260 lines
8.0 KiB
C++
260 lines
8.0 KiB
C++
/*
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This file is part of Telegram Desktop,
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the official desktop application for the Telegram messaging service.
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For license and copyright information please follow this link:
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https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
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*/
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#include "statistics/view/linear_chart_view.h"
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#include "data/data_statistics_chart.h"
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#include "statistics/chart_lines_filter_controller.h"
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#include "statistics/statistics_common.h"
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#include "ui/effects/animation_value_f.h"
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#include "ui/painter.h"
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#include "styles/style_boxes.h"
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#include "styles/style_statistics.h"
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namespace Statistic {
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namespace {
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float64 Ratio(const LinearChartView::CachedLineRatios &ratios, int id) {
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return (id == 1) ? ratios.first : ratios.second;
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}
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void PaintChartLine(
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QPainter &p,
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int lineIndex,
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const PaintContext &c,
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const LinearChartView::CachedLineRatios &ratios) {
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const auto &line = c.chartData.lines[lineIndex];
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auto chartPoints = QPolygonF();
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constexpr auto kOffset = float64(2);
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const auto localStart = int(std::max(0., c.xIndices.min - kOffset));
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const auto localEnd = int(std::min(
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float64(c.chartData.xPercentage.size() - 1),
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c.xIndices.max + kOffset));
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const auto ratio = Ratio(ratios, line.id);
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for (auto i = localStart; i <= localEnd; i++) {
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if (line.y[i] < 0) {
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continue;
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}
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const auto xPoint = c.rect.width()
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* ((c.chartData.xPercentage[i] - c.xPercentageLimits.min)
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/ (c.xPercentageLimits.max - c.xPercentageLimits.min));
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const auto yPercentage = (line.y[i] * ratio - c.heightLimits.min)
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/ float64(c.heightLimits.max - c.heightLimits.min);
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const auto yPoint = (1. - yPercentage) * c.rect.height();
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chartPoints << QPointF(xPoint, yPoint);
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}
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p.setPen(QPen(line.color, st::statisticsChartLineWidth));
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p.setBrush(Qt::NoBrush);
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p.drawPolyline(chartPoints);
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}
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} // namespace
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LinearChartView::LinearChartView(bool isDouble)
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: _cachedLineRatios(CachedLineRatios{ isDouble ? 0 : 1, isDouble ? 0 : 1 }) {
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}
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LinearChartView::~LinearChartView() = default;
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void LinearChartView::paint(QPainter &p, const PaintContext &c) {
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const auto cacheToken = LinearChartView::CacheToken(
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c.xIndices,
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c.xPercentageLimits,
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c.heightLimits,
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c.rect.size());
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const auto opacity = p.opacity();
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const auto linesFilter = linesFilterController();
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const auto imageSize = c.rect.size() * style::DevicePixelRatio();
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const auto cacheScale = 1. / style::DevicePixelRatio();
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auto &caches = (c.footer ? _footerCaches : _mainCaches);
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for (auto i = 0; i < c.chartData.lines.size(); i++) {
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const auto &line = c.chartData.lines[i];
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p.setOpacity(linesFilter->alpha(line.id));
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if (!p.opacity()) {
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continue;
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}
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auto &cache = caches[line.id];
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const auto isSameToken = (cache.lastToken == cacheToken);
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if ((isSameToken && cache.hq)
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|| (p.opacity() < 1. && !linesFilter->isEnabled(line.id))) {
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p.drawImage(c.rect.topLeft(), cache.image);
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continue;
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}
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cache.hq = isSameToken;
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auto image = QImage();
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image = QImage(
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imageSize * (isSameToken ? 1. : cacheScale),
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QImage::Format_ARGB32_Premultiplied);
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image.setDevicePixelRatio(style::DevicePixelRatio());
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image.fill(Qt::transparent);
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{
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auto imagePainter = QPainter(&image);
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auto hq = PainterHighQualityEnabler(imagePainter);
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if (!isSameToken) {
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imagePainter.scale(cacheScale, cacheScale);
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}
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PaintChartLine(imagePainter, i, c, _cachedLineRatios);
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}
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if (!isSameToken) {
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image = image.scaled(
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imageSize,
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Qt::IgnoreAspectRatio,
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Qt::FastTransformation);
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}
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p.drawImage(c.rect.topLeft(), image);
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cache.lastToken = cacheToken;
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cache.image = std::move(image);
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}
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p.setOpacity(opacity);
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}
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void LinearChartView::paintSelectedXIndex(
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QPainter &p,
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const PaintContext &c,
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int selectedXIndex,
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float64 progress) {
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if (selectedXIndex < 0) {
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return;
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}
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const auto linesFilter = linesFilterController();
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auto hq = PainterHighQualityEnabler(p);
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auto o = ScopedPainterOpacity(p, progress);
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p.setBrush(st::boxBg);
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const auto r = st::statisticsDetailsDotRadius;
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const auto i = selectedXIndex;
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const auto isSameToken = (_selectedPoints.lastXIndex == selectedXIndex)
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&& (_selectedPoints.lastHeightLimits.min == c.heightLimits.min)
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&& (_selectedPoints.lastHeightLimits.max == c.heightLimits.max)
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&& (_selectedPoints.lastXLimits.min == c.xPercentageLimits.min)
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&& (_selectedPoints.lastXLimits.max == c.xPercentageLimits.max);
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auto linePainted = false;
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for (const auto &line : c.chartData.lines) {
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const auto lineAlpha = linesFilter->alpha(line.id);
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const auto useCache = isSameToken
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|| (lineAlpha < 1. && !linesFilter->isEnabled(line.id));
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if (!useCache) {
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// Calculate.
