firstCell) { res = GetCellIndexes(cell, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); } // Find the next cell in a different row // to continue after we delete this row int32_t nextRow = startRowIndex; while (nextRow == startRowIndex) { res = GetNextSelectedCell(getter_AddRefs(range), getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if (!cell) break; res = GetCellIndexes(cell, &nextRow, &startColIndex); NS_ENSURE_SUCCESS(res, res); } // Delete entire row res = DeleteRow(table, startRowIndex); NS_ENSURE_SUCCESS(res, res); } } else { // Check for counts too high aNumber = std::min(aNumber,(rowCount-startRowIndex)); for (int32_t i = 0; i < aNumber; i++) { res = DeleteRow(table, startRowIndex); // If failed in current row, try the next if (NS_FAILED(res)) startRowIndex++; // Check if there's a cell in the "next" row res = GetCellAt(table, startRowIndex, startColIndex, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if(!cell) break; } } return NS_OK; } // Helper that doesn't batch or change the selection NS_IMETHODIMP nsHTMLEditor::DeleteRow(nsIDOMElement *aTable, int32_t aRowIndex) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); nsCOMPtr cell; nsCOMPtr cellInDeleteRow; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; int32_t colIndex = 0; nsresult res = NS_OK; // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); // The list of cells we will change rowspan in // and the new rowspan values for each nsTArray > spanCellList; nsTArray newSpanList; int32_t rowCount, colCount; res = GetTableSize(aTable, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Scan through cells in row to do rowspan adjustments // Note that after we delete row, startRowIndex will point to the // cells in the next row to be deleted do { if (aRowIndex >= rowCount || colIndex >= colCount) break; res = GetCellDataAt(aTable, aRowIndex, colIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); // We don't fail if we don't find a cell, so this must be real bad if(NS_FAILED(res)) return res; // Compensate for cells that don't start or extend below the row we are deleting if (cell) { if (startRowIndex < aRowIndex) { // Cell starts in row above us // Decrease its rowspan to keep table rectangular // but we don't need to do this if rowspan=0, // since it will automatically adjust if (rowSpan > 0) { // Build list of cells to change rowspan // We can't do it now since it upsets cell map, // so we will do it after deleting the row spanCellList.AppendElement(cell); newSpanList.AppendElement(std::max((aRowIndex - startRowIndex), actualRowSpan-1)); } } else { if (rowSpan > 1) { //Cell spans below row to delete, // so we must insert new cells to keep rows below even // Note that we test "rowSpan" so we don't do this if rowSpan = 0 (automatic readjustment) res = SplitCellIntoRows(aTable, startRowIndex, startColIndex, aRowIndex - startRowIndex + 1, // The row above the row to insert new cell into actualRowSpan - 1, nullptr); // Span remaining below NS_ENSURE_SUCCESS(res, res); } if (!cellInDeleteRow) cellInDeleteRow = cell; // Reference cell to find row to delete } // Skip over other columns spanned by this cell colIndex += actualColSpan; } } while (cell); // Things are messed up if we didn't find a cell in the row! NS_ENSURE_TRUE(cellInDeleteRow, NS_ERROR_FAILURE); // Delete the entire row nsCOMPtr parentRow; res = GetElementOrParentByTagName(NS_LITERAL_STRING("tr"), cellInDeleteRow, getter_AddRefs(parentRow)); NS_ENSURE_SUCCESS(res, res); if (parentRow) { res = DeleteNode(parentRow); NS_ENSURE_SUCCESS(res, res); } // Now we can set new rowspans for cells stored above for (uint32_t i = 0, n = spanCellList.Length(); i < n; i++) { nsIDOMElement *cellPtr = spanCellList[i]; if (cellPtr) { res = SetRowSpan(cellPtr, newSpanList[i]); NS_ENSURE_SUCCESS(res, res); } } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::SelectTable() { nsCOMPtr table; nsresult res = NS_ERROR_FAILURE; res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), nullptr, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a table NS_ENSURE_TRUE(table, NS_OK); res = ClearSelection(); if (NS_SUCCEEDED(res)) res = AppendNodeToSelectionAsRange(table); return res; } NS_IMETHODIMP nsHTMLEditor::SelectTableCell() { nsCOMPtr cell; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("td"), nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); res = ClearSelection(); if (NS_SUCCEEDED(res)) res = AppendNodeToSelectionAsRange(cell); return res; } NS_IMETHODIMP nsHTMLEditor::SelectBlockOfCells(nsIDOMElement *aStartCell, nsIDOMElement *aEndCell) { NS_ENSURE_TRUE(aStartCell && aEndCell, NS_ERROR_NULL_POINTER); nsCOMPtr selection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); NS_NAMED_LITERAL_STRING(tableStr, "table"); nsCOMPtr table; res = GetElementOrParentByTagName(tableStr, aStartCell, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(table, NS_ERROR_FAILURE); nsCOMPtr endTable; res = GetElementOrParentByTagName(tableStr, aEndCell, getter_AddRefs(endTable)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(endTable, NS_ERROR_FAILURE); // We can only select a block if within the same table, // so do nothing if not within one table if (table != endTable) return NS_OK; int32_t startRowIndex, startColIndex, endRowIndex, endColIndex; // Get starting and ending cells' location in the cellmap res = GetCellIndexes(aStartCell, &startRowIndex, &startColIndex); if(NS_FAILED(res)) return res; res = GetCellIndexes(aEndCell, &endRowIndex, &endColIndex); if(NS_FAILED(res)) return res; // Suppress nsISelectionListener notification // until all selection changes are finished nsSelectionBatcherForTable selectionBatcher(selection); // Examine all cell nodes in current selection and // remove those outside the new block cell region int32_t minColumn = std::min(startColIndex, endColIndex); int32_t minRow = std::min(startRowIndex, endRowIndex); int32_t maxColumn = std::max(startColIndex, endColIndex); int32_t maxRow = std::max(startRowIndex, endRowIndex); nsCOMPtr cell; int32_t currentRowIndex, currentColIndex; nsCOMPtr range; res = GetFirstSelectedCell(getter_AddRefs(range), getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); if (res == NS_EDITOR_ELEMENT_NOT_FOUND) return NS_OK; while (cell) { res = GetCellIndexes(cell, ¤tRowIndex, ¤tColIndex); NS_ENSURE_SUCCESS(res, res); if (currentRowIndex < maxRow || currentRowIndex > maxRow || currentColIndex < maxColumn || currentColIndex > maxColumn) { selection->RemoveRange(range); // Since we've removed the range, decrement pointer to next range mSelectedCellIndex--; } res = GetNextSelectedCell(getter_AddRefs(range), getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); } int32_t rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; for (int32_t row = minRow; row <= maxRow; row++) { for(int32_t col = minColumn; col <= maxColumn; col += std::max(actualColSpan, 1)) { res = GetCellDataAt(table, row, col, getter_AddRefs(cell), ¤tRowIndex, ¤tColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if (NS_FAILED(res)) break; // Skip cells that already selected or are spanned from previous locations if (!isSelected && cell && row == currentRowIndex && col == currentColIndex) { res = AppendNodeToSelectionAsRange(cell); if (NS_FAILED(res)) break; } } } return res; } NS_IMETHODIMP nsHTMLEditor::SelectAllTableCells() { nsCOMPtr