QCPAxis Class Reference

Manages a single axis inside a QCustomPlot. More...

Inheritance diagram for QCPAxis:

Public Types
enum	AxisType { atLeft = 0x01 , atRight = 0x02 , atTop = 0x04 , atBottom = 0x08 }
enum	LabelSide { lsInside , lsOutside }
enum	ScaleType { stLinear , stLogarithmic }
enum	SelectablePart { spNone = 0 , spAxis = 0x001 , spTickLabels = 0x002 , spAxisLabel = 0x004 }

Signals
void	rangeChanged (const QCPRange &newRange)
void	rangeChanged (const QCPRange &newRange, const QCPRange &oldRange)
void	scaleTypeChanged (QCPAxis::ScaleType scaleType)
void	selectionChanged (const QCPAxis::SelectableParts &parts)
void	selectableChanged (const QCPAxis::SelectableParts &parts)
Signals inherited from QCPLayerable
void	layerChanged (QCPLayer *newLayer)

Public Member Functions
	QCPAxis (QCPAxisRect *parent, AxisType type)
AxisType	axisType () const
QCPAxisRect *	axisRect () const
ScaleType	scaleType () const
const QCPRange	range () const
bool	rangeReversed () const
QSharedPointer< QCPAxisTicker >	ticker () const
bool	ticks () const
bool	tickLabels () const
int	tickLabelPadding () const
QFont	tickLabelFont () const
QColor	tickLabelColor () const
double	tickLabelRotation () const
LabelSide	tickLabelSide () const
QString	numberFormat () const
int	numberPrecision () const
QVector< double >	tickVector () const
QVector< QString >	tickVectorLabels () const
int	tickLengthIn () const
int	tickLengthOut () const
bool	subTicks () const
int	subTickLengthIn () const
int	subTickLengthOut () const
QPen	basePen () const
QPen	tickPen () const
QPen	subTickPen () const
QFont	labelFont () const
QColor	labelColor () const
QString	label () const
int	labelPadding () const
int	padding () const
int	offset () const
SelectableParts	selectedParts () const
SelectableParts	selectableParts () const
QFont	selectedTickLabelFont () const
QFont	selectedLabelFont () const
QColor	selectedTickLabelColor () const
QColor	selectedLabelColor () const
QPen	selectedBasePen () const
QPen	selectedTickPen () const
QPen	selectedSubTickPen () const
QCPLineEnding	lowerEnding () const
QCPLineEnding	upperEnding () const
QCPGrid *	grid () const
Q_SLOT void	setScaleType (QCPAxis::ScaleType type)
Q_SLOT void	setRange (const QCPRange &range)
void	setRange (double lower, double upper)
void	setRange (double position, double size, Qt::AlignmentFlag alignment)
void	setRangeLower (double lower)
void	setRangeUpper (double upper)
void	setRangeReversed (bool reversed)
void	setTicker (QSharedPointer< QCPAxisTicker > ticker)
void	setTicks (bool show)
void	setTickLabels (bool show)
void	setTickLabelPadding (int padding)
void	setTickLabelFont (const QFont &font)
void	setTickLabelColor (const QColor &color)
void	setTickLabelRotation (double degrees)
void	setTickLabelSide (LabelSide side)
void	setNumberFormat (const QString &formatCode)
void	setNumberPrecision (int precision)
void	setTickLength (int inside, int outside=0)
void	setTickLengthIn (int inside)
void	setTickLengthOut (int outside)
void	setSubTicks (bool show)
void	setSubTickLength (int inside, int outside=0)
void	setSubTickLengthIn (int inside)
void	setSubTickLengthOut (int outside)
void	setBasePen (const QPen &pen)
void	setTickPen (const QPen &pen)
void	setSubTickPen (const QPen &pen)
void	setLabelFont (const QFont &font)
void	setLabelColor (const QColor &color)
void	setLabel (const QString &str)
void	setLabelPadding (int padding)
void	setPadding (int padding)
void	setOffset (int offset)
void	setSelectedTickLabelFont (const QFont &font)
void	setSelectedLabelFont (const QFont &font)
void	setSelectedTickLabelColor (const QColor &color)
void	setSelectedLabelColor (const QColor &color)
void	setSelectedBasePen (const QPen &pen)
void	setSelectedTickPen (const QPen &pen)
void	setSelectedSubTickPen (const QPen &pen)
Q_SLOT void	setSelectableParts (const QCPAxis::SelectableParts &selectableParts)
Q_SLOT void	setSelectedParts (const QCPAxis::SelectableParts &selectedParts)
void	setLowerEnding (const QCPLineEnding &ending)
void	setUpperEnding (const QCPLineEnding &ending)
virtual double	selectTest (const QPointF &pos, bool onlySelectable, QVariant *details=nullptr) const Q_DECL_OVERRIDE
Qt::Orientation	orientation () const
int	pixelOrientation () const
void	moveRange (double diff)
void	scaleRange (double factor)
void	scaleRange (double factor, double center)
void	setScaleRatio (const QCPAxis *otherAxis, double ratio=1.0)
void	rescale (bool onlyVisiblePlottables=false)
double	pixelToCoord (double value) const
double	coordToPixel (double value) const
SelectablePart	getPartAt (const QPointF &pos) const
QList< QCPAbstractPlottable * >	plottables () const
QList< QCPGraph * >	graphs () const
QList< QCPAbstractItem * >	items () const
Public Member Functions inherited from QCPLayerable
	QCPLayerable (QCustomPlot *plot, QString targetLayer=QString(), QCPLayerable *parentLayerable=nullptr)
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

