/**************************************************************************** ** ** Copyright (C) 2017 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the Qt Data Visualization module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 or (at your option) any later version ** approved by the KDE Free Qt Foundation. The licenses are as published by ** the Free Software Foundation and appearing in the file LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qscatterdataproxy_p.h" #include "qscatter3dseries_p.h" #include "qabstract3daxis_p.h" QT_BEGIN_NAMESPACE_DATAVISUALIZATION /*! * \class QScatterDataProxy * \inmodule QtDataVisualization * \brief The QScatterDataProxy class is the data proxy for 3D scatter graphs. * \since QtDataVisualization 1.0 * * A scatter data proxy handles adding, inserting, changing, and removing data * items. * * QScatterDataProxy takes ownership of all * QtDataVisualization::QScatterDataArray and QScatterDataItem objects passed to * it. * * \sa {Qt Data Visualization Data Handling} */ /*! * \typedef QtDataVisualization::QScatterDataArray * \relates QScatterDataProxy * * A vector of \l {QScatterDataItem} objects. */ /*! * \qmltype ScatterDataProxy * \inqmlmodule QtDataVisualization * \since QtDataVisualization 1.0 * \ingroup datavisualization_qml * \instantiates QScatterDataProxy * \inherits AbstractDataProxy * \brief The data proxy for 3D scatter graphs. * * This type handles adding, inserting, changing, and removing data items. * * This type is uncreatable, but contains properties that are exposed via subtypes. * * \sa ItemModelScatterDataProxy, {Qt Data Visualization Data Handling} */ /*! * \qmlproperty int ScatterDataProxy::itemCount * The number of items in the array. */ /*! * \qmlproperty Scatter3DSeries ScatterDataProxy::series * * The series this proxy is attached to. */ /*! * Constructs QScatterDataProxy with the given \a parent. */ QScatterDataProxy::QScatterDataProxy(QObject *parent) : QAbstractDataProxy(new QScatterDataProxyPrivate(this), parent) { } /*! * \internal */ QScatterDataProxy::QScatterDataProxy(QScatterDataProxyPrivate *d, QObject *parent) : QAbstractDataProxy(d, parent) { } /*! * Deletes the scatter data proxy. */ QScatterDataProxy::~QScatterDataProxy() { } /*! * \property QScatterDataProxy::series * * \brief The series this proxy is attached to. */ QScatter3DSeries *QScatterDataProxy::series() const { return static_cast(d_ptr->series()); } /*! * Takes ownership of the array \a newArray. Clears the existing array if the * new array differs from it. If the arrays are the same, this function * just triggers the arrayReset() signal. * * Passing a null array deletes the old array and creates a new empty array. */ void QScatterDataProxy::resetArray(QScatterDataArray *newArray) { if (dptr()->m_dataArray != newArray) dptr()->resetArray(newArray); emit arrayReset(); emit itemCountChanged(itemCount()); } /*! * Replaces the item at the position \a index with the item \a item. */ void QScatterDataProxy::setItem(int index, const QScatterDataItem &item) { dptr()->setItem(index, item); emit itemsChanged(index, 1); } /*! * Replaces the items starting from the position \a index with the items * specified by \a items. */ void QScatterDataProxy::setItems(int index, const QScatterDataArray &items) { dptr()->setItems(index, items); emit itemsChanged(index, items.size()); } /*! * Adds the item \a item to the end of the array. * * Returns the index of the added item. */ int QScatterDataProxy::addItem(const QScatterDataItem &item) { int addIndex = dptr()->addItem(item); emit itemsAdded(addIndex, 1); emit itemCountChanged(itemCount()); return addIndex; } /*! * Adds the items specified by \a items to the end of the array. * * Returns the index of the first added item. */ int QScatterDataProxy::addItems(const QScatterDataArray &items) { int addIndex = dptr()->addItems(items); emit itemsAdded(addIndex, items.size()); emit itemCountChanged(itemCount()); return addIndex; } /*! * Inserts the item \a item to the position \a index. If the index is equal to * the data array size, the item is added to the array. */ void QScatterDataProxy::insertItem(int index, const QScatterDataItem &item) { dptr()->insertItem(index, item); emit itemsInserted(index, 1); emit itemCountChanged(itemCount()); } /*! * Inserts the items specified by \a items to the position \a index. If the * index is equal to data array size, the items are added to the array. */ void QScatterDataProxy::insertItems(int index, const QScatterDataArray &items) { dptr()->insertItems(index, items); emit itemsInserted(index, items.size()); emit itemCountChanged(itemCount()); } /*! * Removes the number of items specified by \a removeCount starting at the * position \a index. Attempting to remove items past the end of * the array does nothing. */ void QScatterDataProxy::removeItems(int index, int removeCount) { if (index >= dptr()->m_dataArray->size()) return; dptr()->removeItems(index, removeCount); emit itemsRemoved(index, removeCount); emit itemCountChanged(itemCount()); } /*! * \property QScatterDataProxy::itemCount * * \brief The number of items in the array. */ int QScatterDataProxy::itemCount() const { return dptrc()->m_dataArray->size(); } /*! * Returns the pointer to the data array. */ const QScatterDataArray *QScatterDataProxy::array() const { return dptrc()->m_dataArray; } /*! * Returns the pointer to the item at the index \a index. It is guaranteed to be * valid only until the next call that modifies data. */ const QScatterDataItem *QScatterDataProxy::itemAt(int