/**************************************************************************** ** ** 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 "qbarmodelmapper.h" #include "qbarmodelmapper_p.h" #include "qabstractbarseries.h" #include "qbarset.h" #include "qchart.h" #include QTCOMMERCIALCHART_BEGIN_NAMESPACE QBarModelMapper::QBarModelMapper(QObject *parent) : QObject(parent), d_ptr(new QBarModelMapperPrivate(this)) { } QAbstractItemModel *QBarModelMapper::model() const { Q_D(const QBarModelMapper); return d->m_model; } void QBarModelMapper::setModel(QAbstractItemModel *model) { if (model == 0) return; Q_D(QBarModelMapper); if (d->m_model) disconnect(d->m_model, 0, d, 0); d->m_model = model; d->initializeBarFromModel(); // connect signals from the model connect(d->m_model, SIGNAL(dataChanged(QModelIndex,QModelIndex)), d, SLOT(modelUpdated(QModelIndex,QModelIndex))); connect(d->m_model, SIGNAL(headerDataChanged(Qt::Orientation,int,int)), d, SLOT(modelHeaderDataUpdated(Qt::Orientation,int,int))); 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())); } QAbstractBarSeries *QBarModelMapper::series() const { Q_D(const QBarModelMapper); return d->m_series; } void QBarModelMapper::setSeries(QAbstractBarSeries *series) { Q_D(QBarModelMapper); if (d->m_series) disconnect(d->m_series, 0, d, 0); if (series == 0) return; d->m_series = series; d->initializeBarFromModel(); // connect the signals from the series connect(d->m_series, SIGNAL(barsetsAdded(QList)), d, SLOT(barSetsAdded(QList))); connect(d->m_series, SIGNAL(barsetsRemoved(QList)), d, SLOT(barSetsRemoved(QList))); connect(d->m_series, SIGNAL(destroyed()), d, SLOT(handleSeriesDestroyed())); } /*! Returns which row/column of the model contains the first values of the QBarSets in the series. The default value is 0. */ int QBarModelMapper::first() const { Q_D(const QBarModelMapper); return d->m_first; } /*! Sets which row of the model contains the \a first values of the QBarSets in the series. The default value is 0. */ void QBarModelMapper::setFirst(int first) { Q_D(QBarModelMapper); d->m_first = qMax(first, 0); d->initializeBarFromModel(); } /*! Returns the number of rows/columns of the model that are mapped as the data for QAbstractBarSeries Minimal and default value is: -1 (count limited by the number of rows/columns in the model) */ int QBarModelMapper::count() const { Q_D(const QBarModelMapper); return d->m_count; } /*! Sets the \a count of rows/columns of the model that are mapped as the data for QAbstractBarSeries Minimal and default value is: -1 (count limited by the number of rows/columns in the model) */ void QBarModelMapper::setCount(int count) { Q_D(QBarModelMapper); d->m_count = qMax(count, -1); d->initializeBarFromModel(); } /*! Returns the orientation that is used when QBarModelMapper accesses the model. This mean whether the consecutive values of the bar set are read from row (Qt::Horizontal) or from columns (Qt::Vertical) */ Qt::Orientation QBarModelMapper::orientation() const { Q_D(const QBarModelMapper); return d->m_orientation; } /*! Returns the \a orientation that is used when QBarModelMapper accesses the model. This mean whether the consecutive values of the pie are read from row (Qt::Horizontal) or from columns (Qt::Vertical) */ void QBarModelMapper::setOrientation(Qt::Orientation orientation) { Q_D(QBarModelMapper); d->m_orientation = orientation; d->initializeBarFromModel(); } /*! Returns which section of the model is used as the data source for the first bar set */ int QBarModelMapper::firstBarSetSection() const { Q_D(const