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https://github.com/subsurface/subsurface.git
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db69c38245
The code was wrong, because it deleted the ChartItems in the main UI thread, not the render thread. This would delete the QSG nodes in the UI thread and then crash on mobile. Therefore refactor this part of the code by adding the items to be deleted to a list that will be deleted by the render thread. As a drop in replacement of std::unique_ptr, implement a silly ChartItemPtr class, which auto-initializes to null. This turns the deterministic and easily controlled memory management into a steaming pile of insanity. Obviously, this can be made much more elegant, but this has to do for now. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
643 lines
20 KiB
C++
643 lines
20 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "statsaxis.h"
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#include "statscolors.h"
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#include "statshelper.h"
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#include "statstranslations.h"
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#include "statsvariables.h"
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#include "statsview.h"
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#include "zvalues.h"
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#include "core/pref.h"
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#include "core/subsurface-time.h"
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#include <math.h> // for lrint
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#include <numeric>
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#include <QFontMetrics>
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#include <QLocale>
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// Define most constants for horizontal and vertical axes for more flexibility.
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// Note: *Horizontal means that this is for the horizontal axis, so a vertical space.
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static const double axisWidth = 0.5;
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static const double axisTickWidth = 0.3;
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static const double axisTickSizeHorizontal = 6.0;
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static const double axisTickSizeVertical = 6.0;
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static const double axisLabelSpaceHorizontal = 2.0; // Space between axis or ticks and labels
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static const double axisLabelSpaceVertical = 2.0; // Space between axis or ticks and labels
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static const double axisTitleSpaceHorizontal = 2.0; // Space between labels and title
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static const double axisTitleSpaceVertical = 2.0; // Space between labels and title
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StatsAxis::StatsAxis(StatsView &view, const QString &title, bool horizontal, bool labelsBetweenTicks) :
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ChartPixmapItem(view, ChartZValue::Axes),
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line(view.createChartItem<ChartLineItem>(ChartZValue::Axes, axisColor, axisWidth)),
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title(title), horizontal(horizontal), labelsBetweenTicks(labelsBetweenTicks),
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size(1.0), zeroOnScreen(0.0), min(0.0), max(1.0), labelWidth(0.0)
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{
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// use a Light version of the application font for both labels and title
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labelFont = QFont();
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labelFont.setWeight(QFont::Light);
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titleFont = labelFont;
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QFontMetrics fm(titleFont);
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titleWidth = title.isEmpty() ? 0.0
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: static_cast<double>(fm.size(Qt::TextSingleLine, title).width());
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}
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StatsAxis::~StatsAxis()
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{
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}
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std::pair<double, double> StatsAxis::minMax() const
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{
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return { min, max };
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}
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std::pair<double, double> StatsAxis::minMaxScreen() const
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{
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return horizontal ? std::make_pair(zeroOnScreen, zeroOnScreen + size)
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: std::make_pair(zeroOnScreen, zeroOnScreen - size);
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}
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std::pair<double, double> StatsAxis::horizontalOverhang() const
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{
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// If the labels are between ticks, they cannot peak out
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if (!horizontal || labelsBetweenTicks)
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return { 0.0, 0.0 };
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QFontMetrics fm(labelFont);
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auto [firstLabel, lastLabel] = getFirstLastLabel();
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return { fm.size(Qt::TextSingleLine, firstLabel).width() / 2.0,
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fm.size(Qt::TextSingleLine, lastLabel).width() / 2.0 };
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}
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void StatsAxis::setRange(double minIn, double maxIn)
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{
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min = minIn;
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max = maxIn;
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}
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// Guess the number of tick marks based on example strings.
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// We will use minimum and maximum values, which are not necessarily the
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// maximum-size strings especially, when using proportional fonts or for
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// categorical data. Therefore, try to err on the safe side by adding enough
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// margins.