cell; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("td"), nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a cell NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); nsCOMPtr startCell = cell; // Get parent table nsCOMPtr table; res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), cell, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); if(!table) return NS_ERROR_NULL_POINTER; int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); nsCOMPtr selection; res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); // Suppress nsISelectionListener notification // until all selection changes are finished nsSelectionBatcherForTable selectionBatcher(selection); // It is now safe to clear the selection // BE SURE TO RESET IT BEFORE LEAVING! res = ClearSelection(); // Select all cells in the same column as current cell bool cellSelected = false; int32_t rowSpan, colSpan, actualRowSpan, actualColSpan, currentRowIndex, currentColIndex; bool isSelected; for(int32_t row = 0; row < rowCount; row++) { for(int32_t col = 0; col < colCount; col += std::max(actualColSpan, 1)) { res = GetCellDataAt(table, row, col, getter_AddRefs(cell), ¤tRowIndex, ¤tColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if (NS_FAILED(res)) break; // Skip cells that are spanned from previous rows or columns if (cell && row == currentRowIndex && col == currentColIndex) { res = AppendNodeToSelectionAsRange(cell); if (NS_FAILED(res)) break; cellSelected = true; } } } // Safety code to select starting cell if nothing else was selected if (!cellSelected) { return AppendNodeToSelectionAsRange(startCell); } return res; } NS_IMETHODIMP nsHTMLEditor::SelectTableRow() { nsCOMPtr cell; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("td"), nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a cell NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); nsCOMPtr startCell = cell; // Get table and location of cell: nsCOMPtr selection; nsCOMPtr table; int32_t startRowIndex, startColIndex; res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(table, NS_ERROR_FAILURE); int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); //Note: At this point, we could get first and last cells in row, // then call SelectBlockOfCells, but that would take just // a little less code, so the following is more efficient // Suppress nsISelectionListener notification // until all selection changes are finished nsSelectionBatcherForTable selectionBatcher(selection); // It is now safe to clear the selection // BE SURE TO RESET IT BEFORE LEAVING! res = ClearSelection(); // Select all cells in the same row as current cell bool cellSelected = false; int32_t rowSpan, colSpan, actualRowSpan, actualColSpan, currentRowIndex, currentColIndex; bool isSelected; for(int32_t col = 0; col < colCount; col += std::max(actualColSpan, 1)) { res = GetCellDataAt(table, startRowIndex, col, getter_AddRefs(cell), ¤tRowIndex, ¤tColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if (NS_FAILED(res)) break; // Skip cells that are spanned from previous rows or columns if (cell && currentRowIndex == startRowIndex && currentColIndex == col) { res = AppendNodeToSelectionAsRange(cell); if (NS_FAILED(res)) break; cellSelected = true; } } // Safety code to select starting cell if nothing else was selected if (!cellSelected) { return AppendNodeToSelectionAsRange(startCell); } return res; } NS_IMETHODIMP nsHTMLEditor::SelectTableColumn() { nsCOMPtr cell; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("td"), nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a cell NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); nsCOMPtr startCell = cell; // Get location of cell: nsCOMPtr selection; nsCOMPtr table; int32_t startRowIndex, startColIndex; res = GetCellContext(getter_AddRefs(selection), getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(table, NS_ERROR_FAILURE); int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Suppress nsISelectionListener notification // until all selection changes are finished nsSelectionBatcherForTable selectionBatcher(selection); // It is now safe to clear the selection // BE SURE TO RESET IT BEFORE LEAVING! res = ClearSelection(); // Select all cells in the same column as current cell bool cellSelected = false; int32_t rowSpan, colSpan, actualRowSpan, actualColSpan, currentRowIndex, currentColIndex; bool isSelected; for(int32_t row = 0; row < rowCount; row += std::max(actualRowSpan, 1)) { res = GetCellDataAt(table, row, startColIndex, getter_AddRefs(cell), ¤tRowIndex, ¤tColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if (NS_FAILED(res)) break; // Skip cells that are spanned from previous rows or columns if (cell && currentRowIndex == row && currentColIndex == startColIndex) { res = AppendNodeToSelectionAsRange(cell); if (NS_FAILED(res)) break; cellSelected = true; } } // Safety code to select starting cell if nothing else was selected if (!cellSelected) { return AppendNodeToSelectionAsRange(startCell); } return res; } NS_IMETHODIMP nsHTMLEditor::SplitTableCell() { nsCOMPtr table; nsCOMPtr cell; int32_t startRowIndex, startColIndex, actualRowSpan, actualColSpan; // Get cell, table, etc. at selection anchor node nsresult res = GetCellContext(nullptr, getter_AddRefs(table), getter_AddRefs(cell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); if(!table || !cell) return NS_EDITOR_ELEMENT_NOT_FOUND; // We need rowspan and colspan data res = GetCellSpansAt(table, startRowIndex, startColIndex, actualRowSpan, actualColSpan); NS_ENSURE_SUCCESS(res, res); // Must have some span to split if (actualRowSpan <= 1 && actualColSpan <= 1) return NS_OK; nsAutoEditBatch beginBatching(this); // Prevent auto insertion of BR in new cell until we're done nsAutoRules beginRulesSniffing(this, EditAction::insertNode, nsIEditor::eNext); // We reset selection nsSetSelectionAfterTableEdit setCaret(this, table, startRowIndex, startColIndex, ePreviousColumn, false); //...so suppress Rules System selection munging nsAutoTxnsConserveSelection dontChangeSelection(this); nsCOMPtr newCell; int32_t rowIndex = startRowIndex; int32_t rowSpanBelow, colSpanAfter; // Split up cell row-wise first into rowspan=1 above, and the rest below, // whittling away at the cell below until no more extra span for (rowSpanBelow = actualRowSpan-1; rowSpanBelow >= 0; rowSpanBelow--) { // We really split row-wise only if we had rowspan > 1 if (rowSpanBelow > 0) { res = SplitCellIntoRows(table, rowIndex, startColIndex, 1, rowSpanBelow, getter_AddRefs(newCell)); NS_ENSURE_SUCCESS(res, res); CopyCellBackgroundColor(newCell, cell); } int32_t colIndex = startColIndex; // Now split the cell with rowspan = 1 into cells if it has colSpan > 1 for (colSpanAfter = actualColSpan-1; colSpanAfter > 0; colSpanAfter--) { res = SplitCellIntoColumns(table, rowIndex, colIndex, 1, colSpanAfter, getter_AddRefs(newCell)); NS_ENSURE_SUCCESS(res, res); CopyCellBackgroundColor(newCell, cell); colIndex++; } // Point to the new cell and repeat rowIndex++; } return res; } nsresult nsHTMLEditor::CopyCellBackgroundColor(nsIDOMElement *destCell, nsIDOMElement *sourceCell) { NS_ENSURE_TRUE(destCell && sourceCell, NS_ERROR_NULL_POINTER); // Copy backgournd color to new cell NS_NAMED_LITERAL_STRING(bgcolor, "bgcolor"); nsAutoString color; bool isSet; nsresult res = GetAttributeValue(sourceCell, bgcolor, color, &isSet); if (NS_SUCCEEDED(res) && isSet) res = SetAttribute(destCell, bgcolor, color); return res; } NS_IMETHODIMP nsHTMLEditor::SplitCellIntoColumns(nsIDOMElement *aTable, int32_t aRowIndex, int32_t aColIndex, int32_t aColSpanLeft, int32_t aColSpanRight, nsIDOMElement **aNewCell) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); if (aNewCell) *aNewCell = nullptr; nsCOMPtr cell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; nsresult res = GetCellDataAt(aTable, aRowIndex, aColIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(cell, NS_ERROR_NULL_POINTER); // We can't split! if (actualColSpan <= 1 || (aColSpanLeft + aColSpanRight) > actualColSpan) return NS_OK; // Reduce colspan of cell to split res = SetColSpan(cell, aColSpanLeft); NS_ENSURE_SUCCESS(res, res); // Insert new cell after using the remaining span // and always get the new cell so we can copy the background color; nsCOMPtr newCell; res = InsertCell(cell, actualRowSpan, aColSpanRight, true, false, getter_AddRefs(newCell)); NS_ENSURE_SUCCESS(res, res); if (newCell) { if (aNewCell) { *aNewCell = newCell.get(); NS_ADDREF(*aNewCell); } res = CopyCellBackgroundColor(newCell, cell); } return res; } NS_IMETHODIMP nsHTMLEditor::SplitCellIntoRows(nsIDOMElement *aTable, int32_t aRowIndex, int32_t aColIndex, int32_t aRowSpanAbove, int32_t aRowSpanBelow, nsIDOMElement **aNewCell) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); if (aNewCell) *aNewCell = nullptr; nsCOMPtr cell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; nsresult res = GetCellDataAt(aTable, aRowIndex, aColIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(cell, NS_ERROR_NULL_POINTER); // We can't split! if (actualRowSpan <= 1 || (aRowSpanAbove + aRowSpanBelow) > actualRowSpan) return NS_OK; int32_t rowCount, colCount; res = GetTableSize(aTable, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); nsCOMPtr cell2; nsCOMPtr lastCellFound; int32_t startRowIndex2, startColIndex2, rowSpan2, colSpan2, actualRowSpan2, actualColSpan2; bool isSelected2; int32_t colIndex = 0; bool insertAfter = (startColIndex > 0); // This is the row we will insert new cell into int32_t rowBelowIndex = startRowIndex+aRowSpanAbove; // Find a cell to insert before or after do { // Search for a cell to insert before res = GetCellDataAt(aTable, rowBelowIndex, colIndex, getter_AddRefs(cell2), &startRowIndex2, &startColIndex2, &rowSpan2, &colSpan2, &actualRowSpan2, &actualColSpan2, &isSelected2); // If we fail here, it could be because row has bad rowspan values, // such as all cells having rowspan > 1 (Call FixRowSpan first!) if (NS_FAILED(res) || !cell) return NS_ERROR_FAILURE; // Skip over cells spanned from above (like the one we are splitting!) if (cell2 && startRowIndex2 == rowBelowIndex) { if (insertAfter) { // New cell isn't first in row, // so stop after we find the cell just before new cell's column if ((startColIndex2 + actualColSpan2) == startColIndex) break; // If cell found is AFTER desired new cell colum, // we have multiple cells with rowspan > 1 that // prevented us from finding a cell to insert after... if (startColIndex2 > startColIndex) { // ... so instead insert before the cell we found insertAfter = false; break; } } else { break; // Inserting before, so stop at first cell in row we want to insert into } lastCellFound = cell2; } // Skip to next available cellmap location colIndex += std::max(actualColSpan2, 1); // Done when past end of total number of columns if (colIndex > colCount) break; } while(true); if (!cell2 && lastCellFound) { // Edge case where we didn't find a cell to insert after // or before because column(s) before desired column // and all columns after it are spanned from above. // We can insert after the last cell we found cell2 = lastCellFound; insertAfter = true; // Should always be true, but let's be sure } // Reduce rowspan of cell to split res = SetRowSpan(cell, aRowSpanAbove); NS_ENSURE_SUCCESS(res, res); // Insert new cell after using the remaining span // and always get the new cell so we can copy the background color; nsCOMPtr newCell; res = InsertCell(cell2, aRowSpanBelow, actualColSpan, insertAfter, false, getter_AddRefs(newCell)); NS_ENSURE_SUCCESS(res, res); if (newCell) { if (aNewCell) { *aNewCell = newCell.get(); NS_ADDREF(*aNewCell); } res = CopyCellBackgroundColor(newCell, cell2); } return res; } NS_IMETHODIMP nsHTMLEditor::SwitchTableCellHeaderType(nsIDOMElement *aSourceCell, nsIDOMElement **aNewCell) { NS_ENSURE_TRUE(aSourceCell, NS_ERROR_NULL_POINTER); nsAutoEditBatch beginBatching(this); // Prevent auto insertion of BR in new cell created by ReplaceContainer nsAutoRules beginRulesSniffing(this, EditAction::insertNode, nsIEditor::eNext); nsCOMPtr newNode; // Save current selection to restore when done // This is needed so ReplaceContainer can monitor selection // when replacing nodes nsRefPtr selection = GetSelection(); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); nsAutoSelectionReset selectionResetter(selection, this); // Set to the opposite of current type nsCOMPtr atom = nsEditor::GetTag(aSourceCell); nsString newCellType( (atom == nsEditProperty::td) ? NS_LITERAL_STRING("th") : NS_LITERAL_STRING("td")); // This creates new node, moves children, copies attributes (true) // and manages the selection! nsresult res = ReplaceContainer(aSourceCell, address_of(newNode), newCellType, nullptr, nullptr, true); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(newNode, NS_ERROR_FAILURE); // Return the new cell if (aNewCell) { nsCOMPtr newElement = do_QueryInterface(newNode); *aNewCell = newElement.get(); NS_ADDREF(*aNewCell); } return NS_OK; } NS_IMETHODIMP nsHTMLEditor::JoinTableCells(bool aMergeNonContiguousContents) { nsCOMPtr table; nsCOMPtr targetCell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; nsCOMPtr cell2; int32_t startRowIndex2, startColIndex2, rowSpan2, colSpan2, actualRowSpan2, actualColSpan2; bool isSelected2; // Get cell, table, etc. at selection anchor node nsresult res = GetCellContext(nullptr, getter_AddRefs(table), getter_AddRefs(targetCell), nullptr, nullptr, &startRowIndex, &startColIndex); NS_ENSURE_SUCCESS(res, res); if(!table || !targetCell) return NS_EDITOR_ELEMENT_NOT_FOUND; nsAutoEditBatch beginBatching(this); //Don't let Rules System change the selection nsAutoTxnsConserveSelection dontChangeSelection(this); // Note: We dont' use nsSetSelectionAfterTableEdit here so the selection // is retained after joining. This leaves the target cell selected // as well as the "non-contiguous" cells, so user can see what happened. nsCOMPtr firstCell; int32_t firstRowIndex, firstColIndex; res = GetFirstSelectedCellInTable(&firstRowIndex, &firstColIndex, getter_AddRefs(firstCell)); NS_ENSURE_SUCCESS(res, res); bool joinSelectedCells = false; if (firstCell) { nsCOMPtr secondCell; res = GetNextSelectedCell(nullptr, getter_AddRefs(secondCell)); NS_ENSURE_SUCCESS(res, res); // If only one cell is selected, join with cell to the right joinSelectedCells = (secondCell != nullptr); } if (joinSelectedCells) { // We have selected cells: Join just contiguous cells // and just merge contents if not contiguous int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Get spans for cell we will merge into int32_t firstRowSpan, firstColSpan; res = GetCellSpansAt( table, firstRowIndex, firstColIndex, firstRowSpan, firstColSpan); NS_ENSURE_SUCCESS(res, res); // This defines the last indexes along the "edges" // of the contiguous block of cells, telling us // that we can join adjacent cells to the block // Start with same as the first values, // then expand as we find adjacent selected cells int32_t lastRowIndex = firstRowIndex; int32_t lastColIndex = firstColIndex; int32_t rowIndex, colIndex; // First pass: Determine boundaries of contiguous rectangular block // that we will join into one cell, // favoring adjacent cells in the same row for (rowIndex = firstRowIndex; rowIndex <= lastRowIndex; rowIndex++) { int32_t currentRowCount = rowCount; // Be sure each row doesn't have rowspan errors res = FixBadRowSpan(table, rowIndex, rowCount); NS_ENSURE_SUCCESS(res, res); // Adjust rowcount by number of rows we removed lastRowIndex -= (currentRowCount-rowCount); bool cellFoundInRow = false; bool lastRowIsSet = false; int32_t lastColInRow = 0; int32_t firstColInRow = firstColIndex; for (colIndex = firstColIndex; colIndex < colCount; colIndex += std::max(actualColSpan2, 1)) { res = GetCellDataAt(table, rowIndex, colIndex, getter_AddRefs(cell2), &startRowIndex2, &startColIndex2, &rowSpan2, &colSpan2, &actualRowSpan2, &actualColSpan2, &isSelected2); NS_ENSURE_SUCCESS(res, res); if (isSelected2) { if (!cellFoundInRow) // We've just found the first selected cell in this row firstColInRow = colIndex; if (rowIndex > firstRowIndex && firstColInRow != firstColIndex) { // We're in at least the second row, // but left boundary is "ragged" (not the same as 1st row's start) //Let's just end block on previous row // and keep previous lastColIndex //TODO: We could try to find the Maximum firstColInRow // so our block can still extend down more rows? lastRowIndex = std::max(0,rowIndex - 1); lastRowIsSet = true; break; } // Save max selected column in this row, including extra colspan lastColInRow = colIndex + (actualColSpan2-1); cellFoundInRow = true; } else if (cellFoundInRow) { // No cell or not selected, but at least one cell in row was found if (rowIndex > (firstRowIndex+1) && colIndex <= lastColIndex) { // Cell is in a column less than current right border in // the third or higher selected row, so stop block at the previous row lastRowIndex = std::max(0,rowIndex - 1); lastRowIsSet = true; } // We're done with this row break; } } // End of column loop // Done with this row if (cellFoundInRow) { if (rowIndex == firstRowIndex) { // First row always initializes the right boundary lastColIndex = lastColInRow; } // If we didn't determine last row above... if (!lastRowIsSet) { if (colIndex < lastColIndex) { // (don't think we ever get here?) // Cell is in a column less than current right boundary, // so stop block at the previous row lastRowIndex = std::max(0,rowIndex - 1); } else { // Go on to examine next row lastRowIndex = rowIndex+1; } } // Use the minimum col we found so far for right boundary lastColIndex = std::min(lastColIndex, lastColInRow); } else { // No selected cells in this row -- stop at row above // and leave last column at its previous value lastRowIndex = std::max(0,rowIndex - 1); } } // The list of cells we will delete after joining nsTArray > deleteList; // 2nd pass: Do the joining and merging for (rowIndex = 0; rowIndex < rowCount; rowIndex++) { for (colIndex = 0; colIndex < colCount; colIndex += std::max(actualColSpan2, 1)) { res = GetCellDataAt(table, rowIndex, colIndex, getter_AddRefs(cell2), &startRowIndex2, &startColIndex2, &rowSpan2, &colSpan2, &actualRowSpan2, &actualColSpan2, &isSelected2); NS_ENSURE_SUCCESS(res, res); // If this is 0, we are past last cell in row, so exit the loop if (actualColSpan2 == 0) break; // Merge only selected cells (skip cell we're merging into, of course) if (isSelected2 && cell2 != firstCell) { if (rowIndex >= firstRowIndex && rowIndex <= lastRowIndex && colIndex >= firstColIndex && colIndex <= lastColIndex) { // We are within the join region // Problem: It is very tricky to delete cells as we merge, // since that will upset the cellmap // Instead, build a list of cells to delete and do it later NS_ASSERTION(startRowIndex2 == rowIndex, "JoinTableCells: StartRowIndex is in row above"); if (actualColSpan2 > 1) { //Check if cell "hangs" off the boundary because of colspan > 1 // Use split methods to chop off excess int32_t extraColSpan = (startColIndex2 + actualColSpan2) - (lastColIndex+1); if ( extraColSpan > 0) { res = SplitCellIntoColumns(table, startRowIndex2, startColIndex2, actualColSpan2-extraColSpan, extraColSpan, nullptr); NS_ENSURE_SUCCESS(res, res); } } res = MergeCells(firstCell, cell2, false); NS_ENSURE_SUCCESS(res, res); // Add cell to list to delete deleteList.AppendElement(cell2.get()); } else if (aMergeNonContiguousContents) { // Cell is outside join region -- just merge the contents res = MergeCells(firstCell, cell2, false); NS_ENSURE_SUCCESS(res, res); } } } } // All cell contents are merged. Delete the empty cells we accumulated // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); for (uint32_t i = 0, n = deleteList.Length(); i < n; i++) { nsIDOMElement *elementPtr = deleteList[i]; if (elementPtr) { nsCOMPtr node = do_QueryInterface(elementPtr); res = DeleteNode(node); NS_ENSURE_SUCCESS(res, res); } } // Cleanup selection: remove ranges where cells were deleted nsCOMPtr selection; res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); int32_t rangeCount; res = selection->GetRangeCount(&rangeCount); NS_ENSURE_SUCCESS(res, res); nsCOMPtr range; int32_t i; for (i = 0; i < rangeCount; i++) { res = selection->GetRangeAt(i, getter_AddRefs(range)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(range, NS_ERROR_FAILURE); nsCOMPtr deletedCell; res = GetCellFromRange(range, getter_AddRefs(deletedCell)); if (!deletedCell) { selection->RemoveRange(range); rangeCount--; i--; } } // Set spans for the cell everthing merged into res = SetRowSpan(firstCell, lastRowIndex-firstRowIndex+1); NS_ENSURE_SUCCESS(res, res); res = SetColSpan(firstCell, lastColIndex-firstColIndex+1); NS_ENSURE_SUCCESS(res, res); // Fixup disturbances in table layout NormalizeTable(table); } else { // Joining with cell to the right -- get rowspan and colspan data of target cell res = GetCellDataAt(table, startRowIndex, startColIndex, getter_AddRefs(targetCell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(targetCell, NS_ERROR_NULL_POINTER); // Get data for cell to the right res = GetCellDataAt(table, startRowIndex, startColIndex+actualColSpan, getter_AddRefs(cell2), &startRowIndex2, &startColIndex2, &rowSpan2, &colSpan2, &actualRowSpan2, &actualColSpan2, &isSelected2); NS_ENSURE_SUCCESS(res, res); if(!cell2) return NS_OK; // Don't fail if there's no cell // sanity check NS_ASSERTION((startRowIndex >= startRowIndex2),"JoinCells: startRowIndex < startRowIndex2"); // Figure out span of merged cell starting from target's starting row // to handle case of merged cell starting in a row above int32_t spanAboveMergedCell = startRowIndex - startRowIndex2; int32_t effectiveRowSpan2 = actualRowSpan2 - spanAboveMergedCell; if (effectiveRowSpan2 > actualRowSpan) { // Cell to the right spans into row below target // Split off portion below target cell's bottom-most row res = SplitCellIntoRows(table, startRowIndex2, startColIndex2, spanAboveMergedCell+actualRowSpan, effectiveRowSpan2-actualRowSpan, nullptr); NS_ENSURE_SUCCESS(res, res); } // Move contents from cell to the right // Delete the cell now only if it starts in the same row // and has enough row "height" res = MergeCells(targetCell, cell2, (startRowIndex2 == startRowIndex) && (effectiveRowSpan2 >= actualRowSpan)); NS_ENSURE_SUCCESS(res, res); if (effectiveRowSpan2 < actualRowSpan) { // Merged cell is "shorter" // (there are cells(s) below it that are row-spanned by target cell) // We could try splitting those cells, but that's REAL messy, // so the safest thing to do is NOT really join the cells return NS_OK; } if( spanAboveMergedCell > 0 ) { // Cell we merged started in a row above the target cell // Reduce rowspan to give room where target cell will extend its colspan res = SetRowSpan(cell2, spanAboveMergedCell); NS_ENSURE_SUCCESS(res, res); } // Reset target cell's colspan to encompass cell to the right res = SetColSpan(targetCell, actualColSpan+actualColSpan2); NS_ENSURE_SUCCESS(res, res); } return res; } NS_IMETHODIMP nsHTMLEditor::MergeCells(nsCOMPtr aTargetCell, nsCOMPtr aCellToMerge, bool aDeleteCellToMerge) { nsCOMPtr targetCell = do_QueryInterface(aTargetCell); nsCOMPtr cellToMerge = do_QueryInterface(aCellToMerge); NS_ENSURE_TRUE(targetCell && cellToMerge, NS_ERROR_NULL_POINTER); // Prevent rules testing until we're done nsAutoRules beginRulesSniffing(this, EditAction::deleteNode, nsIEditor::eNext); // Don't need to merge if cell is empty if (!IsEmptyCell(cellToMerge)) { // Get index of last child in target cell // If we fail or don't have children, // we insert at index 0 int32_t insertIndex = 0; // Start inserting just after last child uint32_t len = targetCell->GetChildCount(); if (len == 1 && IsEmptyCell(targetCell)) { // Delete the empty node nsIContent* cellChild = targetCell->GetFirstChild(); nsresult res = DeleteNode(cellChild->AsDOMNode()); NS_ENSURE_SUCCESS(res, res); insertIndex = 0; } else { insertIndex = (int32_t)len; } // Move the contents while (cellToMerge->HasChildren()) { nsCOMPtr cellChild = cellToMerge->GetLastChild()->AsDOMNode(); nsresult res = DeleteNode(cellChild); NS_ENSURE_SUCCESS(res, res); res = InsertNode(cellChild, aTargetCell, insertIndex); NS_ENSURE_SUCCESS(res, res); } } // Delete cells whose contents were moved if (aDeleteCellToMerge) return DeleteNode(aCellToMerge); return NS_OK; } NS_IMETHODIMP nsHTMLEditor::FixBadRowSpan(nsIDOMElement *aTable, int32_t aRowIndex, int32_t& aNewRowCount) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); int32_t rowCount, colCount; nsresult res = GetTableSize(aTable, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); nsCOMPtrcell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; int32_t minRowSpan = -1; int32_t colIndex; for( colIndex = 0; colIndex < colCount; colIndex += std::max(actualColSpan, 1)) { res = GetCellDataAt(aTable, aRowIndex, colIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); // NOTE: This is a *real* failure. // GetCellDataAt passes if cell is missing from cellmap if(NS_FAILED(res)) return res; if (!cell) break; if(rowSpan > 0 && startRowIndex == aRowIndex && (rowSpan < minRowSpan || minRowSpan == -1)) { minRowSpan = rowSpan; } NS_ASSERTION((actualColSpan > 0),"ActualColSpan = 0 in FixBadRowSpan"); } if(minRowSpan > 1) { // The amount to reduce everyone's rowspan // so at least one cell has rowspan = 1 int32_t rowsReduced = minRowSpan - 1; for(colIndex = 0; colIndex < colCount; colIndex += std::max(actualColSpan, 1)) { res = GetCellDataAt(aTable, aRowIndex, colIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if(NS_FAILED(res)) return res; // Fixup rowspans only for cells starting in current row if(cell && rowSpan > 0 && startRowIndex == aRowIndex && startColIndex == colIndex ) { res = SetRowSpan(cell, rowSpan-rowsReduced); if(NS_FAILED(res)) return res; } NS_ASSERTION((actualColSpan > 0),"ActualColSpan = 0 in FixBadRowSpan"); } } return GetTableSize(aTable, &aNewRowCount, &colCount); } NS_IMETHODIMP nsHTMLEditor::FixBadColSpan(nsIDOMElement *aTable, int32_t aColIndex, int32_t& aNewColCount) { NS_ENSURE_TRUE(aTable, NS_ERROR_NULL_POINTER); int32_t rowCount, colCount; nsresult res = GetTableSize(aTable, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); nsCOMPtr cell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; int32_t minColSpan = -1; int32_t rowIndex; for( rowIndex = 0; rowIndex < rowCount; rowIndex += std::max(actualRowSpan, 1)) { res = GetCellDataAt(aTable, rowIndex, aColIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); // NOTE: This is a *real* failure. // GetCellDataAt passes if cell is missing from cellmap if(NS_FAILED(res)) return res; if (!cell) break; if(colSpan > 0 && startColIndex == aColIndex && (colSpan < minColSpan || minColSpan == -1)) { minColSpan = colSpan; } NS_ASSERTION((actualRowSpan > 0),"ActualRowSpan = 0 in FixBadColSpan"); } if(minColSpan > 1) { // The amount to reduce everyone's colspan // so at least one cell has colspan = 1 int32_t colsReduced = minColSpan - 1; for(rowIndex = 0; rowIndex < rowCount; rowIndex += std::max(actualRowSpan, 1)) { res = GetCellDataAt(aTable, rowIndex, aColIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); if(NS_FAILED(res)) return res; // Fixup colspans only for cells starting in current column if(cell && colSpan > 0 && startColIndex == aColIndex && startRowIndex == rowIndex ) { res = SetColSpan(cell, colSpan-colsReduced); if(NS_FAILED(res)) return res; } NS_ASSERTION((actualRowSpan > 0),"ActualRowSpan = 0 in FixBadColSpan"); } } return GetTableSize(aTable, &rowCount, &aNewColCount); } NS_IMETHODIMP nsHTMLEditor::NormalizeTable(nsIDOMElement *aTable) { nsRefPtr selection = GetSelection(); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); nsCOMPtr table; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), aTable, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); // Don't fail if we didn't find a table NS_ENSURE_TRUE(table, NS_OK); int32_t rowCount, colCount, rowIndex, colIndex; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Save current selection nsAutoSelectionReset selectionResetter(selection, this); nsAutoEditBatch beginBatching(this); // Prevent auto insertion of BR in new cell until we're done nsAutoRules beginRulesSniffing(this, EditAction::insertNode, nsIEditor::eNext); nsCOMPtr cell; int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; // Scan all cells in each row to detect bad rowspan values for(rowIndex = 0; rowIndex < rowCount; rowIndex++) { res = FixBadRowSpan(table, rowIndex, rowCount); NS_ENSURE_SUCCESS(res, res); } // and same for colspans for(colIndex = 0; colIndex < colCount; colIndex++) { res = FixBadColSpan(table, colIndex, colCount); NS_ENSURE_SUCCESS(res, res); } // Fill in missing cellmap locations with empty cells for(rowIndex = 0; rowIndex < rowCount; rowIndex++) { nsCOMPtr previousCellInRow; for(colIndex = 0; colIndex < colCount; colIndex++) { res = GetCellDataAt(table, rowIndex, colIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); // NOTE: This is a *real* failure. // GetCellDataAt passes if cell is missing from cellmap if(NS_FAILED(res)) return res; if (!cell) { //We are missing a cell at a cellmap location #ifdef DEBUG printf("NormalizeTable found missing cell at row=%d, col=%d\n", rowIndex, colIndex); #endif // Add a cell after the