Static Public Member Functions
static AxisType	marginSideToAxisType (QCP::MarginSide side)
static Qt::Orientation	orientation (AxisType type)
static AxisType	opposite (AxisType type)

Protected Member Functions
virtual int	calculateMargin ()
virtual void	applyDefaultAntialiasingHint (QCPPainter *painter) const Q_DECL_OVERRIDE
virtual void	draw (QCPPainter *painter) Q_DECL_OVERRIDE
virtual QCP::Interaction	selectionCategory () 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
virtual void	mousePressEvent (QMouseEvent *event, const QVariant &details) Q_DECL_OVERRIDE
virtual void	mouseMoveEvent (QMouseEvent *event, const QPointF &startPos) Q_DECL_OVERRIDE
virtual void	mouseReleaseEvent (QMouseEvent *event, const QPointF &startPos) Q_DECL_OVERRIDE
virtual void	wheelEvent (QWheelEvent *event) Q_DECL_OVERRIDE
void	setupTickVectors ()
QPen	getBasePen () const
QPen	getTickPen () const
QPen	getSubTickPen () const
QFont	getTickLabelFont () const
QFont	getLabelFont () const
QColor	getTickLabelColor () const
QColor	getLabelColor () const
Protected Member Functions inherited from QCPLayerable
virtual void	parentPlotInitialized (QCustomPlot *parentPlot)
virtual QRect	clipRect () const
virtual void	mouseDoubleClickEvent (QMouseEvent *event, const QVariant &details)
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
AxisType	mAxisType
QCPAxisRect *	mAxisRect
int	mPadding
Qt::Orientation	mOrientation
SelectableParts	mSelectableParts
SelectableParts	mSelectedParts
QPen	mBasePen
QPen	mSelectedBasePen
QString	mLabel
QFont	mLabelFont
QFont	mSelectedLabelFont
QColor	mLabelColor
QColor	mSelectedLabelColor
bool	mTickLabels
QFont	mTickLabelFont
QFont	mSelectedTickLabelFont
QColor	mTickLabelColor
QColor	mSelectedTickLabelColor
int	mNumberPrecision
QLatin1Char	mNumberFormatChar
bool	mNumberBeautifulPowers
bool	mTicks
bool	mSubTicks
QPen	mTickPen
QPen	mSelectedTickPen
QPen	mSubTickPen
QPen	mSelectedSubTickPen
QCPRange	mRange
bool	mRangeReversed
ScaleType	mScaleType
QCPGrid *	mGrid
QCPAxisPainterPrivate *	mAxisPainter
QSharedPointer< QCPAxisTicker >	mTicker
QVector< double >	mTickVector
QVector< QString >	mTickVectorLabels
QVector< double >	mSubTickVector
bool	mCachedMarginValid
int	mCachedMargin
bool	mDragging
QCPRange	mDragStartRange
QCP::AntialiasedElements	mAADragBackup
QCP::AntialiasedElements	mNotAADragBackup
Protected Attributes inherited from QCPLayerable
bool	mVisible
QCustomPlot *	mParentPlot
QPointer< QCPLayerable >	mParentLayerable
QCPLayer *	mLayer
bool	mAntialiased

Friends
class	QCustomPlot
class	QCPGrid
class	QCPAxisRect

Detailed Description

Manages a single axis inside a QCustomPlot.

Usually doesn't need to be instantiated externally. Access QCustomPlot's default four axes via QCustomPlot::xAxis (bottom), QCustomPlot::yAxis (left), QCustomPlot::xAxis2 (top) and QCustomPlot::yAxis2 (right).

Axes are always part of an axis rect, see QCPAxisRect.

Naming convention of axis parts

Overview of the spacings and paddings that define the geometry of an axis. The dashed gray line on the left represents the QCustomPlot widget border.

Each axis holds an instance of QCPAxisTicker which is used to generate the tick coordinates and tick labels. You can access the currently installed ticker or set a new one (possibly one of the specialized subclasses, or your own subclass) via setTicker. For details, see the documentation of QCPAxisTicker.

Member Enumeration Documentation

AxisType

enum QCPAxis::AxisType

Defines at which side of the axis rect the axis will appear. This also affects how the tick marks are drawn, on which side the labels are placed etc.

Enumerator
atLeft	0x01 Axis is vertical and on the left side of the axis rect
atRight	0x02 Axis is vertical and on the right side of the axis rect
atTop	0x04 Axis is horizontal and on the top side of the axis rect
atBottom	0x08 Axis is horizontal and on the bottom side of the axis rect

LabelSide

enum QCPAxis::LabelSide

Defines on which side of the axis the tick labels (numbers) shall appear.

See also

setTickLabelSide

Enumerator
lsInside	Tick labels will be displayed inside the axis rect and clipped to the inner axis rect.
lsOutside	Tick labels will be displayed outside the axis rect.

ScaleType

enum QCPAxis::ScaleType

Defines the scale of an axis.

See also

setScaleType

Enumerator
stLinear	Linear scaling.
stLogarithmic	Logarithmic scaling with correspondingly transformed axis coordinates (possibly also setTicker to a QCPAxisTickerLog instance).

SelectablePart

enum QCPAxis::SelectablePart

Defines the selectable parts of an axis.

See also

setSelectableParts, setSelectedParts

Enumerator
spNone	None of the selectable parts.
spAxis	The axis backbone and tick marks.
spTickLabels	Tick labels (numbers) of this axis (as a whole, not individually)
spAxisLabel	The axis label.

Constructor & Destructor Documentation

QCPAxis()

QCPAxis::QCPAxis ( QCPAxisRect * parent, AxisType type )

explicit

Constructs an Axis instance of Type type for the axis rect parent.

Usually it isn't necessary to instantiate axes directly, because you can let QCustomPlot create them for you with QCPAxisRect::addAxis. If you want to use own QCPAxis-subclasses however, create them manually and then inject them also via QCPAxisRect::addAxis.

Member Function Documentation

applyDefaultAntialiasingHint()

void QCPAxis::applyDefaultAntialiasingHint ( QCPPainter * painter ) const

protectedvirtual

Implements QCPLayerable.

coordToPixel()

double QCPAxis::coordToPixel

(

double

value

)

const

Transforms value, in coordinates of the axis, to pixel coordinates of the QCustomPlot widget.

deselectEvent()

void QCPAxis::deselectEvent ( bool * selectionStateChanged )

protectedvirtual

Reimplemented from QCPLayerable.

draw()

void QCPAxis::draw ( QCPPainter * painter )

protectedvirtual

Implements QCPLayerable.

getPartAt()

QCPAxis::SelectablePart QCPAxis::getPartAt

(

const QPointF &

pos

)

const

Returns the part of the axis that is hit by pos (in pixels). The return value of this function is independent of the user-selectable parts defined with setSelectableParts. Further, this function does not change the current selection state of the axis.

If the axis is not visible (setVisible), this function always returns spNone.

See also

setSelectedParts, setSelectableParts, QCustomPlot::setInteractions

graphs()

QList< QCPGraph * > QCPAxis::graphs

(

)

const

Returns a list of all the graphs that have this axis as key or value axis.

See also

plottables, items

grid()

QCPGrid * QCPAxis::grid ( ) const

inline

Returns the QCPGrid instance belonging to this axis. Access it to set details about the way the grid is displayed.

items()

QList< QCPAbstractItem * > QCPAxis::items

(

)

const

Returns a list of all the items that are associated with this axis. An item is considered associated with an axis if at least one of its positions uses the axis as key or value axis.

See also

plottables, graphs

marginSideToAxisType()

QCPAxis::AxisType QCPAxis::marginSideToAxisType ( QCP::MarginSide side )

static

Transforms a margin side to the logically corresponding axis type. (QCP::msLeft to QCPAxis::atLeft, QCP::msRight to QCPAxis::atRight, etc.)

mouseMoveEvent()

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

protectedvirtual

This event gets called when the user moves the mouse while holding a mouse button, after this layerable has become the mouse grabber by accepting the preceding mousePressEvent.

The current pixel position of the cursor on the QCustomPlot widget is accessible via event->pos(). The parameter startPos indicates the position where the initial mousePressEvent occurred, that started the mouse interaction.

The default implementation does nothing.

See also

mousePressEvent, mouseReleaseEvent, mouseDoubleClickEvent, wheelEvent

Reimplemented from QCPLayerable.

mousePressEvent()

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

protectedvirtual

This event gets called when the user presses a mouse button while the cursor is over the layerable. Whether a cursor is over the layerable is decided by a preceding call to selectTest.

The current pixel position of the cursor on the QCustomPlot widget is accessible via event->pos(). The parameter details contains layerable-specific details about the hit, which were generated in the previous call to selectTest. For example, One-dimensional plottables like QCPGraph or QCPBars convey the clicked data point in the details parameter, as QCPDataSelection packed as QVariant. Multi-part objects convey the specific SelectablePart that was hit (e.g. QCPAxis::SelectablePart in the case of axes).

QCustomPlot uses an event propagation system that works the same as Qt's system. If your layerable doesn't reimplement the mousePressEvent or explicitly calls event->ignore() in its reimplementation, the event will be propagated to the next layerable in the stacking order.

