My Project
Clases | Tipos públicos | Señales | Métodos públicos | Métodos públicos estáticos | Métodos protegidos | Atributos protegidos | Amigas | Lista de todos los miembros
Referencia de la Clase QCPAxis

Manages a single axis inside a QCustomPlot. Más...

Diagrama de herencias de QCPAxis
QCPLayerable

Clases

struct  CachedLabel
 
struct  TickLabelData
 

Tipos públicos

enum  AxisType { atLeft = 0x01, atRight = 0x02, atTop = 0x04, atBottom = 0x08 }
 
enum  LabelType { ltNumber, ltDateTime }
 
enum  ScaleType { stLinear, stLogarithmic }
 
enum  SelectablePart { spNone = 0, spAxis = 0x001, spTickLabels = 0x002, spAxisLabel = 0x004 }
 

Señales

void ticksRequest ()
 
void rangeChanged (const QCPRange &newRange)
 
void rangeChanged (const QCPRange &newRange, const QCPRange &oldRange)
 
void selectionChanged (const QCPAxis::SelectableParts &parts)
 

Métodos públicos

 QCPAxis (QCPAxisRect *parent, AxisType type)
 
AxisType axisType () const
 
QCPAxisRectaxisRect () const
 
ScaleType scaleType () const
 
double scaleLogBase () const
 
const QCPRange range () const
 
bool rangeReversed () const
 
bool autoTicks () const
 
int autoTickCount () const
 
bool autoTickLabels () const
 
bool autoTickStep () const
 
bool autoSubTicks () const
 
bool ticks () const
 
bool tickLabels () const
 
int tickLabelPadding () const
 
LabelType tickLabelType () const
 
QFont tickLabelFont () const
 
QColor tickLabelColor () const
 
double tickLabelRotation () const
 
QString dateTimeFormat () const
 
Qt::TimeSpec dateTimeSpec () const
 
QString numberFormat () const
 
int numberPrecision () const
 
double tickStep () const
 
QVector< double > tickVector () const
 
QVector< QString > tickVectorLabels () const
 
int tickLengthIn () const
 
int tickLengthOut () const
 
int subTickCount () 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
 
QCPGridgrid () const
 
void setScaleType (ScaleType type)
 
void setScaleLogBase (double base)
 
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 setAutoTicks (bool on)
 
void setAutoTickCount (int approximateCount)
 
void setAutoTickLabels (bool on)
 
void setAutoTickStep (bool on)
 
void setAutoSubTicks (bool on)
 
void setTicks (bool show)
 
void setTickLabels (bool show)
 
void setTickLabelPadding (int padding)
 
void setTickLabelType (LabelType type)
 
void setTickLabelFont (const QFont &font)
 
void setTickLabelColor (const QColor &color)
 
void setTickLabelRotation (double degrees)
 
void setDateTimeFormat (const QString &format)
 
void setDateTimeSpec (const Qt::TimeSpec &timeSpec)
 
void setNumberFormat (const QString &formatCode)
 
void setNumberPrecision (int precision)
 
void setTickStep (double step)
 
void setTickVector (const QVector< double > &vec)
 
void setTickVectorLabels (const QVector< QString > &vec)
 
void setTickLength (int inside, int outside=0)
 
void setTickLengthIn (int inside)
 
void setTickLengthOut (int outside)
 
void setSubTickCount (int count)
 
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=0) const
 
Qt::Orientation orientation () const
 
void moveRange (double diff)
 
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
 
- Métodos públicos heredados desde QCPLayerable
 QCPLayerable (QCustomPlot *plot, QString targetLayer="", QCPLayerable *parentLayerable=0)
 
bool visible () const
 
QCustomPlotparentPlot () const
 
QCPLayerableparentLayerable () const
 
QCPLayerlayer () const
 
bool antialiased () const
 
void setVisible (bool on)
 
bool setLayer (QCPLayer *layer)
 
bool setLayer (const QString &layerName)
 
void setAntialiased (bool enabled)
 
bool realVisibility () const
 

Métodos públicos estáticos

static AxisType marginSideToAxisType (QCP::MarginSide side)
 