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int StatsAxis::guessNumTicks(const std::vector<QString> &strings) const
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{
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QFontMetrics fm(labelFont);
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int minSize = fm.height();
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for (const QString &s: strings) {
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QSize labelSize = fm.size(Qt::TextSingleLine, s);
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int needed = horizontal ? labelSize.width() : labelSize.height();
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if (needed > minSize)
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minSize = needed;
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}
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// Add space between labels
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if (horizontal)
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minSize = minSize * 3 / 2;
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else
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minSize *= 2;
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int numTicks = lrint(size / minSize);
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return std::max(numTicks, 2);
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}
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double StatsAxis::titleSpace() const
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{
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if (title.isEmpty())
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return 0.0;
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return horizontal ? QFontMetrics(titleFont).height() + axisTitleSpaceHorizontal
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: QFontMetrics(titleFont).height() + axisTitleSpaceVertical;
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}
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double StatsAxis::width() const
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{
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if (horizontal)
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return 0.0; // Only supported for vertical axes
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return labelWidth + axisLabelSpaceVertical + titleSpace() +
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(labelsBetweenTicks ? 0.0 : axisTickSizeVertical);
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}
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double StatsAxis::height() const
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{
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if (!horizontal)
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return 0.0; // Only supported for horizontal axes
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return QFontMetrics(labelFont).height() + axisLabelSpaceHorizontal +
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titleSpace() +
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(labelsBetweenTicks ? 0.0 : axisTickSizeHorizontal);
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}
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void StatsAxis::addLabel(const QFontMetrics &fm, const QString &label, double pos)
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{
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labels.push_back({ label, fm.size(Qt::TextSingleLine, label).width(), pos });
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}
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void StatsAxis::addTick(double pos)
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{
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ticks.push_back({ view.createChartItem<ChartLineItem>(ChartZValue::Axes, axisColor, axisTickWidth), pos });
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}
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std::vector<double> StatsAxis::ticksPositions() const
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{
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std::vector<double> res;
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res.reserve(ticks.size());
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for (const Tick &tick: ticks)
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res.push_back(toScreen(tick.pos));
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return res;
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}
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// Map x (horizontal) or y (vertical) coordinate to or from screen coordinate
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double StatsAxis::toScreen(double pos) const
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{
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// Vertical is bottom-up
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return horizontal ? (pos - min) / (max - min) * size + zeroOnScreen
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: (min - pos) / (max - min) * size + zeroOnScreen;
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}
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double StatsAxis::toValue(double pos) const
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{
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// Vertical is bottom-up
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return horizontal ? (pos - zeroOnScreen) / size * (max - min) + min
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: (zeroOnScreen - pos) / size * (max - min) + zeroOnScreen;
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}
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void StatsAxis::setSize(double sizeIn)
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{
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size = sizeIn;
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// Ticks (and labels) should probably be reused. For now, clear them.
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for (Tick &tick: ticks)
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view.deleteChartItem(tick.item);
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labels.clear();
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ticks.clear();
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updateLabels();
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labelWidth = 0.0;
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for (const Label &label: labels) {
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if (label.width > labelWidth)
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labelWidth = label.width;
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}
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QFontMetrics fm(labelFont);
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int fontHeight = fm.height();
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if (horizontal) {
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double pixmapWidth = size;
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double offsetX = 0.0;
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if (!labels.empty() && !labelsBetweenTicks) {
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pixmapWidth += labels.front().width / 2.0 + labels.back().width / 2.0;
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offsetX += labels.front().width / 2.0;
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}
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double pixmapHeight = fontHeight + titleSpace();
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double offsetY = -axisWidth / 2.0 - axisLabelSpaceHorizontal -
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(labelsBetweenTicks ? 0.0 : axisTickSizeHorizontal);
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ChartPixmapItem::resize(QSizeF(pixmapWidth, pixmapHeight)); // Note: this rounds the dimensions up
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offset = QPointF(round(offsetX), round(offsetY));
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img->fill(Qt::transparent);
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painter->setPen(QPen(darkLabelColor));
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painter->setFont(labelFont);
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for (const Label &label: labels) {
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double x = (label.pos - min) / (max - min) * size + offset.x() - round(label.width / 2.0);
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QRectF rect(x, 0.0, label.width, fontHeight);
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painter->drawText(rect, label.label);
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}
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if (!title.isEmpty()) {
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QRectF rect(offset.x() + round((size - titleWidth) / 2.0),
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fontHeight + axisTitleSpaceHorizontal,
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titleWidth, fontHeight);
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painter->setFont(titleFont);
