KDChart::LeveyJenningsCoordinatePlane Class Reference

Levey Jennings coordinate plane This is actually nothing real more than a plain cartesian coordinate plane. More...

#include <KDChartLeveyJenningsCoordinatePlane.h>

Inheritance diagram for KDChart::LeveyJenningsCoordinatePlane:
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Collaboration diagram for KDChart::LeveyJenningsCoordinatePlane:
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List of all members.

Public Types

enum  AxesCalcMode {
  Linear,
  Logarithmic
}

Public Slots

void adjustHorizontalRangeToData ()
 Adjust horizontal range settings to the ranges covered by the model's data values.
void adjustRangesToData ()
 Adjust both, horizontal and vertical range settings to the ranges covered by the model's data values.
void adjustVerticalRangeToData ()
 Adjust vertical range settings to the ranges covered by the model's data values.
void layoutPlanes ()
 Calling layoutPlanes() on the plane triggers the global KDChart::Chart::slotLayoutPlanes().
void relayout ()
 Calling relayout() on the plane triggers the global KDChart::Chart::slotRelayout().
void setGridNeedsRecalculate ()
 Used by the chart to clear the cached grid data.
void update ()
 Calling update() on the plane triggers the global KDChart::Chart::update().

Signals

void destroyedCoordinatePlane (AbstractCoordinatePlane *)
 Emitted when this coordinate plane is destroyed.
void geometryChanged (QRect, QRect)
 Emitted after the geometry of the Coordinate Plane has been changed.
void internal_geometryChanged (QRect, QRect)
void needLayoutPlanes ()
 Emitted when plane needs to trigger the Chart's layouting of the coord.
void needRelayout ()
 Emitted when plane needs to trigger the Chart's layouting.
void needUpdate ()
 Emitted when plane needs to update its drawings.
void positionChanged (AbstractArea *)
void propertiesChanged ()
 Emitted upon change of a property of the Coordinate Plane or any of its components.

Public Member Functions

void addDiagram (AbstractDiagram *diagram)
 Adds a diagram to this coordinate plane.
void alignToReferencePoint (const RelativePosition &position)
const bool autoAdjustGridToZoom () const
 Return the status of the built-in grid adjusting feature.
unsigned int autoAdjustHorizontalRangeToData () const
 Returns the maximal allowed percent of the horizontal space covered by the coordinate plane that may be empty.
unsigned int autoAdjustVerticalRangeToData () const
 Returns the maximal allowed percent of the vertical space covered by the coordinate plane that may be empty.
AxesCalcMode axesCalcModeX () const
AxesCalcMode axesCalcModeY () const
BackgroundAttributes backgroundAttributes () const
virtual int bottomOverlap (bool doNotRecalculate=false) const
 This is called at layout time by KDChart:AutoSpacerLayoutItem::sizeHint().
bool compare (const AbstractAreaBase *other) const
 Returns true if both areas have the same settings.
AbstractDiagramdiagram ()
QRectF diagramArea () const
 Returns the (physical) area occupied by the diagram.
ConstAbstractDiagramList diagrams () const
AbstractDiagramList diagrams ()
bool doesIsometricScaling () const
virtual Qt::Orientations expandingDirections () const
 pure virtual in QLayoutItem
FrameAttributes frameAttributes () const
virtual QRect geometry () const
 pure virtual in QLayoutItem
void getFrameLeadings (int &left, int &top, int &right, int &bottom) const
GridAttributes globalGridAttributes () const
const GridAttributes gridAttributes (Qt::Orientation orientation) const
LeveyJenningsGridAttributes gridAttributes () const
DataDimensionsList gridDimensionsList ()
 Returns the dimensions used for drawing the grid lines.
bool hasFixedDataCoordinateSpaceRelation () const
bool hasOwnGridAttributes (Qt::Orientation orientation) const
QPair< qreal, qreal > horizontalRange () const
virtual bool isEmpty () const
 pure virtual in QLayoutItem
bool isHorizontalRangeReversed () const
bool isRubberBandZoomingEnabled () const
bool isVerticalRangeReversed () const
const bool isVisiblePoint (const QPointF &point) const
 Tests, if a point is visible on the coordinate plane.
virtual int leftOverlap (bool doNotRecalculate=false) const
 This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().
 LeveyJenningsCoordinatePlane (Chart *parent=0)
QRectF logicalArea () const
 Returns the logical area, i.e., the rectangle defined by the very top left and very bottom right coordinate.
virtual QSize maximumSize () const
 pure virtual in QLayoutItem
virtual QSize minimumSize () const
 pure virtual in QLayoutItem
virtual QSize minimumSizeHint () const
 [reimplemented]
virtual void mouseDoubleClickEvent (QMouseEvent *event)
virtual void mouseMoveEvent (QMouseEvent *event)
virtual void mousePressEvent (QMouseEvent *event)
virtual void mouseReleaseEvent (QMouseEvent *event)
virtual void paint (QPainter *)
 reimpl
virtual void paintAll (QPainter &painter)
 Call paintAll, if you want the background and the frame to be drawn before the normal paint() is invoked automatically.
virtual void paintBackground (QPainter &painter, const QRect &rectangle)
virtual void paintCtx (PaintContext *context)
 Default impl: Paint the complete item using its layouted position and size.
virtual void paintFrame (QPainter &painter, const QRect &rectangle)
virtual void paintIntoRect (QPainter &painter, const QRect &rect)
 Draws the background and frame, then calls paint().
const Chartparent () const
Chartparent ()
QLayout * parentLayout ()
AbstractCoordinatePlanereferenceCoordinatePlane () const
 There are two ways, in which planes can be caused to interact, in where they are put layouting wise: The first is the reference plane.
void removeFromParentLayout ()
virtual void replaceDiagram (AbstractDiagram *diagram, AbstractDiagram *oldDiagram=0)
 Replaces the old diagram, or appends the diagram, it there is none yet.
void resetGridAttributes (Qt::Orientation orientation)
 Reset the attributes to be used for grid lines drawn in horizontal direction (or in vertical direction, resp.
virtual int rightOverlap (bool doNotRecalculate=false) const
 This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().
void setAutoAdjustGridToZoom (bool autoAdjust)
 Disable / re-enable the built-in grid adjusting feature.
void setAutoAdjustHorizontalRangeToData (unsigned int percentEmpty=67)
 Automatically adjust horizontal range settings to the ranges covered by the model's values, when ever the data have changed, and then emit horizontalRangeAutomaticallyAdjusted.
void setAutoAdjustVerticalRangeToData (unsigned int percentEmpty=67)
 Automatically adjust vertical range settings to the ranges covered by the model's values, when ever the data have changed, and then emit verticalRangeAutomaticallyAdjusted.
void setAxesCalcModes (AxesCalcMode mode)
 Specifies the calculation modes for all axes.
void setAxesCalcModeX (AxesCalcMode mode)
 Specifies the calculation mode for all Abscissa axes.
void setAxesCalcModeY (AxesCalcMode mode)
 Specifies the calculation mode for all Ordinate axes.
void setBackgroundAttributes (const BackgroundAttributes &a)
void setFixedDataCoordinateSpaceRelation (bool fixed)
 Allows to specify a fixed data-space / coordinate-space relation.
void setFrameAttributes (const FrameAttributes &a)
void setGeometry (const QRect &r)
 reimplement from AbstractCoordinatePlane
void setGlobalGridAttributes (const GridAttributes &)
 Set the grid attributes to be used by this coordinate plane.
void setGridAttributes (Qt::Orientation orientation, const GridAttributes &)
 Set the attributes to be used for grid lines drawn in horizontal direction (or in vertical direction, resp.
void setGridAttributes (const LeveyJenningsGridAttributes &attr)
void setHorizontalRange (const QPair< qreal, qreal > &range)
 Set the boundaries of the visible value space displayed in horizontal direction.
void setHorizontalRangeReversed (bool reverse)
 Sets whether the horizontal range should be reversed or not, i.e.
void setIsometricScaling (bool onOff)
void setParent (Chart *parent)
 Called internally by KDChart::Chart.
void setParentLayout (QLayout *lay)
virtual void setParentWidget (QWidget *widget)
 Inform the item about its widget: This enables the item, to trigger that widget's update, whenever the size of the item's contents has changed.
void setReferenceCoordinatePlane (AbstractCoordinatePlane *plane)
 Set another coordinate plane to be used as the reference plane for this one.
void setRubberBandZoomingEnabled (bool enable)
 Enables or disables zooming with a rubber band using the mouse.
void setVerticalRange (const QPair< qreal, qreal > &range)
 Set the boundaries of the visible value space displayed in vertical direction.
void setVerticalRangeReversed (bool reverse)
 Sets whether the vertical range should be reversed or not, i.e.
void setXAxisStartAtZero (bool fixedStart)
 Allows to fix the lower bound of X axis to zero when diagram is in first quadrant.
virtual void setZoomCenter (const QPointF &center)
virtual void setZoomFactors (double factorX, double factorY)
virtual void setZoomFactorX (double factor)
virtual void setZoomFactorY (double factor)
AbstractCoordinatePlanesharedAxisMasterPlane (QPainter *p=0)
 reimpl
virtual QSize sizeHint () const
 pure virtual in QLayoutItem
virtual void sizeHintChanged () const
 Report changed size hint: ask the parent widget to recalculate the layout.
virtual QSizePolicy sizePolicy () const
 [reimplemented]
virtual void takeDiagram (AbstractDiagram *diagram)
 Removes the diagram from the plane, without deleting it.
virtual int topOverlap (bool doNotRecalculate=false) const
 This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().
const QPointF translate (const QPointF &diagramPoint) const
 Translate the given point in value space coordinates to a position in pixel space.
QPair< qreal, qreal > verticalRange () const
QRectF visibleDataRange () const
 Returns the currently visible data range.
QRectF visibleDiagramArea () const
 Returns the visible part of the diagram area, i.e.
bool xAxisStartAtZero () const
virtual QPointF zoomCenter () const
virtual double zoomFactorX () const
virtual double zoomFactorY () const
 ~LeveyJenningsCoordinatePlane ()

