subsurface/qt-models/mobilelistmodel.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "mobilelistmodel.h"
#include "core/divelist.h" // for shown_dives
MobileListModelBase::MobileListModelBase(DiveTripModelBase *sourceIn) : source(sourceIn)
{
}
QHash<int, QByteArray> MobileListModelBase::roleNames() const
{
QHash<int, QByteArray> roles;
roles[DiveTripModelBase::IS_TRIP_ROLE] = "isTrip";
roles[DiveTripModelBase::CURRENT_ROLE] = "current";
roles[IsTopLevelRole] = "isTopLevel";
roles[DiveDateRole] = "date";
roles[TripIdRole] = "tripId";
roles[TripNrDivesRole] = "tripNrDives";
roles[TripShortDateRole] = "tripShortDate";
roles[TripTitleRole] = "tripTitle";
roles[DateTimeRole] = "dateTime";
roles[IdRole] = "id";
roles[NumberRole] = "number";
roles[LocationRole] = "location";
roles[DepthRole] = "depth";
roles[DurationRole] = "duration";
roles[DepthDurationRole] = "depthDuration";
roles[RatingRole] = "rating";
roles[VizRole] = "viz";
roles[SuitRole] = "suit";
roles[AirTempRole] = "airTemp";
roles[WaterTempRole] = "waterTemp";
roles[SacRole] = "sac";
roles[SumWeightRole] = "sumWeight";
roles[DiveMasterRole] = "diveMaster";
roles[BuddyRole] = "buddy";
roles[TagsRole] = "tags";
roles[NotesRole]= "notes";
roles[GpsRole] = "gps";
roles[GpsDecimalRole] = "gpsDecimal";
roles[NoDiveRole] = "noDive";
roles[DiveSiteRole] = "diveSite";
roles[CylinderRole] = "cylinder";
roles[GetCylinderRole] = "getCylinder";
roles[CylinderListRole] = "cylinderList";
roles[SingleWeightRole] = "singleWeight";
roles[StartPressureRole] = "startPressure";
roles[EndPressureRole] = "endPressure";
roles[FirstGasRole] = "firstGas";
roles[SelectedRole] = "selected";
roles[DiveInTripRole] = "diveInTrip";
roles[TripAbove] = "tripAbove";
roles[TripBelow] = "tripBelow";
roles[TripLocationRole] = "tripLocation";
roles[TripNotesRole] = "tripNotes";
roles[IsInvalidRole] = "isInvalid";
return roles;
}
int MobileListModel::shown() const
{
return shown_dives;
}
int MobileListModelBase::columnCount(const QModelIndex &parent) const
{
return source->columnCount(parent);
}
QModelIndex MobileListModelBase::index(int row, int column, const QModelIndex &parent) const
{
if (!hasIndex(row, column, parent))
return QModelIndex();
return createIndex(row, column);
}
QModelIndex MobileListModelBase::parent(const QModelIndex &index) const
{
// These are flat models - there is no parent
return QModelIndex();
}
MobileListModel::MobileListModel(DiveTripModelBase *source) : MobileListModelBase(source),
expandedRow(-1)
{
connect(source, &DiveTripModelBase::modelAboutToBeReset, this, &MobileListModel::beginResetModel);
connect(source, &DiveTripModelBase::modelReset, this, &MobileListModel::endResetModel);
connect(source, &DiveTripModelBase::rowsAboutToBeRemoved, this, &MobileListModel::prepareRemove);
connect(source, &DiveTripModelBase::rowsRemoved, this, &MobileListModel::doneRemove);
connect(source, &DiveTripModelBase::rowsAboutToBeInserted, this, &MobileListModel::prepareInsert);
connect(source, &DiveTripModelBase::rowsInserted, this, &MobileListModel::doneInsert);
connect(source, &DiveTripModelBase::rowsAboutToBeMoved, this, &MobileListModel::prepareMove);
connect(source, &DiveTripModelBase::rowsMoved, this, &MobileListModel::doneMove);
connect(source, &DiveTripModelBase::dataChanged, this, &MobileListModel::changed);
connect(&diveListNotifier, &DiveListNotifier::numShownChanged, this, &MobileListModel::shownChanged);
}
// We want to show the newest dives first. Therefore, we have to invert
// the indices with respect to the source model. To avoid mental gymnastics
// in the rest of the code, we do this right before sending to the
// source model and just after recieving from the source model, respectively.
