/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/ ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qtexttable.h" #include "qtextcursor.h" #include "qtextformat.h" #include #include "qtexttable_p.h" #include "qvarlengtharray.h" #include "private/qfunctions_p.h" #include QT_BEGIN_NAMESPACE /*! \class QTextTableCell \reentrant \brief The QTextTableCell class represents the properties of a cell in a QTextTable. \inmodule QtGui \ingroup richtext-processing Table cells are pieces of document structure that belong to a table. The table orders cells into particular rows and columns; cells can also span multiple columns and rows. Cells are usually created when a table is inserted into a document with QTextCursor::insertTable(), but they are also created and destroyed when a table is resized. Cells contain information about their location in a table; you can obtain the row() and column() numbers of a cell, and its rowSpan() and columnSpan(). The format() of a cell describes the default character format of its contents. The firstCursorPosition() and lastCursorPosition() functions are used to obtain the extent of the cell in the document. \sa QTextTable, QTextTableFormat */ /*! \fn QTextTableCell::QTextTableCell() Constructs an invalid table cell. \sa isValid() */ /*! \fn QTextTableCell::QTextTableCell(const QTextTableCell &other) Copy constructor. Creates a new QTextTableCell object based on the \a other cell. */ /*! \fn QTextTableCell& QTextTableCell::operator=(const QTextTableCell &other) Assigns the \a other table cell to this table cell. */ /*! \since 4.2 Sets the cell's character format to \a format. This can for example be used to change the background color of the entire cell: QTextTableCell cell = table->cellAt(2, 3); QTextCharFormat format = cell.format(); format.setBackground(Qt::blue); cell.setFormat(format); Note that the cell's row or column span cannot be changed through this function. You have to use QTextTable::mergeCells and QTextTable::splitCell instead. \sa format() */ void QTextTableCell::setFormat(const QTextCharFormat &format) { QTextCharFormat fmt = format; fmt.clearProperty(QTextFormat::ObjectIndex); fmt.setObjectType(QTextFormat::TableCellObject); QTextDocumentPrivate *p = table->docHandle(); QTextDocumentPrivate::FragmentIterator frag(&p->fragmentMap(), fragment); QTextFormatCollection *c = p->formatCollection(); QTextCharFormat oldFormat = c->charFormat(frag->format); fmt.setTableCellRowSpan(oldFormat.tableCellRowSpan()); fmt.setTableCellColumnSpan(oldFormat.tableCellColumnSpan()); p->setCharFormat(frag.position(), 1, fmt, QTextDocumentPrivate::SetFormatAndPreserveObjectIndices); } /*! Returns the cell's character format. */ QTextCharFormat QTextTableCell::format() const { QTextDocumentPrivate *p = table->docHandle(); QTextFormatCollection *c = p->formatCollection(); QTextCharFormat fmt = c->charFormat(tableCellFormatIndex()); fmt.setObjectType(QTextFormat::TableCellObject); return fmt; } /*! \since 4.5 Returns the index of the tableCell's format in the document's internal list of formats. \sa QTextDocument::allFormats() */ int QTextTableCell::tableCellFormatIndex() const { QTextDocumentPrivate *p = table->docHandle(); return QTextDocumentPrivate::FragmentIterator(&p->fragmentMap(), fragment)->format; } /*! Returns the number of the row in the table that contains this cell. \sa column() */ int QTextTableCell::row() const { const QTextTablePrivate *tp = table->d_func(); if (tp->dirty) tp->update(); int idx = tp->findCellIndex(fragment); if (idx == -1) return idx; return tp->cellIndices.at(idx) / tp->nCols; } /*! Returns the number of the column in the table that contains this cell. \sa row() */ int QTextTableCell::column() const { const QTextTablePrivate *tp = table->d_func(); if (tp->dirty) tp->update(); int idx = tp->findCellIndex(fragment); if (idx == -1) return idx; return tp->cellIndices.at(idx) % tp->nCols; } /*! Returns the number of rows this cell spans. The default is 1. \sa columnSpan() */ int QTextTableCell::rowSpan() const { return format().tableCellRowSpan(); } /*! Returns the number of columns this cell spans. The default is 1. \sa rowSpan() */ int QTextTableCell::columnSpan() const { return format().tableCellColumnSpan(); } /*! \fn bool QTextTableCell::isValid() const Returns true if this is a valid table cell; otherwise returns false. */ /*! Returns the first valid cursor position in this cell. \sa lastCursorPosition() */ QTextCursor QTextTableCell::firstCursorPosition() const { return QTextCursor(table->d_func()->pieceTable, firstPosition()); } /*! Returns the last valid cursor position in this cell. \sa firstCursorPosition() */ QTextCursor QTextTableCell::lastCursorPosition() const { return QTextCursor(table->d_func()->pieceTable, lastPosition()); } /*! \internal Returns the first valid position in the document occupied by this cell. */ int QTextTableCell::firstPosition() const { QTextDocumentPrivate *p = table->docHandle(); return p->fragmentMap().position(fragment) + 1; } /*! \internal Returns the last valid position in the document occupied by this cell. */ int QTextTableCell::lastPosition() const { QTextDocumentPrivate *p = table->docHandle(); const QTextTablePrivate *td = table->d_func(); int index = table->d_func()->findCellIndex(fragment); int f; if (index != -1) f = td->cells.value(index + 1, td->fragment_end); else f = td->fragment_end; return p->fragmentMap().position(f); } /*! Returns a frame iterator pointing to the beginning of the table's cell. \sa end() */ QTextFrame::iterator QTextTableCell::begin() const { QTextDocumentPrivate *p = table->docHandle(); int b = p->blockMap().findNode(firstPosition()); int e = p->blockMap().findNode(lastPosition()+1); return QTextFrame::iterator(const_cast(table), b, b, e); } /*! Returns a frame iterator pointing to the end of the table's cell. \sa begin() */ QTextFrame::iterator QTextTableCell::end() const { QTextDocumentPrivate *p = table->docHandle(); int b = p->blockMap().findNode(firstPosition()); int e = p->blockMap().findNode(lastPosition()+1); return QTextFrame::iterator(const_cast(table), e, b, e); } /*! \fn QTextCursor QTextTableCell::operator==(const QTextTableCell &other) const Returns true if this cell object and the \a other cell object describe the same cell; otherwise returns false. */ /*! \fn QTextCursor QTextTableCell::operator!=(const QTextTableCell &other) const Returns true if this cell object and the \a other cell object describe different cells; otherwise returns false. */ /*! \fn QTextTableCell::~QTextTableCell() Destroys the table cell. */ QTextTablePrivate::~QTextTablePrivate() { if (grid) free(grid); } QTextTable *QTextTablePrivate::createTable(QTextDocumentPrivate *pieceTable, int pos, int rows, int cols, const QTextTableFormat &tableFormat) { QTextTableFormat fmt = tableFormat; fmt.setColumns(cols); QTextTable *table = qobject_cast(pieceTable->createObject(fmt)); Q_ASSERT(table); pieceTable->beginEditBlock(); // qDebug("---> createTable: rows=%d, cols=%d at %d", rows, cols, pos); // add block after table QTextCharFormat charFmt; charFmt.setObjectIndex(table->objectIndex()); charFmt.setObjectType(QTextFormat::TableCellObject); int charIdx = pieceTable->formatCollection()->indexForFormat(charFmt); int cellIdx = pieceTable->formatCollection()->indexForFormat(QTextBlockFormat()); QTextTablePrivate *d = table->d_func(); d->blockFragmentUpdates = true; d->fragment_start = pieceTable->insertBlock(QTextBeginningOfFrame, pos, cellIdx, charIdx); d->cells.append(d->fragment_start); ++pos; for (int i = 1; i < rows*cols; ++i) { d->cells.append(pieceTable->insertBlock(QTextBeginningOfFrame, pos, cellIdx, charIdx)); // qDebug(" addCell at %d", pos); ++pos; } d->fragment_end = pieceTable->insertBlock(QTextEndOfFrame, pos, cellIdx, charIdx); // qDebug(" addEOR at %d", pos); ++pos; d->blockFragmentUpdates = false; d->dirty = true; pieceTable->endEditBlock(); return table; } struct QFragmentFindHelper { inline QFragmentFindHelper(int _pos, const QTextDocumentPrivate::FragmentMap &map) : pos(_pos), fragmentMap(map) {} uint pos; const QTextDocumentPrivate::FragmentMap &fragmentMap; }; Q_STATIC_GLOBAL_INLINE_OPERATOR bool operator<(int fragment, const QFragmentFindHelper &helper) { return helper.fragmentMap.position(fragment) < helper.pos; } Q_STATIC_GLOBAL_INLINE_OPERATOR