Static Public Member Functions

static void paintBackgroundAttributes (QPainter &painter, const QRect &rectangle, const KDChart::BackgroundAttributes &attributes)
static void paintFrameAttributes (QPainter &painter, const QRect &rectangle, const KDChart::FrameAttributes &attributes)

Protected Slots

void slotLayoutChanged (AbstractDiagram *)

Protected Member Functions

QRectF adjustedToMaxEmptyInnerPercentage (const QRectF &r, unsigned int percentX, unsigned int percentY) const
virtual QRect areaGeometry () const
virtual QRectF calculateRawDataBoundingRect () const
bool doneSetZoomCenter (const QPointF &center)
bool doneSetZoomFactorX (double factor)
bool doneSetZoomFactorY (double factor)
virtual QRectF drawingArea () const
virtual DataDimensionsList getDataDimensionsList () const
QRectF getRawDataBoundingRectFromDiagrams () const
void handleFixedDataCoordinateSpaceRelation (const QRectF &geometry)
QRect innerRect () const
void layoutDiagrams ()
 Distribute the available space among the diagrams and axes.
void paintEvent (QPaintEvent *)
virtual void positionHasChanged ()
const QPointF translateBack (const QPointF &screenPoint) const

Protected Attributes

QWidgetmParent
QLayout * mParentLayout

Detailed Description

Levey Jennings coordinate plane This is actually nothing real more than a plain cartesian coordinate plane.

The difference is, that only Levey Jennings Diagrams can be added to it.

Definition at line 40 of file KDChartLeveyJenningsCoordinatePlane.h.


Member Enumeration Documentation

Enumerator:
Linear 
Logarithmic 

Definition at line 54 of file KDChartAbstractCoordinatePlane.h.


Constructor & Destructor Documentation

LeveyJenningsCoordinatePlane::LeveyJenningsCoordinatePlane ( Chart parent = 0  )  [explicit]

Definition at line 43 of file KDChartLeveyJenningsCoordinatePlane.cpp.

LeveyJenningsCoordinatePlane::~LeveyJenningsCoordinatePlane (  ) 

Definition at line 48 of file KDChartLeveyJenningsCoordinatePlane.cpp.


Member Function Documentation

void LeveyJenningsCoordinatePlane::addDiagram ( AbstractDiagram diagram  )  [virtual]

Adds a diagram to this coordinate plane.

Parameters:
diagram The diagram to add.
See also:
replaceDiagram, takeDiagram

Reimplemented from KDChart::CartesianCoordinatePlane.

Definition at line 56 of file KDChartLeveyJenningsCoordinatePlane.cpp.

QRectF CartesianCoordinatePlane::adjustedToMaxEmptyInnerPercentage ( const QRectF &  r,
unsigned int  percentX,
unsigned int  percentY 
) const [protected, inherited]
void CartesianCoordinatePlane::adjustHorizontalRangeToData (  )  [slot, inherited]
void CartesianCoordinatePlane::adjustRangesToData (  )  [slot, inherited]
void CartesianCoordinatePlane::adjustVerticalRangeToData (  )  [slot, inherited]
void AbstractAreaBase::alignToReferencePoint ( const RelativePosition position  )  [inherited]

Definition at line 88 of file KDChartAbstractAreaBase.cpp.