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const auto r = Ratio(_cachedLineRatios, line.id);
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const auto xPoint = c.rect.width()
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* ((c.chartData.xPercentage[i] - c.xPercentageLimits.min)
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/ (c.xPercentageLimits.max - c.xPercentageLimits.min));
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const auto yPercentage = (line.y[i] * r - c.heightLimits.min)
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/ float64(c.heightLimits.max - c.heightLimits.min);
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const auto yPoint = (1. - yPercentage) * c.rect.height();
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_selectedPoints.points[line.id] = QPointF(xPoint, yPoint)
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+ c.rect.topLeft();
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}
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if (!linePainted) {
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const auto lineRect = QRectF(
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c.rect.x()
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+ begin(_selectedPoints.points)->second.x()
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- (st::lineWidth / 2.),
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c.rect.y(),
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st::lineWidth,
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c.rect.height());
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p.fillRect(lineRect, st::windowSubTextFg);
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linePainted = true;
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}
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// Paint.
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auto o = ScopedPainterOpacity(p, lineAlpha * p.opacity());
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p.setPen(QPen(line.color, st::statisticsChartLineWidth));
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p.drawEllipse(_selectedPoints.points[line.id], r, r);
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}
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_selectedPoints.lastXIndex = selectedXIndex;
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_selectedPoints.lastHeightLimits = c.heightLimits;
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_selectedPoints.lastXLimits = c.xPercentageLimits;
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}
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int LinearChartView::findXIndexByPosition(
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const Data::StatisticalChart &chartData,
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const Limits &xPercentageLimits,
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const QRect &rect,
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float64 x) {
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if ((x < rect.x()) || (x > (rect.x() + rect.width()))) {
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return -1;
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}
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const auto pointerRatio = std::clamp(
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(x - rect.x()) / rect.width(),
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0.,
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1.);
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const auto rawXPercentage = anim::interpolateF(
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xPercentageLimits.min,
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xPercentageLimits.max,
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pointerRatio);
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const auto it = ranges::lower_bound(
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chartData.xPercentage,
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rawXPercentage);
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const auto left = rawXPercentage - (*(it - 1));
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const auto right = (*it) - rawXPercentage;
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const auto nearest = ((right) > (left)) ? (it - 1) : it;
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const auto resultXPercentageIt = ((*nearest) > xPercentageLimits.max)
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? (nearest - 1)
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: ((*nearest) < xPercentageLimits.min)
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? (nearest + 1)
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: nearest;
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return std::distance(begin(chartData.xPercentage), resultXPercentageIt);
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}
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AbstractChartView::HeightLimits LinearChartView::heightLimits(
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Data::StatisticalChart &chartData,
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Limits xIndices) {
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if (!_cachedLineRatios.first) {
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// Double Linear calculation.
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if (chartData.lines.size() != 2) {
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_cachedLineRatios.first = 1.;
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_cachedLineRatios.second = 1.;
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} else {
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const auto firstMax = chartData.lines.front().maxValue;
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const auto secondMax = chartData.lines.back().maxValue;
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if (firstMax > secondMax) {
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_cachedLineRatios.first = 1.;
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_cachedLineRatios.second = firstMax / float64(secondMax);
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} else {
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_cachedLineRatios.first = secondMax / float64(firstMax);
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_cachedLineRatios.second = 1.;
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}
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}
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}
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auto minValue = std::numeric_limits<int>::max();
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auto maxValue = 0;
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auto minValueFull = std::numeric_limits<int>::max();
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auto maxValueFull = 0;
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for (auto &l : chartData.lines) {
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if (!linesFilterController()->isEnabled(l.id)) {
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continue;
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}
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const auto r = Ratio(_cachedLineRatios, l.id);
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const auto lineMax = l.segmentTree.rMaxQ(xIndices.min, xIndices.max);
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const auto lineMin = l.segmentTree.rMinQ(xIndices.min, xIndices.max);
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maxValue = std::max(int(lineMax * r), maxValue);
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minValue = std::min(int(lineMin * r), minValue);
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maxValueFull = std::max(int(l.maxValue * r), maxValueFull);
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minValueFull = std::min(int(l.minValue * r), minValueFull);
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}
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return {
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.full = Limits{ float64(minValueFull), float64(maxValueFull) },
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.ranged = Limits{ float64(minValue), float64(maxValue) },
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};
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}
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} // namespace Statistic
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