bool operator<(const QFragmentFindHelper &helper, int fragment) { return helper.pos < helper.fragmentMap.position(fragment); } int QTextTablePrivate::findCellIndex(int fragment) const { QFragmentFindHelper helper(pieceTable->fragmentMap().position(fragment), pieceTable->fragmentMap()); QList::ConstIterator it = qBinaryFind(cells.begin(), cells.end(), helper); if (it == cells.end()) return -1; return it - cells.begin(); } void QTextTablePrivate::fragmentAdded(QChar type, uint fragment) { dirty = true; if (blockFragmentUpdates) return; if (type == QTextBeginningOfFrame) { Q_ASSERT(cells.indexOf(fragment) == -1); const uint pos = pieceTable->fragmentMap().position(fragment); QFragmentFindHelper helper(pos, pieceTable->fragmentMap()); QList::Iterator it = qLowerBound(cells.begin(), cells.end(), helper); cells.insert(it, fragment); if (!fragment_start || pos < pieceTable->fragmentMap().position(fragment_start)) fragment_start = fragment; return; } QTextFramePrivate::fragmentAdded(type, fragment); } void QTextTablePrivate::fragmentRemoved(QChar type, uint fragment) { dirty = true; if (blockFragmentUpdates) return; if (type == QTextBeginningOfFrame) { Q_ASSERT(cells.indexOf(fragment) != -1); cells.removeAll(fragment); if (fragment_start == fragment && cells.size()) { fragment_start = cells.at(0); } if (fragment_start != fragment) return; } QTextFramePrivate::fragmentRemoved(type, fragment); } /*! /fn void QTextTablePrivate::update() const This function is usually called when the table is "dirty". It seems to update all kind of table information. */ void QTextTablePrivate::update() const { Q_Q(const QTextTable); nCols = q->format().columns(); nRows = (cells.size() + nCols-1)/nCols; // qDebug(">>>> QTextTablePrivate::update, nRows=%d, nCols=%d", nRows, nCols); grid = q_check_ptr((int *)realloc(grid, nRows*nCols*sizeof(int))); memset(grid, 0, nRows*nCols*sizeof(int)); QTextDocumentPrivate *p = pieceTable; QTextFormatCollection *c = p->formatCollection(); cellIndices.resize(cells.size()); int cell = 0; for (int i = 0; i < cells.size(); ++i) { int fragment = cells.at(i); QTextCharFormat fmt = c->charFormat(QTextDocumentPrivate::FragmentIterator(&p->fragmentMap(), fragment)->format); int rowspan = fmt.tableCellRowSpan(); int colspan = fmt.tableCellColumnSpan(); // skip taken cells while (cell < nRows*nCols && grid[cell]) ++cell; int r = cell/nCols; int c = cell%nCols; cellIndices[i] = cell; if (r + rowspan > nRows) { grid = q_check_ptr((int *)realloc(grid, sizeof(int)*(r + rowspan)*nCols)); memset(grid + (nRows*nCols), 0, sizeof(int)*(r+rowspan-nRows)*nCols); nRows = r + rowspan; } Q_ASSERT(c + colspan <= nCols); for (int ii = 0; ii < rowspan; ++ii) { for (int jj = 0; jj < colspan; ++jj) { Q_ASSERT(grid[(r+ii)*nCols + c+jj] == 0); grid[(r+ii)*nCols + c+jj] = fragment; // qDebug(" setting cell %d span=%d/%d at %d/%d", fragment, rowspan, colspan, r+ii, c+jj); } } } // qDebug("<<<< end: nRows=%d, nCols=%d", nRows, nCols); dirty = false; } /*! \class QTextTable \reentrant \brief The QTextTable class represents a table in a QTextDocument. \inmodule QtGui \ingroup richtext-processing A table is a group of cells ordered into rows and columns. Each table contains at least one row and one column. Each cell contains a block, and is surrounded by a frame. Tables are usually created and inserted into a document with the QTextCursor::insertTable() function. For example, we can insert a table with three rows and two columns at the current cursor position in an editor using the following lines of code: \snippet textdocument-tables/mainwindow.cpp 1 \codeline \snippet textdocument-tables/mainwindow.cpp 3 The table format is either defined when the table is created or changed later with setFormat(). The table currently being edited by the cursor is found with QTextCursor::currentTable(). This allows its format or dimensions to be changed after it has been inserted into a document. A table's size can be changed with resize(), or by using insertRows(), insertColumns(), removeRows(), or removeColumns(). Use cellAt() to retrieve table cells. The starting and ending positions of table rows can be found by moving