QRect AbstractArea::areaGeometry (  )  const [protected, virtual, inherited]
const bool CartesianCoordinatePlane::autoAdjustGridToZoom (  )  const [inherited]

Return the status of the built-in grid adjusting feature.

See also:
setAutoAdjustGridToZoom

Definition at line 821 of file KDChartCartesianCoordinatePlane.cpp.

References d.

unsigned int CartesianCoordinatePlane::autoAdjustHorizontalRangeToData (  )  const [inherited]

Returns the maximal allowed percent of the horizontal space covered by the coordinate plane that may be empty.

Returns:
A percent value indicating how much of the horizontal space may be empty. If more than this is empty, automatic range adjusting is applied. A return value of 100 indicates that no such automatic adjusting is done at all.
See also:
setAutoAdjustHorizontalRangeToData, adjustRangesToData

Definition at line 747 of file KDChartCartesianCoordinatePlane.cpp.

References d.

unsigned int CartesianCoordinatePlane::autoAdjustVerticalRangeToData (  )  const [inherited]

Returns the maximal allowed percent of the vertical space covered by the coordinate plane that may be empty.

Returns:
A percent value indicating how much of the vertical space may be empty. If more than this is empty, automatic range adjusting is applied. A return value of 100 indicates that no such automatic adjusting is done at all.
See also:
setAutoAdjustVerticalRangeToData, adjustRangesToData

Definition at line 752 of file KDChartCartesianCoordinatePlane.cpp.

References d.

CartesianCoordinatePlane::AxesCalcMode CartesianCoordinatePlane::axesCalcModeX (  )  const [inherited]
CartesianCoordinatePlane::AxesCalcMode CartesianCoordinatePlane::axesCalcModeY (  )  const [inherited]
BackgroundAttributes AbstractAreaBase::backgroundAttributes (  )  const [inherited]

Definition at line 118 of file KDChartAbstractAreaBase.cpp.

References d.

Referenced by KDChart::AbstractAreaBase::compare(), and updateCommonBrush().

int AbstractArea::bottomOverlap ( bool  doNotRecalculate = false  )  const [virtual, inherited]

This is called at layout time by KDChart:AutoSpacerLayoutItem::sizeHint().

The method triggers AbstractArea::sizeHint() to find out the amount of overlap at the bottom edge of the area.

Note:
The default implementation is not using any caching, it might make sense to implement a more sophisticated solution for derived classes that have complex work to do in sizeHint(). All we have here is a primitive flag to be set by the caller if it is sure that no sizeHint() needs to be called.

Definition at line 98 of file KDChartAbstractArea.cpp.

References d.

Referenced by KDChart::AutoSpacerLayoutItem::sizeHint().

QRectF CartesianCoordinatePlane::calculateRawDataBoundingRect (  )  const [protected, virtual, inherited]
bool AbstractAreaBase::compare ( const AbstractAreaBase other  )  const [inherited]

Returns true if both areas have the same settings.

Definition at line 73 of file KDChartAbstractAreaBase.cpp.

References KDChart::AbstractAreaBase::backgroundAttributes(), and KDChart::AbstractAreaBase::frameAttributes().

void KDChart::AbstractCoordinatePlane::destroyedCoordinatePlane ( AbstractCoordinatePlane  )  [signal, inherited]

Emitted when this coordinate plane is destroyed.

Referenced by KDChart::AbstractCoordinatePlane::~AbstractCoordinatePlane().

AbstractDiagram * AbstractCoordinatePlane::diagram (  )  [inherited]
QRectF CartesianCoordinatePlane::diagramArea (  )  const [inherited]

Returns the (physical) area occupied by the diagram.

Unless zoom is applied (which is also true when a fixed data coordinate / space relation is used),

.
See also:
setFixedDataCoordinateSpaceRelation
drawingArea

Definition at line 367 of file KDChartCartesianCoordinatePlane.cpp.

References d, and KDChart::CartesianCoordinatePlane::logicalArea().

Referenced by KDChart::CartesianCoordinatePlane::visibleDiagramArea().

ConstAbstractDiagramList AbstractCoordinatePlane::diagrams (  )  const [inherited]
Returns:
The list of diagrams associated with this coordinate plane.

Definition at line 142 of file KDChartAbstractCoordinatePlane.cpp.

References d.

AbstractDiagramList AbstractCoordinatePlane::diagrams (  )  [inherited]
bool CartesianCoordinatePlane::doesIsometricScaling (  )  const [inherited]

Definition at line 543 of file KDChartCartesianCoordinatePlane.cpp.

References d.

bool CartesianCoordinatePlane::doneSetZoomCenter ( const QPointF &  center  )  [protected, inherited]
bool CartesianCoordinatePlane::doneSetZoomFactorX ( double  factor  )  [protected, inherited]
bool CartesianCoordinatePlane::doneSetZoomFactorY ( double  factor  )  [protected, inherited]
QRectF CartesianCoordinatePlane::drawingArea (  )  const [protected, virtual, inherited]
Qt::Orientations KDChart::AbstractCoordinatePlane::expandingDirections (  )  const [virtual, inherited]

pure virtual in QLayoutItem

Definition at line 222 of file KDChartAbstractCoordinatePlane.cpp.

FrameAttributes AbstractAreaBase::frameAttributes (  )  const [inherited]
QRect KDChart::AbstractCoordinatePlane::geometry (  )  const [virtual, inherited]
void KDChart::AbstractCoordinatePlane::geometryChanged ( QRect  ,
QRect   
) [signal, inherited]

Emitted after the geometry of the Coordinate Plane has been changed.

and control has returned to the event loop.

Parameters are the the old geometry, the new geometry.

DataDimensionsList CartesianCoordinatePlane::getDataDimensionsList (  )  const [protected, virtual, inherited]
void AbstractAreaBase::getFrameLeadings ( int &  left,
int &  top,
int &  right,
int &  bottom 
) const [inherited]
QRectF CartesianCoordinatePlane::getRawDataBoundingRectFromDiagrams (  )  const [protected, inherited]
GridAttributes KDChart::AbstractCoordinatePlane::globalGridAttributes (  )  const [inherited]
Returns:
The grid attributes used by this coordinate plane.
See also:
setGlobalGridAttributes
CartesianCoordinatePlane::gridAttributes

Definition at line 171 of file KDChartAbstractCoordinatePlane.cpp.