Métodos protegidos

virtual void setupTickVectors ()
 
virtual void generateAutoTicks ()
 
virtual int calculateAutoSubTickCount (double tickStep) const
 
virtual int calculateMargin ()
 
virtual void placeTickLabel (QCPPainter *painter, double position, int distanceToAxis, const QString &text, QSize *tickLabelsSize)
 
virtual void drawTickLabel (QCPPainter *painter, double x, double y, const TickLabelData &labelData) const
 
virtual TickLabelData getTickLabelData (const QFont &font, const QString &text) const
 
virtual QPointF getTickLabelDrawOffset (const TickLabelData &labelData) const
 
virtual void getMaxTickLabelSize (const QFont &font, const QString &text, QSize *tickLabelsSize) const
 
virtual void applyDefaultAntialiasingHint (QCPPainter *painter) const
 
virtual void draw (QCPPainter *painter)
 
virtual QCP::Interaction selectionCategory () const
 
virtual void selectEvent (QMouseEvent *event, bool additive, const QVariant &details, bool *selectionStateChanged)
 
virtual void deselectEvent (bool *selectionStateChanged)
 
void visibleTickBounds (int &lowIndex, int &highIndex) const
 
double baseLog (double value) const
 
double basePow (double value) const
 
QPen getBasePen () const
 
QPen getTickPen () const
 
QPen getSubTickPen () const
 
QFont getTickLabelFont () const
 
QFont getLabelFont () const
 
QColor getTickLabelColor () const
 
QColor getLabelColor () const
 
- Métodos protegidos heredados desde QCPLayerable
virtual void parentPlotInitialized (QCustomPlot *parentPlot)
 
virtual QRect clipRect () const
 
void initializeParentPlot (QCustomPlot *parentPlot)
 
void setParentLayerable (QCPLayerable *parentLayerable)
 
bool moveToLayer (QCPLayer *layer, bool prepend)
 
void applyAntialiasingHint (QCPPainter *painter, bool localAntialiased, QCP::AntialiasedElement overrideElement) const
 