QModelIndex MobileListModel::sourceIndex(int row, int col, int parentRow) const
{
if (row < 0 || col < 0)
return QModelIndex();
QModelIndex parent;
if (parentRow >= 0) {
int numTop = source->rowCount(QModelIndex());
parent = source->index(numTop - 1 - parentRow, 0);
}
int numItems = source->rowCount(parent);
return source->index(numItems - 1 - row, col, parent);
}
int MobileListModel::numSubItems() const
{
if (expandedRow < 0)
return 0;
return source->rowCount(sourceIndex(expandedRow, 0));
}
int MobileListModel::invertRow(const QModelIndex &parent, int row) const
{
int numItems = source->rowCount(parent);
return numItems - 1 - row;
}
int MobileListModel::mapRowFromSourceTopLevel(int row) const
{
// This is a top-level item. If it is after the expanded row,
// we have to add the items of the expanded row.
row = invertRow(QModelIndex(), row);
return expandedRow >= 0 && row > expandedRow ? row + numSubItems() : row;
}
int MobileListModel::mapRowFromSourceTopLevelForInsert(int row) const
{
// This is a top-level item. If it is after the expanded row,
// we have to add the items of the expanded row.
row = invertRow(QModelIndex(), row) + 1;
return expandedRow >= 0 && row > expandedRow ? row + numSubItems() : row;
}
// The parentRow parameter is the row of the expanded trip converted into
// local "coordinates" as a premature optimization.
int MobileListModel::mapRowFromSourceTrip(const QModelIndex &parent, int parentRow, int row) const
{
row = invertRow(parent, row);
if (parentRow != expandedRow) {
qWarning("MobileListModel::mapRowFromSourceTrip() called on non-extended row");
return -1;
}
return expandedRow + 1 + row; // expandedRow + 1 is the row of the first subitem
}
int MobileListModel::mapRowFromSource(const QModelIndex &parent, int row) const
{
if (row < 0)
return -1;
if (!parent.isValid()) {
return mapRowFromSourceTopLevel(row);
} else {
int parentRow = invertRow(QModelIndex(), parent.row());
return mapRowFromSourceTrip(parent, parentRow, row);
}
}
MobileListModel::IndexRange MobileListModel::mapRangeFromSource(const QModelIndex &parent, int first, int last) const
{
int num = last - first; // Actually, that is num - 1 owing to Qt's bizarre range semantics!
// Since we invert the direction, the last will be the first.
if (!parent.isValid()) {
first = mapRowFromSourceTopLevel(last);
// If this includes the extended row, we have to add the subitems
if (first <= expandedRow && first + num >= expandedRow)
num += numSubItems();
return { true, first, first + num };
} else {
int parentRow = invertRow(QModelIndex(), parent.row());
if (parentRow == expandedRow) {
first = mapRowFromSourceTrip(parent, parentRow, last);
return { true, first, first + num };
} else {
return { false, -1, -1 };
}
}
}
// This is fun: when inserting, we point to the item *before* which we
// want to insert. But by inverting the direction we turn that into the item
// *after* which we want to insert. Thus, we have to add one to the range.
// Moreover, here we have to use the first item. TODO: We can remove this
// function once the core-model is sorted appropriately.
MobileListModel::IndexRange MobileListModel::mapRangeFromSourceForInsert(const QModelIndex &parent, int first, int last) const
{
int num = last - first;
if (!parent.isValid()) {
first = mapRowFromSourceTopLevelForInsert(first);
return { true, first, first + num };
} else {
int parentRow = invertRow(QModelIndex(), parent.row());
if (parentRow == expandedRow) {
first = mapRowFromSourceTrip(parent, parentRow, first);
return { true, first + 1, first + 1 + num };
} else {
return { false, -1, -1 };
}
}
}
QModelIndex MobileListModel::mapFromSource(const QModelIndex &idx) const
{
return createIndex(mapRowFromSource(idx.parent(), idx.row()), idx.column());
}
QModelIndex MobileListModel::mapToSource(const QModelIndex &idx) const
{
if (!idx.isValid())
return idx;
int row = idx.row();
int col = idx.column();
if (expandedRow < 0 || row <= expandedRow)
return sourceIndex(row, col);
int numSub = numSubItems();
if (row > expandedRow + numSub)
return sourceIndex(row - numSub, col);
return sourceIndex(row - expandedRow - 1, col, expandedRow);
}
int MobileListModel::rowCount(const QModelIndex &parent) const
{
if (parent.isValid())
return 0; // There is no parent
return source->rowCount() + numSubItems();
}
QVariant MobileListModel::data(const QModelIndex &index, int role) const
{
if (role == IsTopLevelRole)
return index.row() <= expandedRow || index.row() > expandedRow + numSubItems();
return source->data(mapToSource(index), role);
}
// Trivial helper to return and erase the last element of a stack
template<typename T>
static T pop(std::vector<T> &v)
{
T res = v.back();
v.pop_back();
return res;
}
void MobileListModel::prepareRemove(const QModelIndex &parent, int first, int last)
{
IndexRange range = mapRangeFromSource(parent, first, last);
// Check whether we remove a dive from an expanded trip
if (range.visible && parent.isValid()) {
for (int i = first; i <= last; ++i) {
QModelIndex index = source->index(i, 0, parent);
if (source->data(index, DiveTripModelBase::CURRENT_ROLE).value<bool>()) {
// Hack alert: we remove the currently selected dive from a visible trip.