References d.

Referenced by KDChart::PolarCoordinatePlane::gridAttributes(), and KDChart::CartesianCoordinatePlane::gridAttributes().

const GridAttributes CartesianCoordinatePlane::gridAttributes ( Qt::Orientation  orientation  )  const [inherited]
Returns:
The attributes used for grid lines drawn in horizontal direction (or in vertical direction, resp.).
Note:
This function always returns a valid set of grid attributes: If no special grid attributes were set foe this orientation the global attributes are returned, as returned by AbstractCoordinatePlane::globalGridAttributes.
See also:
setGridAttributes
resetGridAttributes
AbstractCoordinatePlane::globalGridAttributes
hasOwnGridAttributes

Definition at line 777 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::AbstractCoordinatePlane::globalGridAttributes(), and KDChart::CartesianCoordinatePlane::hasOwnGridAttributes().

Referenced by KDChart::CartesianCoordinatePlane::getDataDimensionsList().

LeveyJenningsGridAttributes LeveyJenningsCoordinatePlane::gridAttributes (  )  const

Definition at line 71 of file KDChartLeveyJenningsCoordinatePlane.cpp.

References d.

KDChart::DataDimensionsList KDChart::AbstractCoordinatePlane::gridDimensionsList (  )  [inherited]

Returns the dimensions used for drawing the grid lines.

Returned data is the result of (cached) grid calculations, so - if you need that information for your own tasks - make sure to call again this function after every data modification that has changed the data range, since grid calculation is based upon the data range, thus the grid start/end might have changed if the data was changed.

Note:
Returned list will contain different numbers of DataDimension, depending on the kind of coordinate plane used. For CartesianCoordinatePlane two DataDimension are returned: the first representing grid lines in X direction (matching the Abscissa axes) and the second indicating vertical grid lines (or Ordinate axes, resp.).
Returns:
The dimensions used for drawing the grid lines.
See also:
DataDimension

Definition at line 176 of file KDChartAbstractCoordinatePlane.cpp.

References d.

Referenced by KDChart::CartesianCoordinatePlane::layoutDiagrams().

void CartesianCoordinatePlane::handleFixedDataCoordinateSpaceRelation ( const QRectF &  geometry  )  [protected, inherited]
bool CartesianCoordinatePlane::hasFixedDataCoordinateSpaceRelation (  )  const [inherited]

Definition at line 464 of file KDChartCartesianCoordinatePlane.cpp.

References d.

Referenced by KDChart::TextAttributes::calculatedFont().

bool CartesianCoordinatePlane::hasOwnGridAttributes ( Qt::Orientation  orientation  )  const [inherited]
Returns:
Returns whether the grid attributes have been set for the respective direction via setGridAttributes( orientation ).
If false, the grid will use the global attributes set by AbstractCoordinatePlane::globalGridAttributes (or the default attributes, resp.)

See also:
setGridAttributes
resetGridAttributes
AbstractCoordinatePlane::globalGridAttributes

Definition at line 800 of file KDChartCartesianCoordinatePlane.cpp.

References d.

Referenced by KDChart::CartesianCoordinatePlane::gridAttributes().

QPair< qreal, qreal > CartesianCoordinatePlane::horizontalRange (  )  const [inherited]
Returns:
The largest and smallest visible horizontal value space value. If this is not explicitly set,or if both values are the same, the plane will use the union of the dataBoundaries of all associated diagrams.
See also:
KDChart::AbstractDiagram::dataBoundaries

Definition at line 684 of file KDChartCartesianCoordinatePlane.cpp.

References d.

QRect AbstractAreaBase::innerRect (  )  const [protected, inherited]
void KDChart::AbstractCoordinatePlane::internal_geometryChanged ( QRect  ,
QRect   
) [signal, inherited]
bool KDChart::AbstractCoordinatePlane::isEmpty (  )  const [virtual, inherited]
bool CartesianCoordinatePlane::isHorizontalRangeReversed (  )  const [inherited]
Returns:
Whether the horizontal range is reversed or not

Definition at line 883 of file KDChartCartesianCoordinatePlane.cpp.

References d.

bool KDChart::AbstractCoordinatePlane::isRubberBandZoomingEnabled (  )  const [inherited]
Returns:
Whether zooming with a rubber band using the mouse is enabled.

Definition at line 296 of file KDChartAbstractCoordinatePlane.cpp.

References d.

bool CartesianCoordinatePlane::isVerticalRangeReversed (  )  const [inherited]
Returns:
Whether the vertical range is reversed or not

Definition at line 898 of file KDChartCartesianCoordinatePlane.cpp.

References d.

const bool KDChart::AbstractCoordinatePlane::isVisiblePoint ( const QPointF &  point  )  const [inherited]

Tests, if a point is visible on the coordinate plane.

Note:
Before calling this function the point must have been translated into coordinate plane space.

Definition at line 424 of file KDChartAbstractCoordinatePlane.cpp.

References d.

void CartesianCoordinatePlane::layoutDiagrams (  )  [protected, virtual, inherited]
void KDChart::AbstractCoordinatePlane::layoutPlanes (  )  [slot, inherited]
int AbstractArea::leftOverlap ( bool  doNotRecalculate = false  )  const [virtual, inherited]

This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().

The method triggers AbstractArea::sizeHint() to find out the amount of overlap at the left edge of the area.

Note:
The default implementation is not using any caching, it might make sense to implement a more sophisticated solution for derived classes that have complex work to do in sizeHint(). All we have here is a primitive flag to be set by the caller if it is sure that no sizeHint() needs to be called.

Definition at line 74 of file KDChartAbstractArea.cpp.

References d.

Referenced by KDChart::AutoSpacerLayoutItem::sizeHint().

QRectF CartesianCoordinatePlane::logicalArea (  )  const [inherited]

Returns the logical area, i.e., the rectangle defined by the very top left and very bottom right coordinate.

Definition at line 338 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::DataDimension::distance(), KDChart::DataDimension::end, and KDChart::DataDimension::start.

Referenced by KDChart::CartesianCoordinatePlane::diagramArea(), and KDChart::CartesianCoordinatePlane::layoutDiagrams().

QSize KDChart::AbstractCoordinatePlane::maximumSize (  )  const [virtual, inherited]

pure virtual in QLayoutItem

Definition at line 227 of file KDChartAbstractCoordinatePlane.cpp.

Referenced by KDChart::AbstractCoordinatePlane::sizeHint().

