qt_demoe/qwtdemo/qwt/qwt_plot.cpp

1177 lines
30 KiB
C++

/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
* Qwt Widget Library
* Copyright (C) 1997 Josef Wilgen
* Copyright (C) 2002 Uwe Rathmann
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the Qwt License, Version 1.0
*****************************************************************************/
#include "qwt_plot.h"
#include "qwt_plot_dict.h"
#include "qwt_plot_layout.h"
#include "qwt_scale_widget.h"
#include "qwt_scale_engine.h"
#include "qwt_text_label.h"
#include "qwt_legend.h"
#include "qwt_legend_data.h"
#include "qwt_plot_canvas.h"
#include <qmath.h>
#include <qpainter.h>
#include <qpointer.h>
#include <qpaintengine.h>
#include <qapplication.h>
#include <qevent.h>
static inline void qwtEnableLegendItems( QwtPlot *plot, bool on )
{
if ( on )
{
QObject::connect(
plot, SIGNAL( legendDataChanged(
const QVariant &, const QList<QwtLegendData> & ) ),
plot, SLOT( updateLegendItems(
const QVariant &, const QList<QwtLegendData> & ) ) );
}
else
{
QObject::disconnect(
plot, SIGNAL( legendDataChanged(
const QVariant &, const QList<QwtLegendData> & ) ),
plot, SLOT( updateLegendItems(
const QVariant &, const QList<QwtLegendData> & ) ) );
}
}
static void qwtSetTabOrder(
QWidget *first, QWidget *second, bool withChildren )
{
QList<QWidget *> tabChain;
tabChain += first;
tabChain += second;
if ( withChildren )
{
QList<QWidget *> children = second->findChildren<QWidget *>();
QWidget *w = second->nextInFocusChain();
while ( children.contains( w ) )
{
children.removeAll( w );
tabChain += w;
w = w->nextInFocusChain();
}
}
for ( int i = 0; i < tabChain.size() - 1; i++ )
{
QWidget *from = tabChain[i];
QWidget *to = tabChain[i+1];
const Qt::FocusPolicy policy1 = from->focusPolicy();
const Qt::FocusPolicy policy2 = to->focusPolicy();
QWidget *proxy1 = from->focusProxy();
QWidget *proxy2 = to->focusProxy();
from->setFocusPolicy( Qt::TabFocus );
from->setFocusProxy( NULL);
to->setFocusPolicy( Qt::TabFocus );
to->setFocusProxy( NULL);
QWidget::setTabOrder( from, to );
from->setFocusPolicy( policy1 );
from->setFocusProxy( proxy1);
to->setFocusPolicy( policy2 );
to->setFocusProxy( proxy2 );
}
}
class QwtPlot::PrivateData
{
public:
QPointer<QwtTextLabel> titleLabel;
QPointer<QwtTextLabel> footerLabel;
QPointer<QWidget> canvas;
QPointer<QwtAbstractLegend> legend;
QwtPlotLayout *layout;
bool autoReplot;
};
/*!
\brief Constructor
\param parent Parent widget
*/
QwtPlot::QwtPlot( QWidget *parent ):
QFrame( parent )
{
initPlot( QwtText() );
}
/*!
\brief Constructor
\param title Title text
\param parent Parent widget
*/
QwtPlot::QwtPlot( const QwtText &title, QWidget *parent ):
QFrame( parent )
{
initPlot( title );
}
//! Destructor
QwtPlot::~QwtPlot()
{
setAutoReplot( false );
detachItems( QwtPlotItem::Rtti_PlotItem, autoDelete() );
delete d_data->layout;
deleteAxesData();
delete d_data;
}
/*!
