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aa4b48f440
This were in subsurface-string.h for unknown reasons. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
502 lines
16 KiB
C++
502 lines
16 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "profile-widget/divecartesianaxis.h"
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#include "profile-widget/divetextitem.h"
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#include "core/profile.h"
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#include "core/qthelper.h"
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#include "core/subsurface-float.h"
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#include "profile-widget/animationfunctions.h"
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#include "profile-widget/divelineitem.h"
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#include "profile-widget/profilescene.h"
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static const double labelSpaceHorizontal = 2.0; // space between label and ticks
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static const double labelSpaceVertical = 2.0; // space between label and ticks
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void DiveCartesianAxis::setBounds(double minimum, double maximum)
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{
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dataMin = min = minimum;
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dataMax = max = maximum;
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}
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DiveCartesianAxis::DiveCartesianAxis(Position position, bool inverted, int integralDigits, int fractionalDigits, color_index_t gridColor,
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QColor textColor, bool textVisible, bool linesVisible,
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double dpr, double labelScale, bool printMode, bool isGrayscale, ProfileScene &scene) :
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printMode(printMode),
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position(position),
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inverted(inverted),
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fractionalDigits(fractionalDigits),
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textColor(textColor),
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scene(scene),
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min(0),
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max(0),
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textVisibility(textVisible),
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lineVisibility(linesVisible),
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gridIsMultipleOfThree(false),
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labelScale(labelScale),
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dpr(dpr),
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transform({1.0, 0.0})
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{
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QPen pen;
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pen.setColor(getColor(TIME_GRID, isGrayscale));
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/* cosmetic width() == 0 for lines in printMode
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* having setCosmetic(true) and width() > 0 does not work when
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* printing on OSX and Linux */
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pen.setWidth(DiveCartesianAxis::printMode ? 0 : 2);
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pen.setCosmetic(true);
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setPen(pen);
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pen.setBrush(getColor(gridColor, isGrayscale));
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gridPen = pen;
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/* Create the longest expected label, e.g. 999.99. */
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QString label;
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label.reserve(integralDigits + fractionalDigits + 1);
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for (int i = 0; i < integralDigits; ++i)
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label.append('9');
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if (fractionalDigits > 0) {
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label.append('.');
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for (int i = 0; i < fractionalDigits; ++i)
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label.append('9');
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}
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std::tie(labelWidth, labelHeight) = DiveTextItem::getLabelSize(dpr, labelScale, label);
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// The axis is implemented by a line, which gives the position.
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// If we don't show labels or grid, we don't want to show the line,
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// as this gives a strange artifact. TODO: Don't derive from a
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// line object in the first place.
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setVisible(textVisible || linesVisible);
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}
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DiveCartesianAxis::~DiveCartesianAxis()
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{
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}
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void DiveCartesianAxis::setTransform(double a, double b)
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{
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transform.a = a;
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transform.b = b;
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}
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double DiveCartesianAxis::width() const
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{
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return labelWidth + labelSpaceHorizontal * dpr;
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}
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double DiveCartesianAxis::height() const
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{
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return labelHeight + labelSpaceVertical * dpr;
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}
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double DiveCartesianAxis::horizontalOverhang() const
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{
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return labelWidth / 2.0;
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}
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int DiveCartesianAxis::getMinLabelDistance(const DiveCartesianAxis &timeAxis) const
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{
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// For the plot not being to crowded we want at least two
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// labels to fit between each pair of displayed labels.
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// May need some optimization.
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QLineF m = timeAxis.line();
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double interval = labelWidth * 3.0 * (timeAxis.maximum() - timeAxis.minimum()) / (m.x2() - m.x1());
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return int(ceil(interval));
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}
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static double sensibleInterval(double inc, int decimals, bool is_time_axis, bool is_multiple_of_three)
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{
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if (is_time_axis && inc < 60.0) {
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// for time axes and less than one hour increments, round to
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// 1, 2, 3, 4, 5, 6 or 12 parts of an hour or a minute
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// (that is 60, 30, 20, 15, 12, 10 or 5 min/sec).
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bool fraction_of_hour = inc > 1.0;
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if (fraction_of_hour)
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inc /= 60.0;
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inc = inc <= 1.0 / 12.0 ? 1.0 / 12.0 :
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inc <= 1.0 / 6.0 ? 1.0 / 6.0 :
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1.0 / floor(1.0/inc);
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if (fraction_of_hour)
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inc *= 60.0;
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return inc;
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}
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// Use full decimal increments
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double digits = floor(log10(inc));
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int digits_int = lrint(digits);
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// Don't do increments smaller than the displayed decimals.
