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These rights are described in the Digia 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. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qitemselectionmodel.h" #include #include #include #ifndef QT_NO_ITEMVIEWS QT_BEGIN_NAMESPACE /*! \class QItemSelectionRange \inmodule QtCore \brief The QItemSelectionRange class manages information about a range of selected items in a model. \ingroup model-view A QItemSelectionRange contains information about a range of selected items in a model. A range of items is a contiguous array of model items, extending to cover a number of adjacent rows and columns with a common parent item; this can be visualized as a two-dimensional block of cells in a table. A selection range has a top(), left() a bottom(), right() and a parent(). The QItemSelectionRange class is one of the \l{Model/View Classes} and is part of Qt's \l{Model/View Programming}{model/view framework}. The model items contained in the selection range can be obtained using the indexes() function. Use QItemSelectionModel::selectedIndexes() to get a list of all selected items for a view. You can determine whether a given model item lies within a particular range by using the contains() function. Ranges can also be compared using the overloaded operators for equality and inequality, and the intersects() function allows you to determine whether two ranges overlap. \sa {Model/View Programming}, QAbstractItemModel, QItemSelection, QItemSelectionModel */ /*! \fn QItemSelectionRange::QItemSelectionRange() Constructs an empty selection range. */ /*! \fn QItemSelectionRange::QItemSelectionRange(const QItemSelectionRange &other) Copy constructor. Constructs a new selection range with the same contents as the \a other range given. */ /*! \fn QItemSelectionRange::QItemSelectionRange(const QModelIndex &topLeft, const QModelIndex &bottomRight) Constructs a new selection range containing only the index specified by the \a topLeft and the index \a bottomRight. */ /*! \fn QItemSelectionRange::QItemSelectionRange(const QModelIndex &index) Constructs a new selection range containing only the model item specified by the model index \a index. */ /*! \fn int QItemSelectionRange::top() const Returns the row index corresponding to the uppermost selected row in the selection range. */ /*! \fn int QItemSelectionRange::left() const Returns the column index corresponding to the leftmost selected column in the selection range. */ /*! \fn int QItemSelectionRange::bottom() const Returns the row index corresponding to the lowermost selected row in the selection range. */ /*! \fn int QItemSelectionRange::right() const Returns the column index corresponding to the rightmost selected column in the selection range. */ /*! \fn int QItemSelectionRange::width() const Returns the number of selected columns in the selection range. */ /*! \fn int QItemSelectionRange::height() const Returns the number of selected rows in the selection range. */ /*! \fn const QAbstractItemModel *QItemSelectionRange::model() const Returns the model that the items in the selection range belong to. */ /*! \fn QModelIndex QItemSelectionRange::topLeft() const Returns the index for the item located at the top-left corner of the selection range. \sa top(), left(), bottomRight() */ /*! \fn QModelIndex QItemSelectionRange::bottomRight() const Returns the index for the item located at the bottom-right corner of the selection range. \sa bottom(), right(), topLeft() */ /*! \fn QModelIndex QItemSelectionRange::parent() const Returns the parent model item index of the items in the selection range. */ /*! \fn bool QItemSelectionRange::contains(const QModelIndex &index) const Returns \c true if the model item specified by the \a index lies within the range of selected items; otherwise returns \c false. */ /*! \fn bool QItemSelectionRange::contains(int row, int column, const QModelIndex &parentIndex) const \overload Returns \c true if the model item specified by (\a row, \a column) and with \a parentIndex as the parent item lies within the range of selected items; otherwise returns \c false. */ /*! \fn bool QItemSelectionRange::intersects(const QItemSelectionRange &other) const Returns \c true if this selection range intersects (overlaps with) the \a other range given; otherwise returns \c false. */ bool QItemSelectionRange::intersects(const QItemSelectionRange &other) const { return (isValid() && other.isValid() && parent() == other.parent() && model() == other.model() && ((top() <= other.top() && bottom() >= other.top()) || (top() >= other.top() && top() <= other.bottom())) && ((left() <= other.left() && right() >= other.left()) || (left() >= other.left() && left() <= other.right()))); } /*! \fn QItemSelectionRange QItemSelectionRange::intersect(const QItemSelectionRange &other) const \obsolete Use intersected(\a other) instead. */ /*! \fn QItemSelectionRange QItemSelectionRange::intersected(const QItemSelectionRange &other) const \since 4.2 Returns a new selection range containing only the items that are found in both the selection range and the \a other selection range. */ QItemSelectionRange QItemSelectionRange::intersected(const QItemSelectionRange &other) const { if (model() == other.model() && parent() == other.parent()) { QModelIndex topLeft = model()->index(qMax(top(), other.top()), qMax(left(), other.left()), other.parent()); QModelIndex bottomRight = model()->index(qMin(bottom(), other.bottom()), qMin(right(), other.right()), other.parent()); return QItemSelectionRange(topLeft, bottomRight); } return QItemSelectionRange(); } /*! \fn bool QItemSelectionRange::operator==(const QItemSelectionRange &other) const Returns \c true if the selection range is exactly the same as the \a other range given; otherwise returns \c false. */ /*! \fn bool QItemSelectionRange::operator!