a cursor within a table, and using the rowStart() and rowEnd() functions to obtain cursors at the start and end of each row. Rows and columns within a QTextTable can be merged and split using the mergeCells() and splitCell() functions. However, only cells that span multiple rows or columns can be split. (Merging or splitting does not increase or decrease the number of rows and columns.) Note that if you have merged multiple columns and rows into one cell, you will not be able to split the merged cell into new cells spanning over more than one row or column. To be able to split cells spanning over several rows and columns you need to do this over several iterations. \table 80% \row \li \inlineimage texttable-split.png Original Table \li Suppose we have a 2x3 table of names and addresses. To merge both columns in the first row we invoke mergeCells() with \a row = 0, \a column = 0, \a numRows = 1 and \a numColumns = 2. \snippet textdocument-texttable/main.cpp 0 \row \li \inlineimage texttable-merge.png \li This gives us the following table. To split the first row of the table back into two cells, we invoke the splitCell() function with \a numRows and \a numCols = 1. \snippet textdocument-texttable/main.cpp 1 \row \li \inlineimage texttable-split.png Split Table \li This results in the original table. \endtable \sa QTextTableFormat */ /*! \internal */ QTextTable::QTextTable(QTextDocument *doc) : QTextFrame(*new QTextTablePrivate(doc), doc) { } /*! \internal Destroys the table. */ QTextTable::~QTextTable() { } /*! \fn QTextTableCell QTextTable::cellAt(int row, int column) const Returns the table cell at the given \a row and \a column in the table. \sa columns(), rows() */ QTextTableCell QTextTable::cellAt(int row, int col) const { Q_D(const QTextTable); if (d->dirty) d->update(); if (row < 0 || row >= d->nRows || col < 0 || col >= d->nCols) return QTextTableCell(); return QTextTableCell(this, d->grid[row*d->nCols + col]); } /*! \overload Returns the table cell that contains the character at the given \a position in the document. */ QTextTableCell QTextTable::cellAt(int position) const { Q_D(const QTextTable); if (d->dirty) d->update(); uint pos = (uint)position; const QTextDocumentPrivate::FragmentMap &map = d->pieceTable->fragmentMap(); if (position < 0 || map.position(d->fragment_start) >= pos || map.position(d->fragment_end) < pos) return QTextTableCell(); QFragmentFindHelper helper(position, map); QList::ConstIterator it = qLowerBound(d->cells.begin(), d->cells.end(), helper); if (it != d->cells.begin()) --it; return QTextTableCell(this, *it); } /*! \fn QTextTableCell QTextTable::cellAt(const QTextCursor &cursor) const \overload Returns the table cell containing the given \a cursor. */ QTextTableCell QTextTable::cellAt(const QTextCursor &c) const { return cellAt(c.position()); } /*! \fn void QTextTable::resize(int rows, int columns) Resizes the table to contain the required number of \a rows and \a columns. \sa insertRows(), insertColumns(), removeRows(), removeColumns() */ void QTextTable::resize(int rows, int cols) { Q_D(QTextTable); if (d->dirty) d->update(); int nRows = this->rows(); int nCols = this->columns(); if (rows == nRows && cols == nCols) return; d->pieceTable->beginEditBlock(); if (nCols < cols) insertColumns(nCols, cols - nCols); else if (nCols > cols) removeColumns(cols, nCols - cols); if (nRows < rows) insertRows(nRows, rows-nRows); else if (nRows > rows) removeRows(rows, nRows-rows); d->pieceTable->endEditBlock(); } /*! \fn void QTextTable::insertRows(int index, int rows) Inserts a number of \a rows before the row with the specified \a index. \sa resize(), insertColumns(), removeRows(), removeColumns(), appendRows(), appendColumns() */ void QTextTable::insertRows(int pos, int num) { Q_D(QTextTable); if (num <= 0) return; if (d->dirty) d->update(); if (pos > d->nRows || pos < 0) pos = d->nRows; // qDebug() << "-------- insertRows" << pos << num; QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *c = p->formatCollection(); p->beginEditBlock(); int extended = 0; int insert_before = 0; if (pos > 0 && pos < d->nRows) { for (int i = 0; i < d->nCols; ++i) { int cell = d->grid[pos*d->nCols + i]; if (cell == d->grid[(pos-1)*d->nCols+i]) { // cell spans the insertion place, extend it QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell); QTextCharFormat fmt = c->charFormat(it->format); fmt.setTableCellRowSpan(fmt.tableCellRowSpan() + num); p->setCharFormat(it.position(), 1, fmt); extended++; } else if (!insert_before) { insert_before = cell; } } } else { insert_before = (pos == 0 ? d->grid[0] : d->fragment_end); } if (extended < d->nCols) { Q_ASSERT(insert_before); QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), insert_before); QTextCharFormat fmt = c->charFormat(it->format); fmt.setTableCellRowSpan(1); fmt.setTableCellColumnSpan(1); Q_ASSERT(fmt.objectIndex() == objectIndex()); int pos = it.position(); int cfmt = p->formatCollection()->indexForFormat(fmt); int bfmt = p->formatCollection()->indexForFormat(QTextBlockFormat()); // qDebug("inserting %d cells, nCols=%d extended=%d", num*(d->nCols-extended), d->nCols, extended); for (int i = 0; i < num*(d->nCols-extended); ++i) p->insertBlock(QTextBeginningOfFrame, pos, bfmt, cfmt, QTextUndoCommand::MoveCursor); } // qDebug() << "-------- end insertRows" << pos << num; p->endEditBlock(); } /*! \fn void QTextTable::insertColumns(int index, int columns) Inserts a number of \a columns before the column with the specified \a index. \sa insertRows(), resize(), removeRows(), removeColumns(), appendRows(), appendColumns() */ void QTextTable::insertColumns(int pos, int num) { Q_D(QTextTable); if (num <= 0) return; if (d->dirty) d->update(); if (pos > d->nCols || pos < 0) pos = d->nCols; // qDebug() << "-------- insertCols" << pos << num; QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *c = p->formatCollection(); p->beginEditBlock(); QList extendedSpans; for (int i = 0; i < d->nRows; ++i) { int cell; if (i == d->nRows - 1 && pos == d->nCols) cell = d->fragment_end; else cell = d->grid[i*d->nCols + pos]; if (pos > 0 && pos < d->nCols && cell == d->grid[i*d->nCols + pos - 1]) { // cell spans the insertion place, extend it if (!extendedSpans.contains(cell)) { QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell); QTextCharFormat fmt = c->charFormat(it->format); fmt.setTableCellColumnSpan(fmt.tableCellColumnSpan() + num); p->setCharFormat(it.position(), 1, fmt); d->dirty = true; extendedSpans << cell; } } else { /* If the next cell is spanned from the row above, we need to find the right position to insert to */ if (i > 0 && pos < d->nCols && cell == d->grid[(i-1) * d->nCols + pos]) { int gridIndex = i*d->nCols + pos; const int gridEnd = d->nRows * d->nCols - 1; while (gridIndex < gridEnd && cell == d->grid[gridIndex]) { ++gridIndex; } if (gridIndex == gridEnd) cell = d->fragment_end; else cell = d->grid[gridIndex]; } QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell); QTextCharFormat fmt = c->charFormat(it->format); fmt.setTableCellRowSpan(1); fmt.setTableCellColumnSpan(1); Q_ASSERT(fmt.objectIndex() == objectIndex()); int position = it.position(); int cfmt = p->formatCollection()->indexForFormat(fmt); int bfmt = p->formatCollection()->indexForFormat(QTextBlockFormat()); for (int i = 0; i < num; ++i) p->insertBlock(QTextBeginningOfFrame, position, bfmt, cfmt, QTextUndoCommand::MoveCursor); } } QTextTableFormat tfmt = format(); tfmt.setColumns(tfmt.columns()+num); QVector columnWidths = tfmt.columnWidthConstraints(); if (! columnWidths.isEmpty()) { for (int i = num; i > 0; --i) columnWidths.insert(pos, columnWidths[qMax(0, pos-1)]); } tfmt.setColumnWidthConstraints (columnWidths); QTextObject::setFormat(tfmt); // qDebug() << "-------- end insertCols" << pos << num; p->endEditBlock(); } /*! \since 4.5 Appends \a count rows at the bottom of the table. \sa insertColumns(), insertRows(), resize(), removeRows(), removeColumns(), appendColumns() */ void QTextTable::appendRows(int count) { insertRows(rows(), count); } /*! \since 4.5 Appends \a count columns at the right side of the table. \sa insertColumns(), insertRows(), resize(), removeRows(), removeColumns(), appendRows() */ void QTextTable::appendColumns(int count) { insertColumns(columns(), count); } /*! \fn void QTextTable::removeRows(int