previous Cell in the current row if(previousCellInRow) { // Insert a new cell after (true), and return the new cell to us res = InsertCell(previousCellInRow, 1, 1, true, false, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); // Set this so we use returned new "cell" to set previousCellInRow below if(cell) startRowIndex = rowIndex; } else { // We don't have any cells in this row -- We are really messed up! #ifdef DEBUG printf("NormalizeTable found no cells in row=%d, col=%d\n", rowIndex, colIndex); #endif return NS_ERROR_FAILURE; } } // Save the last cell found in the same row we are scanning if(startRowIndex == rowIndex) { previousCellInRow = cell; } } } return res; } NS_IMETHODIMP nsHTMLEditor::GetCellIndexes(nsIDOMElement *aCell, int32_t *aRowIndex, int32_t *aColIndex) { NS_ENSURE_ARG_POINTER(aRowIndex); *aColIndex=0; // initialize out params NS_ENSURE_ARG_POINTER(aColIndex); *aRowIndex=0; nsresult res=NS_ERROR_NOT_INITIALIZED; if (!aCell) { // Get the selected cell or the cell enclosing the selection anchor nsCOMPtr cell; res = GetElementOrParentByTagName(NS_LITERAL_STRING("td"), nullptr, getter_AddRefs(cell)); if (NS_SUCCEEDED(res) && cell) aCell = cell; else return NS_ERROR_FAILURE; } NS_ENSURE_TRUE(mDocWeak, NS_ERROR_NOT_INITIALIZED); nsCOMPtr ps = GetPresShell(); NS_ENSURE_TRUE(ps, NS_ERROR_NOT_INITIALIZED); nsCOMPtr nodeAsContent( do_QueryInterface(aCell) ); NS_ENSURE_TRUE(nodeAsContent, NS_ERROR_FAILURE); // frames are not ref counted, so don't use an nsCOMPtr nsIFrame *layoutObject = nodeAsContent->GetPrimaryFrame(); NS_ENSURE_TRUE(layoutObject, NS_ERROR_FAILURE); nsITableCellLayout *cellLayoutObject = do_QueryFrame(layoutObject); NS_ENSURE_TRUE(cellLayoutObject, NS_ERROR_FAILURE); return cellLayoutObject->GetCellIndexes(*aRowIndex, *aColIndex); } nsTableOuterFrame* nsHTMLEditor::GetTableFrame(nsIDOMElement* aTable) { NS_ENSURE_TRUE(aTable, nullptr); nsCOMPtr nodeAsContent( do_QueryInterface(aTable) ); NS_ENSURE_TRUE(nodeAsContent, nullptr); return do_QueryFrame(nodeAsContent->GetPrimaryFrame()); } //Return actual number of cells (a cell with colspan > 1 counts as just 1) int32_t nsHTMLEditor::GetNumberOfCellsInRow(nsIDOMElement* aTable, int32_t rowIndex) { int32_t cellCount = 0; nsCOMPtr cell; int32_t colIndex = 0; nsresult res; do { int32_t startRowIndex, startColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; res = GetCellDataAt(aTable, rowIndex, colIndex, getter_AddRefs(cell), &startRowIndex, &startColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, 0); if (cell) { // Only count cells that start in row we are working with if (startRowIndex == rowIndex) cellCount++; //Next possible location for a cell colIndex += actualColSpan; } else colIndex++; } while (cell); return cellCount; } /* Not scriptable: For convenience in C++ Use GetTableRowCount and GetTableColumnCount from JavaScript */ NS_IMETHODIMP nsHTMLEditor::GetTableSize(nsIDOMElement *aTable, int32_t* aRowCount, int32_t* aColCount) { NS_ENSURE_ARG_POINTER(aRowCount); NS_ENSURE_ARG_POINTER(aColCount); nsresult res; *aRowCount = 0; *aColCount = 0; nsCOMPtr table; // Get the selected talbe or the table enclosing the selection anchor res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), aTable, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(table, NS_ERROR_FAILURE); nsTableOuterFrame* tableFrame = GetTableFrame(table.get()); NS_ENSURE_TRUE(tableFrame, NS_ERROR_FAILURE); *aRowCount = tableFrame->GetRowCount(); *aColCount = tableFrame->GetColCount(); return NS_OK; } NS_IMETHODIMP nsHTMLEditor::GetCellDataAt(nsIDOMElement* aTable, int32_t aRowIndex, int32_t aColIndex, nsIDOMElement **aCell, int32_t* aStartRowIndex, int32_t* aStartColIndex, int32_t* aRowSpan, int32_t* aColSpan, int32_t* aActualRowSpan, int32_t* aActualColSpan, bool* aIsSelected) { NS_ENSURE_ARG_POINTER(aStartRowIndex); NS_ENSURE_ARG_POINTER(aStartColIndex); NS_ENSURE_ARG_POINTER(aRowSpan); NS_ENSURE_ARG_POINTER(aColSpan); NS_ENSURE_ARG_POINTER(aActualRowSpan); NS_ENSURE_ARG_POINTER(aActualColSpan); NS_ENSURE_ARG_POINTER(aIsSelected); NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); nsresult res=NS_ERROR_FAILURE; *aStartRowIndex = 0; *aStartColIndex = 0; *aRowSpan = 0; *aColSpan = 0; *aActualRowSpan = 0; *aActualColSpan = 0; *aIsSelected = false; *aCell = nullptr; if (!aTable) { // Get the selected table or the table enclosing the selection anchor nsCOMPtr table; res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), nullptr, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); if (table) aTable = table; else return NS_ERROR_FAILURE; } nsTableOuterFrame* tableFrame = GetTableFrame(aTable); NS_ENSURE_TRUE(tableFrame, NS_ERROR_FAILURE); nsTableCellFrame* cellFrame = tableFrame->GetCellFrameAt(aRowIndex, aColIndex); if (!cellFrame) return NS_ERROR_FAILURE; *aIsSelected = cellFrame->IsSelected(); cellFrame->GetRowIndex(*aStartRowIndex); cellFrame->GetColIndex(*aStartColIndex); *aRowSpan = cellFrame->GetRowSpan(); *aColSpan = cellFrame->GetColSpan(); *aActualRowSpan = tableFrame->GetEffectiveRowSpanAt(aRowIndex, aColIndex); *aActualColSpan = tableFrame->GetEffectiveColSpanAt(aRowIndex, aColIndex); nsCOMPtr domCell = do_QueryInterface(cellFrame->GetContent()); domCell.forget(aCell); return NS_OK; } // When all you want is the cell NS_IMETHODIMP nsHTMLEditor::GetCellAt(nsIDOMElement* aTable, int32_t aRowIndex, int32_t aColIndex, nsIDOMElement **aCell) { NS_ENSURE_ARG_POINTER(aCell); *aCell = nullptr; nsTableOuterFrame* tableFrame = GetTableFrame(aTable); if (!tableFrame) return NS_ERROR_FAILURE; nsCOMPtr domCell = do_QueryInterface(tableFrame->GetCellAt(aRowIndex, aColIndex)); domCell.forget(aCell); return NS_OK; } // When all you want are the rowspan and colspan (not exposed in nsITableEditor) NS_IMETHODIMP nsHTMLEditor::GetCellSpansAt(nsIDOMElement* aTable, int32_t aRowIndex, int32_t aColIndex, int32_t& aActualRowSpan, int32_t& aActualColSpan) { nsTableOuterFrame* tableFrame = GetTableFrame(aTable); if (!tableFrame) return NS_ERROR_FAILURE; aActualRowSpan = tableFrame->GetEffectiveRowSpanAt(aRowIndex, aColIndex); aActualColSpan = tableFrame->GetEffectiveColSpanAt(aRowIndex, aColIndex); return NS_OK; } NS_IMETHODIMP nsHTMLEditor::GetCellContext(nsISelection **aSelection, nsIDOMElement **aTable, nsIDOMElement **aCell, nsIDOMNode **aCellParent, int32_t *aCellOffset, int32_t *aRowIndex, int32_t *aColIndex) { // Initialize return pointers if (aSelection) *aSelection = nullptr; if (aTable) *aTable = nullptr; if (aCell) *aCell = nullptr; if (aCellParent) *aCellParent = nullptr; if (aCellOffset) *aCellOffset = 0; if (aRowIndex) *aRowIndex = 0; if (aColIndex) *aColIndex = 0; nsCOMPtr selection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); if (aSelection) { *aSelection = selection.get(); NS_ADDREF(*aSelection); } nsCOMPtr table; nsCOMPtr cell; // Caller may supply the cell... if (aCell && *aCell) cell = *aCell; // ...but if not supplied, // get cell if it's the child of selection anchor node, // or get the enclosing by a cell if (!cell) { // Find a selected or enclosing table element nsCOMPtr cellOrTableElement; int32_t selectedCount; nsAutoString tagName; res = GetSelectedOrParentTableElement(tagName, &selectedCount, getter_AddRefs(cellOrTableElement)); NS_ENSURE_SUCCESS(res, res); if (tagName.EqualsLiteral("table")) { // We have a