Atributos protegidos

AxisType mAxisType
 
QCPAxisRectmAxisRect
 
int mOffset
 
int mPadding
 
Qt::Orientation mOrientation
 
SelectableParts mSelectableParts
 
SelectableParts mSelectedParts
 
QPen mBasePen
 
QPen mSelectedBasePen
 
QCPLineEnding mLowerEnding
 
QCPLineEnding mUpperEnding
 
int mLabelPadding
 
QString mLabel
 
QFont mLabelFont
 
QFont mSelectedLabelFont
 
QColor mLabelColor
 
QColor mSelectedLabelColor
 
int mTickLabelPadding
 
bool mTickLabels
 
bool mAutoTickLabels
 
double mTickLabelRotation
 
LabelType mTickLabelType
 
QFont mTickLabelFont
 
QFont mSelectedTickLabelFont
 
QColor mTickLabelColor
 
QColor mSelectedTickLabelColor
 
QString mDateTimeFormat
 
Qt::TimeSpec mDateTimeSpec
 
int mNumberPrecision
 
char mNumberFormatChar
 
bool mNumberBeautifulPowers
 
bool mNumberMultiplyCross
 
bool mTicks
 
double mTickStep
 
int mSubTickCount
 
int mAutoTickCount
 
bool mAutoTicks
 
bool mAutoTickStep
 
bool mAutoSubTicks
 
int mTickLengthIn
 
int mTickLengthOut
 
int mSubTickLengthIn
 
int mSubTickLengthOut
 
QPen mTickPen
 
QPen mSelectedTickPen
 
QPen mSubTickPen
 
QPen mSelectedSubTickPen
 
QCPRange mRange
 
bool mRangeReversed
 
ScaleType mScaleType
 
double mScaleLogBase
 
double mScaleLogBaseLogInv
 
QCPGridmGrid
 
QCache< QString, CachedLabelmLabelCache
 
int mLowestVisibleTick
 
int mHighestVisibleTick
 
QChar mExponentialChar
 
QChar mPositiveSignChar
 
QVector< double > mTickVector
 
QVector< QString > mTickVectorLabels
 
QVector< double > mSubTickVector
 
QRect mAxisSelectionBox
 
QRect mTickLabelsSelectionBox
 
QRect mLabelSelectionBox
 
bool mCachedMarginValid
 
int mCachedMargin
 
- Atributos protegidos heredados desde QCPLayerable
bool mVisible
 
QCustomPlotmParentPlot
 
QPointer< QCPLayerablemParentLayerable
 
QCPLayermLayer
 
bool mAntialiased
 

Amigas

class QCustomPlot
 
class QCPGrid
 
class QCPAxisRect
 

Descripción detallada

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.

AxisNamesOverview.png
Naming convention of axis parts


AxisRectSpacingOverview.png
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.

Documentación de las enumeraciones miembro de la clase

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.

Valores de enumeraciones
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

When automatic tick label generation is enabled (setAutoTickLabels), defines how the coordinate of the tick is interpreted, i.e. translated into a string.

Ver también
setTickLabelType
Valores de enumeraciones
ltNumber 

Tick coordinate is regarded as normal number and will be displayed as such. (see setNumberFormat)

ltDateTime 

Tick coordinate is regarded as a date/time (seconds since 1970-01-01T00:00:00 UTC) and will be displayed and formatted as such. (for details, see setDateTimeFormat)

Defines the scale of an axis.

Ver también
setScaleType
Valores de enumeraciones
stLinear 

Linear scaling.

stLogarithmic 

Logarithmic scaling with correspondingly transformed plots and (major) tick marks at every base power (see setScaleLogBase).

Defines the selectable parts of an axis.

Ver también
setSelectableParts, setSelectedParts
Valores de enumeraciones
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.

Documentación del constructor y destructor

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

Constructs an Axis instance of Type type for the axis rect parent. You shouldn't instantiate axes directly, rather use QCPAxisRect::addAxis.

Documentación de las funciones miembro

double QCPAxis::coordToPixel ( double  value) const

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

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.

Ver también
setSelectedParts, setSelectableParts, QCustomPlot::setInteractions
QList< QCPGraph * > QCPAxis::graphs ( ) const

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

Ver también
plottables, items
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.

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.

Ver también
plottables, graphs
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.)

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).

Qt::Orientation QCPAxis::orientation ( ) const
inline

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

double QCPAxis::pixelToCoord ( double  value) const

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

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.

Ver también
graphs, items
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.

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

Esta es una función miembro sobrecargada que se suministra por conveniencia. Difiere de la anterior función solamente en los argumentos que acepta.

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

void QCPAxis::rescale ( bool  onlyVisiblePlottables = false)

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

Ver también
QCPAbstractPlottable::rescaleAxes, QCustomPlot::rescaleAxes
void QCPAxis::scaleRange ( double  factor,
double  center 
)

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).

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.

double QCPAxis::selectTest ( const QPointF &  pos,
bool  onlySelectable,
QVariant *  details = 0 
) 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 item is represented not by single lines but by an area like QCPItemRect or QCPItemText, a click inside the area returns a constant value greater zero (typically the selectionTolerance of the parent QCustomPlot multiplied by 0.99). If the click lies outside the area, this function returns -1.0.

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.

You may pass 0 as details to indicate that you are not interested in those selection details.

Ver también
selectEvent, deselectEvent, QCustomPlot::setInteractions

Reimplementado de QCPLayerable.

void QCPAxis::setAutoSubTicks ( bool  on)

Sets whether the number of sub ticks in one tick interval is determined automatically. This works, as long as the tick step mantissa is a multiple of 0.5. When setAutoTickStep is enabled, this is always the case.