\brief Initializes a QwtPlot instance
\param title Title text
*/
void QwtPlot::initPlot( const QwtText &title )
{
d_data = new PrivateData;
d_data->layout = new QwtPlotLayout;
d_data->autoReplot = false;
// title
d_data->titleLabel = new QwtTextLabel( this );
d_data->titleLabel->setObjectName( "QwtPlotTitle" );
d_data->titleLabel->setFont( QFont( fontInfo().family(), 14, QFont::Bold ) );
QwtText text( title );
text.setRenderFlags( Qt::AlignCenter | Qt::TextWordWrap );
d_data->titleLabel->setText( text );
// footer
d_data->footerLabel = new QwtTextLabel( this );
d_data->footerLabel->setObjectName( "QwtPlotFooter" );
QwtText footer;
footer.setRenderFlags( Qt::AlignCenter | Qt::TextWordWrap );
d_data->footerLabel->setText( footer );
// legend
d_data->legend = NULL;
// axis
initAxesData();
// canvas
d_data->canvas = new QwtPlotCanvas( this );
d_data->canvas->setObjectName( "QwtPlotCanvas" );
d_data->canvas->installEventFilter( this );
setSizePolicy( QSizePolicy::MinimumExpanding,
QSizePolicy::MinimumExpanding );
resize( 200, 200 );
QList<QWidget *> focusChain;
focusChain << this << d_data->titleLabel << axisWidget( xTop )
<< axisWidget( yLeft ) << d_data->canvas << axisWidget( yRight )
<< axisWidget( xBottom ) << d_data->footerLabel;
for ( int i = 0; i < focusChain.size() - 1; i++ )
qwtSetTabOrder( focusChain[i], focusChain[i+1], false );
qwtEnableLegendItems( this, true );
}
/*!
\brief Set the drawing canvas of the plot widget
QwtPlot invokes methods of the canvas as meta methods ( see QMetaObject ).
In opposite to using conventional C++ techniques like virtual methods
they allow to use canvas implementations that are derived from
QWidget or QGLWidget.
The following meta methods could be implemented:
- replot()
When the canvas doesn't offer a replot method, QwtPlot calls
update() instead.
- borderPath()
The border path is necessary to clip the content of the canvas
When the canvas doesn't have any special border ( f.e rounded corners )
it is o.k. not to implement this method.
The default canvas is a QwtPlotCanvas
\param canvas Canvas Widget
\sa canvas()
*/
void QwtPlot::setCanvas( QWidget *canvas )
{
if ( canvas == d_data->canvas )
return;
delete d_data->canvas;
d_data->canvas = canvas;
if ( canvas )
{
canvas->setParent( this );
canvas->installEventFilter( this );
if ( isVisible() )
canvas->show();
}
}
/*!
\brief Adds handling of layout requests
\param event Event
\return See QFrame::event()
*/
bool QwtPlot::event( QEvent *event )
{
bool ok = QFrame::event( event );
switch ( event->type() )
{
case QEvent::LayoutRequest:
updateLayout();
break;
case QEvent::PolishRequest:
replot();
break;
default:;
}
return ok;
}
/*!
\brief Event filter
The plot handles the following events for the canvas:
- QEvent::Resize
The canvas margins might depend on its size
- QEvent::ContentsRectChange
The layout needs to be recalculated
\param object Object to be filtered
\param event Event
\return See QFrame::eventFilter()
\sa updateCanvasMargins(), updateLayout()
*/
bool QwtPlot::eventFilter( QObject *object, QEvent *event )
{
if ( object == d_data->canvas )
{
if ( event->type() == QEvent::Resize )
{
updateCanvasMargins();
}
else if ( event->type() == QEvent::ContentsRectChange )
{
updateLayout();
}
}
return QFrame::eventFilter( object, event );
}
//! Replots the plot if autoReplot() is \c true.
void QwtPlot::autoRefresh()
{
if ( d_data->autoReplot )
replot();
}
/*!
\brief Set or reset the autoReplot option
If the autoReplot option is set, the plot will be
updated implicitly by manipulating member functions.
Since this may be time-consuming, it is recommended
to leave this option switched off and call replot()
explicitly if necessary.
The autoReplot option is set to false by default, which
means that the user has to call replot() in order to make
changes visible.
\param tf \c true or \c false. Defaults to \c true.
\sa replot()
*/
void QwtPlot::setAutoReplot( bool tf )
{
d_data->autoReplot = tf;
}
/*!
\return true if the autoReplot option is set.
\sa setAutoReplot()
*/
bool QwtPlot::autoReplot() const
{
return d_data->autoReplot;
}
/*!
