/usr/include/analitzaplot/plotter2d.h is in libanalitza-dev 4:4.13.0-0ubuntu1.
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* Copyright (C) 2011 by Aleix Pol <aleixpol@kde.org> *
* Copyright (C) 2012-2013 by Percy Camilo T. Aucahuasi <percy.camilo.ta@gmail.com> *
* *
* This program is free software; you can redistribute it and/or *
* modify it under the terms of the GNU General Public License *
* as published by the Free Software Foundation; either version 2 *
* of the License, or (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the Free Software *
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA *
*************************************************************************************/
#ifndef PLOTTER2D_H
#define PLOTTER2D_H
#include <QRectF>
#include <QLineF>
#include <QString>
#include <QPair>
#include <QColor>
#include "analitzaplotexport.h"
#include <analitzaplot/plottingenums.h>
class QAbstractItemModel;
class QPainter;
class QPaintDevice;
class QModelIndex;
namespace Analitza
{
class PlotItem;
/**
* \class Plotter2D
*
* \ingroup AnalitzaPlotModule
*
* \brief Render 2D plots.
*
* This class uses QPainter as backend for drawing plots.
* The default value of showGrid is true.
* The default grid color is Qt::lightGray.
* The default background color is Qt::white.
* The default value of autoGridStyle is true.
*/
class ANALITZAPLOT_EXPORT Plotter2D
{
private: // private structs
struct GridInfo; // interval structure for carry current grid state information across interval methods
public:
Plotter2D(const QSizeF& size);
virtual ~Plotter2D();
/** Sets whether we will draw the grid. */
void setShowGrid(bool show) { m_showGrid=show; forceRepaint(); }
//only works if showgrid is true. for polar grid it affects to subdivision of angles/rays
void setShowMinorGrid(bool mt) { m_showMinorGrid=mt; forceRepaint(); }
/** Returns whether we have chosen to draw the grid. */
bool showGrid() const {return m_showGrid; }
void setGridColor(const QColor &color) { m_gridColor = color; forceRepaint(); }
//default Qt::lightGray
QColor gridColor() const { return m_gridColor; }
void setBackgroundColor(const QColor &color) { m_backgroundColor = color; forceRepaint(); }
// default Qt::white
QColor backgroundColor() const { return m_backgroundColor; }
/** If true then we ignore the grid style suggested by setGridStyleHint, if false then we use as grid style the hint. */
void setAutoGridStyle(bool autogs) { m_autoGridStyle = autogs; forceRepaint(); }
/** Returns whether we will change automatically the grid style based on the curent plot. */
bool autoGridStyle() const { return m_autoGridStyle; }
/** Sets the suggested grid style. Only works if autoGridStyle is false. Note that we only accept CoordinateSystem::Cartesian or CoordinateSystem::Polar. */
void setGridStyleHint(GridStyle suggestedgs);
/** Sets whether it has to keep the aspect ratio (1:1 grid). */
void setKeepAspectRatio(bool ar);
/** Sets whether it is keeping the aspect ratio (1:1 grid). */
bool keepAspectRatio() const { return m_keepRatio; }
/** Force the functions from @p start to @p end to be recalculated. */
void updateFunctions(const QModelIndex & parent, int start, int end);
void setModel(QAbstractItemModel* f);
QAbstractItemModel* model() const { return m_model; }
/** Sets the graph's viewport to @p v. */
void setViewport(const QRectF& vp, bool repaint=true);
//TODO doc
//normlized current viewport, that includes scale information
QRectF currentViewport() const { return viewport; }
//DEPRECATED
QRectF lastViewport() const { return currentViewport(); }
/** Moves the viewport @p delta */
void moveViewport(const QPoint& delta);
void setXAxisLabel(const QString &label);
void setYAxisLabel(const QString &label);
//by default linear
void setScaleMode(ScaleMode sm) { m_scaleMode = sm; forceRepaint(); }
ScaleMode scaleMode() const { return m_scaleMode; }
//default radiasn, this will afecto when scalemode is trig and for the angles in polargridmode
void setAngleMode(AngleMode am) { m_angleMode = am; forceRepaint(); }
AngleMode angleMode() const { return m_angleMode; }