Once a layerable has accepted the mousePressEvent, it is considered the mouse grabber and will receive all following calls to mouseMoveEvent or mouseReleaseEvent for this mouse interaction (a "mouse interaction" in this context ends with the release).

The default implementation does nothing except explicitly ignoring the event with event->ignore().

See also

mouseMoveEvent, mouseReleaseEvent, mouseDoubleClickEvent, wheelEvent

Reimplemented from QCPLayerable.

mouseReleaseEvent()

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

protectedvirtual

This event gets called when the user releases the mouse button, after this layerable has become the mouse grabber by accepting the preceding mousePressEvent.

The current pixel position of the cursor on the QCustomPlot widget is accessible via event->pos(). The parameter startPos indicates the position where the initial mousePressEvent occurred, that started the mouse interaction.

The default implementation does nothing.

See also

mousePressEvent, mouseMoveEvent, mouseDoubleClickEvent, wheelEvent

Reimplemented from QCPLayerable.

moveRange()

void QCPAxis::moveRange

(

double

diff

)

If the scale type (setScaleType) is stLinear, diff is added to the lower and upper bounds of the range. The range is simply moved by diff.

If the scale type is stLogarithmic, the range bounds are multiplied by diff. This corresponds to an apparent "linear" move in logarithmic scaling by a distance of log(diff).

opposite()

QCPAxis::AxisType QCPAxis::opposite ( QCPAxis::AxisType type )

static

Returns the axis type that describes the opposite axis of an axis with the specified type.

orientation() [1/2]

Qt::Orientation QCPAxis::orientation ( ) const

inline

Returns the orientation of this axis. The axis orientation (horizontal or vertical) is deduced from the axis type (left, top, right or bottom).

See also

orientation(AxisType type), pixelOrientation

orientation() [2/2]

static Qt::Orientation QCPAxis::orientation ( AxisType type )

inlinestatic

Returns the orientation of the specified axis type

See also

orientation(), pixelOrientation

pixelOrientation()

int QCPAxis::pixelOrientation ( ) const

inline

Returns which direction points towards higher coordinate values/keys, in pixel space.

This method returns either 1 or -1. If it returns 1, then going in the positive direction along the orientation of the axis in pixels corresponds to going from lower to higher axis coordinates. On the other hand, if this method returns -1, going to smaller pixel values corresponds to going from lower to higher axis coordinates.

For example, this is useful to easily shift axis coordinates by a certain amount given in pixels, without having to care about reversed or vertically aligned axes:

double newKey = keyAxis->pixelToCoord(keyAxis->coordToPixel(oldKey)+10*keyAxis->pixelOrientation());

newKey will then contain a key that is ten pixels towards higher keys, starting from oldKey.

pixelToCoord()

double QCPAxis::pixelToCoord

(

double

value

)

const

Transforms value, in pixel coordinates of the QCustomPlot widget, to axis coordinates.

plottables()

QList< QCPAbstractPlottable * > QCPAxis::plottables

(

)

const

Returns a list of all the plottables that have this axis as key or value axis.

If you are only interested in plottables of type QCPGraph, see graphs.

See also

graphs, items

rangeChanged [1/2]

void QCPAxis::rangeChanged ( const QCPRange & newRange )

signal

This signal is emitted when the range of this axis has changed. You can connect it to the setRange slot of another axis to communicate the new range to the other axis, in order for it to be synchronized.

You may also manipulate/correct the range with setRange in a slot connected to this signal. This is useful if for example a maximum range span shall not be exceeded, or if the lower/upper range shouldn't go beyond certain values (see QCPRange::bounded). For example, the following slot would limit the x axis to ranges between 0 and 10:

customPlot->xAxis->setRange(newRange.bounded(0, 10))

rangeChanged [2/2]

void QCPAxis::rangeChanged ( const QCPRange & newRange, const QCPRange & oldRange )

signal

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

Additionally to the new range, this signal also provides the previous range held by the axis as oldRange.

rescale()

void QCPAxis::rescale

(

bool

onlyVisiblePlottables = false

)

Changes the axis range such that all plottables associated with this axis are fully visible in that dimension.

See also

QCPAbstractPlottable::rescaleAxes, QCustomPlot::rescaleAxes

scaleRange() [1/2]

void QCPAxis::scaleRange

(

double

factor

)

Scales the range of this axis by factor around the center of the current axis range. For example, if factor is 2.0, then the axis range will double its size, and the point at the axis range center won't have changed its position in the QCustomPlot widget (i.e. coordinates around the center will have moved symmetrically closer).

If you wish to scale around a different coordinate than the current axis range center, use the overload scaleRange(double factor, double center).

scaleRange() [2/2]

void QCPAxis::scaleRange	(	double	factor,
		double	center )

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

Scales the range of this axis by factor around the coordinate center. For example, if factor is 2.0, center is 1.0, then the axis range will double its size, and the point at coordinate 1.0 won't have changed its position in the QCustomPlot widget (i.e. coordinates around 1.0 will have moved symmetrically closer to 1.0).

See also

scaleRange(double factor)

scaleTypeChanged

void QCPAxis::scaleTypeChanged ( QCPAxis::ScaleType scaleType )

signal

This signal is emitted when the scale type changes, by calls to setScaleType

selectableChanged

void QCPAxis::selectableChanged ( const QCPAxis::SelectableParts & parts )

signal

This signal is emitted when the selectability changes, by calls to setSelectableParts

selectEvent()

void QCPAxis::selectEvent ( QMouseEvent * event, bool additive, const QVariant & details, bool * selectionStateChanged )

protectedvirtual

Reimplemented from QCPLayerable.

selectionCategory()

QCP::Interaction QCPAxis::selectionCategory ( ) const

protectedvirtual

Reimplemented from QCPLayerable.

selectionChanged

void QCPAxis::selectionChanged ( const QCPAxis::SelectableParts & parts )

signal

This signal is emitted when the selection state of this axis has changed, either by user interaction or by a direct call to setSelectedParts.

selectTest()

double QCPAxis::selectTest ( const QPointF & pos, bool onlySelectable, QVariant * details = nullptr ) const

virtual

This function is used to decide whether a click hits a layerable object or not.

pos is a point in pixel coordinates on the QCustomPlot surface. This function returns the shortest pixel distance of this point to the object. If the object is either invisible or the distance couldn't be determined, -1.0 is returned. Further, if onlySelectable is true and the object is not selectable, -1.0 is returned, too.

If the object is represented not by single lines but by an area like a QCPItemText or the bars of a QCPBars plottable, a click inside the area should also be considered a hit. In these cases this function thus returns a constant value greater zero but still below the parent plot's selection tolerance. (typically the selectionTolerance multiplied by 0.99).

Providing a constant value for area objects allows selecting line objects even when they are obscured by such area objects, by clicking close to the lines (i.e. closer than 0.99*selectionTolerance).

The actual setting of the selection state is not done by this function. This is handled by the parent QCustomPlot when the mouseReleaseEvent occurs, and the finally selected object is notified via the selectEvent/ deselectEvent methods.

details is an optional output parameter. Every layerable subclass may place any information in details. This information will be passed to selectEvent when the parent QCustomPlot decides on the basis of this selectTest call, that the object was successfully selected. The subsequent call to selectEvent will carry the details. This is useful for multi-part objects (like QCPAxis). This way, a possibly complex calculation to decide which part was clicked is only done once in selectTest. The result (i.e. the actually clicked part) can then be placed in details. So in the subsequent selectEvent, the decision which part was selected doesn't have to be done a second time for a single selection operation.

In the case of 1D Plottables (QCPAbstractPlottable1D, like QCPGraph or QCPBars) details will be set to a QCPDataSelection, describing the closest data point to pos.

You may pass nullptr as details to indicate that you are not interested in those selection details.

See also

selectEvent, deselectEvent, mousePressEvent, wheelEvent, QCustomPlot::setInteractions, QCPAbstractPlottable1D::selectTestRect

Reimplemented from QCPLayerable.

setBasePen()

void QCPAxis::setBasePen

(

const QPen &

pen

)

Sets the pen, the axis base line is drawn with.

See also

setTickPen, setSubTickPen

setLabel()

void QCPAxis::setLabel

(

const QString &

str

)

Sets the text of the axis label that will be shown below/above or next to the axis, depending on its orientation. To disable axis labels, pass an empty string as str.

setLabelColor()

void QCPAxis::setLabelColor

(

const QColor &

color

)

Sets the color of the axis label.

See also

setLabelFont

setLabelFont()

void QCPAxis::setLabelFont

(

const QFont &

font

)

Sets the font of the axis label.

See also

setLabelColor

setLabelPadding()

void QCPAxis::setLabelPadding

(

int

padding

)

Sets the distance between the tick labels and the axis label.

See also

setTickLabelPadding, setPadding

setLowerEnding()

void QCPAxis::setLowerEnding

(

const QCPLineEnding &

ending

)

Sets the style for the lower axis ending. See the documentation of QCPLineEnding for available styles.

For horizontal axes, this method refers to the left ending, for vertical axes the bottom ending. Note that this meaning does not change when the axis range is reversed with setRangeReversed.

See also

setUpperEnding

setNumberFormat()

void QCPAxis::setNumberFormat

(

const QString &

formatCode

)

Sets the number format for the numbers in tick labels. This formatCode is an extended version of the format code used e.g. by QString::number() and QLocale::toString(). For reference about that, see the "Argument Formats" section in the detailed description of the QString class.

formatCode is a string of one, two or three characters.

The first character is identical to the normal format code used by Qt. In short, this means: 'e'/'E' scientific format, 'f' fixed format, 'g'/'G' scientific or fixed, whichever is shorter. For the 'e', 'E', and 'f' formats, the precision set by setNumberPrecision represents the number of digits after the decimal point. For the 'g' and 'G' formats, the precision represents the maximum number of significant digits, trailing zeroes are omitted.