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if (digits_int < -decimals) {
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digits_int = -decimals;
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digits = static_cast<double>(digits_int);
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}
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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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if (is_multiple_of_three)
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{
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// Do increments quantized to 3. In general: 1, 3, 6, 15
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if (inc_int > 6)
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inc_int = 15;
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else if (inc_int > 3)
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inc_int = 6;
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else if (inc_int == 2)
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inc_int = 3;
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} else {
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// Do "nice" increments of the leading digit. In general: 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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}
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inc = inc_int * digits_factor;
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return inc;
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}
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void DiveCartesianAxis::updateTicks(int animSpeed)
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{
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if (dataMax - dataMin < 1e-5)
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return;
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if (!textVisibility && !lineVisibility)
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return; // Nothing to display...
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// Remember the old range for animations.
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double dataMaxOld = dataMax;
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double dataMinOld = dataMin;
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// Guess the number of tick marks.
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QLineF m = line();
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double spaceNeeded = position == Position::Bottom ? labelWidth * 3.0 / 2.0
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: labelHeight * 2.0;
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double size = position == Position::Bottom ? fabs(m.x2() - m.x1())
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: fabs(m.y2() - m.y1());
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int numTicks = lrint(size / spaceNeeded);
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numTicks = std::clamp(numTicks, 2, 50);
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double stepValue = (dataMax - dataMin) / numTicks;
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// Round the interval to a sensible size in display units
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double intervalDisplay = stepValue * transform.a;
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intervalDisplay = sensibleInterval(intervalDisplay, fractionalDigits, position == Position::Bottom, gridIsMultipleOfThree);
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// Choose full multiples of the interval as minumum and maximum values
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double minDisplay = transform.to(dataMin);
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double maxDisplay = transform.to(dataMax);
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// The time axis is special: use the full width in that case.
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// Other axes round to the next "nice" number
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double firstDisplay, lastDisplay;
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double firstValue;
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if (position == Position::Bottom) {
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firstDisplay = ceil(minDisplay / intervalDisplay * (1.0 - 1e-5)) * intervalDisplay;
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lastDisplay = floor(maxDisplay / intervalDisplay * (1.0 + 1e-5)) * intervalDisplay;
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firstValue = transform.from(firstDisplay);
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} else {
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firstDisplay = floor(minDisplay / intervalDisplay * (1.0 + 1e-5)) * intervalDisplay;
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lastDisplay = ceil(maxDisplay / intervalDisplay * (1.0 - 1e-5)) * intervalDisplay;
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min = transform.from(firstDisplay);
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max = transform.from(lastDisplay);
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firstValue = min;
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}
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numTicks = lrint((lastDisplay - firstDisplay) / intervalDisplay) + 1;
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numTicks = std::max(numTicks, 0);
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if (numTicks == 0)
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return;
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double internalToScreen = size / (max - min);
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stepValue = position == Position::Bottom ?
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intervalDisplay / transform.a : // special case for time axis.
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numTicks > 1 ? (max - min) / (numTicks - 1) : 0;
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double stepScreen = stepValue * internalToScreen;
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// The ticks of the time axis don't necessarily start at the beginning.
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double offsetScreen = position == Position::Bottom ?
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(firstValue - min) * internalToScreen : 0.0;
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// Move the remaining grid lines / labels to their correct positions
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// regarding the possible new values for the axis.
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double firstPosScreen = position == Position::Bottom ?
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(inverted ? m.x2() - offsetScreen : m.x1() + offsetScreen) :
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(inverted ? m.y1() + offsetScreen : m.y2() - offsetScreen);
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updateLabels(numTicks, firstPosScreen, firstValue, stepScreen, stepValue, animSpeed, dataMinOld, dataMaxOld);
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}
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QPointF DiveCartesianAxis::labelPos(double pos) const
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{
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return position == Position::Bottom ? QPointF(pos, rect.bottom() + labelSpaceVertical * dpr) :
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position == Position::Left ? QPointF(rect.left() - labelSpaceHorizontal * dpr, pos) :
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QPointF(rect.right() + labelSpaceHorizontal * dpr, pos);
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}
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QLineF DiveCartesianAxis::linePos(double pos) const
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{
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return position == Position::Bottom ? QLineF(pos, rect.top(), pos, rect.bottom()) :
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QLineF(rect.left(), pos, rect.right(), pos);
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}
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void DiveCartesianAxis::updateLabel(Label &label, double opacityEnd, double pos) const
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{
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label.opacityStart = label.label ? label.label->opacity()
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: label.line->opacity();
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label.opacityEnd = opacityEnd;
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if (label.label) {
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label.labelPosStart = label.label->pos();
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label.labelPosEnd = labelPos(pos);
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// For the time-axis, the format might change from "mm" to "mm:ss",
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// or vice versa. Currently, we don't animate that, i.e. it will
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// switch instantaneously.