selected table, not a cell if (aTable) { *aTable = cellOrTableElement.get(); NS_ADDREF(*aTable); } return NS_OK; } if (!tagName.EqualsLiteral("td")) return NS_EDITOR_ELEMENT_NOT_FOUND; // We found a cell cell = cellOrTableElement; } if (aCell) { *aCell = cell.get(); NS_ADDREF(*aCell); } // Get containing table res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), cell, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); // Cell must be in a table, so fail if not found NS_ENSURE_TRUE(table, NS_ERROR_FAILURE); if (aTable) { *aTable = table.get(); NS_ADDREF(*aTable); } // Get the rest of the related data only if requested if (aRowIndex || aColIndex) { int32_t rowIndex, colIndex; // Get current cell location so we can put caret back there when done res = GetCellIndexes(cell, &rowIndex, &colIndex); if(NS_FAILED(res)) return res; if (aRowIndex) *aRowIndex = rowIndex; if (aColIndex) *aColIndex = colIndex; } if (aCellParent) { nsCOMPtr cellParent; // Get the immediate parent of the cell res = cell->GetParentNode(getter_AddRefs(cellParent)); NS_ENSURE_SUCCESS(res, res); // Cell has to have a parent, so fail if not found NS_ENSURE_TRUE(cellParent, NS_ERROR_FAILURE); *aCellParent = cellParent.get(); NS_ADDREF(*aCellParent); if (aCellOffset) { *aCellOffset = GetChildOffset(cell, cellParent); } } return res; } nsresult nsHTMLEditor::GetCellFromRange(nsIDOMRange *aRange, nsIDOMElement **aCell) { // Note: this might return a node that is outside of the range. // Use carefully. NS_ENSURE_TRUE(aRange && aCell, NS_ERROR_NULL_POINTER); *aCell = nullptr; nsCOMPtr startParent; nsresult res = aRange->GetStartContainer(getter_AddRefs(startParent)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(startParent, NS_ERROR_FAILURE); int32_t startOffset; res = aRange->GetStartOffset(&startOffset); NS_ENSURE_SUCCESS(res, res); nsCOMPtr childNode = GetChildAt(startParent, startOffset); // This means selection is probably at a text node (or end of doc?) if (!childNode) { return NS_ERROR_FAILURE; } nsCOMPtr endParent; res = aRange->GetEndContainer(getter_AddRefs(endParent)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(startParent, NS_ERROR_FAILURE); int32_t endOffset; res = aRange->GetEndOffset(&endOffset); NS_ENSURE_SUCCESS(res, res); // If a cell is deleted, the range is collapse // (startOffset == endOffset) // so tell caller the cell wasn't found if (startParent == endParent && endOffset == startOffset+1 && nsHTMLEditUtils::IsTableCell(childNode)) { // Should we also test if frame is selected? (Use GetCellDataAt()) // (Let's not for now -- more efficient) nsCOMPtr cellElement = do_QueryInterface(childNode); *aCell = cellElement.get(); NS_ADDREF(*aCell); return NS_OK; } return NS_EDITOR_ELEMENT_NOT_FOUND; } NS_IMETHODIMP nsHTMLEditor::GetFirstSelectedCell(nsIDOMRange **aRange, nsIDOMElement **aCell) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); *aCell = nullptr; if (aRange) *aRange = nullptr; nsCOMPtr selection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); nsCOMPtr range; res = selection->GetRangeAt(0, getter_AddRefs(range)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(range, NS_ERROR_FAILURE); mSelectedCellIndex = 0; res = GetCellFromRange(range, aCell); // Failure here probably means selection is in a text node, // so there's no selected cell if (NS_FAILED(res)) { return NS_EDITOR_ELEMENT_NOT_FOUND; } // No cell means range was collapsed (cell was deleted) if (!*aCell) { return NS_EDITOR_ELEMENT_NOT_FOUND; } if (aRange) { *aRange = range.get(); NS_ADDREF(*aRange); } // Setup for next cell mSelectedCellIndex = 1; return res; } NS_IMETHODIMP nsHTMLEditor::GetNextSelectedCell(nsIDOMRange **aRange, nsIDOMElement **aCell) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); *aCell = nullptr; if (aRange) *aRange = nullptr; nsCOMPtr selection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); int32_t rangeCount; res = selection->GetRangeCount(&rangeCount); NS_ENSURE_SUCCESS(res, res); // Don't even try if index exceeds range count if (mSelectedCellIndex >= rangeCount) return NS_EDITOR_ELEMENT_NOT_FOUND; // Scan through ranges to find next valid selected cell nsCOMPtr range; for (; mSelectedCellIndex < rangeCount; mSelectedCellIndex++) { res = selection->GetRangeAt(mSelectedCellIndex, getter_AddRefs(range)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(range, NS_ERROR_FAILURE); res = GetCellFromRange(range, aCell); // Failure here means the range doesn't contain a cell NS_ENSURE_SUCCESS(res, NS_EDITOR_ELEMENT_NOT_FOUND); // We found a selected cell if (*aCell) break; #ifdef DEBUG_cmanske else printf("GetNextSelectedCell: Collapsed range found\n"); #endif // If we didn't find a cell, continue to next range in selection } // No cell means all remaining ranges were collapsed (cells were deleted) NS_ENSURE_TRUE(*aCell, NS_EDITOR_ELEMENT_NOT_FOUND); if (aRange) { *aRange = range.get(); NS_ADDREF(*aRange); } // Setup for next cell mSelectedCellIndex++; return res; } NS_IMETHODIMP nsHTMLEditor::GetFirstSelectedCellInTable(int32_t *aRowIndex, int32_t *aColIndex, nsIDOMElement **aCell) { NS_ENSURE_TRUE(aCell, NS_ERROR_NULL_POINTER); *aCell = nullptr; if (aRowIndex) *aRowIndex = 0; if (aColIndex) *aColIndex = 0; nsCOMPtr cell; nsresult res = GetFirstSelectedCell(nullptr, getter_AddRefs(cell)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(cell, NS_EDITOR_ELEMENT_NOT_FOUND); *aCell = cell.get(); NS_ADDREF(*aCell); // Also return the row and/or column if requested if (aRowIndex || aColIndex) { int32_t startRowIndex, startColIndex; res = GetCellIndexes(cell, &startRowIndex, &startColIndex); if(NS_FAILED(res)) return res; if (aRowIndex) *aRowIndex = startRowIndex; if (aColIndex) *aColIndex = startColIndex; } return res; } NS_IMETHODIMP nsHTMLEditor::SetSelectionAfterTableEdit(nsIDOMElement* aTable, int32_t aRow, int32_t aCol, int32_t aDirection, bool aSelected) { NS_ENSURE_TRUE(aTable, NS_ERROR_NOT_INITIALIZED); nsCOMPtrselection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); if (!selection) { #ifdef DEBUG_cmanske printf("Selection not found after table manipulation!\n"); #endif return NS_ERROR_FAILURE; } nsCOMPtr cell; bool done = false; do { res = GetCellAt(aTable, aRow, aCol, getter_AddRefs(cell)); if (NS_SUCCEEDED(res)) { if (cell) { if (aSelected) { // Reselect the cell return SelectElement(cell); } else { // Set the caret to deepest first child // but don't go into nested tables // TODO: Should we really be placing the caret at the END // of the cell content? return CollapseSelectionToDeepestNonTableFirstChild(selection, cell); } } else { // Setup index to find another cell in the // direction requested, but move in // other direction if already at beginning of row or column switch (aDirection) { case ePreviousColumn: if (aCol == 0) { if (aRow > 0) aRow--; else done = true; } else aCol--; break; case ePreviousRow: if (aRow == 0) { if (aCol > 0) aCol--; else done = true; } else aRow--; break; default: done = true; } } } else break; } while (!done); // We didn't find a cell // Set selection to just before the table nsCOMPtr tableParent; res = aTable->GetParentNode(getter_AddRefs(tableParent)); if(NS_SUCCEEDED(res) && tableParent) { int32_t tableOffset = GetChildOffset(aTable, tableParent); return selection->Collapse(tableParent, tableOffset); } // Last resort: Set selection to