The second and third characters are optional and specific to QCustomPlot:
If the first char was 'e' or 'g', numbers are/might be displayed in the scientific format, e.g. "5.5e9", which is ugly in a plot. So when the second char of formatCode is set to 'b' (for "beautiful"), those exponential numbers are formatted in a more natural way, i.e. "5.5 [multiplication sign] 10 [superscript] 9". By default, the multiplication sign is a centered dot. If instead a cross should be shown (as is usual in the USA), the third char of formatCode can be set to 'c'. The inserted multiplication signs are the UTF-8 characters 215 (0xD7) for the cross and 183 (0xB7) for the dot.

Examples for formatCode:

• g normal format code behaviour. If number is small, fixed format is used, if number is large, normal scientific format is used
• gb If number is small, fixed format is used, if number is large, scientific format is used with beautifully typeset decimal powers and a dot as multiplication sign
• ebc All numbers are in scientific format with beautifully typeset decimal power and a cross as multiplication sign
• fb illegal format code, since fixed format doesn't support (or need) beautifully typeset decimal powers. Format code will be reduced to 'f'.
• hello illegal format code, since first char is not 'e', 'E', 'f', 'g' or 'G'. Current format code will not be changed.

setNumberPrecision()

void QCPAxis::setNumberPrecision

(

int

precision

)

Sets the precision of the tick label numbers. See QLocale::toString(double i, char f, int prec) for details. The effect of precisions are most notably for number Formats starting with 'e', see setNumberFormat

setOffset()

void QCPAxis::setOffset

(

int

offset

)

Sets the offset the axis has to its axis rect side.

If an axis rect side has multiple axes and automatic margin calculation is enabled for that side, only the offset of the inner most axis has meaning (even if it is set to be invisible). The offset of the other, outer axes is controlled automatically, to place them at appropriate positions.

setPadding()

void QCPAxis::setPadding

(

int

padding

)

Sets the padding of the axis.

When QCPAxisRect::setAutoMargins is enabled, the padding is the additional outer most space, that is left blank.

The axis padding has no meaning if QCPAxisRect::setAutoMargins is disabled.

See also

setLabelPadding, setTickLabelPadding

setRange() [1/3]

void QCPAxis::setRange

(

const QCPRange &

range

)

Sets the range of the axis.

This slot may be connected with the rangeChanged signal of another axis so this axis is always synchronized with the other axis range, when it changes.

To invert the direction of an axis, use setRangeReversed.

setRange() [2/3]

void QCPAxis::setRange	(	double	lower,
		double	upper )

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

Sets the lower and upper bound of the axis range.

To invert the direction of an axis, use setRangeReversed.

There is also a slot to set a range, see setRange(const QCPRange &range).

setRange() [3/3]

void QCPAxis::setRange	(	double	position,
		double	size,
		Qt::AlignmentFlag	alignment )

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

Sets the range of the axis.

The position coordinate indicates together with the alignment parameter, where the new range will be positioned. size defines the size of the new axis range. alignment may be Qt::AlignLeft, Qt::AlignRight or Qt::AlignCenter. This will cause the left border, right border, or center of the range to be aligned with position. Any other values of alignment will default to Qt::AlignCenter.

setRangeLower()

void QCPAxis::setRangeLower

(

double

lower

)

Sets the lower bound of the axis range. The upper bound is not changed.

See also

setRange

setRangeReversed()

void QCPAxis::setRangeReversed

(

bool

reversed

)

Sets whether the axis range (direction) is displayed reversed. Normally, the values on horizontal axes increase left to right, on vertical axes bottom to top. When reversed is set to true, the direction of increasing values is inverted.

Note that the range and data interface stays the same for reversed axes, e.g. the lower part of the setRange interface will still reference the mathematically smaller number than the upper part.

setRangeUpper()

void QCPAxis::setRangeUpper

(

double

upper

)

Sets the upper bound of the axis range. The lower bound is not changed.

See also

setRange

setScaleRatio()

void QCPAxis::setScaleRatio	(	const QCPAxis *	otherAxis,
		double	ratio = 1.0 )

Scales the range of this axis to have a certain scale ratio to otherAxis. The scaling will be done around the center of the current axis range.

For example, if ratio is 1, this axis is the yAxis and otherAxis is xAxis, graphs plotted with those axes will appear in a 1:1 aspect ratio, independent of the aspect ratio the axis rect has.

This is an operation that changes the range of this axis once, it doesn't fix the scale ratio indefinitely. Note that calling this function in the constructor of the QCustomPlot's parent won't have the desired effect, since the widget dimensions aren't defined yet, and a resizeEvent will follow.

setScaleType()

void QCPAxis::setScaleType

(

QCPAxis::ScaleType

type

)

Sets whether the axis uses a linear scale or a logarithmic scale.