When on is set to false, you may set the sub tick count with setSubTickCount manually.

void QCPAxis::setAutoTickCount ( int  approximateCount)

When setAutoTickStep is true, approximateCount determines how many ticks should be generated in the visible range, approximately.

It's not guaranteed that this number of ticks is met exactly, but approximately within a tolerance of about two.

Only values greater than zero are accepted as approximateCount.

void QCPAxis::setAutoTickLabels ( bool  on)

Sets whether the tick labels are generated automatically. Depending on the tick label type (ltNumber or ltDateTime), the labels will either show the coordinate as floating point number (setNumberFormat), or a date/time formatted according to setDateTimeFormat.

If on is set to false, you should provide the tick labels via setTickVectorLabels. This is usually used in a combination with setAutoTicks set to false for complete control over tick positions and labels, e.g. when the ticks should be at multiples of pi and show "2pi", "3pi" etc. as tick labels.

If you need dynamically calculated tick vectors (and possibly tick label vectors), set the vectors in a slot connected to the ticksRequest signal.

void QCPAxis::setAutoTicks ( bool  on)

Sets whether the tick positions should be calculated automatically (either from an automatically generated tick step or a tick step provided manually via setTickStep, see setAutoTickStep).

If on is set to false, you must provide the tick positions manually via setTickVector. For these manual ticks you may let QCPAxis generate the appropriate labels automatically by leaving setAutoTickLabels set to true. If you also wish to control the displayed labels manually, set setAutoTickLabels to false and provide the label strings with setTickVectorLabels.

If you need dynamically calculated tick vectors (and possibly tick label vectors), set the vectors in a slot connected to the ticksRequest signal.

void QCPAxis::setAutoTickStep ( bool  on)

Sets whether the tick step, i.e. the interval between two (major) ticks, is calculated automatically. If on is set to true, the axis finds a tick step that is reasonable for human readable plots.

The number of ticks the algorithm aims for within the visible range can be set with setAutoTickCount.

If on is set to false, you may set the tick step manually with setTickStep.

void QCPAxis::setBasePen ( const QPen &  pen)

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

Ver también
setTickPen, setSubTickPen
void QCPAxis::setDateTimeFormat ( const QString &  format)

Sets the format in which dates and times are displayed as tick labels, if setTickLabelType is ltDateTime. for details about the format string, see the documentation of QDateTime::toString().

Newlines can be inserted with "\n".

Ver también
setDateTimeSpec
void QCPAxis::setDateTimeSpec ( const Qt::TimeSpec &  timeSpec)

Sets the time spec that is used for the date time values when setTickLabelType is ltDateTime.

The default value of QDateTime objects (and also QCustomPlot) is Qt::LocalTime. However, if the date time values passed to QCustomPlot are given in the UTC spec, set timeSpec to Qt::UTC to get the correct axis labels.

Ver también
setDateTimeFormat
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.

void QCPAxis::setLabelColor ( const QColor &  color)

Sets the color of the axis label.

Ver también
setLabelFont
void QCPAxis::setLabelFont ( const QFont &  font)

Sets the font of the axis label.

Ver también
setLabelColor
void QCPAxis::setLabelPadding ( int  padding)

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

Ver también
setTickLabelPadding, setPadding
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.

Ver también
setUpperEnding
void QCPAxis::setNumberFormat ( const QString &  formatCode)

Sets the number format for the numbers drawn as tick labels (if tick label type is ltNumber). 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.

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.

If the scale type (setScaleType) is stLogarithmic and the formatCode uses the 'b' option (beautifully typeset decimal powers), the display usually is "1 [multiplication sign] 10 [superscript] n", which looks unnatural for logarithmic scaling (the "1 [multiplication sign]" part). To only display the decimal power, set the number precision to zero with setNumberPrecision.

