A plottable representing a parametric curve in a plot. More...

#include <qcustomplot.h>

Inheritance diagram for QCPCurve:

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Collaboration diagram for QCPCurve:

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Public Types
enum	LineStyle { lsNone, lsLine }

Public Member Functions
	QCPCurve (QCPAxis keyAxis, QCPAxis valueAxis)

virtual	~QCPCurve ()

QSharedPointer< QCPCurveDataContainer >	data () const

QCPScatterStyle	scatterStyle () const

int	scatterSkip () const

LineStyle	lineStyle () const

void	setData (QSharedPointer< QCPCurveDataContainer > data)

void	setData (const QVector< double > &t, const QVector< double > &keys, const QVector< double > &values, bool alreadySorted=false)

void	setData (const QVector< double > &keys, const QVector< double > &values)

void	setScatterStyle (const QCPScatterStyle &style)

void	setScatterSkip (int skip)

void	setLineStyle (LineStyle style)

void	addData (const QVector< double > &t, const QVector< double > &keys, const QVector< double > &values, bool alreadySorted=false)

void	addData (const QVector< double > &keys, const QVector< double > &values)

void	addData (double t, double key, double value)

void	addData (double key, double value)

virtual double	selectTest (const QPointF &pos, bool onlySelectable, QVariant *details=0) const Q_DECL_OVERRIDE

virtual QCPRange	getKeyRange (bool &foundRange, QCP::SignDomain inSignDomain=QCP::sdBoth) const Q_DECL_OVERRIDE

virtual QCPRange	getValueRange (bool &foundRange, QCP::SignDomain inSignDomain=QCP::sdBoth, const QCPRange &inKeyRange=QCPRange()) const Q_DECL_OVERRIDE

Public Member Functions inherited from QCPAbstractPlottable1D< QCPCurveData >
	QCPAbstractPlottable1D (QCPAxis keyAxis, QCPAxis valueAxis)

virtual	~QCPAbstractPlottable1D ()

virtual int	dataCount () const

virtual double	dataMainKey (int index) const

virtual double	dataSortKey (int index) const

virtual double	dataMainValue (int index) const

virtual QCPRange	dataValueRange (int index) const

virtual QPointF	dataPixelPosition (int index) const

virtual bool	sortKeyIsMainKey () const

virtual QCPDataSelection	selectTestRect (const QRectF &rect, bool onlySelectable) const

virtual int	findBegin (double sortKey, bool expandedRange=true) const

virtual int	findEnd (double sortKey, bool expandedRange=true) const

virtual QCPPlottableInterface1D *	interface1D ()

Public Member Functions inherited from QCPAbstractPlottable
	QCPAbstractPlottable (QCPAxis keyAxis, QCPAxis valueAxis)

virtual	~QCPAbstractPlottable ()

QString	name () const

bool	antialiasedFill () const

bool	antialiasedScatters () const

QPen	pen () const

QBrush	brush () const

QCPAxis *	keyAxis () const

QCPAxis *	valueAxis () const

QCP::SelectionType	selectable () const

bool	selected () const

QCPDataSelection	selection () const

QCPSelectionDecorator *	selectionDecorator () const

void	setName (const QString &name)

void	setAntialiasedFill (bool enabled)

void	setAntialiasedScatters (bool enabled)

void	setPen (const QPen &pen)

void	setBrush (const QBrush &brush)

void	setKeyAxis (QCPAxis *axis)

void	setValueAxis (QCPAxis *axis)

Q_SLOT void	setSelectable (QCP::SelectionType selectable)