Note that this method controls the coordinate transformation. For logarithmic scales, you will likely also want to use a logarithmic tick spacing and labeling, which can be achieved by setting the axis ticker to an instance of QCPAxisTickerLog :

See the documentation of QCPAxisTickerLog about the details of logarithmic axis tick creation.

setNumberPrecision

setSelectableParts()

void QCPAxis::setSelectableParts

(

const QCPAxis::SelectableParts &

selectableParts

)

Sets whether the user can (de-)select the parts in selectable by clicking on the QCustomPlot surface. (When QCustomPlot::setInteractions contains iSelectAxes.)

However, even when selectable is set to a value not allowing the selection of a specific part, it is still possible to set the selection of this part manually, by calling setSelectedParts directly.

See also

SelectablePart, setSelectedParts

setSelectedBasePen()

void QCPAxis::setSelectedBasePen

(

const QPen &

pen

)

Sets the pen that is used to draw the axis base line when selected.

See also

setBasePen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedLabelColor()

void QCPAxis::setSelectedLabelColor

(

const QColor &

color

)

Sets the color that is used for the axis label when it is selected.

See also

setLabelColor, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedLabelFont()

void QCPAxis::setSelectedLabelFont

(

const QFont &

font

)

Sets the font that is used for the axis label when it is selected.

See also

setLabelFont, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedParts()

void QCPAxis::setSelectedParts

(

const QCPAxis::SelectableParts &

selectedParts

)

Sets the selected state of the respective axis parts described by SelectablePart. When a part is selected, it uses a different pen/font.

The entire selection mechanism for axes is handled automatically when QCustomPlot::setInteractions contains iSelectAxes. You only need to call this function when you wish to change the selection state manually.

This function can change the selection state of a part, independent of the setSelectableParts setting.

emits the selectionChanged signal when selected is different from the previous selection state.

See also

SelectablePart, setSelectableParts, selectTest, setSelectedBasePen, setSelectedTickPen, setSelectedSubTickPen, setSelectedTickLabelFont, setSelectedLabelFont, setSelectedTickLabelColor, setSelectedLabelColor

setSelectedSubTickPen()

void QCPAxis::setSelectedSubTickPen

(

const QPen &

pen

)

Sets the pen that is used to draw the subticks when selected.

See also

setSubTickPen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedTickLabelColor()

void QCPAxis::setSelectedTickLabelColor

(

const QColor &

color

)

Sets the color that is used for tick labels when they are selected.

See also

setTickLabelColor, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedTickLabelFont()

void QCPAxis::setSelectedTickLabelFont

(

const QFont &

font

)

Sets the font that is used for tick labels when they are selected.

See also

setTickLabelFont, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSelectedTickPen()

void QCPAxis::setSelectedTickPen

(

const QPen &

pen

)

Sets the pen that is used to draw the (major) ticks when selected.

See also

setTickPen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions

setSubTickLength()

void QCPAxis::setSubTickLength	(	int	inside,
		int	outside = 0 )

Sets the length of the subticks in pixels. inside is the length the subticks will reach inside the plot and outside is the length they will reach outside the plot. If outside is greater than zero, the tick labels and axis label will increase their distance to the axis accordingly, so they won't collide with the ticks.

See also

setTickLength, setSubTickLengthIn, setSubTickLengthOut

setSubTickLengthIn()

void QCPAxis::setSubTickLengthIn

(

int

inside

)

Sets the length of the inward subticks in pixels. inside is the length the subticks will reach inside the plot.

See also

setSubTickLengthOut, setSubTickLength, setTickLength

setSubTickLengthOut()

void QCPAxis::setSubTickLengthOut

(

int

outside

)

Sets the length of the outward subticks in pixels. outside is the length the subticks will reach outside the plot. If outside is greater than zero, the tick labels will increase their distance to the axis accordingly, so they won't collide with the ticks.

See also

setSubTickLengthIn, setSubTickLength, setTickLength

setSubTickPen()

void QCPAxis::setSubTickPen

(

const QPen &

pen

)

Sets the pen, subtick marks will be drawn with.

See also

setSubTickCount, setSubTickLength, setBasePen

setSubTicks()

void QCPAxis::setSubTicks

(

bool

show

)

Sets whether sub tick marks are displayed.

Sub ticks are only potentially visible if (major) ticks are also visible (see setTicks)

See also

setTicks

setTicker()

void QCPAxis::setTicker

(

QSharedPointer< QCPAxisTicker >

ticker

)

The axis ticker is responsible for generating the tick positions and tick labels. See the documentation of QCPAxisTicker for details on how to work with axis tickers.

You can change the tick positioning/labeling behaviour of this axis by setting a different QCPAxisTicker subclass using this method. If you only wish to modify the currently installed axis ticker, access it via ticker.

Since the ticker is stored in the axis as a shared pointer, multiple axes may share the same axis ticker simply by passing the same shared pointer to multiple axes.

