subsurface/profile-widget/divecartesianaxis.h

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// SPDX-License-Identifier: GPL-2.0
#ifndef DIVECARTESIANAXIS_H
#define DIVECARTESIANAXIS_H
#include <QObject>
#include <QGraphicsLineItem>
#include <QPen>
#include "core/color.h"
#include "core/units.h"
class ProfileScene;
class QPropertyAnimation;
class DiveTextItem;
class DiveLineItem;
class DivePlotDataModel;
class DiveCartesianAxis : public QObject, public QGraphicsLineItem {
Q_OBJECT
Q_PROPERTY(QLineF line WRITE setLine READ line)
Q_PROPERTY(QPointF pos WRITE setPos READ pos)
Q_PROPERTY(qreal x WRITE setX READ x)
Q_PROPERTY(qreal y WRITE setY READ y)
private:
bool printMode;
public:
enum class Position {
Left, Right, Bottom
};
DiveCartesianAxis(Position position, bool inverted, int integralDigits, int fractionalDigits, color_index_t gridColor,
QColor textColor, bool textVisible, bool linesVisible,
double dpr, double labelScale, bool printMode, bool isGrayscale, ProfileScene &scene);
~DiveCartesianAxis();
void setBounds(double min, double max);
void setTransform(double a, double b = 0.0);
double minimum() const;
double maximum() const;
std::pair<double, double> screenMinMax() const;
qreal valueAt(const QPointF &p) const;
qreal posAtValue(qreal value) const;
void setPosition(const QRectF &rect);
void setTextVisible(bool arg1);
void setLinesVisible(bool arg1);
void updateTicks(int animSpeed);
double width() const; // only for vertical axes
double height() const; // only for horizontal axes
private:
Position position;
bool inverted; // Top-to-bottom or right-to-left axis.
int fractionalDigits;
QRectF rect; // Rectangle to fill with grid lines
QPen gridPen;
QColor textColor;
ProfileScene &scene;
QString textForValue(double value) const;
QList<DiveTextItem *> labels;
QList<DiveLineItem *> lines;
double dataMin, dataMax;
double min, max;
bool textVisibility;
bool lineVisibility;
double labelScale;
bool changed;
double dpr;
double labelWidth, labelHeight; // maximum expected sizes of label width and height
// To format the labels and choose the label positions, the
// axis has to be aware of the displayed values. Thankfully,
// the conversion between internal data (eg. mm) and displayed
// data (e.g. ft) can be represented by an affine map ax+b.
struct Transform {
double a, b;
double to(double x) const;
double from(double y) const;
} transform;
void updateLabels(int numTicks, double firstPosScreen, double firstValue, double stepScreen, double stepValue, int animSpeed);
void updateLines(int numTicks, double firstPosScreen, double stepScreen, int animSpeed);
};
#endif // DIVECARTESIANAXIS_H