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** Copyright (C) 2016 The Qt Company Ltd.
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** This file is part of the Qt Charts module of the Qt Toolkit.
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#include <private/stackedbarchartitem_p.h>
#include <private/bar_p.h>
#include <private/qbarset_p.h>
#include <private/qabstractbarseries_p.h>
#include <QtCharts/QBarSet>

QT_CHARTS_BEGIN_NAMESPACE

StackedBarChartItem::StackedBarChartItem(QAbstractBarSeries *series, QGraphicsItem* item) :
    AbstractBarChartItem(series, item)
{
    m_orientation = Qt::Vertical;
    connect(series, SIGNAL(labelsPositionChanged(QAbstractBarSeries::LabelsPosition)),
            this, SLOT(handleLabelsPositionChanged()));
    connect(series, SIGNAL(labelsFormatChanged(QString)), this, SLOT(positionLabels()));
}

void StackedBarChartItem::initializeLayout(int set, int category,
                                           int layoutIndex, bool resetAnimation)
{
    Q_UNUSED(set)
    Q_UNUSED(resetAnimation)

    QRectF rect;

    if (set > 0) {
        const QBarSet *barSet = m_series->barSets().at(set);
        const qreal value = barSet->at(category);
        int checkIndex = set;
        bool found = false;
        // Negative values stack to negative side and positive values to positive side, so we need
        // to find the previous set that stacks to the same side
        while (checkIndex > 0 && !found) {
            checkIndex--;
            QBarSet *checkSet = m_series->barSets().at(checkIndex);
            const qreal checkValue = checkSet->at(category);
            if ((value < 0.0) == (checkValue < 0.0)) {
                Bar *checkBar = m_indexForBarMap.value(checkSet).value(category);
                rect = m_layout.at(checkBar->layoutIndex());
                found = true;
                break;
            }
        }
        // If we didn't find a previous set to the same direction, just stack next to the first set
        if (!found) {
            QBarSet *firsSet = m_series->barSets().at(0);
            Bar *firstBar = m_indexForBarMap.value(firsSet).value(category);
            rect = m_layout.at(firstBar->layoutIndex());
        }
        if (value < 0)
            rect.setTop(rect.bottom());
        else
            rect.setBottom(rect.top());
    } else {
        QPointF topLeft;
        QPointF bottomRight;
        const qreal barWidth = m_series->d_func()->barWidth() * m_seriesWidth;
        if (domain()->type() == AbstractDomain::XLogYDomain
                || domain()->type() == AbstractDomain::LogXLogYDomain) {
            topLeft = topLeftPoint(category, barWidth, domain()->minY());
            bottomRight = bottomRightPoint(category, barWidth, domain()->minY());
        } else {
            topLeft = topLeftPoint(category, barWidth, 0.0);
            bottomRight = bottomRightPoint(category, barWidth, 0.0);
        }

        if (m_validData) {
            rect.setTopLeft(topLeft);
            rect.setBottomRight(bottomRight);
        }
    }
    m_layout[layoutIndex] = rect.normalized();
}

QPointF StackedBarChartItem::topLeftPoint(int category, qreal barWidth, qreal value)
{
    return domain()->calculateGeometryPoint(
                QPointF(m_seriesPosAdjustment + category - (barWidth / 2), value), m_validData);
}

QPointF StackedBarChartItem::bottomRightPoint(int category, qreal barWidth, qreal value)
{
    return domain()->calculateGeometryPoint(
                QPointF(m_seriesPosAdjustment + category + (barWidth / 2), value), m_validData);
}

QVector<QRectF> StackedBarChartItem::calculateLayout()
{
    QVector<QRectF> layout;
    layout.resize(m_layout.size());

    const int setCount = m_series->count();
    const qreal barWidth = m_series->d_func()->barWidth() * m_seriesWidth;

    QVector<qreal> positiveSums(m_categoryCount, 0.0);
    QVector<qreal> negativeSums(m_categoryCount, 0.0);

    for (int set = 0; set < setCount; set++) {
        QBarSet *barSet = m_series->barSets().at(set);
        const QList<Bar *> bars = m_barMap.value(barSet);
        for (int i = 0; i < m_categoryCount; i++) {
            Bar *bar = bars.at(i);
            const int category = bar->index();
            qreal &positiveSum = positiveSums[category - m_firstCategory];
            qreal &negativeSum = negativeSums[category - m_firstCategory];
            qreal value = barSet->at(category);
            QRectF rect;
            QPointF topLeft;
            QPointF bottomRight;
            if (value < 0.0) {
                topLeft = topLeftPoint(category, barWidth, value + negativeSum);
                if (domain()->type() == AbstractDomain::XLogYDomain
                        || domain()->type() == AbstractDomain::LogXLogYDomain) {
                    bottomRight = bottomRightPoint(category, barWidth,
                                                   set ? negativeSum : domain()->minY());
                } else {
                    bottomRight = bottomRightPoint(category, barWidth, set ? negativeSum : 0.0);
                }
                negativeSum += value;
            } else {
                topLeft = topLeftPoint(category, barWidth, value + positiveSum);
                if (domain()->type() == AbstractDomain::XLogYDomain
                        || domain()->type() == AbstractDomain::LogXLogYDomain) {
                    bottomRight = bottomRightPoint(category, barWidth,
                                                   set ? positiveSum : domain()->minY());
                } else {
                    bottomRight = bottomRightPoint(category, barWidth, set ? positiveSum : 0.0);
                }
                positiveSum += value;
            }

            rect.setTopLeft(topLeft);
            rect.setBottomRight(bottomRight);
            rect = rect.normalized();
            layout[bar->layoutIndex()] = rect;

            // If animating, we need to reinitialize ~zero size bars with non-zero values
            // so the bar growth animation starts at correct spot. We shouldn't reset if rect
            // is already at correct position vertically, so we check for that.
            if (m_animation && value != 0.0) {
                const QRectF &checkRect = m_layout.at(bar->layoutIndex());
                if (checkRect.isEmpty() &&
                        ((value < 0.0 && !qFuzzyCompare(checkRect.top(), rect.top()))
                         || (value > 0.0 && !qFuzzyCompare(checkRect.bottom(), rect.bottom())))) {
                    initializeLayout(set, category, bar->layoutIndex(), true);
                }
            }
        }
    }
    return layout;
}

void StackedBarChartItem::handleLabelsPositionChanged()
{
    positionLabels();
}

void StackedBarChartItem::positionLabels()
{
    positionLabelsVertical();
}

QT_CHARTS_END_NAMESPACE

#include "moc_stackedbarchartitem_p.cpp"