QSize KDChart::AbstractCoordinatePlane::minimumSize (  )  const [virtual, inherited]

pure virtual in QLayoutItem

Definition at line 234 of file KDChartAbstractCoordinatePlane.cpp.

QSize KDChart::AbstractCoordinatePlane::minimumSizeHint (  )  const [virtual, inherited]

[reimplemented]

Reimplemented in KDChart::TernaryCoordinatePlane.

Definition at line 154 of file KDChartAbstractCoordinatePlane.cpp.

void KDChart::AbstractCoordinatePlane::mouseDoubleClickEvent ( QMouseEvent *  event  )  [virtual, inherited]
void KDChart::AbstractCoordinatePlane::mouseMoveEvent ( QMouseEvent *  event  )  [virtual, inherited]
void KDChart::AbstractCoordinatePlane::mousePressEvent ( QMouseEvent *  event  )  [virtual, inherited]
void KDChart::AbstractCoordinatePlane::mouseReleaseEvent ( QMouseEvent *  event  )  [virtual, inherited]
void KDChart::AbstractCoordinatePlane::needLayoutPlanes (  )  [signal, inherited]

Emitted when plane needs to trigger the Chart's layouting of the coord.

planes.

Referenced by KDChart::AbstractCoordinatePlane::layoutPlanes().

void KDChart::AbstractCoordinatePlane::needRelayout (  )  [signal, inherited]

Emitted when plane needs to trigger the Chart's layouting.

Referenced by KDChart::AbstractCoordinatePlane::relayout().

void KDChart::AbstractCoordinatePlane::needUpdate (  )  [signal, inherited]

Emitted when plane needs to update its drawings.

Referenced by KDChart::AbstractCoordinatePlane::update().

void CartesianCoordinatePlane::paint ( QPainter *  painter  )  [virtual, inherited]
void AbstractArea::paintAll ( QPainter &  painter  )  [virtual, inherited]

Call paintAll, if you want the background and the frame to be drawn before the normal paint() is invoked automatically.

Reimplemented from KDChart::AbstractLayoutItem.

Reimplemented in KDChart::TernaryAxis.

Definition at line 120 of file KDChartAbstractArea.cpp.

References KDChart::AbstractArea::areaGeometry(), d, KDChart::AbstractAreaBase::innerRect(), KDChart::AbstractLayoutItem::paint(), KDChart::AbstractAreaBase::paintBackground(), and KDChart::AbstractAreaBase::paintFrame().

Referenced by KDChart::AbstractArea::paintIntoRect().

void AbstractAreaBase::paintBackground ( QPainter &  painter,
const QRect &  rectangle 
) [virtual, inherited]
void AbstractAreaBase::paintBackgroundAttributes ( QPainter &  painter,
const QRect &  rectangle,
const KDChart::BackgroundAttributes attributes 
) [static, inherited]
void KDChart::AbstractLayoutItem::paintCtx ( PaintContext context  )  [virtual, inherited]

Default impl: Paint the complete item using its layouted position and size.

Reimplemented in KDChart::CartesianAxis, KDChart::LeveyJenningsAxis, and KDChart::TernaryAxis.

Definition at line 75 of file KDChartLayoutItems.cpp.

References KDChart::AbstractLayoutItem::paint(), and KDChart::PaintContext::painter().

void KDChart::CartesianCoordinatePlane::paintEvent ( QPaintEvent *   )  [protected, inherited]
void AbstractAreaBase::paintFrame ( QPainter &  painter,
const QRect &  rectangle 
) [virtual, inherited]
void AbstractAreaBase::paintFrameAttributes ( QPainter &  painter,
const QRect &  rectangle,
const KDChart::FrameAttributes attributes 
) [static, inherited]
void AbstractArea::paintIntoRect ( QPainter &  painter,
const QRect &  rect 
) [virtual, inherited]

Draws the background and frame, then calls paint().

In most cases there is no need to overwrite this method in a derived class, but you would overwrite AbstractLayoutItem::paint() instead.

Definition at line 108 of file KDChartAbstractArea.cpp.

References KDChart::AbstractArea::paintAll().

const KDChart::Chart * KDChart::AbstractCoordinatePlane::parent (  )  const [inherited]

Definition at line 204 of file KDChartAbstractCoordinatePlane.cpp.

References d.

KDChart::Chart * KDChart::AbstractCoordinatePlane::parent (  )  [inherited]
QLayout* KDChart::AbstractLayoutItem::parentLayout (  )  [inherited]

Definition at line 76 of file KDChartLayoutItems.h.

void KDChart::AbstractArea::positionChanged ( AbstractArea  )  [signal, inherited]
void AbstractArea::positionHasChanged (  )  [protected, virtual, inherited]

Reimplemented from KDChart::AbstractAreaBase.

Definition at line 152 of file KDChartAbstractArea.cpp.

References KDChart::AbstractArea::positionChanged().

void KDChart::AbstractCoordinatePlane::propertiesChanged (  )  [signal, inherited]
AbstractCoordinatePlane * KDChart::AbstractCoordinatePlane::referenceCoordinatePlane (  )  const [inherited]

There are two ways, in which planes can be caused to interact, in where they are put layouting wise: The first is the reference plane.

If such a reference plane is set, on a plane, it will use the same cell in the layout as that one. In addition to this, planes can share an axis. In that case they will be laid out in relation to each other as suggested by the position of the axis. If, for example Plane1 and Plane2 share an axis at position Left, that will result in the layout: Axis Plane1 Plane 2, vertically. If Plane1 also happens to be Plane2's reference plane, both planes are drawn over each other. The reference plane concept allows two planes to share the same space even if neither has any axis, and in case there are shared axis, it is used to decided, whether the planes should be painted on top of each other or laid out vertically or horizontally next to each other.

Returns:
The reference coordinate plane associated with this one.

Definition at line 194 of file KDChartAbstractCoordinatePlane.cpp.

References d.

void KDChart::AbstractCoordinatePlane::relayout (  )  [slot, inherited]

Calling relayout() on the plane triggers the global KDChart::Chart::slotRelayout().

Definition at line 273 of file KDChartAbstractCoordinatePlane.cpp.

References KDChart::AbstractCoordinatePlane::needRelayout().

Referenced by KDChart::AbstractCoordinatePlane::addDiagram(), and KDChart::AbstractCoordinatePlane::takeDiagram().

void KDChart::AbstractLayoutItem::removeFromParentLayout (  )  [inherited]

Definition at line 80 of file KDChartLayoutItems.h.