Q_SLOT void	setSelection (QCPDataSelection selection)

void	setSelectionDecorator (QCPSelectionDecorator *decorator)

void	coordsToPixels (double key, double value, double &x, double &y) const

const QPointF	coordsToPixels (double key, double value) const

void	pixelsToCoords (double x, double y, double &key, double &value) const

void	pixelsToCoords (const QPointF &pixelPos, double &key, double &value) const

void	rescaleAxes (bool onlyEnlarge=false) const

void	rescaleKeyAxis (bool onlyEnlarge=false) const

void	rescaleValueAxis (bool onlyEnlarge=false, bool inKeyRange=false) const

bool	addToLegend (QCPLegend *legend)

bool	addToLegend ()

bool	removeFromLegend (QCPLegend *legend) const

bool	removeFromLegend () const

Public Member Functions inherited from QCPLayerable
	QCPLayerable (QCustomPlot plot, QString targetLayer=QString(), QCPLayerable parentLayerable=0)

virtual	~QCPLayerable ()

bool	visible () const

QCustomPlot *	parentPlot () const

QCPLayerable *	parentLayerable () const

QCPLayer *	layer () const

bool	antialiased () const

void	setVisible (bool on)

Q_SLOT bool	setLayer (QCPLayer *layer)

bool	setLayer (const QString &layerName)

void	setAntialiased (bool enabled)

bool	realVisibility () const

Protected Member Functions
virtual void	draw (QCPPainter *painter) Q_DECL_OVERRIDE

virtual void	drawLegendIcon (QCPPainter *painter, const QRectF &rect) const Q_DECL_OVERRIDE

virtual void	drawCurveLine (QCPPainter *painter, const QVector< QPointF > &lines) const

virtual void	drawScatterPlot (QCPPainter *painter, const QVector< QPointF > &points, const QCPScatterStyle &style) const

void	getCurveLines (QVector< QPointF > *lines, const QCPDataRange &dataRange, double penWidth) const

void	getScatters (QVector< QPointF > *scatters, const QCPDataRange &dataRange, double scatterWidth) const

int	getRegion (double key, double value, double keyMin, double valueMax, double keyMax, double valueMin) const

QPointF	getOptimizedPoint (int prevRegion, double prevKey, double prevValue, double key, double value, double keyMin, double valueMax, double keyMax, double valueMin) const

QVector< QPointF >	getOptimizedCornerPoints (int prevRegion, int currentRegion, double prevKey, double prevValue, double key, double value, double keyMin, double valueMax, double keyMax, double valueMin) const

bool	mayTraverse (int prevRegion, int currentRegion) const

bool	getTraverse (double prevKey, double prevValue, double key, double value, double keyMin, double valueMax, double keyMax, double valueMin, QPointF &crossA, QPointF &crossB) const

void	getTraverseCornerPoints (int prevRegion, int currentRegion, double keyMin, double valueMax, double keyMax, double valueMin, QVector< QPointF > &beforeTraverse, QVector< QPointF > &afterTraverse) const

double	pointDistance (const QPointF &pixelPoint, QCPCurveDataContainer::const_iterator &closestData) const

Protected Member Functions inherited from QCPAbstractPlottable1D< QCPCurveData >
void	getDataSegments (QList< QCPDataRange > &selectedSegments, QList< QCPDataRange > &unselectedSegments) const

void	drawPolyline (QCPPainter *painter, const QVector< QPointF > &lineData) const

Protected Member Functions inherited from QCPAbstractPlottable
virtual QRect	clipRect () const Q_DECL_OVERRIDE

virtual QCP::Interaction	selectionCategory () const Q_DECL_OVERRIDE

void	applyDefaultAntialiasingHint (QCPPainter *painter) const Q_DECL_OVERRIDE

virtual void	selectEvent (QMouseEvent event, bool additive, const QVariant &details, bool selectionStateChanged) Q_DECL_OVERRIDE

virtual void	deselectEvent (bool *selectionStateChanged) Q_DECL_OVERRIDE

void	applyFillAntialiasingHint (QCPPainter *painter) const

void	applyScattersAntialiasingHint (QCPPainter *painter) const

Protected Member Functions inherited from QCPLayerable
virtual void	parentPlotInitialized (QCustomPlot *parentPlot)

virtual void	mousePressEvent (QMouseEvent *event, const QVariant &details)

virtual void	mouseMoveEvent (QMouseEvent *event, const QPointF &startPos)

virtual void	mouseReleaseEvent (QMouseEvent *event, const QPointF &startPos)

virtual void	mouseDoubleClickEvent (QMouseEvent *event, const QVariant &details)

virtual void	wheelEvent (QWheelEvent *event)

void	initializeParentPlot (QCustomPlot *parentPlot)

void	setParentLayerable (QCPLayerable *parentLayerable)

bool	moveToLayer (QCPLayer *layer, bool prepend)

void	applyAntialiasingHint (QCPPainter *painter, bool localAntialiased, QCP::AntialiasedElement overrideElement) const