void setShowTicks(Qt::Orientations o) { m_showTicks = o; forceRepaint(); }
void setShowTickLabels(Qt::Orientations o) { m_showTickLabels = o; forceRepaint(); }
//only works if showticks is true
void setShowMinorTicks(bool mt) { m_showMinorTicks=mt; forceRepaint(); }
//these 2 only work when gridmode is polar, showpolar axis aumenta cuando esta lejos de origin
void setShowPolarAxis(bool pt) { m_showPolarAxis = pt; forceRepaint(); }
void setShowPolarAngles(bool pt) { m_showPolarAngles = pt; forceRepaint(); }
void setShowAxes(Qt::Orientations o) { m_showAxes = o; forceRepaint(); }
Qt::Orientations ticksShown() const { return m_showTickLabels; }
/** Zooms in to the Viewport center */
void zoomIn(bool repaint=true);
/** Zooms out taken ref center too*/
void zoomOut(bool repaint=true);
protected:
virtual void drawGrid(QPaintDevice *qpd);
virtual void drawFunctions(QPaintDevice *qpd);
virtual void forceRepaint() = 0;
virtual void viewportChanged() = 0;
virtual int currentFunction() const = 0;
virtual void modelChanged() = 0;
protected: // utils
QRectF lastUserViewport() const { return userViewport; }
QRectF normalizeUserViewport(const QRectF uvp); // from userViewport to viewport, this one uses current scale information
void updateScale(bool repaint);
QPointF toWidget(const QPointF &) const;
QPointF fromWidget(const QPoint& p) const;
QPointF toViewport(const QPoint& mv) const;
QPair<QPointF, QString> calcImage(const QPointF& ndp) const;
QLineF slope(const QPointF& dp) const;
QLineF toWidget(const QLineF &) const;
void setPaintedSize(const QSize& size);
void scaleViewport(qreal scale, const QPoint& center, bool repaint=true);
private:
void drawAxes(QPainter* painter, GridStyle a) const;
void drawCircles(QPainter* painter, const GridInfo& gridinfo, GridStyle gridStyle) const;
void drawSquares(QPainter* painter, const GridInfo& gridinfo, GridStyle gridStyle) const;
void drawMainAxes(QPainter* painter) const;
void drawCartesianTickLabels(QPainter* painter, const GridInfo& gridinfo, CartesianAxis axis) const;
void drawPolarTickLabels(QPainter* painter, const GridInfo& gridinfo) const;
void drawGridTickLabels(QPainter* painter, const GridInfo& gridinfo, GridStyle gridStyle) const;
PlotItem *itemAt(int row) const;
int width() const { return m_size.width(); }
int height() const { return m_size.height(); }
const GridInfo getGridInfo() const; // calculate correct grid params
const QColor computeSubGridColor() const;
const QString computeAngleLabelByFrac(unsigned int n, unsigned int d) const; // input npi/d return angle in m_angleMode
const QString computeAngleLabelByStep(unsigned int k, unsigned int step) const; // input n*step*pi return angle in m_angleMode
bool m_showGrid;
bool m_showMinorGrid;
QColor m_gridColor;
QColor m_backgroundColor;
bool m_autoGridStyle;
GridStyle m_gridStyleHint;
//TODO set move auto tick labels
double rang_x, rang_y;
bool m_keepRatio;
bool m_dirty; // or m_updated; como ahora contamos con setmodel, es necesario que se actualicen los datos antes de pintar, es necesario que no sea dirty
QRectF viewport; // normalized viewport (with scale information), this one is the current viewport (used in currentViewport)
QRectF userViewport; // raw viewport that user sets by setViewport, so we need to normalized userViewport into viewport to include scale and aspect radio information
QSizeF m_size;
QAbstractItemModel* m_model;
AngleMode m_angleMode;
ScaleMode m_scaleMode;
Qt::Orientations m_showTicks;
Qt::Orientations m_showTickLabels;
bool m_showMinorTicks;
Qt::Orientations m_showAxes;
bool m_showPolarAxis;
bool m_showPolarAngles;
QString m_axisXLabel;
QString m_axisYLabel;
private: // constants
static const QColor m_axeColor;
static const QColor m_derivativeColor;
static const QString PiSymbol;
static const QString DegreeSymbol;
static const QString GradianSymbol;
static const double Pi6; // pi/6
static const double Pi12; // pi/12
static const double Pi36; // pi/36
static const double ZoomInFactor;
static const double ZoomOutFactor;
};
}
#endif // PLOTTER2D_H
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