See also

ticker

setTickLabelColor()

void QCPAxis::setTickLabelColor

(

const QColor &

color

)

Sets the color of the tick labels.

See also

setTickLabels, setTickLabelFont

setTickLabelFont()

void QCPAxis::setTickLabelFont

(

const QFont &

font

)

Sets the font of the tick labels.

See also

setTickLabels, setTickLabelColor

setTickLabelPadding()

void QCPAxis::setTickLabelPadding

(

int

padding

)

Sets the distance between the axis base line (including any outward ticks) and the tick labels.

See also

setLabelPadding, setPadding

setTickLabelRotation()

void QCPAxis::setTickLabelRotation

(

double

degrees

)

Sets the rotation of the tick labels. If degrees is zero, the labels are drawn normally. Else, the tick labels are drawn rotated by degrees clockwise. The specified angle is bound to values from -90 to 90 degrees.

If degrees is exactly -90, 0 or 90, the tick labels are centered on the tick coordinate. For other angles, the label is drawn with an offset such that it seems to point toward or away from the tick mark.

setTickLabels()

void QCPAxis::setTickLabels

(

bool

show

)

Sets whether tick labels are displayed. Tick labels are the numbers drawn next to tick marks.

setTickLabelSide()

void QCPAxis::setTickLabelSide

(

LabelSide

side

)

Sets whether the tick labels (numbers) shall appear inside or outside the axis rect.

The usual and default setting is lsOutside. Very compact plots sometimes require tick labels to be inside the axis rect, to save space. If side is set to lsInside, the tick labels appear on the inside are additionally clipped to the axis rect.

setTickLength()

void QCPAxis::setTickLength	(	int	inside,
		int	outside = 0 )

Sets the length of the ticks in pixels. inside is the length the ticks will reach inside the plot and outside is the length they will reach outside the plot. If outside is greater than zero, the tick labels and axis label will increase their distance to the axis accordingly, so they won't collide with the ticks.

See also

setSubTickLength, setTickLengthIn, setTickLengthOut

setTickLengthIn()

void QCPAxis::setTickLengthIn

(

int

inside

)

Sets the length of the inward ticks in pixels. inside is the length the ticks will reach inside the plot.

See also

setTickLengthOut, setTickLength, setSubTickLength

setTickLengthOut()

void QCPAxis::setTickLengthOut

(

int

outside

)

Sets the length of the outward ticks in pixels. outside is the length the ticks will reach outside the plot. If outside is greater than zero, the tick labels and axis label will increase their distance to the axis accordingly, so they won't collide with the ticks.

See also

setTickLengthIn, setTickLength, setSubTickLength

setTickPen()

void QCPAxis::setTickPen

(

const QPen &

pen

)

Sets the pen, tick marks will be drawn with.

See also

setTickLength, setBasePen

setTicks()

void QCPAxis::setTicks

(

bool

show

)

Sets whether tick marks are displayed.

Note that setting show to false does not imply that tick labels are invisible, too. To achieve that, see setTickLabels.

See also

setSubTicks

setUpperEnding()

void QCPAxis::setUpperEnding

(

const QCPLineEnding &

ending

)

Sets the style for the upper axis ending. See the documentation of QCPLineEnding for available styles.

For horizontal axes, this method refers to the right ending, for vertical axes the top ending. Note that this meaning does not change when the axis range is reversed with setRangeReversed.

See also

setLowerEnding

ticker()

QSharedPointer< QCPAxisTicker > QCPAxis::ticker ( ) const

inline

Returns a modifiable shared pointer to the currently installed axis ticker. The axis ticker is responsible for generating the tick positions and tick labels of this axis. You can access the QCPAxisTicker with this method and modify basic properties such as the approximate tick count (QCPAxisTicker::setTickCount).

You can gain more control over the axis ticks by setting a different QCPAxisTicker subclass, see the documentation there. A new axis ticker can be set with setTicker.

Since the ticker is stored in the axis as a shared pointer, multiple axes may share the same axis ticker simply by passing the same shared pointer to multiple axes.

See also

setTicker

wheelEvent()

void QCPAxis::wheelEvent ( QWheelEvent * event )

protectedvirtual

This event gets called when the user turns the mouse scroll wheel while the cursor is over the layerable. Whether a cursor is over the layerable is decided by a preceding call to selectTest.

The current pixel position of the cursor on the QCustomPlot widget is accessible via event->pos().

The event->angleDelta() indicates how far the mouse wheel was turned, which is usually +/- 120 for single rotation steps. However, if the mouse wheel is turned rapidly, multiple steps may accumulate to one event, making the delta larger. On the other hand, if the wheel has very smooth steps or none at all, the delta may be smaller.

The default implementation does nothing.

See also

mousePressEvent, mouseMoveEvent, mouseReleaseEvent, mouseDoubleClickEvent

Reimplemented from QCPLayerable.

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

• app/NaFCSE/qcustomplot.h
• app/NaFCSE/qcustomplot.cpp