/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the Qt Charts 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 #include #include #include #include QT_CHARTS_BEGIN_NAMESPACE HorizontalAxis::HorizontalAxis(QAbstractAxis *axis, QGraphicsItem *item, bool intervalAxis) : CartesianChartAxis(axis, item, intervalAxis) { } HorizontalAxis::~HorizontalAxis() { } QSizeF HorizontalAxis::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const { Q_UNUSED(constraint); QSizeF sh(0,0); if (axis()->titleText().isEmpty() || !titleItem()->isVisible()) return sh; switch (which) { case Qt::MinimumSize: { QRectF titleRect = ChartPresenter::textBoundingRect(axis()->titleFont(), QStringLiteral("...")); sh = QSizeF(titleRect.width(), titleRect.height() + (titlePadding() * 2.0)); break; } case Qt::MaximumSize: case Qt::PreferredSize: { QRectF titleRect = ChartPresenter::textBoundingRect(axis()->titleFont(), axis()->titleText()); sh = QSizeF(titleRect.width(), titleRect.height() + (titlePadding() * 2.0)); break; } default: break; } return sh; } void HorizontalAxis::updateGeometry() { const QVector &layout = ChartAxisElement::layout(); const QVector &dynamicMinorTicklayout = ChartAxisElement::dynamicMinorTicklayout(); if (layout.isEmpty() && dynamicMinorTicklayout.isEmpty() && axis()->type() != QAbstractAxis::AxisTypeLogValue) { return; } QStringList labelList = labels(); QList labels = labelItems(); QList arrow = arrowItems(); QGraphicsTextItem *title = titleItem(); Q_ASSERT(labels.size() == labelList.size()); Q_ASSERT(layout.size() == labelList.size()); const QRectF &axisRect = axisGeometry(); const QRectF &gridRect = gridGeometry(); //arrow QGraphicsLineItem *arrowItem = static_cast(arrow.at(0)); if (axis()->alignment() == Qt::AlignTop) arrowItem->setLine(gridRect.left(), axisRect.bottom(), gridRect.right(), axisRect.bottom()); else if (axis()->alignment() == Qt::AlignBottom) arrowItem->setLine(gridRect.left(), axisRect.top(), gridRect.right(), axisRect.top()); qreal width = 0; const QLatin1String ellipsis("..."); //title QRectF titleBoundingRect; QString titleText = axis()->titleText(); qreal availableSpace = axisRect.height() - labelPadding(); if (!titleText.isEmpty() && titleItem()->isVisible()) { availableSpace -= titlePadding() * 2.0; qreal minimumLabelHeight = ChartPresenter::textBoundingRect(axis()->labelsFont(), QStringLiteral("...")).height(); qreal titleSpace = availableSpace - minimumLabelHeight; title->setHtml(ChartPresenter::truncatedText(axis()->titleFont(), titleText, qreal(0.0), gridRect.width(), titleSpace, titleBoundingRect)); title->setTextWidth(titleBoundingRect.width()); titleBoundingRect = title->boundingRect(); QPointF center = gridRect.center() - titleBoundingRect.center(); if (axis()->alignment() == Qt::AlignTop) title->setPos(center.x(), axisRect.top() + titlePadding()); else if (axis()->alignment() == Qt::AlignBottom) title->setPos(center.x(), axisRect.bottom() - titleBoundingRect.height() - titlePadding()); availableSpace -= titleBoundingRect.height(); } QList lines = gridItems(); QList shades = shadeItems(); for (int i = 0; i < layout.size(); ++i) { //items QGraphicsLineItem *gridItem = static_cast(lines.at(i)); QGraphicsLineItem *tickItem = static_cast(arrow.at(i + 1)); QGraphicsTextItem *labelItem = static_cast(labels.at(i)); //grid line if (axis()->isReverse()) { gridItem->setLine(gridRect.right() - layout[i] + gridRect.left(), gridRect.top(), gridRect.right() - layout[i] + gridRect.left(), gridRect.bottom()); } else { gridItem->setLine(layout[i], gridRect.top(), layout[i], gridRect.bottom()); } //label text wrapping QString text; if (axis()->isReverse() && axis()->type() != QAbstractAxis::AxisTypeCategory) text = labelList.at(labelList.count() - i - 1); else text = labelList.at(i); QRectF boundingRect; // don't truncate empty labels if (text.isEmpty()) { labelItem->setHtml(text); } else { qreal labelWidth = axisRect.width() / layout.count() - (2 * labelPadding()); QString truncatedText = ChartPresenter::truncatedText(axis()->labelsFont(), text, axis()->labelsAngle(), labelWidth, availableSpace, boundingRect); labelItem->setTextWidth(ChartPresenter::textBoundingRect(axis()->labelsFont(), truncatedText).width()); labelItem->setHtml(truncatedText); } //label transformation origin point const QRectF& rect = labelItem->boundingRect(); QPointF center = rect.center(); labelItem->setTransformOriginPoint(center.x(), center.y()); qreal heightDiff = rect.height() - boundingRect.height(); qreal widthDiff = rect.width() - boundingRect.width(); //ticks and label position QPointF labelPos; if (axis()->alignment() == Qt::AlignTop) { if (axis()->isReverse()) { labelPos = QPointF(gridRect.right() - layout[layout.size() - i - 1] + gridRect.left() - center.x(), axisRect.bottom() - rect.height() + (heightDiff / 2.0) - labelPadding()); tickItem->setLine(gridRect.right() + gridRect.left() - layout[i], axisRect.bottom(), gridRect.right() + gridRect.left() - layout[i], axisRect.bottom() - labelPadding()); } else { labelPos = QPointF(layout[i] - center.x(), axisRect.bottom() - rect.height() + (heightDiff / 2.0) - labelPadding()); tickItem->setLine(layout[i], axisRect.bottom(), layout[i], axisRect.bottom() - labelPadding()); } } else if (axis()->alignment() == Qt::AlignBottom) { if (axis()->isReverse()) { labelPos = QPointF(gridRect.right() - layout[layout.size() - i - 1] + gridRect.left() - center.x(), axisRect.top() - (heightDiff / 2.0) + labelPadding()); tickItem->setLine(gridRect.right() + gridRect.left() - layout[i], axisRect.top(), gridRect.right() + gridRect.left() - layout[i], axisRect.top() + labelPadding()); } else { labelPos = QPointF(layout[i] - center.x(), axisRect.top() - (heightDiff / 2.0) + labelPadding()); tickItem->setLine(layout[i], axisRect.top(), layout[i], axisRect.top() + labelPadding()); } } //label in between bool forceHide = false; if (intervalAxis() && (i + 1) != layout.size()) { qreal leftBound; qreal rightBound; if (axis()->isReverse()) { leftBound = qMax(gridRect.right() + gridRect.left() - layout[i + 1], gridRect.left()); rightBound = qMin(gridRect.right() + gridRect.left() - layout[i], gridRect.right()); } else { leftBound = qMax(layout[i], gridRect.left()); rightBound = qMin(layout[i + 1], gridRect.right()); } const qreal delta = rightBound - leftBound; if (axis()->type() != QAbstractAxis::AxisTypeCategory) { // Hide label in case visible part of the category at the grid edge is too narrow if (delta < boundingRect.width() && (leftBound == gridRect.left() || rightBound == gridRect.right())) { forceHide = true; } else { labelPos.setX(leftBound + (delta / 2.0) - center.x()); } } else { QCategoryAxis *categoryAxis = static_cast(axis()); if (categoryAxis->labelsPosition() == QCategoryAxis::AxisLabelsPositionCenter) { if (delta < boundingRect.width() && (leftBound == gridRect.left() || rightBound == gridRect.right())) { forceHide = true; } else { labelPos.setX(leftBound + (delta / 2.0) - center.x()); } } else if (categoryAxis->labelsPosition() == QCategoryAxis::AxisLabelsPositionOnValue) { if (axis()->isReverse()) labelPos.setX(leftBound - center.x()); else labelPos.setX(rightBound - center.x()); } } } // Round to full pixel via QPoint to avoid one pixel clipping on the edge in some cases labelItem->setPos(labelPos.toPoint()); //label overlap detection - compensate one pixel for rounding errors if ((labelItem->pos().x() < width && labelItem->toPlainText() == ellipsis) || forceHide || (labelItem->pos().x() + (widthDiff / 2.0)) < (axisRect.left() - 1.0) || (labelItem->pos().x() + (widthDiff / 2.0) - 1.0) > axisRect.right()) { labelItem->setVisible(false); } else { labelItem->setVisible(true); width = boundingRect.width() + labelItem->pos().x(); } //shades QGraphicsRectItem *shadeItem = 0; if (i == 0) shadeItem = static_cast(shades.at(0)); else if (i % 2) shadeItem = static_cast(shades.at((i / 2) + 1)); if (shadeItem) { qreal leftBound; qreal rightBound; if (i == 0) { if (axis()->isReverse()) { leftBound = gridRect.right() + gridRect.left() - layout[i]; rightBound = gridRect.right(); } else { leftBound = gridRect.left(); rightBound = layout[0]; } } else { if (axis()->isReverse()) { rightBound = gridRect.right() + gridRect.left() - layout[i]; if (i == layout.size() - 1) { leftBound = gridRect.left(); } else { leftBound = qMax(gridRect.right() + gridRect.left() - layout[i + 1], gridRect.left()); } } else { leftBound = layout[i]; if (i == layout.size() - 1) rightBound = gridRect.right(); else rightBound = qMin(layout[i + 1], gridRect.right()); } } if (leftBound < gridRect.left()) leftBound = gridRect.left(); if (rightBound > gridRect.right()) rightBound = gridRect.right(); shadeItem->setRect(leftBound, gridRect.top(), rightBound - leftBound, gridRect.height()); if (shadeItem->rect().width() <= 0.0) shadeItem->setVisible(false); else shadeItem->setVisible(true); } // check if the grid line and the axis tick should be shown const bool gridLineVisible = (gridItem->line().p1().x() >= gridRect.left() && gridItem->line().p1().x() <= gridRect.right()); gridItem->setVisible(gridLineVisible); tickItem->setVisible(gridLineVisible); } updateMinorTickGeometry(); // begin/end grid line in case labels between if (intervalAxis()) { QGraphicsLineItem *gridLine; gridLine = static_cast(lines.at(layout.size())); gridLine->setLine(gridRect.right(), gridRect.top(), gridRect.right(), gridRect.bottom()); gridLine->setVisible(true); gridLine = static_cast(lines.at(layout.size()+1)); gridLine->setLine(gridRect.left(), gridRect.top(), gridRect.left(), gridRect.bottom()); gridLine->setVisible(true); } } void HorizontalAxis::updateMinorTickGeometry() { if (!axis()) return; QVector layout = ChartAxisElement::layout(); int minorTickCount = 0; qreal tickSpacing = 0.0; QVector minorTickSpacings; switch (axis()->type()) { case QAbstractAxis::AxisTypeValue: { const QValueAxis *valueAxis = qobject_cast(axis()); minorTickCount = valueAxis->minorTickCount(); if (valueAxis->tickType() == QValueAxis::TicksFixed) { if (valueAxis->tickCount() >= 2) tickSpacing = layout.at(0) - layout.at(1); for (int i = 0; i < minorTickCount; ++i) { const qreal ratio = (1.0 / qreal(minorTickCount + 1)) * qreal(i + 1); minorTickSpacings.append(tickSpacing * ratio); } } break; } case QAbstractAxis::AxisTypeLogValue: { const QLogValueAxis *logValueAxis = qobject_cast(axis()); const qreal base = logValueAxis->base(); const qreal logBase = qLn(base); minorTickCount = logValueAxis->minorTickCount(); if (minorTickCount < 0) minorTickCount = qMax(int(qFloor(base) - 2.0), 0); // Two "virtual" ticks are required to make sure that all minor ticks // are displayed properly (even for the partially visible segments of // the chart). if (layout.size() >= 2) { // Calculate tickSpacing as a difference between visible ticks // whenever it is possible. Virtual ticks will not be correctly // positioned when the layout is animating. tickSpacing = layout.at(0) - layout.at(1); layout.prepend(layout.at(0) + tickSpacing); layout.append(layout.at(layout.size() - 1) - tickSpacing); } else { const qreal logMax = qLn(logValueAxis->max()); const qreal logMin = qLn(logValueAxis->min()); const qreal logExtraMaxTick = qLn(qPow(base, qFloor(logMax / logBase) + 1.0)); const qreal logExtraMinTick = qLn(qPow(base, qCeil(logMin / logBase) - 1.0)); const qreal edge = gridGeometry().left(); const qreal delta = gridGeometry().width() / qAbs(logMax - logMin); const qreal extraMaxTick = edge + (logExtraMaxTick - qMin(logMin, logMax)) * delta; const qreal extraMinTick = edge + (logExtraMinTick - qMin(logMin, logMax)) * delta; // Calculate tickSpacing using one (if layout.size() == 1) or two // (if layout.size() == 0) "virtual" ticks. In both cases animation // will not work as expected. This should be fixed later. layout.prepend(extraMinTick); layout.append(extraMaxTick); tickSpacing = layout.at(0) - layout.at(1); } const qreal minorTickStepValue = qFabs(base - 1.0) / qreal(minorTickCount + 1); for (int i = 0; i < minorTickCount; ++i) { const qreal x = minorTickStepValue * qreal(i + 1) + 1.0; const qreal minorTickSpacing = tickSpacing * (qLn(x) / logBase); minorTickSpacings.append(minorTickSpacing); } break; } default: // minor ticks are not supported break; } const QValueAxis *valueAxis = qobject_cast(axis()); if (valueAxis && valueAxis->tickType() == QValueAxis::TicksDynamic) { const QVector dynamicMinorTicklayout = ChartAxisElement::dynamicMinorTicklayout(); const QRectF &gridRect = gridGeometry(); const qreal deltaX = gridRect.width() / (valueAxis->max() - valueAxis->min()); const qreal leftPos = gridRect.left(); const qreal rightPos = gridRect.right(); for (int i = 0; i < dynamicMinorTicklayout.size(); i++) { QGraphicsLineItem *minorGridLineItem = static_cast(minorGridItems().value(i)); QGraphicsLineItem *minorArrowLineItem = static_cast(minorArrowItems().value(i)); if (!minorGridLineItem || !minorArrowLineItem) continue; qreal minorGridLineItemX = 0.0; if (axis()->isReverse()) minorGridLineItemX = rightPos - dynamicMinorTicklayout.at(i) * deltaX; else minorGridLineItemX = dynamicMinorTicklayout.at(i) * deltaX + leftPos; qreal minorArrowLineItemY1; qreal minorArrowLineItemY2; switch (axis()->alignment()) { case Qt::AlignTop: minorArrowLineItemY1 = gridGeometry().bottom(); minorArrowLineItemY2 = gridGeometry().bottom() - labelPadding() / 2.0; break; case Qt::AlignBottom: minorArrowLineItemY1 = gridGeometry().top(); minorArrowLineItemY2 = gridGeometry().top() + labelPadding() / 2.0; break; default: minorArrowLineItemY1 = 0.0; minorArrowLineItemY2 = 0.0; break; } minorGridLineItem->setLine(minorGridLineItemX, gridGeometry().top(), minorGridLineItemX, gridGeometry().bottom()); minorArrowLineItem->setLine(minorGridLineItemX, minorArrowLineItemY1, minorGridLineItemX, minorArrowLineItemY2); // check if the minor grid line and the minor axis arrow should be shown bool minorGridLineVisible = (minorGridLineItemX >= gridGeometry().left() && minorGridLineItemX <= gridGeometry().right()); minorGridLineItem->setVisible(minorGridLineVisible); minorArrowLineItem->setVisible(minorGridLineVisible); } } else { if (minorTickCount < 1 || tickSpacing == 0.0 || minorTickSpacings.count() != minorTickCount) return; for (int i = 0; i < layout.size() - 1; ++i) { for (int j = 0; j < minorTickCount; ++j) { const int minorItemIndex = i * minorTickCount + j; QGraphicsLineItem *minorGridLineItem = static_cast(minorGridItems().value(minorItemIndex)); QGraphicsLineItem *minorArrowLineItem = static_cast(minorArrowItems().value(minorItemIndex)); if (!minorGridLineItem || !minorArrowLineItem) continue; const qreal minorTickSpacing = minorTickSpacings.value(j, 0.0); qreal minorGridLineItemX = 0.0; if (axis()->isReverse()) { minorGridLineItemX = qFloor(gridGeometry().left() + gridGeometry().right() - layout.at(i) + minorTickSpacing); } else { minorGridLineItemX = qCeil(layout.at(i) - minorTickSpacing); } qreal minorArrowLineItemY1; qreal minorArrowLineItemY2; switch (axis()->alignment()) { case Qt::AlignTop: minorArrowLineItemY1 = gridGeometry().bottom(); minorArrowLineItemY2 = gridGeometry().bottom() - labelPadding() / 2.0; break; case Qt::AlignBottom: minorArrowLineItemY1 = gridGeometry().top(); minorArrowLineItemY2 = gridGeometry().top() + labelPadding() / 2.0; break; default: minorArrowLineItemY1 = 0.0; minorArrowLineItemY2 = 0.0; break; } minorGridLineItem->setLine(minorGridLineItemX, gridGeometry().top(), minorGridLineItemX, gridGeometry().bottom()); minorArrowLineItem->setLine(minorGridLineItemX, minorArrowLineItemY1, minorGridLineItemX, minorArrowLineItemY2); // check if the minor grid line and the minor axis arrow should be shown bool minorGridLineVisible = (minorGridLineItemX >= gridGeometry().left() && minorGridLineItemX <= gridGeometry().right()); minorGridLineItem->setVisible(minorGridLineVisible); minorArrowLineItem->setVisible(minorGridLineVisible); } } } } QT_CHARTS_END_NAMESPACE