index) const { return &dptrc()->m_dataArray->at(index); } /*! * \internal */ QScatterDataProxyPrivate *QScatterDataProxy::dptr() { return static_cast(d_ptr.data()); } /*! * \internal */ const QScatterDataProxyPrivate *QScatterDataProxy::dptrc() const { return static_cast(d_ptr.data()); } /*! * \fn void QScatterDataProxy::arrayReset() * * This signal is emitted when the data array is reset. * If the contents of the whole array are changed without calling resetArray(), * this signal needs to be emitted to update the graph. */ /*! * \fn void QScatterDataProxy::itemsAdded(int startIndex, int count) * * This signal is emitted when the number of items specified by \a count is * added starting at the position \a startIndex. * If items are added to the array without calling addItem() or addItems(), * this signal needs to be emitted to update the graph. */ /*! * \fn void QScatterDataProxy::itemsChanged(int startIndex, int count) * * This signal is emitted when the number of items specified by \a count is * changed starting at the position \a startIndex. * If items are changed in the array without calling setItem() or setItems(), * this signal needs to be emitted to update the graph. */ /*! * \fn void QScatterDataProxy::itemsRemoved(int startIndex, int count) * * This signal is emitted when the number of rows specified by \a count is * removed starting at the position \a startIndex. * The index may be larger than the current array size if items are removed from * the end. If items are removed from the array without calling removeItems(), * this signal needs to be emitted to update the graph. */ /*! * \fn void QScatterDataProxy::itemsInserted(int startIndex, int count) * * This signal is emitted when the number of items specified by \a count is * inserted starting at the position \a startIndex. * If items are inserted into the array without calling insertItem() or * insertItems(), this signal needs to be emitted to update the graph. */ // QScatterDataProxyPrivate QScatterDataProxyPrivate::QScatterDataProxyPrivate(QScatterDataProxy *q) : QAbstractDataProxyPrivate(q, QAbstractDataProxy::DataTypeScatter), m_dataArray(new QScatterDataArray) { } QScatterDataProxyPrivate::~QScatterDataProxyPrivate() { m_dataArray->clear(); delete m_dataArray; } void QScatterDataProxyPrivate::resetArray(QScatterDataArray *newArray) { if (!newArray) newArray = new QScatterDataArray; if (newArray != m_dataArray) { m_dataArray->clear(); delete m_dataArray; m_dataArray = newArray; } } void QScatterDataProxyPrivate::setItem(int index, const QScatterDataItem &item) { Q_ASSERT(index >= 0 && index < m_dataArray->size()); (*m_dataArray)[index] = item; } void QScatterDataProxyPrivate::setItems(int index, const QScatterDataArray &items) { Q_ASSERT(index >= 0 && (index + items.size()) <= m_dataArray->size()); for (int i = 0; i < items.size(); i++) (*m_dataArray)[index++] = items[i]; } int QScatterDataProxyPrivate::addItem(const QScatterDataItem &item) { int currentSize = m_dataArray->size(); m_dataArray->append(item); return currentSize; } int QScatterDataProxyPrivate::addItems(const QScatterDataArray &items) { int currentSize = m_dataArray->size(); (*m_dataArray) += items; return currentSize; } void QScatterDataProxyPrivate::insertItem(int index, const QScatterDataItem &item) { Q_ASSERT(index >= 0 && index <= m_dataArray->size()); m_dataArray->insert(index, item); } void QScatterDataProxyPrivate::insertItems(int index, const QScatterDataArray &items) { Q_ASSERT(index >= 0 && index <= m_dataArray->size()); for (int i = 0; i < items.size(); i++) m_dataArray->insert(index++, items.at(i)); } void QScatterDataProxyPrivate::removeItems(int index, int removeCount) { Q_ASSERT(index >= 0); int maxRemoveCount = m_dataArray->size() - index; removeCount = qMin(removeCount, maxRemoveCount); m_dataArray->remove(index, removeCount); } void QScatterDataProxyPrivate::limitValues(QVector3D &minValues, QVector3D &maxValues, QAbstract3DAxis *axisX, QAbstract3DAxis *axisY, QAbstract3DAxis *axisZ) const { if (m_dataArray->isEmpty()) return; const QVector3D &firstPos = m_dataArray->at(0).position(); float minX = firstPos.x(); float maxX = minX; float minY = firstPos.y(); float maxY = minY; float minZ = firstPos.z(); float maxZ = minZ; if (m_dataArray->size() > 1) { for (int i = 1; i < m_dataArray->size(); i++) { const QVector3D &pos = m_dataArray->at(i).position(); float value = pos.x(); if (qIsNaN(value) || qIsInf(value)) continue; if (isValidValue(minX, value, axisX)) minX = value; if (maxX < value) maxX = value; value = pos.y(); if (qIsNaN(value) || qIsInf(value)) continue; if (isValidValue(minY, value, axisY)) minY = value; if (maxY < value) maxY = value; value = pos.z(); if (qIsNaN(value) || qIsInf(value)) continue; if (isValidValue(minZ, value, axisZ)) minZ = value; if (maxZ < value) maxZ = value; } } minValues.setX(minX); minValues.setY(minY); minValues.setZ(minZ); maxValues.setX(maxX); maxValues.setY(maxY); maxValues.setZ(maxZ); } bool QScatterDataProxyPrivate::isValidValue(float axisValue, float value, QAbstract3DAxis *axis) const { return (axisValue > value && (value > 0.0f || (value == 0.0f && axis->d_ptr->allowZero()) || (value < 0.0f && axis->d_ptr->allowNegatives()))); } void QScatterDataProxyPrivate::setSeries(QAbstract3DSeries *series) { QAbstractDataProxyPrivate::setSeries(series); QScatter3DSeries *scatterSeries = static_cast(series); emit qptr()->seriesChanged(scatterSeries); } QScatterDataProxy *QScatterDataProxyPrivate::qptr() { return static_cast(q_ptr); } QT_END_NAMESPACE_DATAVISUALIZATION