Referenced by KDChart::Chart::takeCoordinatePlane().

void AbstractCoordinatePlane::replaceDiagram ( AbstractDiagram diagram,
AbstractDiagram oldDiagram = 0 
) [virtual, inherited]

Replaces the old diagram, or appends the diagram, it there is none yet.

Parameters:
diagram The diagram to be used instead of the old diagram. This parameter must not be zero, or the method will do nothing.
oldDiagram The diagram to be removed by the new diagram. This diagram will be deleted automatically. If the parameter is omitted, the very first diagram will be replaced. In case, there was no diagram yet, the new diagram will just be added.
Note:
If you want to re-use the old diagram, call takeDiagram and addDiagram, instead of using replaceDiagram.
See also:
addDiagram, takeDiagram

Definition at line 90 of file KDChartAbstractCoordinatePlane.cpp.

References KDChart::AbstractCoordinatePlane::addDiagram(), d, KDChart::AbstractCoordinatePlane::layoutDiagrams(), KDChart::AbstractCoordinatePlane::layoutPlanes(), KDChart::AbstractCoordinatePlane::takeDiagram(), and KDChart::AbstractCoordinatePlane::update().

Referenced by KDChart::Widget::setType().

void CartesianCoordinatePlane::resetGridAttributes ( Qt::Orientation  orientation  )  [inherited]

Reset the attributes to be used for grid lines drawn in horizontal direction (or in vertical direction, resp.

). By calling this method you specify that the global attributes set by AbstractCoordinatePlane::setGlobalGridAttributes be used.

See also:
setGridAttributes, gridAttributes
setAutoAdjustGridToZoom
AbstractCoordinatePlane::globalGridAttributes
hasOwnGridAttributes

Definition at line 770 of file KDChartCartesianCoordinatePlane.cpp.

References KDChart::AbstractCoordinatePlane::update().

int AbstractArea::rightOverlap ( bool  doNotRecalculate = false  )  const [virtual, inherited]

This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().

The method triggers AbstractArea::sizeHint() to find out the amount of overlap at the right edge of the area.

Note:
The default implementation is not using any caching, it might make sense to implement a more sophisticated solution for derived classes that have complex work to do in sizeHint(). All we have here is a primitive flag to be set by the caller if it is sure that no sizeHint() needs to be called.

Definition at line 82 of file KDChartAbstractArea.cpp.

References d.

Referenced by KDChart::AutoSpacerLayoutItem::sizeHint().

void CartesianCoordinatePlane::setAutoAdjustGridToZoom ( bool  autoAdjust  )  [inherited]

Disable / re-enable the built-in grid adjusting feature.

By default additional lines will be drawn in a Linear grid when zooming in.

See also:
autoAdjustGridToZoom, setGridAttributes

Definition at line 809 of file KDChartCartesianCoordinatePlane.cpp.

References d, and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setAutoAdjustHorizontalRangeToData ( unsigned int  percentEmpty = 67  )  [inherited]

Automatically adjust horizontal range settings to the ranges covered by the model's values, when ever the data have changed, and then emit horizontalRangeAutomaticallyAdjusted.

By default the horizontal range is adjusted automatically, if more than 67 percent of the available horizontal space would be empty otherwise.

Range setting is adjusted if more than percentEmpty percent of the horizontal space covered by the coordinate plane would otherwise be empty. Automatic range adjusting can happen, when either all of the data are positive or all are negative.

Set percentEmpty to 100 to disable automatic range adjusting.

Parameters:
percentEmpty The maximal percentage of horizontal space that may be empty.
See also:
horizontalRangeAutomaticallyAdjusted
autoAdjustHorizontalRangeToData, adjustRangesToData
setHorizontalRange, setVerticalRange
setAutoAdjustVerticalRangeToData

Definition at line 723 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setAutoAdjustVerticalRangeToData ( unsigned int  percentEmpty = 67  )  [inherited]

Automatically adjust vertical range settings to the ranges covered by the model's values, when ever the data have changed, and then emit verticalRangeAutomaticallyAdjusted.

By default the vertical range is adjusted automatically, if more than 67 percent of the available vertical space would be empty otherwise.

Range setting is adjusted if more than percentEmpty percent of the horizontal space covered by the coordinate plane would otherwise be empty. Automatic range adjusting can happen, when either all of the data are positive or all are negative.

Set percentEmpty to 100 to disable automatic range adjusting.

Parameters:
percentEmpty The maximal percentage of horizontal space that may be empty.
See also:
verticalRangeAutomaticallyAdjusted
autoAdjustVerticalRangeToData, adjustRangesToData
setHorizontalRange, setVerticalRange
setAutoAdjustHorizontalRangeToData

Definition at line 735 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setAxesCalcModes ( AxesCalcMode  mode  )  [inherited]

Specifies the calculation modes for all axes.

Definition at line 635 of file KDChartCartesianCoordinatePlane.cpp.

References d, and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setAxesCalcModeX ( AxesCalcMode  mode  )  [inherited]

Specifies the calculation mode for all Abscissa axes.

Definition at line 653 of file KDChartCartesianCoordinatePlane.cpp.

References d, and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setAxesCalcModeY ( AxesCalcMode  mode  )  [inherited]

Specifies the calculation mode for all Ordinate axes.

Definition at line 645 of file KDChartCartesianCoordinatePlane.cpp.

References d, and KDChart::AbstractCoordinatePlane::propertiesChanged().

void AbstractAreaBase::setBackgroundAttributes ( const BackgroundAttributes a  )  [inherited]
void CartesianCoordinatePlane::setFixedDataCoordinateSpaceRelation ( bool  fixed  )  [inherited]

Allows to specify a fixed data-space / coordinate-space relation.

If set to true then fixed bar widths are used, so you see more bars as the window is made wider.

This allows to completely restrict the size of bars in a graph such that, upon resizing a window, the graphs coordinate plane will grow (add more ticks to x- and y-coordinates) rather than have the image grow.

Definition at line 443 of file KDChartCartesianCoordinatePlane.cpp.

References d.

void AbstractAreaBase::setFrameAttributes ( const FrameAttributes a  )  [inherited]
void CartesianCoordinatePlane::setGeometry ( const QRect &  r  )  [virtual, inherited]
void KDChart::AbstractCoordinatePlane::setGlobalGridAttributes ( const GridAttributes a  )  [inherited]

Set the grid attributes to be used by this coordinate plane.

To disable grid painting, for example, your code should like this:

 GridAttributes ga = plane->globalGridAttributes();
 ga.setGlobalGridVisible( false );
 plane->setGlobalGridAttributes( ga );
See also:
globalGridAttributes
CartesianCoordinatePlane::setGridAttributes

Definition at line 165 of file KDChartAbstractCoordinatePlane.cpp.

References d, and KDChart::AbstractCoordinatePlane::update().

void CartesianCoordinatePlane::setGridAttributes ( Qt::Orientation  orientation,
const GridAttributes a 
) [inherited]

Set the attributes to be used for grid lines drawn in horizontal direction (or in vertical direction, resp.

).

To disable horizontal grid painting, for example, your code should like this:

 GridAttributes ga = plane->gridAttributes( Qt::Horizontal );
 ga.setGridVisible( false );
 plane-setGridAttributes( Qt::Horizontal, ga );
Note:
setGridAttributes overwrites the global attributes that were set by AbstractCoordinatePlane::setGlobalGridAttributes. To re-activate these global attributes you can call resetGridAttributes.
See also:
resetGridAttributes, gridAttributes
setAutoAdjustGridToZoom
AbstractCoordinatePlane::setGlobalGridAttributes
hasOwnGridAttributes

Definition at line 757 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::AbstractCoordinatePlane::propertiesChanged(), and KDChart::AbstractCoordinatePlane::update().

void LeveyJenningsCoordinatePlane::setGridAttributes ( const LeveyJenningsGridAttributes attr  ) 

Definition at line 76 of file KDChartLeveyJenningsCoordinatePlane.cpp.

References d.

void KDChart::AbstractCoordinatePlane::setGridNeedsRecalculate (  )  [slot, inherited]

Used by the chart to clear the cached grid data.

Definition at line 184 of file KDChartAbstractCoordinatePlane.cpp.

References d.

Referenced by KDChart::Chart::resizeEvent().

void CartesianCoordinatePlane::setHorizontalRange ( const QPair< qreal, qreal > &  range  )  [inherited]

Set the boundaries of the visible value space displayed in horizontal direction.

This is also known as the horizontal viewport.

By default the horizontal range is adjusted to the range covered by the model's data, see setAutoAdjustHorizontalRangeToData for details. Calling setHorizontalRange with a valid range disables this default automatic adjusting, while on the other hand automatic adjusting will set these ranges.

To disable use of this range you can either pass an empty pair by using the default constructor QPair() or you can set both values to the same which constitutes a null range.

Note:
By default the visible data range often is larger than the range calculated from the data model (or set by setHoriz.|Vert.Range(), resp.). This is due to the built-in grid calculation feature: The visible start/end values get adjusted so that they match a main-grid line. You can turn this feature off for any of the four bounds by calling GridAttributes::setAdjustBoundsToGrid() for either the global grid-attributes or for the horizontal/vertical attrs separately.
If you use user defined vertical ranges together with logarithmic scale, only positive values are supported. If you set it to negative values, the result is undefined.
Parameters:
range a pair of values representing the smalles and the largest horizontal value space coordinate displayed.
See also:
setAutoAdjustHorizontalRangeToData, setVerticalRange
GridAttributes::setAdjustBoundsToGrid()

Definition at line 661 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setHorizontalRangeReversed ( bool  reverse  )  [inherited]

Sets whether the horizontal range should be reversed or not, i.e.

small values to the left and large values to the right (the default) or vice versa.

Parameters:
reverse Whether the horizontal range should be reversed or not

Definition at line 873 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setIsometricScaling ( bool  onOff  )  [inherited]
void KDChart::AbstractCoordinatePlane::setParent ( KDChart::Chart parent  )  [inherited]

Called internally by KDChart::Chart.

Definition at line 199 of file KDChartAbstractCoordinatePlane.cpp.

References d.

Referenced by KDChart::Chart::addCoordinatePlane(), and KDChart::Chart::takeCoordinatePlane().

void KDChart::AbstractLayoutItem::setParentLayout ( QLayout *  lay  )  [inherited]

Definition at line 72 of file KDChartLayoutItems.h.

void KDChart::AbstractLayoutItem::setParentWidget ( QWidget widget  )  [virtual, inherited]

Inform the item about its widget: This enables the item, to trigger that widget's update, whenever the size of the item's contents has changed.

Thus, you need to call setParentWidget on every item, that has a non-fixed size.

Definition at line 62 of file KDChartLayoutItems.cpp.

References KDChart::AbstractLayoutItem::mParent.

Referenced by KDChart::HeaderFooter::setParent(), and KDChart::AbstractCartesianDiagram::takeAxis().

void KDChart::AbstractCoordinatePlane::setReferenceCoordinatePlane ( AbstractCoordinatePlane plane  )  [inherited]

Set another coordinate plane to be used as the reference plane for this one.

Parameters:
plane The coordinate plane to be used the reference plane for this one.
See also:
referenceCoordinatePlane

Definition at line 189 of file KDChartAbstractCoordinatePlane.cpp.

References d.

void KDChart::AbstractCoordinatePlane::setRubberBandZoomingEnabled ( bool  enable  )  [inherited]

Enables or disables zooming with a rubber band using the mouse.

Definition at line 285 of file KDChartAbstractCoordinatePlane.cpp.

References d.

void CartesianCoordinatePlane::setVerticalRange ( const QPair< qreal, qreal > &  range  )  [inherited]

Set the boundaries of the visible value space displayed in vertical direction.

This is also known as the vertical viewport.

By default the vertical range is adjusted to the range covered by the model's data, see setAutoAdjustVerticalRangeToData for details. Calling setVerticalRange with a valid range disables this default automatic adjusting, while on the other hand automatic adjusting will set these ranges.

To disable use of this range you can either pass an empty pair by using the default constructor QPair() or you can set setting both values to the same which constitutes a null range.

Note:
By default the visible data range often is larger than the range calculated from the data model (or set by setHoriz.|Vert.Range(), resp.). This is due to the built-in grid calculation feature: The visible start/end values get adjusted so that they match a main-grid line. You can turn this feature off for any of the four bounds by calling GridAttributes::setAdjustBoundsToGrid() for either the global grid-attributes or for the horizontal/vertical attrs separately.
If you use user defined vertical ranges together with logarithmic scale, only positive values are supported. If you set it to negative values, the result is undefined.
Parameters:
range a pair of values representing the smalles and the largest vertical value space coordinate displayed.
See also:
setAutoAdjustVerticalRangeToData, setHorizontalRange
GridAttributes::setAdjustBoundsToGrid()

Definition at line 672 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setVerticalRangeReversed ( bool  reverse  )  [inherited]

Sets whether the vertical range should be reversed or not, i.e.

small values at the bottom and large values at the top (the default) or vice versa.