=(const QItemSelectionRange &other) const Returns \c true if the selection range differs from the \a other range given; otherwise returns \c false. */ /*! \fn bool QItemSelectionRange::operator<(const QItemSelectionRange &other) const Returns \c true if the selection range is less than the \a other range given; otherwise returns \c false. The less than calculation is not directly useful to developers - the way that ranges with different parents compare is not defined. This operator only exists so that the class can be used with QMap. */ /*! \fn bool QItemSelectionRange::isValid() const Returns \c true if the selection range is valid; otherwise returns \c false. */ static void rowLengthsFromRange(const QItemSelectionRange &range, QVector > &result) { if (range.isValid() && range.model()) { const QModelIndex topLeft = range.topLeft(); const int bottom = range.bottom(); const uint width = range.width(); const int column = topLeft.column(); for (int row = topLeft.row(); row <= bottom; ++row) { // We don't need to keep track of ItemIsSelectable and ItemIsEnabled here. That is // required in indexesFromRange() because that method is called from public API // which requires the limitation. result.push_back(qMakePair(QPersistentModelIndex(topLeft.sibling(row, column)), width)); } } } template static void indexesFromRange(const QItemSelectionRange &range, ModelIndexContainer &result) { if (range.isValid() && range.model()) { const QModelIndex topLeft = range.topLeft(); const int bottom = range.bottom(); const int right = range.right(); for (int row = topLeft.row(); row <= bottom; ++row) { const QModelIndex columnLeader = topLeft.sibling(row, topLeft.column()); for (int column = topLeft.column(); column <= right; ++column) { QModelIndex index = columnLeader.sibling(row, column); Qt::ItemFlags flags = range.model()->flags(index); if ((flags & Qt::ItemIsSelectable) && (flags & Qt::ItemIsEnabled)) result.push_back(index); } } } } /*! Returns \c true if the selection range contains no selectable item \since 4.7 */ bool QItemSelectionRange::isEmpty() const { if (!isValid() || !model()) return true; for (int column = left(); column <= right(); ++column) { for (int row = top(); row <= bottom(); ++row) { QModelIndex index = model()->index(row, column, parent()); Qt::ItemFlags flags = model()->flags(index); if ((flags & Qt::ItemIsSelectable) && (flags & Qt::ItemIsEnabled)) return false; } } return true; } /*! Returns the list of model index items stored in the selection. */ QModelIndexList QItemSelectionRange::indexes() const { QModelIndexList result; indexesFromRange(*this, result); return result; } /*! \class QItemSelection \inmodule QtCore \brief The QItemSelection class manages information about selected items in a model. \ingroup model-view A QItemSelection describes the items in a model that have been selected by the user. A QItemSelection is basically a list of selection ranges, see QItemSelectionRange. It provides functions for creating and manipulating selections, and selecting a range of items from a model. The QItemSelection class is one of the \l{Model/View Classes} and is part of Qt's \l{Model/View Programming}{model/view framework}. An item selection can be constructed and initialized to contain a range of items from an existing model. The following example constructs a selection that contains a range of items from the given \c model, beginning at the \c topLeft, and ending at the \c bottomRight. \snippet code/src_gui_itemviews_qitemselectionmodel.cpp 0 An empty item selection can be constructed, and later populated as required. So, if the model is going to be unavailable when we construct the item selection, we can rewrite the above code in the following way: \snippet code/src_gui_itemviews_qitemselectionmodel.cpp 1 QItemSelection saves memory, and avoids unnecessary work, by working with selection ranges rather than recording the model item index for each item in the selection. Generally, an instance of this class will contain a list of non-overlapping selection ranges. Use merge() to merge one item selection into another without making overlapping ranges. Use split() to split one selection range into smaller ranges based on a another selection range. \sa {Model/View Programming}, QItemSelectionModel */ /*! \fn QItemSelection::QItemSelection() Constructs an empty selection. */ /*! Constructs an item selection that extends from the top-left model item, specified by the \a topLeft index, to the bottom-right item, specified by \a bottomRight. */ QItemSelection::QItemSelection(const QModelIndex &topLeft, const QModelIndex &bottomRight) { select(topLeft, bottomRight); } /*! Adds the items in the range that extends from the top-left model item, specified by the \a topLeft index, to the bottom-right item, specified by \a bottomRight to the list. \note \a topLeft and \a bottomRight must have the same parent. */ void QItemSelection::select(const QModelIndex &topLeft, const QModelIndex &bottomRight) { if (!topLeft.isValid() || !bottomRight.isValid()) return; if ((topLeft.model() != bottomRight.model()) || topLeft.parent() != bottomRight.parent()) { qWarning("Can't select indexes from different model or with different parents"); return; } if (topLeft.row() > bottomRight.row() || topLeft.column() > bottomRight.column()) { int top = qMin(topLeft.row(), bottomRight.row()); int bottom = qMax(topLeft.row(), bottomRight.row()); int left = qMin(topLeft.column(), bottomRight.column()); int right = qMax(topLeft.column(), bottomRight.column()); QModelIndex tl = topLeft.sibling(top, left); QModelIndex br = bottomRight.sibling(bottom, right); append(QItemSelectionRange(tl, br)); return; } append(QItemSelectionRange(topLeft, bottomRight)); } /*! Returns \c true if the selection contains the given \a index; otherwise returns \c false. */ bool QItemSelection::contains(const QModelIndex &index) const { if (index.flags() & Qt::ItemIsSelectable) { QList::const_iterator it = begin(); for (; it != end(); ++it) if ((*it).contains(index)) return true; } return false; } /*! Returns a list of model indexes that correspond to the selected items. */ QModelIndexList QItemSelection::indexes() const { QModelIndexList result; QList::const_iterator it = begin(); for (; it != end(); ++it) indexesFromRange(*it, result); return result; } static QVector qSelectionPersistentindexes(const QItemSelection &sel) { QVector result; QList::const_iterator it = sel.constBegin(); for (; it != sel.constEnd(); ++it) indexesFromRange(*it, result); return result; } static QVector > qSelectionPersistentRowLengths(const QItemSelection &sel) { QVector > result; Q_FOREACH (const QItemSelectionRange &range, sel) rowLengthsFromRange(range, result); return result; } /*! Merges the \a other selection with this QItemSelection using the \a command given. This method guarantees that no ranges are overlapping. Note that only QItemSelectionModel::Select, QItemSelectionModel::Deselect, and QItemSelectionModel::Toggle are supported. \sa split() */ void QItemSelection::merge(const QItemSelection &other, QItemSelectionModel::SelectionFlags command) { if (other.isEmpty() || !