// Therefore, simply collapse the expanded trip. This is done in prepareRemove(),
// i.e. before the base model has actually done any removal and thus things should
// be consistent. Then, we can simply pretend that the range was invisible all along,
// i.e. the removal is a no-op.
unexpand();
range.visible = false;
break;
}
}
}
rangeStack.push_back(range);
if (range.visible)
beginRemoveRows(QModelIndex(), range.first, range.last);
}
void MobileListModel::updateRowAfterRemove(const IndexRange &range, int &row)
{
if (row < 0)
return;
else if (range.first <= row && range.last >= row)
row = -1;
else if (range.first <= row)
row -= range.last - range.first + 1;
}
void MobileListModel::doneRemove(const QModelIndex &parent, int first, int last)
{
IndexRange range = pop(rangeStack);
if (range.visible) {
// Check if we have to move or remove the expanded or current item
updateRowAfterRemove(range, expandedRow);
endRemoveRows();
}
}
void MobileListModel::prepareInsert(const QModelIndex &parent, int first, int last)
{
IndexRange range = mapRangeFromSourceForInsert(parent, first, last);
rangeStack.push_back(range);
if (range.visible)
beginInsertRows(QModelIndex(), range.first, range.last);
}
void MobileListModel::doneInsert(const QModelIndex &parent, int first, int last)
{
IndexRange range = pop(rangeStack);
if (range.visible) {
// Check if we have to move the expanded item
if (!parent.isValid() && expandedRow >= 0 && range.first <= expandedRow)
expandedRow += last - first + 1;
endInsertRows();
} else {
// The range was not visible, thus we inserted into a non-expanded trip.
// However, we might have inserted the current item. This means that we
// have to expand that trip.
// If we inserted a dive that is the current item
QModelIndex index = source->index(parent.row(), 0, QModelIndex());
if (source->data(index, DiveTripModelBase::TRIP_HAS_CURRENT_ROLE).value<bool>()) {
int row = mapRowFromSourceTopLevel(parent.row());
expand(row);
}
}
if (!parent.isValid()) {
// If we inserted a trip that contains the current item, expand that trip
for (int i = first; i <= last; ++i) {
// Accessing data via the model/view API is annoying.
// Perhaps we should simply add a tripHasCurrent(int row) function?
QModelIndex index = source->index(i, 0, QModelIndex());
if (source->data(index, DiveTripModelBase::TRIP_HAS_CURRENT_ROLE).value<bool>()) {
int row = mapRowFromSourceTopLevel(i);
expand(row);
break;
}
}
}
}
// Moving rows is annoying, as there are numerous cases to be considered.
// Some of them degrade to removing or inserting rows.