start of doc // (it's very bad to not have a valid selection!) return SetSelectionAtDocumentStart(selection); } NS_IMETHODIMP nsHTMLEditor::GetSelectedOrParentTableElement(nsAString& aTagName, int32_t *aSelectedCount, nsIDOMElement** aTableElement) { NS_ENSURE_ARG_POINTER(aTableElement); NS_ENSURE_ARG_POINTER(aSelectedCount); *aTableElement = nullptr; aTagName.Truncate(); *aSelectedCount = 0; nsCOMPtr selection; nsresult res = GetSelection(getter_AddRefs(selection)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(selection, NS_ERROR_FAILURE); // Try to get the first selected cell nsCOMPtr tableOrCellElement; res = GetFirstSelectedCell(nullptr, getter_AddRefs(tableOrCellElement)); NS_ENSURE_SUCCESS(res, res); NS_NAMED_LITERAL_STRING(tdName, "td"); if (tableOrCellElement) { // Each cell is in its own selection range, // so count signals multiple-cell selection res = selection->GetRangeCount(aSelectedCount); NS_ENSURE_SUCCESS(res, res); aTagName = tdName; } else { nsCOMPtr anchorNode; res = selection->GetAnchorNode(getter_AddRefs(anchorNode)); if(NS_FAILED(res)) return res; NS_ENSURE_TRUE(anchorNode, NS_ERROR_FAILURE); nsCOMPtr selectedNode; // Get child of anchor node, if exists bool hasChildren; anchorNode->HasChildNodes(&hasChildren); if (hasChildren) { int32_t anchorOffset; res = selection->GetAnchorOffset(&anchorOffset); NS_ENSURE_SUCCESS(res, res); selectedNode = GetChildAt(anchorNode, anchorOffset); if (!selectedNode) { selectedNode = anchorNode; // If anchor doesn't have a child, we can't be selecting a table element, // so don't do the following: } else { nsCOMPtr atom = nsEditor::GetTag(selectedNode); if (atom == nsEditProperty::td) { tableOrCellElement = do_QueryInterface(selectedNode); aTagName = tdName; // Each cell is in its own selection range, // so count signals multiple-cell selection res = selection->GetRangeCount(aSelectedCount); NS_ENSURE_SUCCESS(res, res); } else if (atom == nsEditProperty::table) { tableOrCellElement = do_QueryInterface(selectedNode); aTagName.AssignLiteral("table"); *aSelectedCount = 1; } else if (atom == nsEditProperty::tr) { tableOrCellElement = do_QueryInterface(selectedNode); aTagName.AssignLiteral("tr"); *aSelectedCount = 1; } } } if (!tableOrCellElement) { // Didn't find a table element -- find a cell parent res = GetElementOrParentByTagName(tdName, anchorNode, getter_AddRefs(tableOrCellElement)); if(NS_FAILED(res)) return res; if (tableOrCellElement) aTagName = tdName; } } if (tableOrCellElement) { *aTableElement = tableOrCellElement.get(); NS_ADDREF(*aTableElement); } return res; } NS_IMETHODIMP nsHTMLEditor::GetSelectedCellsType(nsIDOMElement *aElement, uint32_t *aSelectionType) { NS_ENSURE_ARG_POINTER(aSelectionType); *aSelectionType = 0; // Be sure we have a table element // (if aElement is null, this uses selection's anchor node) nsCOMPtr table; nsresult res = GetElementOrParentByTagName(NS_LITERAL_STRING("table"), aElement, getter_AddRefs(table)); NS_ENSURE_SUCCESS(res, res); int32_t rowCount, colCount; res = GetTableSize(table, &rowCount, &colCount); NS_ENSURE_SUCCESS(res, res); // Traverse all selected cells nsCOMPtr selectedCell; res = GetFirstSelectedCell(nullptr, getter_AddRefs(selectedCell)); NS_ENSURE_SUCCESS(res, res); if (res == NS_EDITOR_ELEMENT_NOT_FOUND) return NS_OK; // We have at least one selected cell, so set return value *aSelectionType = nsISelectionPrivate::TABLESELECTION_CELL; // Store indexes of each row/col to avoid duplication of searches nsTArray indexArray; bool allCellsInRowAreSelected = false; bool allCellsInColAreSelected = false; while (NS_SUCCEEDED(res) && selectedCell) { // Get the cell's location in the cellmap int32_t startRowIndex, startColIndex; res = GetCellIndexes(selectedCell, &startRowIndex, &startColIndex); if(NS_FAILED(res)) return res; if (!indexArray.Contains(startColIndex)) { indexArray.AppendElement(startColIndex); allCellsInRowAreSelected = AllCellsInRowSelected(table, startRowIndex, colCount); // We're done as soon as we fail for any row if (!allCellsInRowAreSelected) break; } res = GetNextSelectedCell(nullptr, getter_AddRefs(selectedCell)); } if (allCellsInRowAreSelected) { *aSelectionType = nsISelectionPrivate::TABLESELECTION_ROW; return NS_OK; } // Test for columns // Empty the indexArray indexArray.Clear(); // Start at first cell again res = GetFirstSelectedCell(nullptr, getter_AddRefs(selectedCell)); while (NS_SUCCEEDED(res) && selectedCell) { // Get the cell's location in the cellmap int32_t startRowIndex, startColIndex; res = GetCellIndexes(selectedCell, &startRowIndex, &startColIndex); if(NS_FAILED(res)) return res; if (!indexArray.Contains(startRowIndex)) { indexArray.AppendElement(startColIndex); allCellsInColAreSelected = AllCellsInColumnSelected(table, startColIndex, rowCount); // We're done as soon as we fail for any column if (!allCellsInRowAreSelected) break; } res = GetNextSelectedCell(nullptr, getter_AddRefs(selectedCell)); } if (allCellsInColAreSelected) *aSelectionType = nsISelectionPrivate::TABLESELECTION_COLUMN; return NS_OK; } bool nsHTMLEditor::AllCellsInRowSelected(nsIDOMElement *aTable, int32_t aRowIndex, int32_t aNumberOfColumns) { NS_ENSURE_TRUE(aTable, false); int32_t curStartRowIndex, curStartColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; for( int32_t col = 0; col < aNumberOfColumns; col += std::max(actualColSpan, 1)) { nsCOMPtr cell; nsresult res = GetCellDataAt(aTable, aRowIndex, col, getter_AddRefs(cell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, false); // If no cell, we may have a "ragged" right edge, // so return TRUE only if we already found a cell in the row NS_ENSURE_TRUE(cell, (col > 0) ? true : false); // Return as soon as a non-selected cell is found NS_ENSURE_TRUE(isSelected, false); NS_ASSERTION((actualColSpan > 0),"ActualColSpan = 0 in AllCellsInRowSelected"); } return true; } bool nsHTMLEditor::AllCellsInColumnSelected(nsIDOMElement *aTable, int32_t aColIndex, int32_t aNumberOfRows) { NS_ENSURE_TRUE(aTable, false); int32_t curStartRowIndex, curStartColIndex, rowSpan, colSpan, actualRowSpan, actualColSpan; bool isSelected; for( int32_t row = 0; row < aNumberOfRows; row += std::max(actualRowSpan, 1)) { nsCOMPtr cell; nsresult res = GetCellDataAt(aTable, row, aColIndex, getter_AddRefs(cell), &curStartRowIndex, &curStartColIndex, &rowSpan, &colSpan, &actualRowSpan, &actualColSpan, &isSelected); NS_ENSURE_SUCCESS(res, false); // If no cell, we must have a "ragged" right edge on the last column // so return TRUE only if we already found a cell in the row NS_ENSURE_TRUE(cell, (row > 0) ? true : false); // Return as soon as a non-selected cell is found NS_ENSURE_TRUE(isSelected, false); } return true; } bool nsHTMLEditor::IsEmptyCell(dom::Element* aCell) { MOZ_ASSERT(aCell); // Check if target only contains empty text node or
nsCOMPtr cellChild = aCell->GetFirstChild(); if (!cellChild) { return false; } nsCOMPtr nextChild = cellChild->GetNextSibling(); if (nextChild) { return false; } // We insert a single break into a cell by default // to have some place to locate a cursor -- it is dispensable if (cellChild->IsElement() && cellChild->AsElement()->IsHTML(nsGkAtoms::br)) { return true; } bool isEmpty; // Or check if no real content nsresult rv = IsEmptyNode(cellChild, &isEmpty, false, false); NS_ENSURE_SUCCESS(rv, false); return isEmpty; }