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reintroducing clicked and hovered signals to barset. Makes some things easier on QML api
reintroducing clicked and hovered signals to barset. Makes some things easier on QML api

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qpiemodelmapper.cpp
629 lines | 20.0 KiB | text/x-c | CppLexer
/****************************************************************************
**
** Copyright (C) 2012 Digia Plc
** All rights reserved.
** For any questions to Digia, please use contact form at http://qt.digia.com
**
** This file is part of the Qt Commercial Charts Add-on.
**
** $QT_BEGIN_LICENSE$
** Licensees holding valid Qt Commercial licenses may use this file in
** accordance with the Qt Commercial License Agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia.
**
** If you have questions regarding the use of this file, please use
** contact form at http://qt.digia.com
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qpiemodelmapper_p.h"
#include "qpiemodelmapper.h"
#include "qpieseries.h"
#include "qpieslice.h"
#include <QAbstractItemModel>
QTCOMMERCIALCHART_BEGIN_NAMESPACE
/*!
\class QPieModelMapper
\brief part of QtCommercial chart API.
\mainclass
Model mappers allow you to use QAbstractItemModel derived models as a data source for a chart series.
The instance of this class cannot be created directly. QHPieModelMapper of QVPieModelMapper should be used instead. This class is used to create a connection between QPieSeries and QAbstractItemModel derived model object.
It is possible to use both QAbstractItemModel and QPieSeries model API. QPieModelMapper makes sure that Pie and the model are kept in sync.
NOTE: used model has to support adding/removing rows/columns and modifying the data of the cells.
*/
/*!
\property QPieModelMapper::series
\brief Defines the QPieSeries object that is used by the mapper.
All the data in the series is discarded when it is set to the mapper.
When new series is specified the old series is disconnected (it preserves its data)
*/
/*!
\property QPieModelMapper::model
\brief Defines the model that is used by the mapper.
*/
/*!
\property QPieModelMapper::first
\brief Defines which item of the model's row/column should be mapped as the value/label of the first slice of the pie
Minimal and default value is: 0
*/
/*!
\property QPieModelMapper::count
\brief Defines the number of rows/columns of the model that are mapped as the data for the pie.
Minimal and default value is: -1 (count limited by the number of rows/columns in the model)
*/
/*!
\fn void QPieModelMapper::seriesReplaced()
Emitted when the series to which mapper is connected to has changed.
*/
/*!
\fn void QPieModelMapper::modelReplaced()
Emitted when the model to which mapper is connected to has changed.
*/
/*!
\fn void QPieModelMapper::firstChanged()
Emitted when the value for the first has changed.
*/
/*!
\fn void QPieModelMapper::countChanged()
Emitted when the value for the count has changed.
*/
/*!
Constructs a mapper object which is a child of \a parent.
*/
QPieModelMapper::QPieModelMapper(QObject *parent) :
QObject(parent),
d_ptr(new QPieModelMapperPrivate(this))
{
}
QAbstractItemModel* QPieModelMapper::model() const
{
Q_D(const QPieModelMapper);
return d->m_model;
}
void QPieModelMapper::setModel(QAbstractItemModel *model)
{
if (model == 0)
return;
Q_D(QPieModelMapper);
if (d->m_model) {
disconnect(d->m_model, 0, d, 0);
}
d->m_model = model;
d->initializePieFromModel();
// connect signals from the model
connect(d->m_model, SIGNAL(dataChanged(QModelIndex,QModelIndex)), d, SLOT(modelUpdated(QModelIndex,QModelIndex)));
connect(d->m_model, SIGNAL(rowsInserted(QModelIndex,int,int)), d, SLOT(modelRowsAdded(QModelIndex,int,int)));
connect(d->m_model, SIGNAL(rowsRemoved(QModelIndex,int,int)), d, SLOT(modelRowsRemoved(QModelIndex,int,int)));
connect(d->m_model, SIGNAL(columnsInserted(QModelIndex,int,int)), d, SLOT(modelColumnsAdded(QModelIndex,int,int)));
connect(d->m_model, SIGNAL(columnsRemoved(QModelIndex,int,int)), d, SLOT(modelColumnsRemoved(QModelIndex,int,int)));
emit modelReplaced();
}
QPieSeries* QPieModelMapper::series() const
{
Q_D(const QPieModelMapper);
return d->m_series;
}
void QPieModelMapper::setSeries(QPieSeries *series)
{
Q_D(QPieModelMapper);
if (d->m_series) {
disconnect(d->m_series, 0, d, 0);
}
if (series == 0)
return;
d->m_series = series;
d->initializePieFromModel();
// connect the signals from the series
connect(d->m_series, SIGNAL(added(QList<QPieSlice*>)), d, SLOT(slicesAdded(QList<QPieSlice*>)));
connect(d->m_series, SIGNAL(removed(QList<QPieSlice*>)), d, SLOT(slicesRemoved(QList<QPieSlice*>)));
emit seriesReplaced();
}
int QPieModelMapper::first() const
{
Q_D(const QPieModelMapper);
return d->m_first;
}
void QPieModelMapper::setFirst(int first)
{
Q_D(QPieModelMapper);
if (first != d->m_first) {
d->m_first = qMax(first, 0);
d->initializePieFromModel();
emit firstChanged();
}
}
int QPieModelMapper::count() const
{
Q_D(const QPieModelMapper);
return d->m_count;
}
void QPieModelMapper::setCount(int count)
{
Q_D(QPieModelMapper);
if (count != d->m_count) {
d->m_count = qMax(count, -1);
d->initializePieFromModel();
emit countChanged();
}
}
/*!
Returns the orientation that is used when QPieModelMapper accesses the model.
This mean whether the consecutive values/labels of the pie are read from row (Qt::Horizontal)
or from columns (Qt::Vertical)
*/
Qt::Orientation QPieModelMapper::orientation() const
{
Q_D(const QPieModelMapper);
return d->m_orientation;
}
/*!
Returns the \a orientation that is used when QPieModelMapper accesses the model.
This mean whether the consecutive values/labels of the pie are read from row (Qt::Horizontal)
or from columns (Qt::Vertical)
*/
void QPieModelMapper::setOrientation(Qt::Orientation orientation)
{
Q_D(QPieModelMapper);
d->m_orientation = orientation;
d->initializePieFromModel();
}
/*!
Returns which section of the model is kept in sync with the values of the pie's slices
*/
int QPieModelMapper::valuesSection() const
{
Q_D(const QPieModelMapper);
return d->m_valuesSection;
}
/*!
Sets the model section that is kept in sync with the pie slices values.
Parameter \a valuesSection specifies the section of the model.
*/
void QPieModelMapper::setValuesSection(int valuesSection)
{
Q_D(QPieModelMapper);
d->m_valuesSection = qMax(-1, valuesSection);
d->initializePieFromModel();
}
/*!
Returns which section of the model is kept in sync with the labels of the pie's slices
*/
int QPieModelMapper::labelsSection() const
{
Q_D(const QPieModelMapper);
return d->m_labelsSection;
}
/*!
Sets the model section that is kept in sync with the pie slices labels.
Parameter \a labelsSection specifies the section of the model.
*/
void QPieModelMapper::setLabelsSection(int labelsSection)
{
Q_D(QPieModelMapper);
d->m_labelsSection = qMax(-1, labelsSection);
d->initializePieFromModel();
}
/*!
Resets the QPieModelMapper to the default state.
first: 0; count: -1; valuesSection: -1; labelsSection: -1;
*/
void QPieModelMapper::reset()
{
Q_D(QPieModelMapper);
d->m_first = 0;
d->m_count = -1;
d->m_valuesSection = -1;
d->m_labelsSection = -1;
}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
QPieModelMapperPrivate::QPieModelMapperPrivate(QPieModelMapper *q) :
m_series(0),
m_model(0),
m_first(0),
m_count(-1),
m_orientation(Qt::Vertical),
m_valuesSection(-1),
m_labelsSection(-1),
m_seriesSignalsBlock(false),
m_modelSignalsBlock(false),
q_ptr(q)
{
}
void QPieModelMapperPrivate::blockModelSignals(bool block)
{
m_modelSignalsBlock = block;
}
void QPieModelMapperPrivate::blockSeriesSignals(bool block)
{
m_seriesSignalsBlock = block;
}
QPieSlice* QPieModelMapperPrivate::pieSlice(QModelIndex index) const
{
if (!index.isValid())
return 0; // index is invalid
if (m_orientation == Qt::Vertical && (index.column() == m_valuesSection || index.column() == m_labelsSection)) {
if (index.row() >= m_first && (m_count == - 1 || index.row() < m_first + m_count)) {
if (m_model->index(index.row(), m_valuesSection).isValid() && m_model->index(index.row(), m_labelsSection).isValid())
return m_series->slices().at(index.row() - m_first);
else
return 0;
}
} else if (m_orientation == Qt::Horizontal && (index.row() == m_valuesSection || index.row() == m_labelsSection)) {
if (index.column() >= m_first && (m_count == - 1 || index.column() < m_first + m_count)) {
if (m_model->index(m_valuesSection, index.column()).isValid() && m_model->index(m_labelsSection, index.column()).isValid())
return m_series->slices().at(index.column() - m_first);
else
return 0;
}
}
return 0; // This part of model has not been mapped to any slice
}
QModelIndex QPieModelMapperPrivate::valueModelIndex(int slicePos)
{
if (m_count != -1 && slicePos >= m_count)
return QModelIndex(); // invalid
if (m_orientation == Qt::Vertical)
return m_model->index(slicePos + m_first, m_valuesSection);
else
return m_model->index(m_valuesSection, slicePos + m_first);
}
QModelIndex QPieModelMapperPrivate::labelModelIndex(int slicePos)
{
if (m_count != -1 && slicePos >= m_count)
return QModelIndex(); // invalid
if (m_orientation == Qt::Vertical)
return m_model->index(slicePos + m_first, m_labelsSection);
else
return m_model->index(m_labelsSection, slicePos + m_first);
}
bool QPieModelMapperPrivate::isLabelIndex(QModelIndex index) const
{
if (m_orientation == Qt::Vertical && index.column() == m_labelsSection)
return true;
else if (m_orientation == Qt::Horizontal && index.row() == m_labelsSection)
return true;
return false;
}
bool QPieModelMapperPrivate::isValueIndex(QModelIndex index) const
{
if (m_orientation == Qt::Vertical && index.column() == m_valuesSection)
return true;
else if (m_orientation == Qt::Horizontal && index.row() == m_valuesSection)
return true;
return false;
}
void QPieModelMapperPrivate::slicesAdded(QList<QPieSlice*> slices)
{
if (m_seriesSignalsBlock)
return;
if (slices.count() == 0)
return;
int firstIndex = m_series->slices().indexOf(slices.at(0));
if (firstIndex == -1)
return;
if (m_count != -1)
m_count += slices.count();
for (int i = firstIndex; i < firstIndex + slices.count(); i++) {
m_slices.insert(i, slices.at(i - firstIndex));
connect(slices.at(i - firstIndex), SIGNAL(labelChanged()), this, SLOT(sliceLabelChanged()));
connect(slices.at(i - firstIndex), SIGNAL(valueChanged()), this, SLOT(sliceValueChanged()));
}
blockModelSignals();
if (m_orientation == Qt::Vertical)
m_model->insertRows(firstIndex + m_first, slices.count());
else
m_model->insertColumns(firstIndex + m_first, slices.count());
for(int i = firstIndex; i < firstIndex + slices.count(); i++) {
m_model->setData(valueModelIndex(i), slices.at(i - firstIndex)->value());
m_model->setData(labelModelIndex(i), slices.at(i - firstIndex)->label());
}
blockModelSignals(false);
}
void QPieModelMapperPrivate::slicesRemoved(QList<QPieSlice*> slices)
{
if (m_seriesSignalsBlock)
return;
if (slices.count() == 0)
return;
int firstIndex = m_slices.indexOf(slices.at(0));
if (firstIndex == -1)
return;
if (m_count != -1)
m_count -= slices.count();
for (int i = firstIndex + slices.count() - 1; i >= firstIndex; i--)
m_slices.removeAt(i);
blockModelSignals();
if (m_orientation == Qt::Vertical)
m_model->removeRows(firstIndex + m_first, slices.count());
else
m_model->removeColumns(firstIndex + m_first, slices.count());
blockModelSignals(false);
}
void QPieModelMapperPrivate::sliceLabelChanged()
{
if (m_seriesSignalsBlock)
return;
blockModelSignals();
QPieSlice *slice = qobject_cast<QPieSlice *>(QObject::sender());
m_model->setData(labelModelIndex(m_series->slices().indexOf(slice)), slice->label());
blockModelSignals(false);
}
void QPieModelMapperPrivate::sliceValueChanged()
{
if (m_seriesSignalsBlock)
return;
blockModelSignals();
QPieSlice *slice = qobject_cast<QPieSlice *>(QObject::sender());
m_model->setData(valueModelIndex(m_series->slices().indexOf(slice)), slice->value());
blockModelSignals(false);
}
void QPieModelMapperPrivate::modelUpdated(QModelIndex topLeft, QModelIndex bottomRight)
{
if (m_model == 0 || m_series == 0)
return;
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
QModelIndex index;
QPieSlice *slice;
for (int row = topLeft.row(); row <= bottomRight.row(); row++) {
for (int column = topLeft.column(); column <= bottomRight.column(); column++) {
index = topLeft.sibling(row, column);
slice = pieSlice(index);
if (slice) {
if (isValueIndex(index))
slice->setValue(m_model->data(index, Qt::DisplayRole).toReal());
if (isLabelIndex(index))
slice->setLabel(m_model->data(index, Qt::DisplayRole).toString());
}
}
}
blockSeriesSignals(false);
}
void QPieModelMapperPrivate::modelRowsAdded(QModelIndex parent, int start, int end)
{
Q_UNUSED(parent);
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
if (m_orientation == Qt::Vertical)
insertData(start, end);
else if (start <= m_valuesSection || start <= m_labelsSection) // if the changes affect the map - reinitialize the pie
initializePieFromModel();
blockSeriesSignals(false);
}
void QPieModelMapperPrivate::modelRowsRemoved(QModelIndex parent, int start, int end)
{
Q_UNUSED(parent);
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
if (m_orientation == Qt::Vertical)
removeData(start, end);
else if (start <= m_valuesSection || start <= m_labelsSection) // if the changes affect the map - reinitialize the pie
initializePieFromModel();
blockSeriesSignals(false);
}
void QPieModelMapperPrivate::modelColumnsAdded(QModelIndex parent, int start, int end)
{
Q_UNUSED(parent);
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
if (m_orientation == Qt::Horizontal)
insertData(start, end);
else if (start <= m_valuesSection || start <= m_labelsSection) // if the changes affect the map - reinitialize the pie
initializePieFromModel();
blockSeriesSignals(false);
}
void QPieModelMapperPrivate::modelColumnsRemoved(QModelIndex parent, int start, int end)
{
Q_UNUSED(parent);
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
if (m_orientation == Qt::Horizontal)
removeData(start, end);
else if (start <= m_valuesSection || start <= m_labelsSection) // if the changes affect the map - reinitialize the pie
initializePieFromModel();
blockSeriesSignals(false);
}
void QPieModelMapperPrivate::insertData(int start, int end)
{
if (m_model == 0 || m_series == 0)
return;
if (m_count != -1 && start >= m_first + m_count) {
return;
} else {
int addedCount = end - start + 1;