QBarModelMapper); return d->m_firstBarSetSection; } /*! Sets the model section that is used as the data source for the first bar set Parameter \a firstBarSetSection specifies the section of the model. */ void QBarModelMapper::setFirstBarSetSection(int firstBarSetSection) { Q_D(QBarModelMapper); d->m_firstBarSetSection = qMax(-1, firstBarSetSection); d->initializeBarFromModel(); } /*! Returns which section of the model is used as the data source for the last bar set */ int QBarModelMapper::lastBarSetSection() const { Q_D(const QBarModelMapper); return d->m_lastBarSetSection; } /*! Sets the model section that is used as the data source for the last bar set Parameter \a lastBarSetSection specifies the section of the model. */ void QBarModelMapper::setLastBarSetSection(int lastBarSetSection) { Q_D(QBarModelMapper); d->m_lastBarSetSection = qMax(-1, lastBarSetSection); d->initializeBarFromModel(); } /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// QBarModelMapperPrivate::QBarModelMapperPrivate(QBarModelMapper *q) : QObject(q), m_series(0), m_model(0), m_first(0), m_count(-1), m_orientation(Qt::Vertical), m_firstBarSetSection(-1), m_lastBarSetSection(-1), m_seriesSignalsBlock(false), m_modelSignalsBlock(false), q_ptr(q) { } void QBarModelMapperPrivate::blockModelSignals(bool block) { m_modelSignalsBlock = block; } void QBarModelMapperPrivate::blockSeriesSignals(bool block) { m_seriesSignalsBlock = block; } QBarSet *QBarModelMapperPrivate::barSet(QModelIndex index) { if (!index.isValid()) return 0; if (m_orientation == Qt::Vertical && index.column() >= m_firstBarSetSection && index.column() <= m_lastBarSetSection) { 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->barSets().at(index.column() - m_firstBarSetSection); // else // return 0; } } else if (m_orientation == Qt::Horizontal && index.row() >= m_firstBarSetSection && index.row() <= m_lastBarSetSection) { if (index.column() >= m_first && (m_count == - 1 || index.column() < m_first + m_count)) return m_series->barSets().at(index.row() - m_firstBarSetSection); } return 0; // This part of model has not been mapped to any slice } QModelIndex QBarModelMapperPrivate::barModelIndex(int barSection, int posInBar) { if (m_count != -1 && posInBar >= m_count) return QModelIndex(); // invalid if (barSection < m_firstBarSetSection || barSection > m_lastBarSetSection) return QModelIndex(); // invalid if (m_orientation == Qt::Vertical) return m_model->index(posInBar + m_first, barSection); else return m_model->index(barSection, posInBar + m_first); } void QBarModelMapperPrivate::handleSeriesDestroyed() { m_series = 0; } void QBarModelMapperPrivate::modelUpdated(QModelIndex topLeft, QModelIndex bottomRight) { Q_UNUSED(topLeft) Q_UNUSED(bottomRight) if (m_model == 0 || m_series == 0) return; if (m_modelSignalsBlock) return; blockSeriesSignals(); QModelIndex index; for (int row = topLeft.row(); row <= bottomRight.row(); row++) { for (int column = topLeft.column(); column <= bottomRight.column(); column++) { index = topLeft.sibling(row, column); QBarSet *bar = barSet(index); if (bar) { if (m_orientation == Qt::Vertical) bar->replace(row - m_first, m_model->data(index).toReal()); else bar->replace(column - m_first, m_model->data(index).toReal()); } } } blockSeriesSignals(false); } void QBarModelMapperPrivate::modelHeaderDataUpdated(Qt::Orientation orientation, int first, int last) { if (m_model == 0 || m_series == 0) return; if (m_modelSignalsBlock) return; blockSeriesSignals(); if (orientation != m_orientation) { for (int section = first; section <= last; section++) { if (section >= m_firstBarSetSection && section <= m_lastBarSetSection) { QBarSet *bar = m_series->barSets().at(section - m_firstBarSetSection); if (bar) bar->setLabel(m_model->headerData(section, orientation).toString()); } } } blockSeriesSignals(false); } void QBarModelMapperPrivate::modelRowsAdded(QModelIndex parent, int start, int end) { Q_UNUSED(parent); Q_UNUSED(end) if (m_modelSignalsBlock) return; blockSeriesSignals(); if (m_orientation == Qt::Vertical) // insertData(start, end); initializeBarFromModel(); else if (start <= m_firstBarSetSection || start <= m_lastBarSetSection) // if the changes affect the map - reinitialize initializeBarFromModel(); blockSeriesSignals(false); } void QBarModelMapperPrivate::modelRowsRemoved(QModelIndex parent, int start, int end) { Q_UNUSED(parent); Q_UNUSED(end) if (m_modelSignalsBlock) return; blockSeriesSignals(); if (m_orientation == Qt::Vertical) // removeData(start, end); initializeBarFromModel(); else if (start <= m_firstBarSetSection || start <= m_lastBarSetSection) // if the changes affect the map - reinitialize initializeBarFromModel(); blockSeriesSignals(false); } void QBarModelMapperPrivate::modelColumnsAdded(QModelIndex parent, int start, int end) { Q_UNUSED(parent); Q_UNUSED(end) if (m_modelSignalsBlock) return; blockSeriesSignals(); if (m_orientation == Qt::Horizontal) // insertData(start, end); initializeBarFromModel(); else if (start <= m_firstBarSetSection || start <= m_lastBarSetSection) // if the changes affect the map - reinitialize initializeBarFromModel(); blockSeriesSignals(false); } void QBarModelMapperPrivate::modelColumnsRemoved(QModelIndex parent, int start, int end) { Q_UNUSED(parent); Q_UNUSED(end) if (m_modelSignalsBlock) return; blockSeriesSignals(); if (m_orientation == Qt::Horizontal) // removeData(start, end); initializeBarFromModel(); else if (start <= m_firstBarSetSection || start <= m_lastBarSetSection) // if the changes affect the map - reinitialize initializeBarFromModel(); blockSeriesSignals(false); } void QBarModelMapperPrivate::handleModelDestroyed() { m_model = 0; } void QBarModelMapperPrivate::insertData(int start, int end) { Q_UNUSED(end) Q_UNUSED(start) Q_UNUSED(end) // To be implemented } void QBarModelMapperPrivate::removeData(int start, int end) { Q_UNUSED(end) Q_UNUSED(start) Q_UNUSED(end) // To be implemented } void QBarModelMapperPrivate::barSetsAdded(QList sets) { if (m_seriesSignalsBlock) return; if (sets.count() == 0) return; int firstIndex = m_series->barSets().indexOf(sets.at(0)); if (firstIndex == -1) return; int maxCount = 0; for (int i = 0; i < sets.count(); i++) { if (sets.at(i)->count() > m_count) maxCount = sets.at(i)->count(); } if (m_count != -1 && m_count < maxCount) m_count = maxCount; m_lastBarSetSection += sets.count(); blockModelSignals(); int modelCapacity = m_orientation == Qt::Vertical ? m_model->rowCount() - m_first : m_model->columnCount() - m_first; if (maxCount > modelCapacity) { if (m_orientation == Qt::Vertical) m_model->insertRows(m_model->rowCount(), maxCount - modelCapacity); else m_model->insertColumns(m_model->columnCount(), maxCount - modelCapacity); } if (m_orientation == Qt::Vertical) m_model->insertColumns(firstIndex + m_firstBarSetSection, sets.count()); else m_model->insertRows(firstIndex + m_firstBarSetSection, sets.count()); for (int i = firstIndex + m_firstBarSetSection; i < firstIndex + m_firstBarSetSection + sets.count(); i++) { m_model->setHeaderData(i, m_orientation == Qt::Vertical ? Qt::Horizontal : Qt::Vertical, sets.at(i - firstIndex - m_firstBarSetSection)->label()); for (int j = 0; j < sets.at(i - firstIndex - m_firstBarSetSection)->count(); j++) m_model->setData(barModelIndex(i, j), sets.at(i - firstIndex - m_firstBarSetSection)->at(j)); } blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::barSetsRemoved(QList sets) { if (m_seriesSignalsBlock) return; if (sets.count() == 0) return; int firstIndex = m_barSets.indexOf(sets.at(0)); if (firstIndex == -1) return; m_lastBarSetSection -= sets.count(); for (int i = firstIndex + sets.count() - 1; i >= firstIndex; i--) m_barSets.removeAt(i); blockModelSignals(); if (m_orientation == Qt::Vertical) m_model->removeColumns(firstIndex + m_firstBarSetSection, sets.count()); else m_model->removeRows(firstIndex + m_firstBarSetSection, sets.count()); blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::valuesAdded(int index, int count) { if (m_seriesSignalsBlock) return; if (m_count != -1) m_count += count; int barSetIndex = m_barSets.indexOf(qobject_cast(QObject::sender())); blockModelSignals(); if (m_orientation == Qt::Vertical) m_model->insertRows(index + m_first, count); else m_model->insertColumns(index + m_first, count); for (int j = index; j < index + count; j++) m_model->setData(barModelIndex(barSetIndex + m_firstBarSetSection, j), m_barSets.at(barSetIndex)->at(j)); blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::valuesRemoved(int index, int count) { if (m_seriesSignalsBlock) return; if (m_count != -1) m_count -= count; blockModelSignals(); if (m_orientation == Qt::Vertical) m_model->removeRows(index + m_first, count); else m_model->removeColumns(index + m_first, count); blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::barLabelChanged() { if (m_seriesSignalsBlock) return; int barSetIndex = m_barSets.indexOf(qobject_cast(QObject::sender())); blockModelSignals(); m_model->setHeaderData(barSetIndex + m_firstBarSetSection, m_orientation == Qt::Vertical ? Qt::Horizontal : Qt::Vertical, m_barSets.at(barSetIndex)->label()); blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::barValueChanged(int index) { if (m_seriesSignalsBlock) return; int barSetIndex = m_barSets.indexOf(qobject_cast(QObject::sender())); blockModelSignals(); m_model->setData(barModelIndex(barSetIndex + m_firstBarSetSection, index), m_barSets.at(barSetIndex)->at(index)); blockModelSignals(false); initializeBarFromModel(); } void QBarModelMapperPrivate::initializeBarFromModel() { if (m_model == 0 || m_series == 0) return; blockSeriesSignals(); // clear current content m_series->clear(); m_barSets.clear(); // create the initial bar sets for (int i = m_firstBarSetSection; i <= m_lastBarSetSection; i++) { int posInBar = 0; QModelIndex barIndex = barModelIndex(i, posInBar); // check if there is such model index if (barIndex.isValid()) { QBarSet *barSet = new QBarSet(m_model->headerData(i, m_orientation == Qt::Vertical ? Qt::Horizontal : Qt::Vertical).toString()); while (barIndex.isValid()) { barSet->append(m_model->data(barIndex, Qt::DisplayRole).toDouble()); posInBar++; barIndex = barModelIndex(i, posInBar); } connect(barSet, SIGNAL(valuesAdded(int,int)), this, SLOT(valuesAdded(int,int))); connect(barSet, SIGNAL(valuesRemoved(int,int)), this, SLOT(valuesRemoved(int,int))); connect(barSet, SIGNAL(valueChanged(int)), this, SLOT(barValueChanged(int))); connect(barSet, SIGNAL(labelChanged()), this, SLOT(barLabelChanged())); m_series->append(barSet); m_barSets.append(barSet); } else { break; } } blockSeriesSignals(false); } #include "moc_qbarmodelmapper.cpp" #include "moc_qbarmodelmapper_p.cpp" QTCOMMERCIALCHART_END_NAMESPACE