index, int rows) Removes a number of \a rows starting with the row at the specified \a index. \sa insertRows(), insertColumns(), resize(), removeColumns(), appendRows(), appendColumns() */ void QTextTable::removeRows(int pos, int num) { Q_D(QTextTable); // qDebug() << "-------- removeRows" << pos << num; if (num <= 0 || pos < 0) return; if (d->dirty) d->update(); if (pos >= d->nRows) return; if (pos+num > d->nRows) num = d->nRows - pos; QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *collection = p->formatCollection(); p->beginEditBlock(); // delete whole table? if (pos == 0 && num == d->nRows) { const int pos = p->fragmentMap().position(d->fragment_start); p->remove(pos, p->fragmentMap().position(d->fragment_end) - pos + 1); p->endEditBlock(); return; } p->aboutToRemoveCell(cellAt(pos, 0).firstPosition(), cellAt(pos + num - 1, d->nCols - 1).lastPosition()); QList touchedCells; for (int r = pos; r < pos + num; ++r) { for (int c = 0; c < d->nCols; ++c) { int cell = d->grid[r*d->nCols + c]; if (touchedCells.contains(cell)) continue; touchedCells << cell; QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell); QTextCharFormat fmt = collection->charFormat(it->format); int span = fmt.tableCellRowSpan(); if (span > 1) { fmt.setTableCellRowSpan(span - 1); p->setCharFormat(it.position(), 1, fmt); } else { // remove cell int index = d->cells.indexOf(cell) + 1; int f_end = index < d->cells.size() ? d->cells.at(index) : d->fragment_end; p->remove(it.position(), p->fragmentMap().position(f_end) - it.position()); } } } p->endEditBlock(); // qDebug() << "-------- end removeRows" << pos << num; } /*! \fn void QTextTable::removeColumns(int index, int columns) Removes a number of \a columns starting with the column at the specified \a index. \sa insertRows(), insertColumns(), removeRows(), resize(), appendRows(), appendColumns() */ void QTextTable::removeColumns(int pos, int num) { Q_D(QTextTable); // qDebug() << "-------- removeCols" << pos << num; if (num <= 0 || pos < 0) return; if (d->dirty) d->update(); if (pos >= d->nCols) return; if (pos + num > d->nCols) pos = d->nCols - num; QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *collection = p->formatCollection(); p->beginEditBlock(); // delete whole table? if (pos == 0 && num == d->nCols) { const int pos = p->fragmentMap().position(d->fragment_start); p->remove(pos, p->fragmentMap().position(d->fragment_end) - pos + 1); p->endEditBlock(); return; } p->aboutToRemoveCell(cellAt(0, pos).firstPosition(), cellAt(d->nRows - 1, pos + num - 1).lastPosition()); QList touchedCells; for (int r = 0; r < d->nRows; ++r) { for (int c = pos; c < pos + num; ++c) { int cell = d->grid[r*d->nCols + c]; QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), cell); QTextCharFormat fmt = collection->charFormat(it->format); int span = fmt.tableCellColumnSpan(); if (touchedCells.contains(cell) && span <= 1) continue; touchedCells << cell; if (span > 1) { fmt.setTableCellColumnSpan(span - 1); p->setCharFormat(it.position(), 1, fmt); } else { // remove cell int index = d->cells.indexOf(cell) + 1; int f_end = index < d->cells.size() ? d->cells.at(index) : d->fragment_end; p->remove(it.position(), p->fragmentMap().position(f_end) - it.position()); } } } QTextTableFormat tfmt = format(); tfmt.setColumns(tfmt.columns()-num); QVector columnWidths = tfmt.columnWidthConstraints(); if (columnWidths.count() > pos) { columnWidths.remove(pos, num); tfmt.setColumnWidthConstraints (columnWidths); } QTextObject::setFormat(tfmt); p->endEditBlock(); // qDebug() << "-------- end removeCols" << pos << num; } /*! \since 4.1 Merges the cell at the specified \a row and \a column with the adjacent cells into one cell. The new cell will span \a numRows rows and \a numCols columns. If \a numRows or \a numCols is less than the current number of rows or columns the cell spans then this method does nothing. \sa splitCell() */ void QTextTable::mergeCells(int row, int column, int numRows, int numCols) { Q_D(QTextTable); if (d->dirty) d->update(); QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *fc = p->formatCollection(); const QTextTableCell cell = cellAt(row, column); if (!cell.isValid() || row != cell.row() || column != cell.column()) return; QTextCharFormat fmt = cell.format(); const int rowSpan = fmt.tableCellRowSpan(); const int colSpan = fmt.tableCellColumnSpan(); numRows = qMin(numRows, rows() - cell.row()); numCols = qMin(numCols, columns() - cell.column()); // nothing to merge? if (numRows < rowSpan || numCols < colSpan) return; // check the edges of the merge rect to make sure no cell spans the edge for (int r = row; r < row + numRows; ++r) { if (cellAt(r, column) == cellAt(r, column - 1)) return; if (cellAt(r, column + numCols) == cellAt(r, column + numCols - 1)) return; } for (int c = column; c < column + numCols; ++c) { if (cellAt(row, c) == cellAt(row - 1, c)) return; if (cellAt(row + numRows, c) == cellAt(row + numRows - 1, c)) return; } p->beginEditBlock(); const int origCellPosition = cell.firstPosition() - 1; const int cellFragment = d->grid[row * d->nCols + column]; // find the position at which to insert the contents of the merged cells QFragmentFindHelper helper(origCellPosition, p->fragmentMap()); QList::Iterator it = qBinaryFind(d->cells.begin(), d->cells.end(), helper); Q_ASSERT(it != d->cells.end()); Q_ASSERT(*it == cellFragment); const int insertCellIndex = it - d->cells.begin(); int insertFragment = d->cells.value(insertCellIndex + 1, d->fragment_end); uint insertPos = p->fragmentMap().position(insertFragment); d->blockFragmentUpdates = true; bool rowHasText = cell.firstCursorPosition().block().length(); bool needsParagraph = rowHasText && colSpan == numCols; // find all cells that will be erased by the merge for (int r = row; r < row + numRows; ++r) { int firstColumn = r < row + rowSpan ? column + colSpan : column; // don't recompute the cell index for the first row int firstCellIndex = r == row ? insertCellIndex + 1 : -1; int cellIndex = firstCellIndex; for (int c = firstColumn; c < column + numCols; ++c) { const int fragment = d->grid[r * d->nCols + c]; // already handled? if (fragment == cellFragment) continue; QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), fragment); uint pos = it.position(); if (firstCellIndex == -1) { QFragmentFindHelper helper(pos, p->fragmentMap()); QList::Iterator it = qBinaryFind(d->cells.begin(), d->cells.end(), helper); Q_ASSERT(it != d->cells.end()); Q_ASSERT(*it == fragment); firstCellIndex = cellIndex = it - d->cells.begin(); } ++cellIndex; QTextCharFormat fmt = fc->charFormat(it->format); const int cellRowSpan = fmt.tableCellRowSpan(); const int cellColSpan = fmt.tableCellColumnSpan(); // update the grid for this cell for (int i = r; i < r + cellRowSpan; ++i) for (int j = c; j < c + cellColSpan; ++j) d->grid[i * d->nCols + j] = cellFragment; // erase the cell marker p->remove(pos, 1); const int nextFragment = d->cells.value(cellIndex, d->fragment_end); const uint nextPos = p->fragmentMap().position(nextFragment); Q_ASSERT(nextPos >= pos); // merge the contents of the cell (if not empty) if (nextPos > pos) { if (needsParagraph) { needsParagraph = false; QTextCursor(p, insertPos++).insertBlock(); p->move(pos + 1, insertPos, nextPos - pos); } else if (rowHasText) { QTextCursor(p, insertPos++).insertText(QLatin1String(" ")); p->move(pos + 1, insertPos, nextPos - pos); } else { p->move(pos, insertPos, nextPos - pos); } insertPos += nextPos - pos; rowHasText = true; } } if (rowHasText) { needsParagraph = true; rowHasText = false; } // erase cells from last row if (firstCellIndex >= 0) { d->cellIndices.remove(firstCellIndex, cellIndex - firstCellIndex); d->cells.erase(d->cells.begin() + firstCellIndex, d->cells.begin() + cellIndex); } } d->fragment_start = d->cells.first(); fmt.setTableCellRowSpan(numRows); fmt.setTableCellColumnSpan(numCols); p->setCharFormat(origCellPosition, 1, fmt); d->blockFragmentUpdates = false; d->dirty = false; p->endEditBlock(); } /*! \overload \since 4.1 Merges the cells selected by the provided \a cursor. \sa splitCell() */ void QTextTable::mergeCells(const QTextCursor &cursor) { if (!cursor.hasComplexSelection()) return; int firstRow, numRows, firstColumn, numColumns; cursor.selectedTableCells(&firstRow, &numRows, &firstColumn, &numColumns); mergeCells(firstRow, firstColumn, numRows, numColumns); } /*! \since 4.1 Splits the specified cell at \a row and \a column into an array of multiple cells with dimensions specified by \a numRows and \a numCols. \note It is only possible to split cells that span multiple rows or columns, such as rows that have been merged using mergeCells(). \sa mergeCells() */ void QTextTable::splitCell(int row, int column, int numRows, int numCols) { Q_D(QTextTable); if (d->dirty) d->update(); QTextDocumentPrivate *p = d->pieceTable; QTextFormatCollection *c = p->formatCollection(); const QTextTableCell cell = cellAt(row, column); if (!cell.isValid()) return; row = cell.row(); column = cell.column(); QTextCharFormat fmt = cell.format(); const int rowSpan = fmt.tableCellRowSpan(); const int colSpan = fmt.tableCellColumnSpan(); // nothing to split? if (numRows > rowSpan || numCols > colSpan) return; p->beginEditBlock(); const int origCellPosition = cell.firstPosition() - 1; QVarLengthArray rowPositions(rowSpan); rowPositions[0] = cell.lastPosition(); for (int r = row + 1; r < row + rowSpan; ++r) { // find the cell before which to insert the new cell markers int gridIndex = r * d->nCols + column; QVector::iterator it = qUpperBound(d->cellIndices.begin(), d->cellIndices.end(), gridIndex); int cellIndex = it - d->cellIndices.begin(); int fragment = d->cells.value(cellIndex, d->fragment_end); rowPositions[r - row] = p->fragmentMap().position(fragment); } fmt.setTableCellColumnSpan(1); fmt.setTableCellRowSpan(1); const int fmtIndex = c->indexForFormat(fmt); const int blockIndex = p->blockMap().find(cell.lastPosition())->format; int insertAdjustement = 0; for (int i = 0; i < numRows; ++i) { for (int c = 0; c < colSpan - numCols; ++c) p->insertBlock(QTextBeginningOfFrame, rowPositions[i] + insertAdjustement + c, blockIndex, fmtIndex); insertAdjustement += colSpan - numCols; } for (int i = numRows; i < rowSpan; ++i) { for (int c = 0; c < colSpan; ++c) p->insertBlock(QTextBeginningOfFrame, rowPositions[i] + insertAdjustement + c, blockIndex, fmtIndex); insertAdjustement += colSpan; } fmt.setTableCellRowSpan(numRows); fmt.setTableCellColumnSpan(numCols); p->setCharFormat(origCellPosition, 1, fmt); p->endEditBlock(); } /*! Returns the number of rows in the table. \sa columns() */ int QTextTable::rows() const { Q_D(const QTextTable); if (d->dirty) d->update(); return d->nRows; } /*! Returns the number of columns in the table. \sa rows() */ int QTextTable::columns() const { Q_D(const QTextTable); if (d->dirty) d->update(); return d->nCols; } #if 0 void QTextTable::mergeCells(const QTextCursor &selection) { } #endif /*! \fn QTextCursor QTextTable::rowStart(const QTextCursor &cursor) const Returns a cursor pointing to the start of the row that contains the given \a cursor. \sa rowEnd() */ QTextCursor QTextTable::rowStart(const QTextCursor &c) const { Q_D(const QTextTable); QTextTableCell cell = cellAt(c); if (!cell.isValid()) return QTextCursor(); int row = cell.row(); QTextDocumentPrivate *p = d->pieceTable; QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), d->grid[row*d->nCols]); return QTextCursor(p, it.position()); } /*! \fn QTextCursor QTextTable::rowEnd(const QTextCursor &cursor) const Returns a cursor pointing to the end of the row that contains the given \a cursor. \sa rowStart() */ QTextCursor QTextTable::rowEnd(const QTextCursor &c) const { Q_D(const QTextTable); QTextTableCell cell = cellAt(c); if (!cell.isValid()) return QTextCursor(); int row = cell.row() + 1; int fragment = row < d->nRows ? d->grid[row*d->nCols] : d->fragment_end; QTextDocumentPrivate *p = d->pieceTable; QTextDocumentPrivate::FragmentIterator it(&p->fragmentMap(), fragment); return QTextCursor(p, it.position() - 1); } /*! \fn void QTextTable::setFormat(const QTextTableFormat &format) Sets the table's \a format. \sa format() */ void QTextTable::setFormat(const QTextTableFormat &format) { QTextTableFormat fmt = format; // don't try to change the number of table columns from here fmt.setColumns(columns()); QTextObject::setFormat(fmt); } /*! \fn QTextTableFormat QTextTable::format() const Returns the table's format. \sa setFormat() */ QT_END_NAMESPACE