void MobileListModel::prepareMove(const QModelIndex &parent, int first, int last, const QModelIndex &dest, int destRow)
{
IndexRange range = mapRangeFromSource(parent, first, last);
IndexRange rangeDest = mapRangeFromSourceForInsert(dest, destRow, destRow);
rangeStack.push_back(range);
rangeStack.push_back(rangeDest);
if (!range.visible && !rangeDest.visible)
return;
if (range.visible && !rangeDest.visible)
return prepareRemove(parent, first, last);
if (!range.visible && rangeDest.visible)
return prepareInsert(parent, first, last);
beginMoveRows(QModelIndex(), range.first, range.last, QModelIndex(), rangeDest.first);
}
void MobileListModel::updateRowAfterMove(const IndexRange &range, const IndexRange &rangeDest, int &row)
{
if (row >= 0 && (rangeDest.first < range.first || rangeDest.first > range.last + 1)) {
if (range.first <= row && range.last >= row) {
// Case 1: the expanded row is in the moved range
if (rangeDest.first <= range.first)
row -= range.first - rangeDest.first;
else if (rangeDest.first > range.last + 1)
row += rangeDest.first - (range.last + 1);
} else if (range.first > row && rangeDest.first <= row) {
// Case 2: moving things from behind to before the expanded row
row += range.last - range.first + 1;
} else if (range.first < row && rangeDest.first > row) {
// Case 3: moving things from before to behind the expanded row
row -= range.last - range.first + 1;
}
}
}
void MobileListModel::doneMove(const QModelIndex &parent, int first, int last, const QModelIndex &dest, int destRow)
{
IndexRange rangeDest = pop(rangeStack);
IndexRange range = pop(rangeStack);
if (!range.visible && !rangeDest.visible)
return;
if (range.visible && !rangeDest.visible)
return doneRemove(parent, first, last);
if (!range.visible && rangeDest.visible)
return doneInsert(parent, first, last);
if (expandedRow >= 0 && (rangeDest.first < range.first || rangeDest.first > range.last + 1)) {
if (!parent.isValid() && range.first <= expandedRow && range.last >= expandedRow) {
// Case 1: the expanded row is in the moved range
// Since we don't support sub-trips, this means that we can't move into another trip
if (dest.isValid())
qWarning("MobileListModel::doneMove(): moving trips into a subtrip");
else if (rangeDest.first <= range.first)
expandedRow -= range.first - rangeDest.first;
else if (rangeDest.first > range.last + 1)
expandedRow += rangeDest.first - (range.last + 1);
} else if (range.first > expandedRow && rangeDest.first <= expandedRow) {
// Case 2: moving things from behind to before the expanded row
expandedRow += range.last - range.first + 1;
} else if (range.first < expandedRow && rangeDest.first > expandedRow) {
// Case 3: moving things from before to behind the expanded row
expandedRow -= range.last - range.first + 1;
}
}
updateRowAfterMove(range, rangeDest, expandedRow);
endMoveRows();
}
void MobileListModel::expand(int row)
{
// First, let us treat the trivial cases: expand an invalid row
// or the row is already expanded.
if (row < 0) {
unexpand();
return;
}
if (row == expandedRow)
return;
// Collapse the old expanded row, if any.
if (expandedRow >= 0) {
int numSub = numSubItems();
if (row > expandedRow) {
if (row <= expandedRow + numSub) {
qWarning("MobileListModel::expand(): trying to expand row in trip");
return;
}
row -= numSub;
}
unexpand();
}
int first = row + 1;
QModelIndex tripIdx = sourceIndex(row, 0);
int numRow = source->rowCount(tripIdx);
int last = first + numRow - 1;
if (last < first) {
// Amazingly, Qt's model API doesn't properly handle empty ranges!
expandedRow = row;
return;
}
beginInsertRows(QModelIndex(), first, last);
expandedRow = row;
endInsertRows();
}
void MobileListModel::changed(const QModelIndex &topLeft, const QModelIndex &bottomRight, const QVector<int> &roles)
{
// We don't support changes beyond levels, sorry.
if (topLeft.parent().isValid() != bottomRight.parent().isValid()) {
qWarning("MobileListModel::changed(): changes across different levels. Ignoring.");
return;
}
// Special case CURRENT_ROLE: if a dive in a collapsed trip becomes current, expand that trip
// and if a dive outside of a trip becomes current, collapse any expanded trip.
// Note: changes to current must not be combined with other changes, therefore we can
// assume that roles.size() == 1.
if (roles.size() == 1 && roles[0] == DiveTripModelBase::CURRENT_ROLE &&
source->data(topLeft, DiveTripModelBase::CURRENT_ROLE).value<bool>()) {
if (topLeft.parent().isValid()) {
int parentRow = mapRowFromSourceTopLevel(topLeft.parent().row());
if (parentRow != expandedRow) {
expand(parentRow);
return;
}
} else {
unexpand();
}
}
if (topLeft.parent().isValid()) {
// This is a range in a trip. First do a sanity check.
if (topLeft.parent().row() != bottomRight.parent().row()) {
qWarning("MobileListModel::changed(): changes inside different trips. Ignoring.");
return;
}
// Now check whether this is expanded
IndexRange range = mapRangeFromSource(topLeft.parent(), topLeft.row(), bottomRight.row());
if (!range.visible)
return;
dataChanged(createIndex(range.first, topLeft.column()), createIndex(range.last, bottomRight.column()), roles);
} else {
// This is a top-level range.
IndexRange range = mapRangeFromSource(topLeft.parent(), topLeft.row(), bottomRight.row());
// If the expanded row is outside the region to be updated
// or the last entry in the region to be updated, we can simply
// forward the signal.
if (expandedRow < 0 || expandedRow < range.first || expandedRow >= range.last) {
dataChanged(createIndex(range.first, topLeft.column()), createIndex(range.last, bottomRight.column()), roles);
return;
}
// We have to split this in two parts: before and including the expanded row
// and everything after the expanded row.
int numSub = numSubItems();
dataChanged(createIndex(range.first, topLeft.column()), createIndex(expandedRow, bottomRight.column()), roles);
dataChanged(createIndex(expandedRow + 1 + numSub, topLeft.column()), createIndex(range.last, bottomRight.column()), roles);
}
}
void MobileListModel::invalidate()
{
// Qt's model/view API can't handle empty ranges and we have to subtract one from the last item,
// because ranges are given as [first,last] (i.e. last inclusive).
int rows = rowCount(QModelIndex());
if (rows <= 0)
return;
QModelIndex fromIdx = createIndex(0, 0);
QModelIndex toIdx = createIndex(rows - 1, 0);
dataChanged(fromIdx, toIdx);
}
void MobileListModel::unexpand()
{
if (expandedRow < 0)
return;
int first = expandedRow + 1;
int numRows = numSubItems();
int last = first + numRows - 1;
if (last < first) {
// Amazingly, Qt's model API doesn't properly handle empty ranges!
expandedRow = -1;
return;
}
beginRemoveRows(QModelIndex(), first, last);
expandedRow = -1;
endRemoveRows();
}
void MobileListModel::toggle(int row)
{
if (row < 0)
return;
else if (row == expandedRow)
unexpand();
else
expand(row);
}
MobileSwipeModel::MobileSwipeModel(DiveTripModelBase *source) : MobileListModelBase(source)
{
connect(source, &DiveTripModelBase::modelAboutToBeReset, this, &MobileSwipeModel::beginResetModel);
connect(source, &DiveTripModelBase::modelReset, this, &MobileSwipeModel::doneReset);
connect(source, &DiveTripModelBase::rowsAboutToBeRemoved, this, &MobileSwipeModel::prepareRemove);
connect(source, &DiveTripModelBase::rowsRemoved, this, &MobileSwipeModel::doneRemove);
connect(source, &DiveTripModelBase::rowsAboutToBeInserted, this, &MobileSwipeModel::prepareInsert);
connect(source, &DiveTripModelBase::rowsInserted, this, &MobileSwipeModel::doneInsert);
connect(source, &DiveTripModelBase::rowsAboutToBeMoved, this, &MobileSwipeModel::prepareMove);
connect(source, &DiveTripModelBase::rowsMoved, this, &MobileSwipeModel::doneMove);
connect(source, &DiveTripModelBase::dataChanged, this, &MobileSwipeModel::changed);
initData();
}
// Return the size of a top level item in the source model. Whereby size
// is the number of items it represents in the swipe model:
// A dive has size one, a trip has the size of the number of its items.
// Attention: the given row is expressed in source-coordinates!
int MobileSwipeModel::topLevelRowCountInSource(int sourceRow) const
{
QModelIndex index = source->index(sourceRow, 0, QModelIndex());
return source->data(index, DiveTripModelBase::IS_TRIP_ROLE).value<bool>() ?
source->rowCount(index) : 1;
}
void MobileSwipeModel::initData()
{
rows = 0;
int act = 0;
int topLevelRows = source->rowCount();
firstElement.resize(topLevelRows);
for (int i = 0; i < topLevelRows; ++i) {
firstElement[i] = act;
// Note: we populate the model in reverse order, because we show the newest dives first.
act += topLevelRowCountInSource(topLevelRows - i - 1);
}
rows = act;
invalidateSourceRowCache();
}
void MobileSwipeModel::doneReset()
{
initData();
endResetModel();
}
void MobileSwipeModel::invalidateSourceRowCache() const
{
cachedRow = -1;
cacheSourceParent = QModelIndex();
cacheSourceRow = -1;
}
void MobileSwipeModel::updateSourceRowCache(int localRow) const
{
if (firstElement.empty())
return invalidateSourceRowCache();
cachedRow = localRow;
// Do a binary search for the first top-level item that starts after the given row
auto idx = std::upper_bound(firstElement.begin(), firstElement.end(), localRow);
if (idx == firstElement.begin())
return invalidateSourceRowCache(); // Huh? localRow was negative? Then index->isValid() should have returned true.
--idx;
int topLevelRow = idx - firstElement.begin();
int topLevelRowSource = firstElement.end() - idx - 1; // Reverse direction.
int indexInRow = localRow - *idx;
if (indexInRow == 0) {
// This might be a top-level dive or a one-dive trip. Perhaps we should save which one it is.
if (!source->data(source->index(topLevelRowSource, 0), DiveTripModelBase::IS_TRIP_ROLE).value<bool>()) {
cacheSourceParent = QModelIndex();
cacheSourceRow = topLevelRowSource;
return;
}
}
cacheSourceParent = source->index(topLevelRowSource, 0);
int numElements = elementCountInTopLevel(topLevelRow);
cacheSourceRow = numElements - indexInRow - 1;
}
QModelIndex MobileSwipeModel::mapToSource(const QModelIndex &index) const
{
if (!index.isValid())
return QModelIndex();
if (index.row() != cachedRow)
updateSourceRowCache(index.row());
return cacheSourceRow >= 0 ? source->index(cacheSourceRow, index.column(), cacheSourceParent) : QModelIndex();
}
int MobileSwipeModel::mapTopLevelFromSource(int row) const
{
return firstElement.size() - row - 1;
}
int MobileSwipeModel::mapTopLevelFromSourceForInsert(int row) const
{
return firstElement.size() - row;
}
int MobileSwipeModel::elementCountInTopLevel(int row) const
{
if (row < 0 || row >= (int)firstElement.size())
return 0;
if (row + 1 < (int)firstElement.size())
return firstElement[row + 1] - firstElement[row];
else
return rows - firstElement[row];
}
int MobileSwipeModel::mapRowFromSource(const QModelIndex &parent, int row) const
{
if (parent.isValid()) {
int topLevelRow = mapTopLevelFromSource(parent.row());
int count = elementCountInTopLevel(topLevelRow);
return firstElement[topLevelRow] + count - row - 1; // Note: we invert the direction!
} else {
int topLevelRow = mapTopLevelFromSource(row);
return firstElement[topLevelRow];
}
}
int MobileSwipeModel::mapRowFromSource(const QModelIndex &idx) const
{
return mapRowFromSource(idx.parent(), idx.row());
}
int MobileSwipeModel::mapRowFromSourceForInsert(const QModelIndex &parent, int row) const
{
if (parent.isValid()) {
int topLevelRow = mapTopLevelFromSource(parent.row());
int count = elementCountInTopLevel(topLevelRow);
return firstElement[topLevelRow] + count - row; // Note: we invert the direction!
} else {
if (row == 0)
return rows; // Insert at the end
int topLevelRow = mapTopLevelFromSource(row - 1);
return firstElement[topLevelRow]; // Note: we invert the direction!
}
}
MobileSwipeModel::IndexRange MobileSwipeModel::mapRangeFromSource(const QModelIndex &parent, int first, int last) const
{
// Since we invert the direction, the last will be the first.
if (!parent.isValid()) {
int localFirst = mapRowFromSource(QModelIndex(), last);
// Point to the *last* item in the topLevelRange. Yay for Qt's bizzare [first,last] range-semantics.
int localLast = mapRowFromSource(QModelIndex(), first);
int topLevelLast = mapTopLevelFromSource(first);
localLast += elementCountInTopLevel(topLevelLast) - 1;
return { localFirst, localLast };
} else {
// For items inside trips we can simply translate them, as they cannot contain subitems.
// Remember to reverse the direction, though.
return { mapRowFromSource(parent, last), mapRowFromSource(parent, first) };
}
}
// Remove top-level items. Parameters with standard range semantics (pointer to first and past last element).
int MobileSwipeModel::removeTopLevel(int begin, int end)
{
auto it1 = firstElement.begin() + begin;
auto it2 = firstElement.begin() + end;
int count = 0; // Number of items we have to subtract from rest
for (int row = begin; row < end; ++row)
count += elementCountInTopLevel(row);
firstElement.erase(it1, it2); // Remove items
for (auto act = firstElement.begin() + begin; act != firstElement.end(); ++act)
*act -= count; // Subtract removed items
rows -= count;
return count;
}
// Add or remove subitems from top-level items
void MobileSwipeModel::updateTopLevel(int row, int delta)
{
for (int i = row + 1; i < (int)firstElement.size(); ++i)
firstElement[i] += delta;
rows += delta;
}
// Add items at top-level. The number of subelements of each items is given in the second parameter.
void MobileSwipeModel::addTopLevel(int row, std::vector<int> items)
{
// We get an array with the number of items per inserted row.
// Transform that to the first element in each row.
int nextEl = row < (int)firstElement.size() ? firstElement[row] : rows;
int count = 0;
for (int &item: items) {
int num = item;
item = nextEl;
nextEl += num;
count += num;
}
// Now, increase the first element of the items after the inserted range
// by the number of inserted items.
auto it = firstElement.begin() + row;
for (auto act = it; act != firstElement.end(); ++act)
*act += count;
rows += count;
// Insert the range
firstElement.insert(it, items.begin(), items.end());
}
void MobileSwipeModel::prepareRemove(const QModelIndex &parent, int first, int last)
{
IndexRange range = mapRangeFromSource(parent, first, last);
rangeStack.push_back(range);
if (range.last >= range.first)
beginRemoveRows(QModelIndex(), range.first, range.last);
}
void MobileSwipeModel::doneRemove(const QModelIndex &parent, int first, int last)
{
IndexRange range = pop(rangeStack);
if (range.last < range.first)
return;
if (!parent.isValid()) {
// This is a top-level range. This means that we have to remove top-level items.
// Remember to invert the direction.
removeTopLevel(mapTopLevelFromSource(last), mapTopLevelFromSource(first) + 1);
} else {
// This is part of a trip. Only the number of items has to be changed.
updateTopLevel(mapTopLevelFromSource(parent.row()), -(last - first + 1));
}
invalidateSourceRowCache();
endRemoveRows();
}
void MobileSwipeModel::prepareInsert(const QModelIndex &parent, int first, int last)
{
// We can not call beginInsertRows here, because before the source model
// has inserted its rows we don't know how many subitems there are!
}
void MobileSwipeModel::doneInsert(const QModelIndex &parent, int first, int last)
{
if (!parent.isValid()) {
// This is a top-level range. This means that we have to add top-level items.
// Create vector of new top-level items
std::vector<int> items;
items.reserve(last - first + 1);
int count = 0;
for (int row = last; row >= first; --row) {
items.push_back(topLevelRowCountInSource(row));
count += items.back();
}
int firstLocal = mapTopLevelFromSourceForInsert(first);
if (firstLocal >= 0) {
beginInsertRows(QModelIndex(), firstLocal, firstLocal + count - 1);
addTopLevel(firstLocal, std::move(items));
endInsertRows();
} else {
qWarning("MobileSwipeModel::doneInsert(): invalid source index!\n");
}
} else {
// This is part of a trip. Only the number of items has to be changed.
int row = mapRowFromSourceForInsert(parent, first);
int count = last - first + 1;
beginInsertRows(QModelIndex(), row, row + count - 1);
updateTopLevel(mapTopLevelFromSource(parent.row()), count);
endInsertRows();
}
invalidateSourceRowCache();
}
void MobileSwipeModel::prepareMove(const QModelIndex &parent, int first, int last, const QModelIndex &dest, int destRow)
{
IndexRange range = mapRangeFromSource(parent, first, last);
rangeStack.push_back(range);
if (range.last >= range.first)
beginMoveRows(QModelIndex(), range.first, range.last, QModelIndex(), mapRowFromSourceForInsert(dest, destRow));
}
void MobileSwipeModel::doneMove(const QModelIndex &parent, int first, int last, const QModelIndex &dest, int destRow)
{
IndexRange range = pop(rangeStack);
if (range.last < range.first)
return;
// Moving is annoying. There are four cases to consider, depending whether
// we move in / out of a top-level item!
if (!parent.isValid() && !dest.isValid()) {
// From top-level to top-level
if (destRow < first || destRow > last + 1) {
int beginLocal = mapTopLevelFromSource(last);
int endLocal = mapTopLevelFromSource(first) + 1;
int destLocal = mapTopLevelFromSourceForInsert(destRow);
int count = endLocal - beginLocal;
std::vector<int> items;
items.reserve(count);
for (int row = beginLocal; row < endLocal; ++row) {
items.push_back(row < (int)firstElement.size() - 1 ? firstElement[row + 1] - firstElement[row]
: rows - firstElement[row]);
}
removeTopLevel(mapTopLevelFromSource(last), mapTopLevelFromSource(first) + 1);
if (destLocal >= beginLocal)
destLocal -= count;
addTopLevel(destLocal, std::move(items));
}
} else if (!parent.isValid() && dest.isValid()) {
// From top-level to trip
int beginLocal = mapTopLevelFromSource(last);
int endLocal = mapTopLevelFromSource(first) + 1;
int destLocal = mapTopLevelFromSourceForInsert(dest.row());
int count = endLocal - beginLocal;
int numMoved = removeTopLevel(beginLocal, endLocal);
if (destLocal >= beginLocal)
destLocal -= count;
updateTopLevel(destLocal, numMoved);
} else if (parent.isValid() && !dest.isValid()) {
// From trip to top-level
int fromLocal = mapTopLevelFromSource(parent.row());
int toLocal = mapTopLevelFromSourceForInsert(dest.row());
int numMoved = last - first + 1;
std::vector<int> items(numMoved, 1); // This can only be dives -> item count is 1
updateTopLevel(fromLocal, -numMoved);
addTopLevel(toLocal, std::move(items));
} else {
// From trip to other trip
int fromLocal = mapTopLevelFromSource(parent.row());
int toLocal = mapTopLevelFromSourceForInsert(dest.row());
int numMoved = last - first + 1;
if (fromLocal != toLocal) {
updateTopLevel(fromLocal, -numMoved);
updateTopLevel(toLocal, numMoved);
}
}
invalidateSourceRowCache();
endMoveRows();
}
void MobileSwipeModel::changed(const QModelIndex &topLeft, const QModelIndex &bottomRight, const QVector<int> &roles)
{
if (!topLeft.isValid() || !bottomRight.isValid())
return;
// We don't display trips in the swipe model. If we get changed signals for that - ignore it.
// Subtle: we only check that for single-row changes, because the source model sends changes
// to trips one-by-one. The way we query the source model is ... not nice to read.
if (topLeft.row() == bottomRight.row() &&
source->data(topLeft, DiveTripModelBase::IS_TRIP_ROLE).value<bool>())
return;
int fromSource = mapRowFromSource(bottomRight);
int toSource = mapRowFromSource(topLeft);
QModelIndex fromIdx = createIndex(fromSource, topLeft.column());
QModelIndex toIdx = createIndex(toSource, bottomRight.column());
dataChanged(fromIdx, toIdx, roles);
// Special case CURRENT_ROLE: if a dive becomes current, we send a signal so that the
// dive-details page can update the current dive. It would be nicer if the frontend could
// hook into the changed-signal, but currently I don't know how this works in QML.
// Note: changes to current must not be combined with other changes, therefore we can
// assume that roles.size() == 1.
if (roles.size() == 1 && roles[0] == DiveTripModelBase::CURRENT_ROLE &&
source->data(topLeft, DiveTripModelBase::CURRENT_ROLE).value<bool>())
emit currentDiveChanged(fromIdx);
}
void MobileSwipeModel::invalidate()
{
// Qt's model/view API can't handle empty ranges and we have to subtract one from the last item,
// because ranges are given as [first,last] (i.e. last inclusive).
int rows = rowCount(QModelIndex());
if (rows <= 0)
return;
QModelIndex fromIdx = createIndex(0, 0);
QModelIndex toIdx = createIndex(rows - 1, 0);
dataChanged(fromIdx, toIdx);
}
QVariant MobileSwipeModel::data(const QModelIndex &index, int role) const
{
return source->data(mapToSource(index), role);
}
int MobileSwipeModel::rowCount(const QModelIndex &parent) const
{
if (parent.isValid())
return 0; // There is no parent
return rows;
}
MobileModels *MobileModels::instance()
{
static MobileModels self;
return &self;
}
MobileModels::MobileModels() :
lm(&source),
sm(&source)
{
}
MobileListModel *MobileModels::listModel()
{
return &lm;
}
MobileSwipeModel *MobileModels::swipeModel()
{
return &sm;
}
// This is called when the settings changed. Instead of rebuilding the model, send a changed signal on all entries.
void MobileModels::invalidate()
{
sm.invalidate();
sm.invalidate();
}