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if (position == Position::Bottom)
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label.label->set(textForValue(label.value), textColor);
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}
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if (label.line) {
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label.lineStart = label.line->line();
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label.lineEnd = linePos(pos);
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}
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}
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DiveCartesianAxis::Label DiveCartesianAxis::createLabel(double value, double pos, double dataMinOld, double dataMaxOld, int animSpeed, bool noLabel)
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{
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Label label { value, 0.0, 1.0 };
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double posStart = posAtValue(value, dataMaxOld, dataMinOld);
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if (textVisibility && !noLabel) {
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label.labelPosStart = labelPos(posStart);
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label.labelPosEnd = labelPos(pos);
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int alignFlags = position == Position::Bottom ? Qt::AlignTop | Qt::AlignHCenter :
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position == Position::Left ? Qt::AlignVCenter | Qt::AlignLeft:
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Qt::AlignVCenter | Qt::AlignRight;
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label.label = std::make_unique<DiveTextItem>(dpr, labelScale, alignFlags, this);
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label.label->set(textForValue(value), textColor);
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label.label->setZValue(1);
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label.label->setPos(animSpeed <= 0 ? label.labelPosEnd : label.labelPosStart);
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label.label->setOpacity(animSpeed <= 0 ? 1.0 : 0.0);
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}
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if (lineVisibility) {
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label.lineStart = linePos(posStart);
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label.lineEnd = linePos(pos);
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label.line = std::make_unique<DiveLineItem>(this);
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label.line->setPen(gridPen);
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label.line->setZValue(0);
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label.line->setLine(animSpeed <= 0 ? label.lineEnd : label.lineStart);
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label.line->setOpacity(animSpeed <= 0 ? 1.0 : 0.0);
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}
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return label;
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}
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void DiveCartesianAxis::updateLabels(int numTicks, double firstPosScreen, double firstValue, double stepScreen, double stepValue,
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int animSpeed, double dataMinOld, double dataMaxOld)
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{
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if (animSpeed <= 0)
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labels.clear(); // No animation? Simply redo the labels.
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std::vector<Label> newLabels;
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newLabels.reserve(numTicks);
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auto actOld = labels.begin();
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double value = firstValue;
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for (int i = 0; i < numTicks; i++, value += stepValue) {
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// Check if we already got that label. If we find unused labels, mark them for deletion.
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// Labels to be deleted are recognized by an end-opacity of 0.0.
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// Note: floating point comparisons should be fine owing to our rounding to integers above.
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for ( ; actOld != labels.end() && actOld->value < value; ++actOld) {
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double pos = posAtValue(actOld->value);
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updateLabel(*actOld, 0.0, pos);
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newLabels.push_back(std::move(*actOld));
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}
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double pos = ((position == Position::Bottom) != inverted) ?
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firstPosScreen + i * stepScreen :
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firstPosScreen - i * stepScreen;
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if (actOld != labels.end() && actOld->value == value) {
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// Update label, but don't delete it
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updateLabel(*actOld, 1.0, pos);
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newLabels.push_back(std::move(*actOld));
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++actOld;
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} else {
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// This is horrible: for the depth axis, we don't want to show the first label (0).
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// We recognize this by the fact that the depth axis is the only "inverted" axis.
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// This really should be replaced by a general flag to avoid surprises!
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bool noLabel = inverted && i == 0;
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// Create new label
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newLabels.push_back(createLabel(value, pos, dataMinOld, dataMaxOld, animSpeed, noLabel));
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}
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}
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// If there are any labels left, mark them for deletion.
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for ( ; actOld != labels.end(); ++actOld) {
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double pos = posAtValue(actOld->value);
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updateLabel(*actOld, 0.0, pos);
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newLabels.push_back(std::move(*actOld));
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}
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labels = std::move(newLabels);
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}
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// Arithmetics with lines. Needed for animations. Operates pointwise.
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static QLineF operator-(const QLineF &l1, const QLineF &l2)
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{
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return QLineF(l1.p1() - l2.p1(), l1.p2() - l2.p2());
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}
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static QLineF operator+(const QLineF &l1, const QLineF &l2)
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{
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return QLineF(l1.p1() + l2.p1(), l1.p2() + l2.p2());
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}
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static QLineF operator*(double f, const QLineF &l)
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{
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return QLineF(f*l.p1(), f*l.p2());
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}
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// Helper template: get point in interval (0.0: start, 1.0: end)
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template <typename T>
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T mid(const T &start, const T &end, double fraction)
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{
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return start + fraction * (end - start);
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}
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void DiveCartesianAxis::anim(double fraction)
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{
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if (fraction == 1.0) {
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// The animation has finished.