Parameters:
reverse Whether the vertical range should be reversed or not

Definition at line 888 of file KDChartCartesianCoordinatePlane.cpp.

References d, KDChart::CartesianCoordinatePlane::layoutDiagrams(), and KDChart::AbstractCoordinatePlane::propertiesChanged().

void CartesianCoordinatePlane::setXAxisStartAtZero ( bool  fixedStart  )  [inherited]

Allows to fix the lower bound of X axis to zero when diagram is in first quadrant.

The default behavior is to lower x or y bound to be 0. If this behaviour is not wanted, either CartesianCoordinatePlane::setHorizontalRange could be used instead of letting KDChart auto-adjust the ranges, or this method can be used to disable this behavior.

Definition at line 469 of file KDChartCartesianCoordinatePlane.cpp.

References d.

void CartesianCoordinatePlane::setZoomCenter ( const QPointF &  center  )  [virtual, inherited]
void CartesianCoordinatePlane::setZoomFactors ( double  factorX,
double  factorY 
) [virtual, inherited]
void CartesianCoordinatePlane::setZoomFactorX ( double  factor  )  [virtual, inherited]
void CartesianCoordinatePlane::setZoomFactorY ( double  factor  )  [virtual, inherited]
AbstractCoordinatePlane * CartesianCoordinatePlane::sharedAxisMasterPlane ( QPainter *  p = 0  )  [virtual, inherited]
QSize KDChart::AbstractCoordinatePlane::sizeHint (  )  const [virtual, inherited]
void KDChart::AbstractLayoutItem::sizeHintChanged (  )  const [virtual, inherited]

Report changed size hint: ask the parent widget to recalculate the layout.

Definition at line 84 of file KDChartLayoutItems.cpp.

References KDChart::AbstractLayoutItem::mParent.

Referenced by KDChart::TextLayoutItem::sizeHintAndRotatedCorners().

QSizePolicy KDChart::AbstractCoordinatePlane::sizePolicy (  )  const [virtual, inherited]

[reimplemented]

Reimplemented in KDChart::TernaryCoordinatePlane.

Definition at line 160 of file KDChartAbstractCoordinatePlane.cpp.

void CartesianCoordinatePlane::slotLayoutChanged ( AbstractDiagram  )  [protected, slot, inherited]
void AbstractCoordinatePlane::takeDiagram ( AbstractDiagram diagram  )  [virtual, inherited]

Removes the diagram from the plane, without deleting it.

The plane no longer owns the diagram, so it is the caller's responsibility to delete the diagram.

See also:
addDiagram, replaceDiagram

Definition at line 111 of file KDChartAbstractCoordinatePlane.cpp.

References d, KDChart::AbstractCoordinatePlane::layoutDiagrams(), KDChart::AbstractCoordinatePlane::layoutPlanes(), KDChart::AbstractCoordinatePlane::relayout(), KDChart::AbstractDiagram::setCoordinatePlane(), and KDChart::AbstractCoordinatePlane::update().

Referenced by KDChart::AbstractCoordinatePlane::replaceDiagram().

int AbstractArea::topOverlap ( bool  doNotRecalculate = false  )  const [virtual, inherited]

This is called at layout time by KDChart::AutoSpacerLayoutItem::sizeHint().

The method triggers AbstractArea::sizeHint() to find out the amount of overlap at the top edge of the area.

Note:
The default implementation is not using any caching, it might make sense to implement a more sophisticated solution for derived classes that have complex work to do in sizeHint(). All we have here is a primitive flag to be set by the caller if it is sure that no sizeHint() needs to be called.

Definition at line 90 of file KDChartAbstractArea.cpp.

References d.

Referenced by KDChart::AutoSpacerLayoutItem::sizeHint().

const QPointF CartesianCoordinatePlane::translate ( const QPointF &  diagramPoint  )  const [virtual, inherited]

Translate the given point in value space coordinates to a position in pixel space.

Parameters:
diagramPoint The point in value coordinates.
Returns:
The translated point.

Implements KDChart::AbstractCoordinatePlane.

Definition at line 519 of file KDChartCartesianCoordinatePlane.cpp.

References d.

Referenced by KDChart::LeveyJenningsAxis::paintAsOrdinate(), and KDChart::CartesianCoordinatePlane::sharedAxisMasterPlane().

const QPointF LeveyJenningsCoordinatePlane::translateBack ( const QPointF &  screenPoint  )  const [protected]

Reimplemented from KDChart::CartesianCoordinatePlane.

Definition at line 81 of file KDChartLeveyJenningsCoordinatePlane.cpp.

void KDChart::AbstractCoordinatePlane::update (  )  [slot, inherited]
QPair< qreal, qreal > CartesianCoordinatePlane::verticalRange (  )  const [inherited]
Returns:
The largest and smallest visible horizontal value space value. If this is not explicitly set, or if both values are the same, the plane will use the union of the dataBoundaries of all associated diagrams.
See also:
KDChart::AbstractDiagram::dataBoundaries

Definition at line 689 of file KDChartCartesianCoordinatePlane.cpp.

References d.

QRectF CartesianCoordinatePlane::visibleDataRange (  )  const [inherited]

Returns the currently visible data range.

Might be greater than the range of the grid.

Definition at line 903 of file KDChartCartesianCoordinatePlane.cpp.

References KDChart::CartesianCoordinatePlane::drawingArea(), and KDChart::CartesianCoordinatePlane::translateBack().

QRectF CartesianCoordinatePlane::visibleDiagramArea (  )  const [inherited]

Returns the visible part of the diagram area, i.e.

 diagramArea().intersected( drawingArea() ) 
See also:
diagramArea

Definition at line 376 of file KDChartCartesianCoordinatePlane.cpp.

References KDChart::CartesianCoordinatePlane::diagramArea(), and KDChart::CartesianCoordinatePlane::drawingArea().

Referenced by KDChart::Measure::sizeOfArea().

bool CartesianCoordinatePlane::xAxisStartAtZero (  )  const [inherited]

Definition at line 477 of file KDChartCartesianCoordinatePlane.cpp.

References d.

QPointF CartesianCoordinatePlane::zoomCenter (  )  const [virtual, inherited]
double CartesianCoordinatePlane::zoomFactorX (  )  const [virtual, inherited]
double CartesianCoordinatePlane::zoomFactorY (  )  const [virtual, inherited]

Member Data Documentation

QLayout* KDChart::AbstractLayoutItem::mParentLayout [protected, inherited]

Definition at line 91 of file KDChartLayoutItems.h.

Referenced by KDChart::AutoSpacerLayoutItem::paint().


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