Protected Attributes
QCPScatterStyle	mScatterStyle

int	mScatterSkip

LineStyle	mLineStyle

Protected Attributes inherited from QCPAbstractPlottable1D< QCPCurveData >
QSharedPointer< QCPDataContainer< QCPCurveData > >	mDataContainer

Protected Attributes inherited from QCPAbstractPlottable
QString	mName

bool	mAntialiasedFill

bool	mAntialiasedScatters

QPen	mPen

QBrush	mBrush

QPointer< QCPAxis >	mKeyAxis

QPointer< QCPAxis >	mValueAxis

QCP::SelectionType	mSelectable

QCPDataSelection	mSelection

QCPSelectionDecorator *	mSelectionDecorator

Protected Attributes inherited from QCPLayerable
bool	mVisible

QCustomPlot *	mParentPlot

QPointer< QCPLayerable >	mParentLayerable

QCPLayer *	mLayer

bool	mAntialiased

Friends
class	QCustomPlot

class	QCPLegend

Additional Inherited Members
Signals inherited from QCPAbstractPlottable
void	selectionChanged (bool selected)

void	selectionChanged (const QCPDataSelection &selection)

void	selectableChanged (QCP::SelectionType selectable)

Signals inherited from QCPLayerable
void	layerChanged (QCPLayer *newLayer)

Detailed Description

A plottable representing a parametric curve in a plot.

Unlike QCPGraph, plottables of this type may have multiple points with the same key coordinate, so their visual representation can have loops. This is realized by introducing a third coordinate t, which defines the order of the points described by the other two coordinates x and y.

To plot data, assign it with the setData or addData functions. Alternatively, you can also access and modify the curve's data via the data method, which returns a pointer to the internal QCPCurveDataContainer.

Gaps in the curve can be created by adding data points with NaN as key and value (qQNaN() or std::numeric_limits<double>::quiet_NaN()) in between the two data points that shall be separated.

Changing the appearance

The appearance of the curve is determined by the pen and the brush (setPen, setBrush).

Usage

Like all data representing objects in QCustomPlot, the QCPCurve is a plottable (QCPAbstractPlottable). So the plottable-interface of QCustomPlot applies (QCustomPlot::plottable, QCustomPlot::removePlottable, etc.)

Usually, you first create an instance:

which registers it with the QCustomPlot instance of the passed axes. Note that this QCustomPlot instance takes ownership of the plottable, so do not delete it manually but use QCustomPlot::removePlottable() instead. The newly created plottable can be modified, e.g.:

Definition at line 5258 of file qcustomplot.h.

Member Enumeration Documentation

enum QCPCurve::LineStyle

Defines how the curve's line is represented visually in the plot. The line is drawn with the current pen of the curve (setPen).

See also: setLineStyle

Enumerator
lsNone	No line is drawn between data points (e.g. only scatters)
lsLine	Data points are connected with a straight line.

Definition at line 5272 of file qcustomplot.h.

Constructor & Destructor Documentation

QCPCurve::QCPCurve	(	QCPAxis *	keyAxis,
		QCPAxis *	valueAxis
	)

explicit

Constructs a curve which uses keyAxis as its key axis ("x") and valueAxis as its value axis ("y"). keyAxis and valueAxis must reside in the same QCustomPlot instance and not have the same orientation. If either of these restrictions is violated, a corresponding message is printed to the debug output (qDebug), the construction is not aborted, though.

The created QCPCurve is automatically registered with the QCustomPlot instance inferred from keyAxis. This QCustomPlot instance takes ownership of the QCPCurve, so do not delete it manually but use QCustomPlot::removePlottable() instead.

Definition at line 21491 of file qcustomplot.cpp.

QCPCurve::~QCPCurve ( )

virtual

Definition at line 21502 of file qcustomplot.cpp.

Member Function Documentation

void QCPCurve::addData	(	const QVector< double > &	t,
		const QVector< double > &	keys,
		const QVector< double > &	values,
		bool	alreadySorted = `false`
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Adds the provided points in t, keys and values to the current data. The provided vectors should have equal length. Else, the number of added points will be the size of the smallest vector.

If you can guarantee that the passed data points are sorted by keys in ascending order, you can set alreadySorted to true, to improve performance by saving a sorting run.

Alternatively, you can also access and modify the data directly via the data method, which returns a pointer to the internal data container.

Definition at line 21613 of file qcustomplot.cpp.

void QCPCurve::addData	(	const QVector< double > &	keys,
		const QVector< double > &	values
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Adds the provided points in keys and values to the current data. The provided vectors should have equal length. Else, the number of added points will be the size of the smallest vector.

The t parameter of each data point will be set to the integer index of the respective key/value pair.

Alternatively, you can also access and modify the data directly via the data method, which returns a pointer to the internal data container.

Definition at line 21645 of file qcustomplot.cpp.

void QCPCurve::addData	(	double	t,
		double	key,
		double	value
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts. Adds the provided data point as t, key and value to the current data.

Alternatively, you can also access and modify the data directly via the data method, which returns a pointer to the internal data container.

Definition at line 21676 of file qcustomplot.cpp.

void QCPCurve::addData	(	double	key,
		double	value
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Adds the provided data point as key and value to the current data.

The t parameter is generated automatically by increments of 1 for each point, starting at the highest t of previously existing data or 0, if the curve data is empty.

Alternatively, you can also access and modify the data directly via the data method, which returns a pointer to the internal data container.

Definition at line 21691 of file qcustomplot.cpp.

QSharedPointer< QCPCurveDataContainer > QCPCurve::data ( ) const

inline

Returns a shared pointer to the internal data storage of type QCPCurveDataContainer. You may use it to directly manipulate the data, which may be more convenient and faster than using the regular setData or addData methods.

Definition at line 5281 of file qcustomplot.h.

void QCPCurve::draw ( QCPPainter * painter )

protectedvirtual

Implements QCPAbstractPlottable.

Definition at line 21734 of file qcustomplot.cpp.

void QCPCurve::drawCurveLine	(	QCPPainter *	painter,
		const QVector< QPointF > &	lines
	)		const

protectedvirtual

Definition at line 21842 of file qcustomplot.cpp.

void QCPCurve::drawLegendIcon	(	QCPPainter *	painter,
		const QRectF &	rect
	)		const

protectedvirtual

Implements QCPAbstractPlottable.

Definition at line 21802 of file qcustomplot.cpp.

void QCPCurve::drawScatterPlot	(	QCPPainter *	painter,
		const QVector< QPointF > &	points,
		const QCPScatterStyle &	style
	)		const

protectedvirtual

Definition at line 21858 of file qcustomplot.cpp.

void QCPCurve::getCurveLines	(	QVector< QPointF > *	lines,
		const QCPDataRange &	dataRange,
		double	penWidth
	)		const

protected

Definition at line 21896 of file qcustomplot.cpp.

QCPRange QCPCurve::getKeyRange	(	bool &	foundRange,
		QCP::SignDomain	inSignDomain = `QCP::sdBoth`
	)		const

virtual

Returns the coordinate range that all data in this plottable span in the key axis dimension. For logarithmic plots, one can set inSignDomain to either QCP::sdNegative or QCP::sdPositive in order to restrict the returned range to that sign domain. E.g. when only negative range is wanted, set inSignDomain to QCP::sdNegative and all positive points will be ignored for range calculation. For no restriction, just set inSignDomain to QCP::sdBoth (default). foundRange is an output parameter that indicates whether a range could be found or not. If this is false, you shouldn't use the returned range (e.g. no points in data).

Note that foundRange is not the same as QCPRange::validRange, since the range returned by this function may have size zero (e.g. when there is only one data point). In this case foundRange would return true, but the returned range is not a valid range in terms of QCPRange::validRange.

See also: rescaleAxes, getValueRange

Implements QCPAbstractPlottable.

Definition at line 21722 of file qcustomplot.cpp.

QVector< QPointF > QCPCurve::getOptimizedCornerPoints	(	int	prevRegion,
		int	currentRegion,
		double	prevKey,
		double	prevValue,
		double	key,
		double	value,
		double	keyMin,
		double	valueMax,
		double	keyMax,
		double	valueMin
	)		const

protected

Definition at line 22241 of file qcustomplot.cpp.

QPointF QCPCurve::getOptimizedPoint	(	int	prevRegion,
		double	prevKey,
		double	prevValue,
		double	key,
		double	value,
		double	keyMin,
		double	valueMax,
		double	keyMax,
		double	valueMin
	)		const

protected

Definition at line 22141 of file qcustomplot.cpp.

int QCPCurve::getRegion	(	double	key,
		double	value,
		double	keyMin,
		double	valueMax,
		double	keyMax,
		double	valueMin
	)		const

protected

Definition at line 22097 of file qcustomplot.cpp.

void QCPCurve::getScatters	(	QVector< QPointF > *	scatters,
		const QCPDataRange &	dataRange,
		double	scatterWidth
	)		const

protected

Definition at line 21999 of file qcustomplot.cpp.

bool QCPCurve::getTraverse	(	double	prevKey,
		double	prevValue,
		double	key,
		double	value,
		double	keyMin,
		double	valueMax,
		double	keyMax,
		double	valueMin,
		QPointF &	crossA,
		QPointF &	crossB
	)		const

protected

Definition at line 22508 of file qcustomplot.cpp.

void QCPCurve::getTraverseCornerPoints	(	int	prevRegion,
		int	currentRegion,
		double	keyMin,
		double	valueMax,
		double	keyMax,
		double	valueMin,
		QVector< QPointF > &	beforeTraverse,
		QVector< QPointF > &	afterTraverse
	)		const

protected

Definition at line 22604 of file qcustomplot.cpp.

QCPRange QCPCurve::getValueRange	(	bool &	foundRange,
		QCP::SignDomain	inSignDomain = `QCP::sdBoth`,
		const QCPRange &	inKeyRange = `QCPRange()`
	)		const

virtual

Returns the coordinate range that the data points in the specified key range (inKeyRange) span in the value axis dimension. For logarithmic plots, one can set inSignDomain to either QCP::sdNegative or QCP::sdPositive in order to restrict the returned range to that sign domain. E.g. when only negative range is wanted, set inSignDomain to QCP::sdNegative and all positive points will be ignored for range calculation. For no restriction, just set inSignDomain to QCP::sdBoth (default). foundRange is an output parameter that indicates whether a range could be found or not. If this is false, you shouldn't use the returned range (e.g. no points in data).

If inKeyRange has both lower and upper bound set to zero (is equal to QCPRange()), all data points are considered, without any restriction on the keys.

Note that foundRange is not the same as QCPRange::validRange, since the range returned by this function may have size zero (e.g. when there is only one data point). In this case foundRange would return true, but the returned range is not a valid range in terms of QCPRange::validRange.

See also: rescaleAxes, getKeyRange

Implements QCPAbstractPlottable.

Definition at line 21728 of file qcustomplot.cpp.

LineStyle QCPCurve::lineStyle ( ) const

inline

Definition at line 5284 of file qcustomplot.h.

bool QCPCurve::mayTraverse	(	int	prevRegion,
		int	currentRegion
	)		const

protected

Definition at line 22405 of file qcustomplot.cpp.

double QCPCurve::pointDistance	(	const QPointF &	pixelPoint,
		QCPCurveDataContainer::const_iterator &	closestData
	)		const

protected

Definition at line 22700 of file qcustomplot.cpp.

int QCPCurve::scatterSkip ( ) const

inline

Definition at line 5283 of file qcustomplot.h.

QCPScatterStyle QCPCurve::scatterStyle ( ) const

inline

Definition at line 5282 of file qcustomplot.h.

double QCPCurve::selectTest	(	const QPointF &	pos,
		bool	onlySelectable,
		QVariant *	details = `0`
	)		const

virtual

Implements a point-selection algorithm assuming the data (accessed via the 1D data interface) is point-like. Most subclasses will want to reimplement this method again, to provide a more accurate hit test based on the true data visualization geometry.

Reimplemented from QCPAbstractPlottable1D< QCPCurveData >.

Definition at line 21700 of file qcustomplot.cpp.

void QCPCurve::setData ( QSharedPointer< QCPCurveDataContainer > data )

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Replaces the current data container with the provided data container.

Since a QSharedPointer is used, multiple QCPCurves may share the same data container safely. Modifying the data in the container will then affect all curves that share the container. Sharing can be achieved by simply exchanging the data containers wrapped in shared pointers:

If you do not wish to share containers, but create a copy from an existing container, rather use the QCPDataContainer<DataType>::set method on the curve's data container directly:

See also: addData

Definition at line 21521 of file qcustomplot.cpp.

void QCPCurve::setData	(	const QVector< double > &	t,
		const QVector< double > &	keys,
		const QVector< double > &	values,
		bool	alreadySorted = `false`
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Replaces the current data with the provided points in t, keys and values. The provided vectors should have equal length. Else, the number of added points will be the size of the smallest vector.

If you can guarantee that the passed data points are sorted by t in ascending order, you can set alreadySorted to true, to improve performance by saving a sorting run.

See also: addData

Definition at line 21537 of file qcustomplot.cpp.

void QCPCurve::setData	(	const QVector< double > &	keys,
		const QVector< double > &	values
	)

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Replaces the current data with the provided points in keys and values. The provided vectors should have equal length. Else, the number of added points will be the size of the smallest vector.

The t parameter of each data point will be set to the integer index of the respective key/value pair.

See also: addData

Definition at line 21555 of file qcustomplot.cpp.

void QCPCurve::setLineStyle ( QCPCurve::LineStyle style )

Sets how the single data points are connected in the plot or how they are represented visually apart from the scatter symbol. For scatter-only plots, set style to lsNone and setScatterStyle to the desired scatter style.

See also: setScatterStyle

Definition at line 21596 of file qcustomplot.cpp.

void QCPCurve::setScatterSkip ( int skip )

If scatters are displayed (scatter style not QCPScatterStyle::ssNone), skip number of scatter points are skipped/not drawn after every drawn scatter point.

This can be used to make the data appear sparser while for example still having a smooth line, and to improve performance for very high density plots.

If skip is set to 0 (default), all scatter points are drawn.

See also: setScatterStyle

Definition at line 21584 of file qcustomplot.cpp.

void QCPCurve::setScatterStyle ( const QCPScatterStyle & style )

Sets the visual appearance of single data points in the plot. If set to QCPScatterStyle::ssNone, no scatter points are drawn (e.g. for line-only plots with appropriate line style).

See also: QCPScatterStyle, setLineStyle

Definition at line 21568 of file qcustomplot.cpp.

Friends And Related Function Documentation

friend class QCPLegend

friend

Definition at line 5331 of file qcustomplot.h.

friend class QCustomPlot

friend

Definition at line 5330 of file qcustomplot.h.

Member Data Documentation

LineStyle QCPCurve::mLineStyle

protected

Definition at line 5309 of file qcustomplot.h.

int QCPCurve::mScatterSkip

protected

Definition at line 5308 of file qcustomplot.h.

QCPScatterStyle QCPCurve::mScatterStyle

protected

Definition at line 5307 of file qcustomplot.h.

The documentation for this class was generated from the following files:

Workflow/GRAPHICS/qcustomplot.h
Workflow/GRAPHICS/qcustomplot.cpp

Public Types

Public Member Functions

Protected Member Functions

Protected Attributes

Friends

Additional Inherited Members

Detailed Description

Changing the appearance

Usage

Member Enumeration Documentation

Constructor & Destructor Documentation

Member Function Documentation

Friends And Related Function Documentation

Member Data Documentation