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QML chart properties tester to match the current QML api
QML chart properties tester to match the current QML api

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qxymodelmapper.cpp
506 lines | 15.3 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 "qxymodelmapper.h"
#include "qxymodelmapper_p.h"
#include "qxyseries.h"
#include <QAbstractItemModel>
QTCOMMERCIALCHART_BEGIN_NAMESPACE
/*!
Constructs a mapper object which is a child of \a parent.
*/
QXYModelMapper::QXYModelMapper(QObject *parent):
QObject(parent),
d_ptr(new QXYModelMapperPrivate(this))
{
}
/*!
\internal
*/
QAbstractItemModel* QXYModelMapper::model() const
{
Q_D(const QXYModelMapper);
return d->m_model;
}
/*!
\internal
*/
void QXYModelMapper::setModel(QAbstractItemModel *model)
{
if (model == 0)
return;
Q_D(QXYModelMapper);
if (d->m_model) {
disconnect(d->m_model, 0, d, 0);
}
d->m_model = model;
d->initializeXYFromModel();
// 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)));
connect(d->m_model, SIGNAL(destroyed()), d, SLOT(handleModelDestroyed()));
}
/*!
\internal
*/
QXYSeries* QXYModelMapper::series() const
{
Q_D(const QXYModelMapper);
return d->m_series;
}
/*!
\internal
*/
void QXYModelMapper::setSeries(QXYSeries *series)
{
Q_D(QXYModelMapper);
if (d->m_series) {
disconnect(d->m_series, 0, d, 0);
}
if (series == 0)
return;
d->m_series = series;
d->initializeXYFromModel();
// connect the signals from the series
connect(d->m_series, SIGNAL(pointAdded(int)), d, SLOT(handlePointAdded(int)));
connect(d->m_series, SIGNAL(pointRemoved(int)), d, SLOT(handlePointRemoved(int)));
connect(d->m_series, SIGNAL(pointReplaced(int)), d, SLOT(handlePointReplaced(int)));
connect(d->m_series, SIGNAL(destroyed()), d, SLOT(handleSeriesDestroyed()));
}
/*!
\internal
*/
int QXYModelMapper::first() const
{
Q_D(const QXYModelMapper);
return d->m_first;
}
/*!
\internal
*/
void QXYModelMapper::setFirst(int first)
{
Q_D(QXYModelMapper);
d->m_first = qMax(first, 0);
d->initializeXYFromModel();
}
/*!
\internal
*/
int QXYModelMapper::count() const
{
Q_D(const QXYModelMapper);
return d->m_count;
}
/*!
\internal
*/
void QXYModelMapper::setCount(int count)
{
Q_D(QXYModelMapper);
d->m_count = qMax(count, -1);
d->initializeXYFromModel();
}
/*!
Returns the orientation that is used when QXYModelMapper accesses the model.
This mean whether the consecutive x/y values of the QXYSeries are read from rows (Qt::Horizontal)
or from columns (Qt::Vertical)
*/
Qt::Orientation QXYModelMapper::orientation() const
{
Q_D(const QXYModelMapper);
return d->m_orientation;
}
/*!
Returns the \a orientation that is used when QXYModelMapper accesses the model.
This mean whether the consecutive x/y values of the QXYSeries are read from rows (Qt::Horizontal)
or from columns (Qt::Vertical)
*/
void QXYModelMapper::setOrientation(Qt::Orientation orientation)
{
Q_D(QXYModelMapper);
d->m_orientation = orientation;
d->initializeXYFromModel();
}
/*!
Returns which section of the model is kept in sync with the x values of the QXYSeries
*/
int QXYModelMapper::xSection() const
{
Q_D(const QXYModelMapper);
return d->m_xSection;
}
/*!
Sets the model section that is kept in sync with the x values of the QXYSeries.
Parameter \a xSection specifies the section of the model.
*/
void QXYModelMapper::setXSection(int xSection)
{
Q_D(QXYModelMapper);
d->m_xSection = qMax(-1, xSection);
d->initializeXYFromModel();
}
/*!
Returns which section of the model is kept in sync with the y values of the QXYSeries
*/
int QXYModelMapper::ySection() const
{
Q_D(const QXYModelMapper);
return d->m_ySection;
}
/*!
Sets the model section that is kept in sync with the y values of the QXYSeries.
Parameter \a ySection specifies the section of the model.
*/
void QXYModelMapper::setYSection(int ySection)
{
Q_D(QXYModelMapper);
d->m_ySection = qMax(-1, ySection);
d->initializeXYFromModel();
}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
QXYModelMapperPrivate::QXYModelMapperPrivate(QXYModelMapper *q) :
QObject(q),
m_series(0),
m_model(0),
m_first(0),
m_count(-1),
m_orientation(Qt::Vertical),
m_xSection(-1),
m_ySection(-1),
m_seriesSignalsBlock(false),
m_modelSignalsBlock(false),
q_ptr(q)
{
}
void QXYModelMapperPrivate::blockModelSignals(bool block)
{
m_modelSignalsBlock = block;
}
void QXYModelMapperPrivate::blockSeriesSignals(bool block)
{
m_seriesSignalsBlock = block;
}
QModelIndex QXYModelMapperPrivate::xModelIndex(int xPos)
{
if (m_count != -1 && xPos >= m_count)
return QModelIndex(); // invalid
if (m_orientation == Qt::Vertical)
return m_model->index(xPos + m_first, m_xSection);
else
return m_model->index(m_xSection, xPos + m_first);
}
QModelIndex QXYModelMapperPrivate::yModelIndex(int yPos)
{
if (m_count != -1 && yPos >= m_count)
return QModelIndex(); // invalid
if (m_orientation == Qt::Vertical)
return m_model->index(yPos + m_first, m_ySection);
else
return m_model->index(m_ySection, yPos + m_first);
}
void QXYModelMapperPrivate::handlePointAdded(int pointPos)
{
if (m_seriesSignalsBlock)
return;
if (m_count != -1)
m_count += 1;
blockModelSignals();
if (m_orientation == Qt::Vertical)
m_model->insertRows(pointPos + m_first, 1);
else
m_model->insertColumns(pointPos + m_first, 1);
m_model->setData(xModelIndex(pointPos), m_series->points().at(pointPos).x());
m_model->setData(yModelIndex(pointPos), m_series->points().at(pointPos).y());
blockModelSignals(false);
}
void QXYModelMapperPrivate::handlePointRemoved(int pointPos)
{
if (m_seriesSignalsBlock)
return;
if (m_count != -1)
m_count -= 1;
blockModelSignals();
if (m_orientation == Qt::Vertical)
m_model->removeRow(pointPos + m_first);
else
m_model->removeColumn(pointPos + m_first);
blockModelSignals(false);
}
void QXYModelMapperPrivate::handlePointReplaced(int pointPos)
{
if (m_seriesSignalsBlock)
return;
blockModelSignals();
m_model->setData(xModelIndex(pointPos), m_series->points().at(pointPos).x());
m_model->setData(yModelIndex(pointPos), m_series->points().at(pointPos).y());
blockModelSignals(false);
}
void QXYModelMapperPrivate::handleSeriesDestroyed()
{
m_series = 0;
}
void QXYModelMapperPrivate::modelUpdated(QModelIndex topLeft, QModelIndex bottomRight)
{
if (m_model == 0 || m_series == 0)
return;
if (m_modelSignalsBlock)
return;
blockSeriesSignals();
QModelIndex index;
QPointF oldPoint;
QPointF newPoint;
for (int row = topLeft.row(); row <= bottomRight.row(); row++) {
for (int column = topLeft.column(); column <= bottomRight.column(); column++) {
index = topLeft.sibling(row, column);
if (m_orientation == Qt::Vertical && (index.column() == m_xSection || index.column() == m_ySection)) {
if (index.row() >= m_first && (m_count == - 1 || index.row() < m_first + m_count)) {
QModelIndex xIndex = xModelIndex(index.row() - m_first);
QModelIndex yIndex = yModelIndex(index.row() - m_first);
if (xIndex.isValid() && yIndex.isValid()) {
oldPoint = m_series->points().at(index.row() - m_first);
newPoint.setX(m_model->data(xIndex).toReal());
newPoint.setY(m_model->data(yIndex).toReal());
}
}
} else if (m_orientation == Qt::Horizontal && (index.row() == m_xSection || index.row() == m_ySection)) {
if (index.column() >= m_first && (m_count == - 1 || index.column() < m_first + m_count)) {
QModelIndex xIndex = xModelIndex(index.column() - m_first);
QModelIndex yIndex = yModelIndex(index.column() - m_first);
if (xIndex.isValid() && yIndex.isValid()) {
oldPoint = m_series->points().at(index.column() - m_first);
newPoint.setX(m_model->data(xIndex).toReal());
newPoint.setY(m_model->data(yIndex).toReal());
}
}
} else {
continue;
}
m_series->replace(oldPoint, newPoint);
}
}
blockSeriesSignals(false);
}
void QXYModelMapperPrivate::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_xSection || start <= m_ySection) // if the changes affect the map - reinitialize the xy
initializeXYFromModel();
blockSeriesSignals(false);
}
void QXYModelMapperPrivate::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_xSection || start <= m_ySection) // if the changes affect the map - reinitialize the xy
initializeXYFromModel();
blockSeriesSignals(false);
}
void QXYModelMapperPrivate::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_xSection || start <= m_ySection) // if the changes affect the map - reinitialize the xy
initializeXYFromModel();
blockSeriesSignals(false);
}
void QXYModelMapperPrivate::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_xSection || start <= m_ySection) // if the changes affect the map - reinitialize the xy
initializeXYFromModel();
blockSeriesSignals(false);
}
void QXYModelMapperPrivate::handleModelDestroyed()
{
m_model = 0;
}
void QXYModelMapperPrivate::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++) {
QPointF point;
QModelIndex xIndex = xModelIndex(i - m_first);
QModelIndex yIndex = yModelIndex(i - m_first);
if (xIndex.isValid() && yIndex.isValid()) {
point.setX(m_model->data(xIndex, Qt::DisplayRole).toDouble());
point.setY(m_model->data(yIndex, Qt::DisplayRole).toDouble());
m_series->insert(i - m_first, point);
}
}
// remove excess of points (above m_count)
if (m_count != -1 && m_series->points().size() > m_count)
for (int i = m_series->points().size() - 1; i >= m_count; i--) {
m_series->remove(m_series->points().at(i));
}
}
}
void QXYModelMapperPrivate::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->count(), 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->count() + 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->points().at(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->count();
else
itemsAvailable = m_model->columnCount() - m_first - m_series->count();
int toBeAdded = qMin(itemsAvailable, m_count - m_series->count()); // add not more items than there is space left to be filled.
int currentSize = m_series->count();
if (toBeAdded > 0)
for (int i = m_series->count(); i < currentSize + toBeAdded; i++) {
QPointF point;
QModelIndex xIndex = xModelIndex(i);
QModelIndex yIndex = yModelIndex(i);
if (xIndex.isValid() && yIndex.isValid()) {
point.setX(m_model->data(xIndex, Qt::DisplayRole).toDouble());
point.setY(m_model->data(yIndex, Qt::DisplayRole).toDouble());
m_series->insert(i, point);
}
}
}
}
}
void QXYModelMapperPrivate::initializeXYFromModel()
{
if (m_model == 0 || m_series == 0)
return;
blockSeriesSignals();
// clear current content
m_series->clear();
// create the initial points set
int pointPos = 0;
QModelIndex xIndex = xModelIndex(pointPos);
QModelIndex yIndex = yModelIndex(pointPos);
while (xIndex.isValid() && yIndex.isValid()) {
QPointF point;
point.setX(m_model->data(xIndex, Qt::DisplayRole).toDouble());
point.setY(m_model->data(yIndex, Qt::DisplayRole).toDouble());
m_series->append(point);
pointPos++;
xIndex = xModelIndex(pointPos);
yIndex = yModelIndex(pointPos);
}
blockSeriesSignals(false);
}
#include "moc_qxymodelmapper.cpp"
#include "moc_qxymodelmapper_p.cpp"
QTCOMMERCIALCHART_END_NAMESPACE