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.
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

If the scale type (setScaleType) is stLogarithmic and the number format (setNumberFormat) uses the 'b' format code (beautifully typeset decimal powers), the display usually is "1 [multiplication sign] 10 [superscript] n", which looks unnatural for logarithmic scaling (the redundant "1 [multiplication sign]" part). To only display the decimal power "10 [superscript] n", set precision to zero.

void QCPAxis::setOffset ( int  offset)

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

If an axis rect side has multiple axes, only the offset of the inner most axis has meaning. The offset of the other axes is controlled automatically, to place the axes at appropriate positions to prevent them from overlapping.

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.

Ver también
setLabelPadding, setTickLabelPadding
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.

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

Esta es una función miembro sobrecargada que se suministra por conveniencia. Difiere de la anterior función solamente en los argumentos que acepta.

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).

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

Esta es una función miembro sobrecargada que se suministra por conveniencia. Difiere de la anterior función solamente en los argumentos que acepta.

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.

void QCPAxis::setRangeLower ( double  lower)

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

Ver también
setRange
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.

void QCPAxis::setRangeUpper ( double  upper)

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

Ver también
setRange
void QCPAxis::setScaleLogBase ( double  base)

If setScaleType is set to stLogarithmic, base will be the logarithm base of the scaling. In logarithmic axis scaling, major tick marks appear at all powers of base.

Properties like tick step (setTickStep) don't apply in logarithmic scaling. If you wish a decimal base but less major ticks, consider choosing base 100, 1000 or even higher.

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.

void QCPAxis::setScaleType ( ScaleType  type)

Sets whether the axis uses a linear scale or a logarithmic scale. If type is set to stLogarithmic, the logarithm base can be set with setScaleLogBase. In logarithmic axis scaling, major tick marks appear at all powers of the logarithm base. Properties like tick step (setTickStep) don't apply in logarithmic scaling. If you wish a decimal base but less major ticks, consider choosing a logarithm base of 100, 1000 or even higher.

If type is stLogarithmic and the number format (setNumberFormat) uses the 'b' option (beautifully typeset decimal powers), the display usually is "1 [multiplication sign] 10 [superscript] n", which looks unnatural for logarithmic scaling (the "1 [multiplication sign]" part). To only display the decimal power, set the number precision to zero with setNumberPrecision.

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.

Ver también
SelectablePart, setSelectedParts
void QCPAxis::setSelectedBasePen ( const QPen &  pen)

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

Ver también
setBasePen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSelectedLabelColor ( const QColor &  color)

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

Ver también
setLabelColor, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSelectedLabelFont ( const QFont &  font)

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

Ver también
setLabelFont, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
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.

Ver también
SelectablePart, setSelectableParts, selectTest, setSelectedBasePen, setSelectedTickPen, setSelectedSubTickPen, setSelectedTickLabelFont, setSelectedLabelFont, setSelectedTickLabelColor, setSelectedLabelColor
void QCPAxis::setSelectedSubTickPen ( const QPen &  pen)

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

Ver también
setSubTickPen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSelectedTickLabelColor ( const QColor &  color)

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

Ver también
setTickLabelColor, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSelectedTickLabelFont ( const QFont &  font)

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

Ver también
setTickLabelFont, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSelectedTickPen ( const QPen &  pen)

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

Ver también
setTickPen, setSelectableParts, setSelectedParts, QCustomPlot::setInteractions
void QCPAxis::setSubTickCount ( int  count)

Sets the number of sub ticks in one (major) tick step. A sub tick count of three for example, divides the tick intervals in four sub intervals.

By default, the number of sub ticks is chosen automatically in a reasonable manner as long as the mantissa of the tick step is a multiple of 0.5. When setAutoTickStep is enabled, this is always the case.

If you want to disable automatic sub tick count and use this function to set the count manually, see setAutoSubTicks.

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.

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.

Ver también
setSubTickLengthOut, setTickLength
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.

Ver también
setSubTickLengthIn, setTickLength
void QCPAxis::setSubTickPen ( const QPen &  pen)

Sets the pen, subtick marks will be drawn with.