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painter->drawText(rect, title);
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}
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} else {
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double pixmapWidth = labelWidth + titleSpace();
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double offsetX = pixmapWidth + axisLabelSpaceVertical + (labelsBetweenTicks ? 0.0 : axisTickSizeVertical);
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double pixmapHeight = ceil(size + axisTickWidth);
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double offsetY = size;
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if (!labels.empty() && !labelsBetweenTicks) {
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pixmapHeight += fontHeight;
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offsetY += fontHeight / 2.0;
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}
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ChartPixmapItem::resize(QSizeF(pixmapWidth, pixmapHeight)); // Note: this rounds the dimensions up
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offset = QPointF(round(offsetX), round(offsetY));
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img->fill(Qt::transparent);
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painter->setPen(QPen(darkLabelColor));
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painter->setFont(labelFont);
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for (const Label &label: labels) {
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double y = (min - label.pos) / (max - min) * size + offset.y() - round(fontHeight / 2.0);
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QRectF rect(pixmapWidth - label.width, y, label.width, fontHeight);
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painter->drawText(rect, label.label);
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}
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if (!title.isEmpty()) {
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painter->rotate(-90.0);
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QRectF rect(round(-(offsetY + titleWidth) / 2.0), 0.0, titleWidth, fontHeight);
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painter->setFont(titleFont);
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painter->drawText(rect, title);
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painter->resetTransform();
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}
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}
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}
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void StatsAxis::setPos(QPointF pos)
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{
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zeroOnScreen = horizontal ? pos.x() : pos.y();
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ChartPixmapItem::setPos(pos - offset);
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if (horizontal) {
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double y = pos.y();
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for (const Tick &tick: ticks) {
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double x = toScreen(tick.pos);
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tick.item->setLine(QPointF(x, y), QPointF(x, y + axisTickSizeHorizontal));
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}
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line->setLine(QPointF(zeroOnScreen, y), QPointF(zeroOnScreen + size, y));
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} else {
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double x = pos.x();
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for (const Tick &tick: ticks) {
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double y = toScreen(tick.pos);
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tick.item->setLine(QPointF(x, y), QPointF(x - axisTickSizeVertical, y));
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}
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line->setLine(QPointF(x, zeroOnScreen), QPointF(x, zeroOnScreen - size));
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}
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}
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ValueAxis::ValueAxis(StatsView &view, const QString &title, double min, double max, int decimals, bool horizontal) :
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StatsAxis(view, title, horizontal, false),
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min(min), max(max), decimals(decimals)
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{
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// Avoid degenerate cases
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if (max - min < 0.0001) {
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max += 0.5;
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min -= 0.5;
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}
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}
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// Attention: this is only heuristics. Before setting the actual size, we
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// don't know the actual numbers of the minimum and maximum value.
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std::pair<QString, QString> ValueAxis::getFirstLastLabel() const
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{
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QLocale loc;
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return { loc.toString(min, 'f', decimals), loc.toString(max, 'f', decimals) };
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}
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void ValueAxis::updateLabels()
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{
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QLocale loc;
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auto [minString, maxString] = getFirstLastLabel();
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int numTicks = guessNumTicks({ minString, maxString});
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// Use full decimal increments
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double height = max - min;
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double inc = height / numTicks;
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double digits = floor(log10(inc));
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int digits_int = lrint(digits);
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double digits_factor = pow(10.0, digits);
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int inc_int = std::max((int)ceil(inc / digits_factor), 1);
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// Do "nice" increments of the leading digit: 1, 2, 4, 5.
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if (inc_int > 5)
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inc_int = 10;
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if (inc_int == 3)
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inc_int = 4;
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inc = inc_int * digits_factor;
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if (-digits_int > decimals)
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decimals = -digits_int;
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double actMin = floor(min / inc) * inc;
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double actMax = ceil(max / inc) * inc;
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int num = lrint((actMax - actMin) / inc);
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setRange(actMin, actMax);
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double actStep = (actMax - actMin) / static_cast<double>(num);
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double act = actMin;
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labels.reserve(num + 1);
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ticks.reserve(num + 1);
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QFontMetrics fm(labelFont);
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for (int i = 0; i <= num; ++i) {
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addLabel(fm, loc.toString(act, 'f', decimals), act);
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addTick(act);
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act += actStep;
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}
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}
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CountAxis::CountAxis(StatsView &view, const QString &title, int count, bool horizontal) :
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ValueAxis(view, title, 0.0, (double)count, 0, horizontal),
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count(count)
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{
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}
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// Attention: this is only heuristics. Before setting the actual size, we
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// don't know the actual numbers of the minimum and maximum value.
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std::pair<QString, QString> CountAxis::getFirstLastLabel() const
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{
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QLocale loc;
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return { QString("0"), loc.toString(count) };
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}
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void CountAxis::updateLabels()
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{
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QLocale loc;
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QString countString = loc.toString(count);
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int numTicks = guessNumTicks({ countString });
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// Get estimate of step size
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if (count <= 0)
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count = 1;
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// When determining the step size, make sure to round up
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int step = (count + numTicks - 1) / numTicks;
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if (step <= 0)
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step = 1;
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// Get the significant first or first two digits
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int scale = 1;
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int significant = step;
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while (significant > 25) {
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significant /= 10;
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scale *= 10;
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}
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for (int increment: { 1, 2, 4, 5, 10, 15, 20, 25 }) {
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if (increment >= significant) {
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significant = increment;
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break;
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}
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}
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step = significant * scale;
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// Make maximum an integer number of steps, equal or greater than the needed counts
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int num = (count - 1) / step + 1;
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int max = num * step;
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setRange(0, max);
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labels.reserve(max + 1);
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ticks.reserve(max + 1);
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QFontMetrics fm(labelFont);
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for (int i = 0; i <= max; i += step) {
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addLabel(fm, loc.toString(i), static_cast<double>(i));
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addTick(static_cast<double>(i));
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}
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}
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CategoryAxis::CategoryAxis(StatsView &view, const QString &title, const std::vector<QString> &labels, bool horizontal) :
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StatsAxis(view, title, horizontal, true),
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labelsText(labels)
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{
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setRange(-0.5, static_cast<double>(labels.size()) + 0.5);
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}
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// No implementation because the labels are inside ticks and this
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// is only used to calculate the "overhang" of labels under ticks.
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std::pair<QString, QString> CategoryAxis::getFirstLastLabel() const
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{
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return { QString(), QString() };
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}
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// Get ellipses for a given label size
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static QString ellipsis1 = QStringLiteral("․");
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static QString ellipsis2 = QStringLiteral("‥");
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static QString ellipsis3 = QStringLiteral("…");
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static QString getEllipsis(const QFontMetrics &fm, double widthIn)
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{
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int width = static_cast<int>(floor(widthIn));
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if (fm.size(Qt::TextSingleLine, ellipsis3).width() < width)
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return ellipsis3;
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if (fm.size(Qt::TextSingleLine, ellipsis2).width() < width)
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return ellipsis2;
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if (fm.size(Qt::TextSingleLine, ellipsis1).width() < width)
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return ellipsis1;
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return QString();
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}
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void CategoryAxis::updateLabels()
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{
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if (labelsText.empty())
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return;
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QFontMetrics fm(labelFont);
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double size_per_label = size / static_cast<double>(labelsText.size()) - axisTickWidth;
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double fontHeight = fm.height();
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QString ellipsis = horizontal ? getEllipsis(fm, size_per_label) : QString();
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labels.reserve(labelsText.size());
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ticks.reserve(labelsText.size() + 1);
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double pos = 0.0;
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addTick(-0.5);
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for (const QString &s: labelsText) {
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if (horizontal) {
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double width = static_cast<double>(fm.size(Qt::TextSingleLine, s).width());
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addLabel(fm, width < size_per_label ? s : ellipsis, pos);
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} else {
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if (fontHeight < size_per_label)
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addLabel(fm, s, pos);
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}
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addTick(pos + 0.5);
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pos += 1.0;
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}
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}
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HistogramAxis::HistogramAxis(StatsView &view, const QString &title, std::vector<HistogramAxisEntry> bins, bool horizontal) :
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StatsAxis(view, title, horizontal, false),
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bin_values(std::move(bins))
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{
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if (bin_values.size() < 2) // Less than two makes no sense -> there must be at least one category
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return;
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// The caller can declare some bin labels as preferred, when there are
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// too many labels to show all. Try to infer the preferred step size
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// by finding two consecutive preferred labels. This supposes that
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// the preferred labels are equi-distant and that the caller does not
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// use large prime (or nearly prime) steps.
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auto it1 = std::find_if(bin_values.begin(), bin_values.end(),
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[](const HistogramAxisEntry &e) { return e.recommended; });
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auto next_it = it1 == bin_values.end() ? it1 : std::next(it1);
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auto it2 = std::find_if(next_it, bin_values.end(),
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[](const HistogramAxisEntry &e) { return e.recommended; });
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preferred_step = it2 == bin_values.end() ? 1 : it2 - it1;
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setRange(bin_values.front().value, bin_values.back().value);
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}
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std::pair<QString, QString> HistogramAxis::getFirstLastLabel() const
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{
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if (bin_values.empty())
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return { QString(), QString() };
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else
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return { bin_values.front().name, bin_values.back().name };
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}
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// Initialize a histogram axis with the given labels. Labels are specified as (name, value, recommended) triplets.
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// If labels are skipped, try to skip it in such a way that a recommended label is shown.
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// The one example where this is relevant is the quarterly bins, which are formated as (2019, q1, q2, q3, 2020, ...).
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// There, we obviously want to show the years and not the quarters.
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void HistogramAxis::updateLabels()
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{
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if (bin_values.size() < 2) // Less than two makes no sense -> there must be at least one category
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return;
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std::vector<QString> strings;
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strings.reserve(bin_values.size());
|
||
for (auto &[name, value, recommended]: bin_values)
|
||
strings.push_back(name);
|
||
int maxLabels = guessNumTicks(strings);
|
||
|
||
int step = ((int)bin_values.size() - 1) / maxLabels + 1;
|
||
if (step < preferred_step) {
|
||
if (step * 2 > preferred_step) {
|
||
step = preferred_step;
|
||
} else {
|
||
int gcd = std::gcd(step, preferred_step);
|
||
while (preferred_step % step != 0)
|
||
step += gcd;
|
||
}
|
||
} else if (step > preferred_step) {
|
||
int remainder = (step + preferred_step) % preferred_step;
|
||
if (remainder != 0)
|
||
step = step + preferred_step - remainder;
|
||
}
|
||
int first = 0;
|
||
if (step > 1) {
|
||
for (int i = 0; i < (int)bin_values.size(); ++i) {
|
||
const auto &[name, value, recommended] = bin_values[i];
|
||
if (recommended) {
|
||
first = i % step;
|
||
break;
|
||
}
|
||
}
|
||
}
|
||
labels.reserve((bin_values.size() - first) / step + 1);
|
||
// Always add a tick at the beginning of the axis - this is
|
||
// important for the grid, which uses the ticks.
|
||
if (first != 0)
|
||
addTick(bin_values.front().value);
|
||
int last = first;
|
||
QFontMetrics fm(labelFont);
|
||
for (int i = first; i < (int)bin_values.size(); i += step) {
|
||
const auto &[name, value, recommended] = bin_values[i];
|
||
addLabel(fm, name, value);
|
||
addTick(value);
|
||
last = i;
|
||
}
|
||
// Always add a tick at the end of the axis (see above).
|
||
if (last != (int)bin_values.size() - 1)
|
||
addTick(bin_values.back().value);
|
||
}
|
||
|
||
// Helper function to turn days since "Unix epoch" into a timestamp_t
|
||
static const double seconds_in_day = 86400.0;
|
||
static timestamp_t double_to_timestamp(double d)
|
||
{
|
||
return timestamp_t{ lrint(d * seconds_in_day) };
|
||
}
|
||
|
||
// Turn double to (year, month) pair
|
||
static std::pair<int, int> double_to_month(double d)
|
||
{
|
||
struct tm tm;
|
||
utc_mkdate(double_to_timestamp(d), &tm);
|
||
return { tm.tm_year, tm.tm_mon };
|
||
}
|
||
|
||
// Increase (year, month) pair by one month
|
||
static void inc(std::pair<int, int> &ym)
|
||
{
|
||
if (++ym.second >= 12) {
|
||
++ym.first;
|
||
ym.second = 0;
|
||
}
|
||
}
|
||
|
||
static std::array<int, 3> double_to_day(double d)
|
||
{
|
||
struct tm tm;
|
||
utc_mkdate(double_to_timestamp(d), &tm);
|
||
return { tm.tm_year, tm.tm_mon, tm.tm_mday };
|
||
}
|
||
|
||
// This is trashy: to increase a day, turn into timestamp and back.
|
||
// This surely can be done better.
|
||
static void inc(std::array<int, 3> &ymd)
|
||
{
|
||
struct tm tm = { 0 };
|
||
tm.tm_year = ymd[0];
|
||
tm.tm_mon = ymd[1];
|
||
tm.tm_mday = ymd[2] + 1;
|
||
timestamp_t t = utc_mktime(&tm);
|
||
utc_mkdate(t, &tm);
|
||
ymd = { tm.tm_year, tm.tm_mon, tm.tm_mday };
|
||
}
|
||
|
||
// Use heuristics to determine the preferred day/month format:
|
||
// Try to see whether day or month comes first and try to extract
|
||
// the separator character. Returns a (day_first, separator) pair.
|
||
static std::pair<bool, char> day_format()
|
||
{
|
||
const char *fmt = prefs.date_format;
|
||
const char *d, *m, *sep;
|
||
for (d = fmt; *d && *d != 'd' && *d != 'D'; ++d)
|
||
;
|
||
for (m = fmt; *m && *m != 'm' && *m != 'M'; ++m)
|
||
;
|
||
for(sep = std::min(m, d); *sep == 'm' || *sep == 'M' || *sep == 'd' || *sep == 'D'; ++sep)
|
||
;
|
||
return { d < m, *sep ? *sep : '.' };
|
||
}
|
||
|
||
// For now, misuse the histogram axis for creating a time axis. Depending on the range,
|
||
// create year, month or day-based bins. This is certainly not efficient and may need
|
||
// some tuning. However, it should ensure that no crazy number of bins is generated.
|
||
// Ultimately, this should be replaced by a better and dynamic scheme
|
||
// From and to are given in seconds since "epoch".
|
||
static std::vector<HistogramAxisEntry> timeRangeToBins(double from, double to)
|
||
{
|
||
// from and two are given in days since the "Unix epoch".
|
||
// The lowest precision we do is two days.
|
||
if (to - from < 2.0) {
|
||
double center = (from + to) / 2.0;
|
||
from = center + 1.0;
|
||
to = center - 1.0;
|
||
}
|
||
|
||
std::vector<HistogramAxisEntry> res;
|
||
if (to - from > 2.0 * 356.0) {
|
||
// For two years or more, do year based bins
|
||
int year_from = utc_year(double_to_timestamp(from));
|
||
int year_to = utc_year(double_to_timestamp(to)) + 1;
|
||
for (int year = year_from; year <= year_to; ++year)
|
||
res.push_back({ QString::number(year), date_to_double(year, 0, 0), true });
|
||
} else if (to - from > 2.0 * 30.0) {
|
||
// For two months or more, do month based bins
|
||
auto year_month_from = double_to_month(from);
|
||
auto year_month_to = double_to_month(to);
|
||
inc(year_month_to);
|
||
for (auto act = year_month_from; act <= year_month_to; inc(act)) {
|
||
double val = date_to_double(act.first, act.second, 0);
|
||
if (act.second == 0)
|
||
res.push_back({ QString::number(act.first), val, true });
|
||
else
|
||
res.push_back({ monthname(act.second), val, false });
|
||
}
|
||
} else {
|
||
// For less than two months, do date based bins
|
||
auto day_from = double_to_day(from);
|
||
auto day_to = double_to_day(to);
|
||
inc(day_to);
|
||
auto [day_before_month, separator] = day_format();
|
||
QString format = day_before_month ? QStringLiteral("%1%2%3")
|
||
: QStringLiteral("%3%2%1");
|
||
QString sep = QString(separator);
|
||
for (auto act = day_from; act < day_to; inc(act)) {
|
||
double val = date_to_double(act[0], act[1], act[2]);
|
||
if (act[1] == 0) {
|
||
res.push_back({ QString::number(act[0]), val, true });
|
||
} else if (act[2] == 0) {
|
||
res.push_back({ monthname(act[1]), val, true });
|
||
} else {
|
||
QString s = format.arg(QString::number(act[2]), sep, QString::number(act[1]));
|
||
res.push_back({s, val, true });
|
||
}
|
||
}
|
||
}
|
||
return res;
|
||
}
|
||
|
||
DateAxis::DateAxis(StatsView &view, const QString &title, double from, double to, bool horizontal) :
|
||
HistogramAxis(view, title, timeRangeToBins(from, to), horizontal)
|
||
{
|
||
}
|