(command & QItemSelectionModel::Select || command & QItemSelectionModel::Deselect || command & QItemSelectionModel::Toggle)) return; QItemSelection newSelection = other; // Collect intersections QItemSelection intersections; QItemSelection::iterator it = newSelection.begin(); while (it != newSelection.end()) { if (!(*it).isValid()) { it = newSelection.erase(it); continue; } for (int t = 0; t < count(); ++t) { if ((*it).intersects(at(t))) intersections.append(at(t).intersected(*it)); } ++it; } // Split the old (and new) ranges using the intersections for (int i = 0; i < intersections.count(); ++i) { // for each intersection for (int t = 0; t < count();) { // splitt each old range if (at(t).intersects(intersections.at(i))) { split(at(t), intersections.at(i), this); removeAt(t); } else { ++t; } } // only split newSelection if Toggle is specified for (int n = 0; (command & QItemSelectionModel::Toggle) && n < newSelection.count();) { if (newSelection.at(n).intersects(intersections.at(i))) { split(newSelection.at(n), intersections.at(i), &newSelection); newSelection.removeAt(n); } else { ++n; } } } // do not add newSelection for Deselect if (!(command & QItemSelectionModel::Deselect)) operator+=(newSelection); } /*! Splits the selection \a range using the selection \a other range. Removes all items in \a other from \a range and puts the result in \a result. This can be compared with the semantics of the \e subtract operation of a set. \sa merge() */ void QItemSelection::split(const QItemSelectionRange &range, const QItemSelectionRange &other, QItemSelection *result) { if (range.parent() != other.parent() || range.model() != other.model()) return; QModelIndex parent = other.parent(); int top = range.top(); int left = range.left(); int bottom = range.bottom(); int right = range.right(); int other_top = other.top(); int other_left = other.left(); int other_bottom = other.bottom(); int other_right = other.right(); const QAbstractItemModel *model = range.model(); Q_ASSERT(model); if (other_top > top) { QModelIndex tl = model->index(top, left, parent); QModelIndex br = model->index(other_top - 1, right, parent); result->append(QItemSelectionRange(tl, br)); top = other_top; } if (other_bottom < bottom) { QModelIndex tl = model->index(other_bottom + 1, left, parent); QModelIndex br = model->index(bottom, right, parent); result->append(QItemSelectionRange(tl, br)); bottom = other_bottom; } if (other_left > left) { QModelIndex tl = model->index(top, left, parent); QModelIndex br = model->index(bottom, other_left - 1, parent); result->append(QItemSelectionRange(tl, br)); left = other_left; } if (other_right < right) { QModelIndex tl = model->index(top, other_right + 1, parent); QModelIndex br = model->index(bottom, right, parent); result->append(QItemSelectionRange(tl, br)); right = other_right; } } void QItemSelectionModelPrivate::initModel(QAbstractItemModel *model) { this->model = model; if (model) { Q_Q(QItemSelectionModel); QObject::connect(model, SIGNAL(rowsAboutToBeRemoved(QModelIndex,int,int)), q, SLOT(_q_rowsAboutToBeRemoved(QModelIndex,int,int))); QObject::connect(model, SIGNAL(columnsAboutToBeRemoved(QModelIndex,int,int)), q, SLOT(_q_columnsAboutToBeRemoved(QModelIndex,int,int))); QObject::connect(model, SIGNAL(rowsAboutToBeInserted(QModelIndex,int,int)), q, SLOT(_q_rowsAboutToBeInserted(QModelIndex,int,int))); QObject::connect(model, SIGNAL(columnsAboutToBeInserted(QModelIndex,int,int)), q, SLOT(_q_columnsAboutToBeInserted(QModelIndex,int,int))); QObject::connect(model, SIGNAL(rowsAboutToBeMoved(QModelIndex,int,int,QModelIndex,int)), q, SLOT(_q_layoutAboutToBeChanged())); QObject::connect(model, SIGNAL(columnsAboutToBeMoved(QModelIndex,int,int,QModelIndex,int)), q, SLOT(_q_layoutAboutToBeChanged())); QObject::connect(model, SIGNAL(rowsMoved(QModelIndex,int,int,QModelIndex,int)), q, SLOT(_q_layoutChanged())); QObject::connect(model, SIGNAL(columnsMoved(QModelIndex,int,int,QModelIndex,int)), q, SLOT(_q_layoutChanged())); QObject::connect(model, SIGNAL(layoutAboutToBeChanged(QList,QAbstractItemModel::LayoutChangeHint)), q, SLOT(_q_layoutAboutToBeChanged(QList,QAbstractItemModel::LayoutChangeHint))); QObject::connect(model, SIGNAL(layoutChanged(QList,QAbstractItemModel::LayoutChangeHint)), q, SLOT(_q_layoutChanged(QList,QAbstractItemModel::LayoutChangeHint))); QObject::connect(model, SIGNAL(modelReset()), q, SLOT(reset())); } } /*! \internal returns a QItemSelection where all ranges have been expanded to: Rows: left: 0 and right: columnCount()-1 Columns: top: 0 and bottom: rowCount()-1 */ QItemSelection QItemSelectionModelPrivate::expandSelection(const QItemSelection &selection, QItemSelectionModel::SelectionFlags command) const { if (selection.isEmpty() && !((command & QItemSelectionModel::Rows) || (command & QItemSelectionModel::Columns))) return selection; QItemSelection expanded; if (command & QItemSelectionModel::Rows) { for (int i = 0; i < selection.count(); ++i) { QModelIndex parent = selection.at(i).parent(); int colCount = model->columnCount(parent); QModelIndex tl = model->index(selection.at(i).top(), 0, parent); QModelIndex br = model->index(selection.at(i).bottom(), colCount - 1, parent); //we need to merge because the same row could have already been inserted expanded.merge(QItemSelection(tl, br), QItemSelectionModel::Select); } } if (command & QItemSelectionModel::Columns) { for (int i = 0; i < selection.count(); ++i) { QModelIndex parent = selection.at(i).parent(); int rowCount = model->rowCount(parent); QModelIndex tl = model->index(0, selection.at(i).left(), parent); QModelIndex br = model->index(rowCount - 1, selection.at(i).right(), parent); //we need to merge because the same column could have already been inserted expanded.merge(QItemSelection(tl, br), QItemSelectionModel::Select); } } return expanded; } /*! \internal */ void QItemSelectionModelPrivate::_q_rowsAboutToBeRemoved(const QModelIndex &parent, int start, int end) { Q_Q(QItemSelectionModel); finalize(); // update current index if (currentIndex.isValid() && parent == currentIndex.parent() && currentIndex.row() >= start && currentIndex.row() <= end) { QModelIndex old = currentIndex; if (start > 0) // there are rows left above the change currentIndex = model->index(start - 1, old.column(), parent); else if (model && end < model->rowCount(parent) - 1) // there are rows left below the change currentIndex = model->index(end + 1, old.column(), parent); else // there are no rows left in the table currentIndex = QModelIndex(); emit q->currentChanged(currentIndex, old); emit q->currentRowChanged(currentIndex, old); if (currentIndex.column() != old.column()) emit q->currentColumnChanged(currentIndex, old); } QItemSelection deselected; QItemSelection newParts; QItemSelection::iterator it = ranges.begin(); while (it != ranges.end()) { if (it->topLeft().parent() != parent) { // Check parents until reaching root or contained in range QModelIndex itParent = it->topLeft().parent(); while (itParent.isValid() && itParent.parent() != parent) itParent = itParent.parent(); if (itParent.isValid() && start <= itParent.row() && itParent.row() <= end) { deselected.append(*it); it = ranges.erase(it); } else { ++it; } } else if (start <= it->bottom() && it->bottom() <= end // Full inclusion && start <= it->top() && it->top() <= end) { deselected.append(*it); it = ranges.erase(it); } else if (start <= it->top() && it->top() <= end) { // Top intersection deselected.append(QItemSelectionRange(it->topLeft(), model->index(end, it->left(), it->parent()))); *it = QItemSelectionRange(model->index(end + 1, it->left(), it->parent()), it->bottomRight()); ++it; } else if (start <= it->bottom() && it->bottom() <= end) { // Bottom intersection deselected.append(QItemSelectionRange(model->index(start, it->right(), it->parent()), it->bottomRight())); *it = QItemSelectionRange(it->topLeft(), model->index(start - 1, it->right(), it->parent())); ++it; } else if (it->top() < start && end < it->bottom()) { // Middle intersection // If the parent contains (1, 2, 3, 4, 5, 6, 7, 8) and [3, 4, 5, 6] is selected, // and [4, 5] is removed, we need to split [3, 4, 5, 6] into [3], [4, 5] and [6]. // [4, 5] is appended to deselected, and [3] and [6] remain part of the selection // in ranges. const QItemSelectionRange removedRange(model->index(start, it->right(), it->parent()), model->index(end, it->left(), it->parent())); deselected.append(removedRange); QItemSelection::split(*it, removedRange, &newParts); it = ranges.erase(it); } else ++it; } ranges.append(newParts); if (!deselected.isEmpty()) emit q->selectionChanged(QItemSelection(), deselected); } /*! \internal */ void QItemSelectionModelPrivate::_q_columnsAboutToBeRemoved(const QModelIndex &parent, int start, int end) { Q_Q(QItemSelectionModel); // update current index if (currentIndex.isValid() && parent == currentIndex.parent() && currentIndex.column() >= start && currentIndex.column() <= end) { QModelIndex old = currentIndex; if (start > 0) // there are columns to the left of the change currentIndex = model->index(old.row(), start - 1, parent); else if (model && end < model->columnCount() - 1) // there are columns to the right of the change currentIndex = model->index(old.row(), end + 1, parent); else // there are no columns left in the table currentIndex = QModelIndex(); emit q->currentChanged(currentIndex, old); if (currentIndex.row() != old.row()) emit q->currentRowChanged(currentIndex, old); emit q->currentColumnChanged(currentIndex, old); } // update selections QModelIndex tl = model->index(0, start, parent); QModelIndex br = model->index(model->rowCount(parent) - 1, end, parent); q->select(QItemSelection(tl, br), QItemSelectionModel::Deselect); finalize(); } /*! \internal Split selection ranges if columns are about to be inserted in the middle. */ void QItemSelectionModelPrivate::_q_columnsAboutToBeInserted(const QModelIndex &parent, int start, int end) { Q_UNUSED(end); finalize(); QList split; QList::iterator it = ranges.begin(); for (; it != ranges.end(); ) { if ((*it).isValid() && (*it).parent() == parent && (*it).left() < start && (*it).right() >= start) { QModelIndex bottomMiddle = model->index((*it).bottom(), start - 1, (*it).parent()); QItemSelectionRange left((*it).topLeft(), bottomMiddle); QModelIndex topMiddle = model->index((*it).top(), start, (*it).parent()); QItemSelectionRange right(topMiddle, (*it).bottomRight()); it = ranges.erase(it); split.append(left); split.append(right); } else { ++it; } } ranges += split; } /*! \internal Split selection ranges if rows are about to be inserted in the middle. */ void QItemSelectionModelPrivate::_q_rowsAboutToBeInserted(const QModelIndex &parent, int start, int end) { Q_UNUSED(end); finalize(); QList split; QList::iterator it = ranges.begin(); for (; it != ranges.end(); ) { if ((*it).isValid() && (*it).parent() == parent && (*it).top() < start && (*it).bottom() >= start) { QModelIndex middleRight = model->index(start - 1, (*it).right(), (*it).parent()); QItemSelectionRange top((*it).topLeft(), middleRight); QModelIndex middleLeft = model->index(start, (*it).left(), (*it).parent()); QItemSelectionRange bottom(middleLeft, (*it).bottomRight()); it = ranges.erase(it); split.append(top); split.append(bottom); } else { ++it; } } ranges += split; } /*! \internal Split selection into individual (persistent) indexes. This is done in preparation for the layoutChanged() signal, where the indexes can be merged again. */ void QItemSelectionModelPrivate::_q_layoutAboutToBeChanged(const QList &, QAbstractItemModel::LayoutChangeHint hint) { savedPersistentIndexes.clear(); savedPersistentCurrentIndexes.clear(); savedPersistentRowLengths.clear(); savedPersistentCurrentRowLengths.clear(); // optimization for when all indexes are selected // (only if there is lots of items (1000) because this is not entirely correct) if (ranges.isEmpty() && currentSelection.count() == 1) { QItemSelectionRange range = currentSelection.first(); QModelIndex parent = range.parent(); tableRowCount = model->rowCount(parent); tableColCount = model->columnCount(parent); if (tableRowCount * tableColCount > 1000 && range.top() == 0 && range.left() == 0 && range.bottom() == tableRowCount - 1 && range.right() == tableColCount - 1) { tableSelected = true; tableParent = parent; return; } } tableSelected = false; if (hint == QAbstractItemModel::VerticalSortHint) { // Special case when we know we're sorting vertically. We can assume that all indexes for columns // are displaced the same way, and therefore we only need to track an index from one column per // row with a QPersistentModelIndex together with the length of items to