Ver también
setSubTickCount, setSubTickLength, setBasePen
void QCPAxis::setTickLabelColor ( const QColor &  color)

Sets the color of the tick labels.

Ver también
setTickLabels, setTickLabelFont
void QCPAxis::setTickLabelFont ( const QFont &  font)

Sets the font of the tick labels.

Ver también
setTickLabels, setTickLabelColor
void QCPAxis::setTickLabelPadding ( int  padding)

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

Ver también
setLabelPadding, setPadding
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.

void QCPAxis::setTickLabels ( bool  show)

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

void QCPAxis::setTickLabelType ( LabelType  type)

Sets whether the tick labels display numbers or dates/times.

If type is set to ltNumber, the format specifications of setNumberFormat apply.

If type is set to ltDateTime, the format specifications of setDateTimeFormat apply.

In QCustomPlot, date/time coordinates are double numbers representing the seconds since 1970-01-01T00:00:00 UTC. This format can be retrieved from QDateTime objects with the QDateTime::toTime_t() function. Since this only gives a resolution of one second, there is also the QDateTime::toMSecsSinceEpoch() function which returns the timespan described above in milliseconds. Divide its return value by 1000.0 to get a value with the format needed for date/time plotting, with a resolution of one millisecond.

Using the toMSecsSinceEpoch function allows dates that go back to 2nd January 4713 B.C. (represented by a negative number), unlike the toTime_t function, which works with unsigned integers and thus only goes back to 1st January 1970. So both for range and accuracy, use of toMSecsSinceEpoch()/1000.0 should be preferred as key coordinate for date/time axes.

Ver también
setTickLabels
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.

Ver también
setSubTickLength
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.

Ver también
setTickLengthOut, setSubTickLength
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.

Ver también
setTickLengthIn, setSubTickLength
void QCPAxis::setTickPen ( const QPen &  pen)

Sets the pen, tick marks will be drawn with.

Ver también
setTickLength, setBasePen
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.

void QCPAxis::setTickStep ( double  step)

If setAutoTickStep is set to false, use this function to set the tick step manually. The tick step is the interval between (major) ticks, in plot coordinates.

Ver también
setSubTickCount
void QCPAxis::setTickVector ( const QVector< double > &  vec)

If you want full control over what ticks (and possibly labels) the axes show, this function is used to set the coordinates at which ticks will appear.setAutoTicks must be disabled, else the provided tick vector will be overwritten with automatically generated tick coordinates upon replot. The labels of the ticks can be generated automatically when setAutoTickLabels is left enabled. If it is disabled, you can set the labels manually with setTickVectorLabels.

vec is a vector containing the positions of the ticks, in plot coordinates.

Atención
vec must be sorted in ascending order, no additional checks are made to ensure this.
Ver también
setTickVectorLabels
void QCPAxis::setTickVectorLabels ( const QVector< QString > &  vec)

If you want full control over what ticks and labels the axes show, this function is used to set a number of QStrings that will be displayed at the tick positions which you need to provide with setTickVector. These two vectors should have the same size. (Note that you need to disable setAutoTicks and setAutoTickLabels first.)

vec is a vector containing the labels of the ticks. The entries correspond to the respective indices in the tick vector, passed via setTickVector.

Ver también
setTickVector
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.

Ver también
setLowerEnding
void QCPAxis::ticksRequest ( )
signal

This signal is emitted when setAutoTicks is false and the axis is about to generate tick labels for a replot.

Modifying the tick positions can be done with setTickVector. If you also want to control the tick labels, set setAutoTickLabels to false and also provide the labels with setTickVectorLabels.

If you only want static ticks you probably don't need this signal, since you can just set the tick vector (and possibly tick label vector) once. However, if you want to provide ticks (and maybe labels) dynamically, e.g. depending on the current axis range, connect a slot to this signal and set the vector/vectors there.


La documentación para esta clase fue generada a partir de los siguientes ficheros: