/**************************************************************************** ** ** 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 "qlogvalue3daxisformatter_p.h" #include "qvalue3daxis_p.h" #include QT_BEGIN_NAMESPACE_DATAVISUALIZATION /*! * \class QLogValue3DAxisFormatter * \inmodule QtDataVisualization * \brief The QLogValue3DAxisFormatter class provides formatting rules for a * logarithmic value axis. * \since QtDataVisualization 1.1 * * When a formatter is attached to a value axis, the axis range * cannot include negative values or the zero. * * \sa QValue3DAxisFormatter */ /*! * \qmltype LogValueAxis3DFormatter * \inqmlmodule QtDataVisualization * \since QtDataVisualization 1.1 * \ingroup datavisualization_qml * \instantiates QLogValue3DAxisFormatter * \inherits ValueAxis3DFormatter * \brief Provides formatting rules for a logarithmic value axis. * * When a formatter is attached to a value axis, the axis range * cannot include negative values or the zero. */ /*! * \qmlproperty real LogValueAxis3DFormatter::base * * The base of the logarithm used to map axis values. If the base is non-zero, the parent axis * segment count will be ignored when the grid line and label positions are calculated. * If you want the range to be divided into equal segments like a normal value axis, set this * property value to zero. * * The base has to be zero or a positive value and it cannot be equal to one. * Defaults to ten. * * \sa ValueAxis3D::segmentCount */ /*! * \qmlproperty bool LogValueAxis3DFormatter::autoSubGrid * * Defines whether sub-grid positions are generated automatically. * * If this property value is set to \c true, the parent axis sub-segment count is ignored * when calculating sub-grid line positions. The sub-grid positions are generated automatically * according to the \l base property value. * The number of sub-grid lines is set to the base value minus one, rounded down. * This property is ignored when the base value is zero. * Defaults to \c true. * * \sa base, ValueAxis3D::subSegmentCount */ /*! * \qmlproperty bool LogValueAxis3DFormatter::showEdgeLabels * * Defines whether the first and last label on the axis are visible. * * When the \l base property value is non-zero, the whole axis range is often * not equally divided into * segments. The first and last segments are often smaller than the other segments. * In extreme cases, this can lead to overlapping labels on the first and last two grid lines. * By setting this property to \c false, you can suppress showing the minimum and maximum labels * for the axis in cases where the segments do not exactly fit the axis. * Defaults to \c true. * * \sa base, AbstractAxis3D::labels */ /*! * \internal */ QLogValue3DAxisFormatter::QLogValue3DAxisFormatter(QLogValue3DAxisFormatterPrivate *d, QObject *parent) : QValue3DAxisFormatter(d, parent) { setAllowNegatives(false); setAllowZero(false); } /*! * Constructs a new logarithmic value 3D axis formatter with the optional * parent \a parent. */ QLogValue3DAxisFormatter::QLogValue3DAxisFormatter(QObject *parent) : QValue3DAxisFormatter(new QLogValue3DAxisFormatterPrivate(this), parent) { setAllowNegatives(false); setAllowZero(false); } /*! * Deletes the logarithmic value 3D axis formatter. */ QLogValue3DAxisFormatter::~QLogValue3DAxisFormatter() { } /*! * \property QLogValue3DAxisFormatter::base * * \brief The base of the logarithm used to map axis values. * * If the base is non-zero, the parent axis * segment count will be ignored when the grid line and label positions are calculated. * If you want the range to be divided into equal segments like a normal value axis, set this * property value to zero. * * The base has to be zero or a positive value and it cannot be equal to one. * Defaults to ten. * * \sa QValue3DAxis::segmentCount */ void QLogValue3DAxisFormatter::setBase(qreal base) { if (base < 0.0f || base == 1.0f) { qWarning() << "Warning: The logarithm base must be greater than 0 and not equal to 1," << "attempted:" << base; return; } if (dptr()->m_base != base) { dptr()->m_base = base; markDirty(true); emit baseChanged(base); } } qreal QLogValue3DAxisFormatter::base() const { return dptrc()->m_base; } /*! * \property QLogValue3DAxisFormatter::autoSubGrid * * \brief Whether sub-grid positions are generated automatically. * * If this property value is set to \c true, the parent axis sub-segment count is ignored * when calculating sub-grid line positions. The sub-grid positions are generated automatically * according to the \l base property value. The number of sub-grid lines is set * to the base value minus one, rounded down. This property is ignored when the * base value is zero. * Defaults to \c true. * * \sa base, QValue3DAxis::subSegmentCount */ void QLogValue3DAxisFormatter::setAutoSubGrid(bool enabled) { if (dptr()->m_autoSubGrid != enabled) { dptr()->m_autoSubGrid = enabled; markDirty(false); emit autoSubGridChanged(enabled); } } bool QLogValue3DAxisFormatter::autoSubGrid() const { return dptrc()->m_autoSubGrid; } /*! * \property QLogValue3DAxisFormatter::showEdgeLabels * * \brief Whether the first and last label on the axis are visible. * * When the \l base property value is non-zero, the whole axis range is often * not equally divided into * segments. The first and last segments are often smaller than the other segments. * In extreme cases, this can lead to overlapping labels on the first and last two grid lines. * By setting this property to \c false, you can suppress showing the minimum and maximum labels * for the axis in cases where the segments do not exactly fit the axis. * Defaults to \c true. * * \sa base, QAbstract3DAxis::labels */ void QLogValue3DAxisFormatter::setShowEdgeLabels(bool enabled) { if (dptr()->m_showEdgeLabels != enabled) { dptr()->m_showEdgeLabels = enabled; markDirty(true); emit showEdgeLabelsChanged(enabled); } } bool QLogValue3DAxisFormatter::showEdgeLabels() const { return dptrc()->m_showEdgeLabels; } /*! * \internal */ QValue3DAxisFormatter *QLogValue3DAxisFormatter::createNewInstance() const { return new QLogValue3DAxisFormatter(); } /*! * \internal */ void QLogValue3DAxisFormatter::recalculate() { dptr()->recalculate(); } /*! * \internal */ float QLogValue3DAxisFormatter::positionAt(float value) const { return dptrc()->positionAt(value); } /*! * \internal */ float QLogValue3DAxisFormatter::valueAt(float position) const { return dptrc()->valueAt(position); } /*! * \internal */ void QLogValue3DAxisFormatter::populateCopy(QValue3DAxisFormatter ©) const { QValue3DAxisFormatter::populateCopy(copy); dptrc()->populateCopy(copy); } /*! * \internal */ QLogValue3DAxisFormatterPrivate *QLogValue3DAxisFormatter::dptr() { return static_cast(d_ptr.data()); } /*! * \internal */ const QLogValue3DAxisFormatterPrivate *QLogValue3DAxisFormatter::dptrc() const { return static_cast(d_ptr.data()); } // QLogValue3DAxisFormatterPrivate QLogValue3DAxisFormatterPrivate::QLogValue3DAxisFormatterPrivate(QLogValue3DAxisFormatter *q) : QValue3DAxisFormatterPrivate(q), m_base(10.0), m_logMin(0.0), m_logMax(0.0), m_logRangeNormalizer(0.0), m_autoSubGrid(true), m_showEdgeLabels(true), m_evenMinSegment(true), m_evenMaxSegment(true) { } QLogValue3DAxisFormatterPrivate::~QLogValue3DAxisFormatterPrivate() { } void QLogValue3DAxisFormatterPrivate::recalculate() { // When doing position/value mappings, base doesn't matter, so just use natural logarithm m_logMin = qLn(qreal(m_min)); m_logMax = qLn(qreal(m_max)); m_logRangeNormalizer = m_logMax - m_logMin; int subGridCount = m_axis->subSegmentCount() - 1; int segmentCount = m_axis->segmentCount(); QString labelFormat = m_axis->labelFormat(); qreal segmentStep; if (m_base > 0.0) { // Update parent axis segment counts qreal logMin = qLn(qreal(m_min)) / qLn(m_base); qreal logMax = qLn(qreal(m_max)) / qLn(m_base); qreal logRangeNormalizer = logMax - logMin; qreal minDiff = qCeil(logMin) - logMin; qreal maxDiff = logMax - qFloor(logMax); m_evenMinSegment = qFuzzyCompare(0.0, minDiff); m_evenMaxSegment = qFuzzyCompare(0.0, maxDiff); segmentCount = qRound(logRangeNormalizer - minDiff - maxDiff); if (!m_evenMinSegment) segmentCount++; if (!m_evenMaxSegment) segmentCount++; segmentStep = 1.0 / logRangeNormalizer; if (m_autoSubGrid) { subGridCount = qCeil(m_base) - 2; // -2 for subgrid because subsegment count is base - 1 if (subGridCount < 0) subGridCount = 0; } m_gridPositions.resize(segmentCount + 1); m_subGridPositions.resize(segmentCount * subGridCount); m_labelPositions.resize(segmentCount + 1); m_labelStrings.clear(); m_labelStrings.reserve(segmentCount + 1); // Calculate segment positions int index = 0; if (!m_evenMinSegment) { m_gridPositions[0] = 0.0f; m_labelPositions[0] = 0.0f; if (m_showEdgeLabels) m_labelStrings << qptr()->stringForValue(qreal(m_min), labelFormat); else m_labelStrings << QString(); index++; } for (int i = 0; i < segmentCount; i++) { float gridValue = float((minDiff + qreal(i)) / qreal(logRangeNormalizer)); m_gridPositions[index] = gridValue; m_labelPositions[index] = gridValue; m_labelStrings << qptr()->stringForValue(qPow(m_base, minDiff + qreal(i) + logMin), labelFormat); index++; } // Ensure max value doesn't suffer from any rounding errors m_gridPositions[segmentCount] = 1.0f; m_labelPositions[segmentCount] = 1.0f; QString finalLabel; if (m_showEdgeLabels || m_evenMaxSegment) finalLabel = qptr()->stringForValue(qreal(m_max), labelFormat); if (m_labelStrings.size() > segmentCount) m_labelStrings.replace(segmentCount, finalLabel); else m_labelStrings << finalLabel; } else { // Grid lines and label positions are the same as the parent class, so call parent impl // first to populate those QValue3DAxisFormatterPrivate::doRecalculate(); // Label string list needs to be repopulated segmentStep = 1.0 / qreal(segmentCount); m_labelStrings << qptr()->stringForValue(qreal(m_min), labelFormat); for (int i = 1; i < m_labelPositions.size() - 1; i++) m_labelStrings[i] = qptr()->stringForValue(qExp(segmentStep * qreal(i) * m_logRangeNormalizer + m_logMin), labelFormat); m_labelStrings << qptr()->stringForValue(qreal(m_max), labelFormat); m_evenMaxSegment = true; m_evenMinSegment = true; } // Subgrid line positions are logarithmically spaced if (subGridCount > 0) { float oneSegmentRange = valueAt(float(segmentStep)) - m_min; float subSegmentStep = oneSegmentRange / float(subGridCount + 1); // Since the logarithm has the same curvature across whole axis range, we can just calculate // subgrid positions for the first segment and replicate them to other segments. QVector actualSubSegmentSteps(subGridCount); for (int i = 0; i < subGridCount; i++) { float currentSubPosition = positionAt(m_min + ((i + 1) * subSegmentStep)); actualSubSegmentSteps[i] = currentSubPosition; } float firstPartialSegmentAdjustment = float(segmentStep) - m_gridPositions.at(1); for (int i = 0; i < segmentCount; i++) { for (int j = 0; j < subGridCount; j++) { float position = m_gridPositions.at(i) + actualSubSegmentSteps.at(j); if (!m_evenMinSegment && i == 0) position -= firstPartialSegmentAdjustment; if (position > 1.0f) position = 1.0f; if (position < 0.0f) position = 0.0f; m_subGridPositions[i * subGridCount + j] = position; } } } } void QLogValue3DAxisFormatterPrivate::populateCopy(QValue3DAxisFormatter ©) const { QLogValue3DAxisFormatter *logFormatter = static_cast(©); QLogValue3DAxisFormatterPrivate *priv = logFormatter->dptr(); priv->m_base = m_base; priv->m_logMin = m_logMin; priv->m_logMax = m_logMax; priv->m_logRangeNormalizer = m_logRangeNormalizer; } float QLogValue3DAxisFormatterPrivate::positionAt(float value) const { qreal logValue = qLn(qreal(value)); float retval = float((logValue - m_logMin) / m_logRangeNormalizer); return retval; } float QLogValue3DAxisFormatterPrivate::valueAt(float position) const { qreal logValue = (qreal(position) * m_logRangeNormalizer) + m_logMin; return float(qExp(logValue)); } QLogValue3DAxisFormatter *QLogValue3DAxisFormatterPrivate::qptr() { return static_cast(q_ptr); } QT_END_NAMESPACE_DATAVISUALIZATION