the right of it // which are displaced the same way. // An algorithm which contains the same assumption is used to process layoutChanged. savedPersistentRowLengths = qSelectionPersistentRowLengths(ranges); savedPersistentCurrentRowLengths = qSelectionPersistentRowLengths(currentSelection); } else { savedPersistentIndexes = qSelectionPersistentindexes(ranges); savedPersistentCurrentIndexes = qSelectionPersistentindexes(currentSelection); } } /*! \internal */ static QItemSelection mergeRowLengths(const QVector > &rowLengths) { if (rowLengths.isEmpty()) return QItemSelection(); QItemSelection result; int i = 0; while (i < rowLengths.count()) { const QPersistentModelIndex &tl = rowLengths.at(i).first; if (!tl.isValid()) { ++i; continue; } QPersistentModelIndex br = tl; const uint length = rowLengths.at(i).second; while (++i < rowLengths.count()) { const QPersistentModelIndex &next = rowLengths.at(i).first; if (!next.isValid()) continue; const uint nextLength = rowLengths.at(i).second; if ((nextLength == length) && (next.row() == br.row() + 1) && (next.parent() == br.parent())) { br = next; } else { break; } } result.append(QItemSelectionRange(tl, br.sibling(br.row(), length - 1))); } return result; } /*! \internal Merges \a indexes into an item selection made up of ranges. Assumes that the indexes are sorted. */ static QItemSelection mergeIndexes(const QVector &indexes) { QItemSelection colSpans; // merge columns int i = 0; while (i < indexes.count()) { const QPersistentModelIndex &tl = indexes.at(i); if (!tl.isValid()) { ++i; continue; } QPersistentModelIndex br = tl; QModelIndex brParent = br.parent(); int brRow = br.row(); int brColumn = br.column(); while (++i < indexes.count()) { const QPersistentModelIndex &next = indexes.at(i); if (!next.isValid()) continue; const QModelIndex nextParent = next.parent(); const int nextRow = next.row(); const int nextColumn = next.column(); if ((nextParent == brParent) && (nextRow == brRow) && (nextColumn == brColumn + 1)) { br = next; brParent = nextParent; brRow = nextRow; brColumn = nextColumn; } else { break; } } colSpans.append(QItemSelectionRange(tl, br)); } // merge rows QItemSelection rowSpans; i = 0; while (i < colSpans.count()) { QModelIndex tl = colSpans.at(i).topLeft(); QModelIndex br = colSpans.at(i).bottomRight(); QModelIndex prevTl = tl; while (++i < colSpans.count()) { QModelIndex nextTl = colSpans.at(i).topLeft(); QModelIndex nextBr = colSpans.at(i).bottomRight(); if (nextTl.parent() != tl.parent()) break; // we can't merge selection ranges from different parents if ((nextTl.column() == prevTl.column()) && (nextBr.column() == br.column()) && (nextTl.row() == prevTl.row() + 1) && (nextBr.row() == br.row() + 1)) { br = nextBr; prevTl = nextTl; } else { break; } } rowSpans.append(QItemSelectionRange(tl, br)); } return rowSpans; } /*! \internal Merge the selected indexes into selection ranges again. */ void QItemSelectionModelPrivate::_q_layoutChanged(const QList &, QAbstractItemModel::LayoutChangeHint hint) { // special case for when all indexes are selected if (tableSelected && tableColCount == model->columnCount(tableParent) && tableRowCount == model->rowCount(tableParent)) { ranges.clear(); currentSelection.clear(); int bottom = tableRowCount - 1; int right = tableColCount - 1; QModelIndex tl = model->index(0, 0, tableParent); QModelIndex br = model->index(bottom, right, tableParent); currentSelection << QItemSelectionRange(tl, br); tableParent = QModelIndex(); tableSelected = false; return; } if ((hint != QAbstractItemModel::VerticalSortHint && savedPersistentCurrentIndexes.isEmpty() && savedPersistentIndexes.isEmpty()) || (hint == QAbstractItemModel::VerticalSortHint && savedPersistentRowLengths.isEmpty() && savedPersistentCurrentRowLengths.isEmpty())) { // either the selection was actually empty, or we // didn't get the layoutAboutToBeChanged() signal return; } // clear the "old" selection ranges.clear(); currentSelection.clear(); if (hint != QAbstractItemModel::VerticalSortHint) { // sort the "new" selection, as preparation for merging std::stable_sort(savedPersistentIndexes.begin(), savedPersistentIndexes.end()); std::stable_sort(savedPersistentCurrentIndexes.begin(), savedPersistentCurrentIndexes.end()); // update the selection by merging the individual indexes ranges = mergeIndexes(savedPersistentIndexes); currentSelection = mergeIndexes(savedPersistentCurrentIndexes); // release the persistent indexes savedPersistentIndexes.clear(); savedPersistentCurrentIndexes.clear(); } else { // sort the "new" selection, as preparation for merging std::stable_sort(savedPersistentRowLengths.begin(), savedPersistentRowLengths.end()); std::stable_sort(savedPersistentCurrentRowLengths.begin(), savedPersistentCurrentRowLengths.end()); // update the selection by merging the individual indexes ranges = mergeRowLengths(savedPersistentRowLengths); currentSelection = mergeRowLengths(savedPersistentCurrentRowLengths); // release the persistent indexes savedPersistentRowLengths.clear(); savedPersistentCurrentRowLengths.clear(); } } /*! \class QItemSelectionModel \inmodule QtCore \brief The QItemSelectionModel class keeps track of a view's selected items. \ingroup model-view A QItemSelectionModel keeps track of the selected items in a view, or in several views onto the same model. It also keeps track of the currently selected item in a view. The QItemSelectionModel class is one of the \l{Model/View Classes} and is part of Qt's \l{Model/View Programming}{model/view framework}. The selected items are stored using ranges. Whenever you want to modify the selected items use select() and provide either a QItemSelection, or a QModelIndex and a QItemSelectionModel::SelectionFlag. The QItemSelectionModel takes a two layer approach to selection management, dealing with both selected items that have been committed and items that are part of the current selection. The current selected items are part of the current interactive selection (for example with rubber-band selection or keyboard-shift selections). To update the currently selected items, use the bitwise OR of QItemSelectionModel::Current and any of the other SelectionFlags. If you omit the QItemSelectionModel::Current command, a new current selection will be created, and the previous one added to the whole selection. All functions operate on both layers; for example, selectedItems() will return items from both