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// Remove labels that have been marked for deletion by setting the opacity to 0.0.
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// Use the erase-remove idiom (yes, it is a weird idiom).
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labels.erase(std::remove_if(labels.begin(), labels.end(),
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[](const Label &l) { return l.opacityEnd == 0.0; }),
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labels.end());
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}
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for (Label &label: labels) {
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double opacity = mid(label.opacityStart, label.opacityEnd, fraction);
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if (label.label) {
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label.label->setOpacity(opacity);
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label.label->setPos(mid(label.labelPosStart, label.labelPosEnd, fraction));
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}
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if (label.line) {
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label.line->setOpacity(opacity);
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label.line->setLine(mid(label.lineStart, label.lineEnd, fraction));
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}
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}
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}
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void DiveCartesianAxis::setPosition(const QRectF &rectIn)
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{
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rect = rectIn;
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switch (position) {
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case Position::Left:
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setLine(QLineF(rect.topLeft(), rect.bottomLeft()));
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break;
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case Position::Right:
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setLine(QLineF(rect.topRight(), rect.bottomRight()));
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break;
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case Position::Bottom:
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default:
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setLine(QLineF(rect.bottomLeft(), rect.bottomRight()));
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break;
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}
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}
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double DiveCartesianAxis::Transform::to(double x) const
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{
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return a*x + b;
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}
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double DiveCartesianAxis::Transform::from(double y) const
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{
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return (y - b) / a;
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}
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QString DiveCartesianAxis::textForValue(double value) const
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{
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if (position == Position::Bottom) {
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// The bottom axis is the time axis and that needs special treatment.
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int nr = lrint(value) / 60;
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if (maximum() - minimum() < 600.0)
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return QString("%1:%2").arg(nr).arg((int)value % 60, 2, 10, QChar('0'));
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return QString::number(nr);
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} else {
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return QStringLiteral("%L1").arg(transform.to(value), 0, 'f', fractionalDigits);
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}
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}
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double DiveCartesianAxis::valueAt(const QPointF &p) const
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{
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QLineF m = line();
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QPointF relativePosition = p;
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relativePosition -= pos(); // normalize p based on the axis' offset on screen
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double fraction = position == Position::Bottom ?
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(relativePosition.x() - m.x1()) / (m.x2() - m.x1()) :
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(relativePosition.y() - m.y1()) / (m.y2() - m.y1());
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if ((position == Position::Bottom) == inverted)
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fraction = 1.0 - fraction;
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return fraction * (max - min) + min;
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}
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double DiveCartesianAxis::posAtValue(double value, double max, double min) const
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{
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QLineF m = line();
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double screenFrom = position == Position::Bottom ? m.x1() : m.y1();
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double screenTo = position == Position::Bottom ? m.x2() : m.y2();
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if (nearly_equal(min, max))
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return (screenFrom + screenTo) / 2.0;
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if ((position == Position::Bottom) == inverted)
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std::swap(screenFrom, screenTo);
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return (value - min) / (max - min) *
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(screenTo - screenFrom) + screenFrom;
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}
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double DiveCartesianAxis::posAtValue(double value) const
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{
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return posAtValue(value, max, min);
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}
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static std::pair<double, double> getLineFromTo(const QLineF &l, bool horizontal)
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{
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if (horizontal)
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return std::make_pair(l.x1(), l.x2());
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else
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return std::make_pair(l.y1(), l.y2());
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}
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double DiveCartesianAxis::screenPosition(double pos) const
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{
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if ((position == Position::Bottom) == inverted)
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pos = 1.0 - pos;
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auto [from, to] = getLineFromTo(line(), position == Position::Bottom);
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return (to - from) * pos + from;
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}
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double DiveCartesianAxis::pointInRange(double pos) const
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{
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auto [from, to] = getLineFromTo(line(), position == Position::Bottom);
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if (from > to)
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std::swap(from, to);
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return pos >= from && pos <= to;
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}
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double DiveCartesianAxis::maximum() const
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{
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return max;
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}
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double DiveCartesianAxis::minimum() const
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{
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return min;
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}
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void DiveCartesianAxis::setGridIsMultipleOfThree(bool arg1)
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{
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gridIsMultipleOfThree = arg1;
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}
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std::pair<double, double> DiveCartesianAxis::screenMinMax() const
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{
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return position == Position::Bottom ? std::make_pair(rect.left(), rect.right())
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: std::make_pair(rect.top(), rect.bottom());
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}
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