if (m_count != -1 && addedCount > m_count)
addedCount = m_count;
int first = qMax(start, m_first);
int last = qMin(first + addedCount - 1, m_orientation == Qt::Vertical ? m_model->rowCount() - 1 : m_model->columnCount() - 1);
for (int i = first; i <= last; i++) {
QModelIndex valueIndex = valueModelIndex(i - m_first);
QModelIndex labelIndex = labelModelIndex(i - m_first);
if (valueIndex.isValid() && labelIndex.isValid()) {
QPieSlice *slice = new QPieSlice;
slice->setValue(m_model->data(valueIndex, Qt::DisplayRole).toDouble());
slice->setLabel(m_model->data(labelIndex, Qt::DisplayRole).toString());
connect(slice, SIGNAL(labelChanged()), this, SLOT(sliceLabelChanged()));
connect(slice, SIGNAL(valueChanged()), this, SLOT(sliceValueChanged()));
m_series->insert(i - m_first, slice);
m_slices.insert(i - m_first, slice);
}
}
// remove excess of slices (abouve m_count)
if (m_count != -1 && m_series->slices().size() > m_count)
for (int i = m_series->slices().size() - 1; i >= m_count; i--) {
m_series->remove(m_series->slices().at(i));
m_slices.removeAt(i);
}
}
}
void QPieModelMapperPrivate::removeData(int start, int end)
{
if (m_model == 0 || m_series == 0)
return;
int removedCount = end - start + 1;
if (m_count != -1 && start >= m_first + m_count) {
return;
} else {
int toRemove = qMin(m_series->slices().size(), removedCount); // first find how many items can actually be removed
int first = qMax(start, m_first); // get the index of the first item that will be removed.
int last = qMin(first + toRemove - 1, m_series->slices().size() + m_first - 1); // get the index of the last item that will be removed.
for (int i = last; i >= first; i--) {
m_series->remove(m_series->slices().at(i - m_first));
m_slices.removeAt(i - m_first);
}
if (m_count != -1) {
int itemsAvailable; // check how many are available to be added
if (m_orientation == Qt::Vertical)
itemsAvailable = m_model->rowCount() - m_first - m_series->slices().size();
else
itemsAvailable = m_model->columnCount() - m_first - m_series->slices().size();
int toBeAdded = qMin(itemsAvailable, m_count - m_series->slices().size()); // add not more items than there is space left to be filled.
int currentSize = m_series->slices().size();
if (toBeAdded > 0)
for (int i = m_series->slices().size(); i < currentSize + toBeAdded; i++) {
QModelIndex valueIndex = valueModelIndex(i - m_first);
QModelIndex labelIndex = labelModelIndex(i - m_first);
if (valueIndex.isValid() && labelIndex.isValid()) {
QPieSlice *slice = new QPieSlice;
slice->setValue(m_model->data(valueIndex, Qt::DisplayRole).toDouble());
slice->setLabel(m_model->data(labelIndex, Qt::DisplayRole).toString());
m_series->insert(i, slice);
m_slices.insert(i, slice);
}
}
}
}
}
void QPieModelMapperPrivate::initializePieFromModel()
{
if (m_model == 0 || m_series == 0)
return;
blockSeriesSignals();
// clear current content
m_series->clear();
m_slices.clear();
// create the initial slices set
int slicePos = 0;
QModelIndex valueIndex = valueModelIndex(slicePos);
QModelIndex labelIndex = labelModelIndex(slicePos);
while (valueIndex.isValid() && labelIndex.isValid()) {
QPieSlice *slice = new QPieSlice;
slice->setLabel(m_model->data(labelIndex, Qt::DisplayRole).toString());
slice->setValue(m_model->data(valueIndex, Qt::DisplayRole).toDouble());
connect(slice, SIGNAL(labelChanged()), this, SLOT(sliceLabelChanged()));
connect(slice, SIGNAL(valueChanged()), this, SLOT(sliceValueChanged()));
m_series->append(slice);
m_slices.append(slice);
slicePos++;
valueIndex = valueModelIndex(slicePos);
labelIndex = labelModelIndex(slicePos);
}
blockSeriesSignals(false);
}
#include "moc_qpiemodelmapper_p.cpp"
#include "moc_qpiemodelmapper.cpp"
QTCOMMERCIALCHART_END_NAMESPACE