layers. \sa {Model/View Programming}, QAbstractItemModel, {Chart Example} */ /*! Constructs a selection model that operates on the specified item \a model. */ QItemSelectionModel::QItemSelectionModel(QAbstractItemModel *model) : QObject(*new QItemSelectionModelPrivate, model) { d_func()->initModel(model); } /*! Constructs a selection model that operates on the specified item \a model with \a parent. */ QItemSelectionModel::QItemSelectionModel(QAbstractItemModel *model, QObject *parent) : QObject(*new QItemSelectionModelPrivate, parent) { d_func()->initModel(model); } /*! \internal */ QItemSelectionModel::QItemSelectionModel(QItemSelectionModelPrivate &dd, QAbstractItemModel *model) : QObject(dd, model) { dd.initModel(model); } /*! Destroys the selection model. */ QItemSelectionModel::~QItemSelectionModel() { } /*! Selects the model item \a index using the specified \a command, and emits selectionChanged(). \sa QItemSelectionModel::SelectionFlags */ void QItemSelectionModel::select(const QModelIndex &index, QItemSelectionModel::SelectionFlags command) { QItemSelection selection(index, index); select(selection, command); } /*! \fn void QItemSelectionModel::currentChanged(const QModelIndex ¤t, const QModelIndex &previous) This signal is emitted whenever the current item changes. The \a previous model item index is replaced by the \a current index as the selection's current item. Note that this signal will not be emitted when the item model is reset. \sa currentIndex(), setCurrentIndex(), selectionChanged() */ /*! \fn void QItemSelectionModel::currentColumnChanged(const QModelIndex ¤t, const QModelIndex &previous) This signal is emitted if the \a current item changes and its column is different to the column of the \a previous current item. Note that this signal will not be emitted when the item model is reset. \sa currentChanged(), currentRowChanged(), currentIndex(), setCurrentIndex() */ /*! \fn void QItemSelectionModel::currentRowChanged(const QModelIndex ¤t, const QModelIndex &previous) This signal is emitted if the \a current item changes and its row is different to the row of the \a previous current item. Note that this signal will not be emitted when the item model is reset. \sa currentChanged(), currentColumnChanged(), currentIndex(), setCurrentIndex() */ /*! \fn void QItemSelectionModel::selectionChanged(const QItemSelection &selected, const QItemSelection &deselected) This signal is emitted whenever the selection changes. The change in the selection is represented as an item selection of \a deselected items and an item selection of \a selected items. Note the that the current index changes independently from the selection. Also note that this signal will not be emitted when the item model is reset. \sa select(), currentChanged() */ /*! \enum QItemSelectionModel::SelectionFlag This enum describes the way the selection model will be updated. \value NoUpdate No selection will be made. \value Clear The complete selection will be cleared. \value Select All specified indexes will be selected. \value Deselect All specified indexes will be deselected. \value Toggle All specified indexes will be selected or deselected depending on their current state. \value Current The current selection will be updated. \value Rows All indexes will be expanded to span rows. \value Columns All indexes will be expanded to span columns. \value SelectCurrent A combination of Select and Current, provided for convenience. \value ToggleCurrent A combination of Toggle and Current, provided for convenience. \value ClearAndSelect A combination of Clear and Select, provided for convenience. */ /*! Selects the item \a selection using the specified \a command, and emits selectionChanged(). \sa QItemSelectionModel::SelectionFlag */ void QItemSelectionModel::select(const QItemSelection &selection, QItemSelectionModel::SelectionFlags command) { Q_D(QItemSelectionModel); if (command == NoUpdate) return; // store old selection QItemSelection sel = selection; // If d->ranges is non-empty when the source model is reset the persistent indexes // it contains will be invalid. We can't clear them in a modelReset slot because that might already // be too late if another model observer is connected to the same modelReset slot and is invoked first // it might call select() on this selection model before any such QItemSelectionModelPrivate::_q_modelReset() slot // is invoked, so it would not be cleared yet. We clear it invalid ranges in it here. QItemSelection::iterator it = d->ranges.begin(); while (it != d->ranges.end()) { if (!it->isValid()) it = d->ranges.erase(it); else ++it; } QItemSelection old = d->ranges; old.merge(d->currentSelection, d->currentCommand); // expand selection according to SelectionBehavior if (command & Rows || command & Columns) sel = d->expandSelection(sel, command); // clear ranges and currentSelection if (command & Clear) { d->ranges.clear(); d->currentSelection.clear(); } // merge and clear currentSelection if Current was not set (ie. start new currentSelection) if (!(command & Current)) d->finalize(); // update currentSelection if (command & Toggle || command & Select || command & Deselect) { d->currentCommand = command; d->currentSelection = sel; } // generate new selection, compare with old and emit selectionChanged() QItemSelection newSelection = d->ranges; newSelection.merge(d->currentSelection, d->currentCommand); emitSelectionChanged(newSelection, old); } /*! Clears the selection model. Emits selectionChanged() and currentChanged(). */ void QItemSelectionModel::clear() { clearSelection(); clearCurrentIndex(); } /*! Clears the current index. Emits currentChanged(). */ void QItemSelectionModel::clearCurrentIndex() { Q_D(QItemSelectionModel); QModelIndex previous = d->currentIndex; d->currentIndex = QModelIndex(); if (previous.isValid()) { emit currentChanged(d->currentIndex, previous); emit currentRowChanged(d->currentIndex, previous); emit currentColumnChanged(d->currentIndex, previous); } } /*! Clears the selection model. Does not emit any signals. */ void QItemSelectionModel::reset() { const QSignalBlocker blocker(this); clear(); } /*! \since 4.2 Clears the selection in the selection model. Emits selectionChanged(). */ void QItemSelectionModel::clearSelection() { Q_D(QItemSelectionModel); if (d->ranges.count() == 0 && d->currentSelection.count() == 0) return; select(QItemSelection(), Clear); } /*! Sets