// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE ChartValueAxisX::ChartValueAxisX(QValueAxis *axis, QGraphicsItem *item) : HorizontalAxis(axis, item), m_axis(axis) { QObject::connect(m_axis, SIGNAL(tickCountChanged(int)), this, SLOT(handleTickCountChanged(int))); QObject::connect(m_axis, SIGNAL(minorTickCountChanged(int)), this, SLOT(handleMinorTickCountChanged(int))); QObject::connect(m_axis, SIGNAL(labelFormatChanged(QString)), this, SLOT(handleLabelFormatChanged(QString))); QObject::connect(m_axis, SIGNAL(tickIntervalChanged(qreal)), this, SLOT(handleTickIntervalChanged(qreal))); QObject::connect(m_axis, SIGNAL(tickAnchorChanged(qreal)), this, SLOT(handleTickAnchorChanged(qreal))); QObject::connect(m_axis, SIGNAL(tickTypeChanged(QValueAxis::TickType)), this, SLOT(handleTickTypeChanged(QValueAxis::TickType))); } ChartValueAxisX::~ChartValueAxisX() { } QList ChartValueAxisX::calculateLayout() const { if (m_axis->tickType() == QValueAxis::TicksFixed) { int tickCount = m_axis->tickCount(); Q_ASSERT(tickCount >= 2); QList points; points.resize(tickCount); const QRectF &gridRect = gridGeometry(); const qreal deltaX = gridRect.width() / (qreal(tickCount) - 1.0); for (int i = 0; i < tickCount; ++i) points[i] = qreal(i) * deltaX + gridRect.left(); return points; } else { // QValueAxis::TicksDynamic const qreal interval = m_axis->tickInterval(); const qreal anchor = m_axis->tickAnchor(); const qreal maxValue = max(); const qreal minValue = min(); // Find the first major tick right after the min of the range const qreal ticksFromAnchor = (anchor - minValue) / interval; const qreal firstMajorTick = anchor - std::floor(ticksFromAnchor) * interval; const QRectF &gridRect = gridGeometry(); const qreal deltaX = gridRect.width() / (maxValue - minValue); QList points; const qreal leftPos = gridRect.left(); qreal value = firstMajorTick; while (value <= maxValue) { points << (value - minValue) * deltaX + leftPos; value += interval; } return points; } } void ChartValueAxisX::updateGeometry() { const QList &layout = ChartAxisElement::layout(); const QList &dynamicMinorTicklayout = ChartAxisElement::dynamicMinorTicklayout(); if (layout.isEmpty() && dynamicMinorTicklayout.isEmpty()) return; setLabels(createValueLabels(min(), max(), layout.size(), m_axis->tickInterval(), m_axis->tickAnchor(), m_axis->tickType(), m_axis->labelFormat())); HorizontalAxis::updateGeometry(); updateLabelsValues(m_axis); } void ChartValueAxisX::handleTickCountChanged(int tick) { Q_UNUSED(tick); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } void ChartValueAxisX::handleMinorTickCountChanged(int tick) { Q_UNUSED(tick); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } void ChartValueAxisX::handleLabelFormatChanged(const QString &format) { Q_UNUSED(format); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } void ChartValueAxisX::handleTickIntervalChanged(qreal interval) { Q_UNUSED(interval); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } void ChartValueAxisX::handleTickAnchorChanged(qreal anchor) { Q_UNUSED(anchor); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } void ChartValueAxisX::handleTickTypeChanged(QValueAxis::TickType type) { Q_UNUSED(type); QGraphicsLayoutItem::updateGeometry(); if (presenter()) presenter()->layout()->invalidate(); } QSizeF ChartValueAxisX::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const { Q_UNUSED(constraint); QSizeF sh; QSizeF base = HorizontalAxis::sizeHint(which, constraint); const QStringList ticksList = createValueLabels(min(), max(), m_axis->tickCount(), m_axis->tickInterval(), m_axis->tickAnchor(), m_axis->tickType(), m_axis->labelFormat()); // Width of horizontal axis sizeHint indicates the maximum distance labels can extend past // first and last ticks. Base width is irrelevant. qreal width = 0; qreal height = 0; switch (which) { case Qt::MinimumSize: { if (labelsVisible()) { QRectF boundingRect = ChartPresenter::textBoundingRect(axis()->labelsFont(), QStringLiteral("..."), axis()->labelsAngle()); width = boundingRect.width() / 2.0; height = boundingRect.height() + labelPadding() + base.height() + 1.0; } else { width = 0; height = base.height() + 1.0; } sh = QSizeF(width, height); break; } case Qt::PreferredSize: { if (labelsVisible()) { qreal labelHeight = 0.0; qreal firstWidth = -1.0; for (const QString &s : ticksList) { QRectF rect = ChartPresenter::textBoundingRect(axis()->labelsFont(), s, axis()->labelsAngle()); labelHeight = qMax(rect.height(), labelHeight); width = rect.width(); if (firstWidth < 0.0) firstWidth = width; } height = labelHeight + labelPadding() + base.height() + 1.0; width = qMax(width, firstWidth) / 2.0; } else { height = base.height() + 1.0; width = 0; } sh = QSizeF(width, height); break; } default: break; } return sh; } QT_END_NAMESPACE #include "moc_chartvalueaxisx_p.cpp"