the model item \a index to be the current item, and emits currentChanged(). The current item is used for keyboard navigation and focus indication; it is independent of any selected items, although a selected item can also be the current item. Depending on the specified \a command, the \a index can also become part of the current selection. \sa select() */ void QItemSelectionModel::setCurrentIndex(const QModelIndex &index, QItemSelectionModel::SelectionFlags command) { Q_D(QItemSelectionModel); if (index == d->currentIndex) { if (command != NoUpdate) select(index, command); // select item return; } QPersistentModelIndex previous = d->currentIndex; d->currentIndex = index; // set current before emitting selection changed below if (command != NoUpdate) select(d->currentIndex, command); // select item emit currentChanged(d->currentIndex, previous); if (d->currentIndex.row() != previous.row() || d->currentIndex.parent() != previous.parent()) emit currentRowChanged(d->currentIndex, previous); if (d->currentIndex.column() != previous.column() || d->currentIndex.parent() != previous.parent()) emit currentColumnChanged(d->currentIndex, previous); } /*! Returns the model item index for the current item, or an invalid index if there is no current item. */ QModelIndex QItemSelectionModel::currentIndex() const { return static_cast(d_func()->currentIndex); } /*! Returns \c true if the given model item \a index is selected. */ bool QItemSelectionModel::isSelected(const QModelIndex &index) const { Q_D(const QItemSelectionModel); if (d->model != index.model() || !index.isValid()) return false; bool selected = false; // search model ranges QList::const_iterator it = d->ranges.begin(); for (; it != d->ranges.end(); ++it) { if ((*it).isValid() && (*it).contains(index)) { selected = true; break; } } // check currentSelection if (d->currentSelection.count()) { if ((d->currentCommand & Deselect) && selected) selected = !d->currentSelection.contains(index); else if (d->currentCommand & Toggle) selected ^= d->currentSelection.contains(index); else if ((d->currentCommand & Select) && !selected) selected = d->currentSelection.contains(index); } if (selected) { Qt::ItemFlags flags = d->model->flags(index); return (flags & Qt::ItemIsSelectable); } return false; } /*! Returns \c true if all items are selected in the \a row with the given \a parent. Note that this function is usually faster than calling isSelected() on all items in the same row and that unselectable items are ignored. */ bool QItemSelectionModel::isRowSelected(int row, const QModelIndex &parent) const { Q_D(const QItemSelectionModel); if (parent.isValid() && d->model != parent.model()) return false; // return false if row exist in currentSelection (Deselect) if (d->currentCommand & Deselect && d->currentSelection.count()) { for (int i=0; icurrentSelection.count(); ++i) { if (d->currentSelection.at(i).parent() == parent && row >= d->currentSelection.at(i).top() && row <= d->currentSelection.at(i).bottom()) return false; } } // return false if ranges in both currentSelection and ranges // intersect and have the same row contained if (d->currentCommand & Toggle && d->currentSelection.count()) { for (int i=0; icurrentSelection.count(); ++i) if (d->currentSelection.at(i).top() <= row && d->currentSelection.at(i).bottom() >= row) for (int j=0; jranges.count(); ++j) if (d->ranges.at(j).top() <= row && d->ranges.at(j).bottom() >= row && d->currentSelection.at(i).intersected(d->ranges.at(j)).isValid()) return false; } // add ranges and currentSelection and check through them all QList::const_iterator it; QList joined = d->ranges; if (d->currentSelection.count()) joined += d->currentSelection; int colCount = d->model->columnCount(parent); for (int column = 0; column < colCount; ++column) { for (it = joined.constBegin(); it != joined.constEnd(); ++it) { if ((*it).contains(row, column, parent)) { bool selectable = false; for (int i = column; !selectable && i <= (*it).right(); ++i) { Qt::ItemFlags flags = d->model->index(row, i, parent).flags(); selectable = flags & Qt::ItemIsSelectable; } if (selectable){ column = qMax(column, (*it).right()); break; } } } if (it == joined.constEnd()) return false; } return colCount > 0; // no columns means no selected items } /*! Returns \c true if all items are selected in the \a column with the given \a parent. Note that this function is usually faster than calling isSelected() on all items in the same column and that unselectable items are ignored. */ bool QItemSelectionModel::isColumnSelected(int column, const QModelIndex &parent) const { Q_D(const QItemSelectionModel); if (parent.isValid() && d->model != parent.model()) return false; // return false if column exist in currentSelection (Deselect) if (d->currentCommand & Deselect && d->currentSelection.count()) { for (int i = 0; i < d->currentSelection.count(); ++i) { if (d->currentSelection.at(i).parent() == parent && column >= d->currentSelection.at(i).left() && column <= d->currentSelection.at(i).right()) return false; } } // return false if ranges in both currentSelection and the selection model // intersect and have the same column contained if (d->currentCommand & Toggle && d->currentSelection.count()) { for (int i = 0; i < d->currentSelection.count(); ++i) { if (d->currentSelection.at(i).left() <= column && d->currentSelection.at(i).right() >= column) { for (int j = 0; j < d->ranges.count(); ++j) { if (d->ranges.at(j).left() <= column && d->ranges.at(j).right() >= column && d->currentSelection.at(i).intersected(d->ranges.at(j)).isValid()) { return false; } } } } } // add ranges and currentSelection and check through them all QList::const_iterator it; QList joined = d->ranges; if (d->currentSelection.count()) joined += d->currentSelection; int rowCount = d->model->rowCount(parent); for (int row = 0; row < rowCount; ++row) { for (it = joined.constBegin(); it != joined.constEnd(); ++it) { if ((*it).contains(row, column, parent)) { Qt::ItemFlags flags = d->model->index(row, column, parent).flags(); if ((flags & Qt::ItemIsSelectable) && (flags & Qt::ItemIsEnabled)) { row = qMax(row, (*it).bottom()); break; } } } if (it == joined.constEnd()) return false; } return rowCount > 0; // no rows means no selected items } /*! Returns \c true if there are any items selected in the \a row with the given \a parent. */ bool QItemSelectionModel::rowIntersectsSelection(int row, const QModelIndex &parent) const { Q_D(const QItemSelectionModel); if (parent.isValid() && d->model != parent.model()) return false; QItemSelection sel = d->ranges; sel.merge(d->currentSelection, d->currentCommand); for (int i = 0; i < sel.count(); ++i) { QItemSelectionRange range = sel.at(i); if (range.parent() != parent) return false; int top = range.top(); int bottom = range.bottom(); int left = range.left(); int right = range.right(); if (top <= row && bottom >= row) { for (int j = left; j <= right; j++) { const Qt::ItemFlags flags = d->model->index(row, j, parent).flags(); if ((flags & Qt::ItemIsSelectable) && (flags & Qt::ItemIsEnabled)) return true; } } } return false; } /*! Returns \c true if there are any items selected in the \a column with the given \a parent. */ bool QItemSelectionModel::columnIntersectsSelection(int column, const QModelIndex &parent) const { Q_D(const QItemSelectionModel); if (parent.isValid() && d->model != parent.model()) return false; QItemSelection sel = d->ranges; sel.merge(d->currentSelection, d->currentCommand); for (int i = 0; i < sel.count(); ++i) { int left = sel.at(i).left(); int right = sel.at(i).right(); int top = sel.at(i).top(); int bottom = sel.at(i).bottom(); if (left <= column && right >= column) { for (int j = top; j <= bottom; j++) { const Qt::ItemFlags flags = d->model->index(j, column, parent).flags(); if ((flags & Qt::ItemIsSelectable) && (flags & Qt::ItemIsEnabled)) return true; } } } return false; } /*! \since 4.2 Returns \c true if the selection model contains any selection ranges; otherwise returns \c false. */ bool QItemSelectionModel::hasSelection() const { Q_D(const QItemSelectionModel); if (d->currentCommand & (Toggle | Deselect)) { QItemSelection sel = d->ranges; sel.merge(d->currentSelection, d->currentCommand); return !sel.isEmpty(); } else { return !(d->ranges.isEmpty() && d->currentSelection.isEmpty()); } } /*! Returns a list of all selected model item indexes. The list contains no duplicates, and is not sorted. */ QModelIndexList QItemSelectionModel::selectedIndexes() const { Q_D(const QItemSelectionModel); QItemSelection selected = d->ranges; selected.merge(d->currentSelection, d->currentCommand); return selected.indexes(); } /*! \since 4.2 Returns the indexes in the given \a column for the rows where all columns are selected. \sa selectedIndexes(), selectedColumns() */ QModelIndexList QItemSelectionModel::selectedRows(int column) const { QModelIndexList indexes; //the QSet contains pairs of parent modelIndex //and row number QSet< QPair > rowsSeen; const QItemSelection ranges = selection(); for (int i = 0; i < ranges.count(); ++i) { const QItemSelectionRange &range = ranges.at(i); QModelIndex parent = range.parent(); for (int row = range.top(); row <= range.bottom(); row++) { QPair rowDef = qMakePair(parent, row); if (!rowsSeen.contains(rowDef)) { rowsSeen << rowDef; if (isRowSelected(row, parent)) { indexes.append(model()->index(row, column, parent)); } } } } return indexes; } /*! \since 4.2 Returns the indexes in the given \a row for columns where all rows are selected. \sa selectedIndexes(), selectedRows() */ QModelIndexList QItemSelectionModel::selectedColumns(int row) const { QModelIndexList indexes; //the QSet contains pairs of parent modelIndex //and column number QSet< QPair > columnsSeen; const QItemSelection ranges = selection(); for (int i = 0; i < ranges.count(); ++i) { const QItemSelectionRange &range = ranges.at(i); QModelIndex parent = range.parent(); for (int column = range.left(); column <= range.right(); column++) { QPair columnDef = qMakePair(parent, column); if (!columnsSeen.contains(columnDef)) { columnsSeen << columnDef; if (isColumnSelected(column, parent)) { indexes.append(model()->index(row, column, parent)); } } } } return indexes; } /*! Returns the selection ranges stored in the selection model. */ const QItemSelection QItemSelectionModel::selection() const { Q_D(const QItemSelectionModel); QItemSelection selected = d->ranges; selected.merge(d->currentSelection, d->currentCommand); int i = 0; // make sure we have no invalid ranges // ### should probably be handled more generic somewhere else while (imodel; } /*! Compares the two selections \a newSelection and \a oldSelection and emits selectionChanged() with the deselected and selected items. */ void QItemSelectionModel::emitSelectionChanged(const QItemSelection &newSelection, const QItemSelection &oldSelection) { // if both selections are empty or equal we return if ((oldSelection.isEmpty() && newSelection.isEmpty()) || oldSelection == newSelection) return; // if either selection is empty we do not need to compare if (oldSelection.isEmpty() || newSelection.isEmpty()) { emit selectionChanged(newSelection, oldSelection); return; } QItemSelection deselected = oldSelection; QItemSelection selected = newSelection; // remove equal ranges bool advance; for (int o = 0; o < deselected.count(); ++o) { advance = true; for (int s = 0; s < selected.count() && o < deselected.count();) { if (deselected.at(o) == selected.at(s)) { deselected.removeAt(o); selected.removeAt(s); advance = false; } else { ++s; } } if (advance) ++o; } // find intersections QItemSelection intersections; for (int o = 0; o < deselected.count(); ++o) { for (int s = 0; s < selected.count(); ++s) { if (deselected.at(o).intersects(selected.at(s))) intersections.append(deselected.at(o).intersected(selected.at(s))); } } // compare remaining ranges with intersections and split them to find deselected and selected for (int i = 0; i < intersections.count(); ++i) { // split deselected for (int o = 0; o < deselected.count();) { if (deselected.at(o).intersects(intersections.at(i))) { QItemSelection::split(deselected.at(o), intersections.at(i), &deselected); deselected.removeAt(o); } else { ++o; } } // split selected for (int s = 0; s < selected.count();) { if (selected.at(s).intersects(intersections.at(i))) { QItemSelection::split(selected.at(s), intersections.at(i), &selected); selected.removeAt(s); } else { ++s; } } } if (!selected.isEmpty() || !deselected.isEmpty()) emit selectionChanged(selected, deselected); } #ifndef QT_NO_DEBUG_STREAM QDebug operator<<(QDebug dbg, const QItemSelectionRange &range) { dbg.nospace() << "QItemSelectionRange(" << range.topLeft() << ',' << range.bottomRight() << ')'; return dbg.space(); } #endif QT_END_NAMESPACE #include "moc_qitemselectionmodel.cpp" #endif // QT_NO_ITEMVIEWS