Change the plot's title
\param title New title
*/
void QwtPlot::setTitle( const QString &title )
{
if ( title != d_data->titleLabel->text().text() )
{
d_data->titleLabel->setText( title );
updateLayout();
}
}
/*!
Change the plot's title
\param title New title
*/
void QwtPlot::setTitle( const QwtText &title )
{
if ( title != d_data->titleLabel->text() )
{
d_data->titleLabel->setText( title );
updateLayout();
}
}
//! \return Title of the plot
QwtText QwtPlot::title() const
{
return d_data->titleLabel->text();
}
//! \return Title label widget.
QwtTextLabel *QwtPlot::titleLabel()
{
return d_data->titleLabel;
}
//! \return Title label widget.
const QwtTextLabel *QwtPlot::titleLabel() const
{
return d_data->titleLabel;
}
/*!
Change the text the footer
\param text New text of the footer
*/
void QwtPlot::setFooter( const QString &text )
{
if ( text != d_data->footerLabel->text().text() )
{
d_data->footerLabel->setText( text );
updateLayout();
}
}
/*!
Change the text the footer
\param text New text of the footer
*/
void QwtPlot::setFooter( const QwtText &text )
{
if ( text != d_data->footerLabel->text() )
{
d_data->footerLabel->setText( text );
updateLayout();
}
}
//! \return Text of the footer
QwtText QwtPlot::footer() const
{
return d_data->footerLabel->text();
}
//! \return Footer label widget.
QwtTextLabel *QwtPlot::footerLabel()
{
return d_data->footerLabel;
}
//! \return Footer label widget.
const QwtTextLabel *QwtPlot::footerLabel() const
{
return d_data->footerLabel;
}
/*!
\brief Assign a new plot layout
\param layout Layout()
\sa plotLayout()
*/
void QwtPlot::setPlotLayout( QwtPlotLayout *layout )
{
if ( layout != d_data->layout )
{
delete d_data->layout;
d_data->layout = layout;
updateLayout();
}
}
//! \return the plot's layout
QwtPlotLayout *QwtPlot::plotLayout()
{
return d_data->layout;
}
//! \return the plot's layout
const QwtPlotLayout *QwtPlot::plotLayout() const
{
return d_data->layout;
}
/*!
\return the plot's legend
\sa insertLegend()
*/
QwtAbstractLegend *QwtPlot::legend()
{
return d_data->legend;
}
/*!
\return the plot's legend
\sa insertLegend()
*/
const QwtAbstractLegend *QwtPlot::legend() const
{
return d_data->legend;
}
/*!
\return the plot's canvas
*/
QWidget *QwtPlot::canvas()
{
return d_data->canvas;
}
/*!
\return the plot's canvas
*/
const QWidget *QwtPlot::canvas() const
{
return d_data->canvas;
}
/*!
\return Size hint for the plot widget
\sa minimumSizeHint()
*/
QSize QwtPlot::sizeHint() const
{
int dw = 0;
int dh = 0;
for ( int axisId = 0; axisId < axisCnt; axisId++ )
{
if ( axisEnabled( axisId ) )
{
const int niceDist = 40;
const QwtScaleWidget *scaleWidget = axisWidget( axisId );
const QwtScaleDiv &scaleDiv = scaleWidget->scaleDraw()->scaleDiv();
const int majCnt = scaleDiv.ticks( QwtScaleDiv::MajorTick ).count();
if ( axisId == yLeft || axisId == yRight )
{
int hDiff = ( majCnt - 1 ) * niceDist
- scaleWidget->minimumSizeHint().height();
if ( hDiff > dh )
dh = hDiff;
}
else
{
int wDiff = ( majCnt - 1 ) * niceDist
- scaleWidget->minimumSizeHint().width();
if ( wDiff > dw )
dw = wDiff;
}
}
}
return minimumSizeHint() + QSize( dw, dh );
}
/*!
\brief Return a minimum size hint
*/
QSize QwtPlot::minimumSizeHint() const
{
QSize hint = d_data->layout->minimumSizeHint( this );
hint += QSize( 2 * frameWidth(), 2 * frameWidth() );
return hint;
}
/*!
Resize and update internal layout
\param e Resize event
*/
void QwtPlot::resizeEvent( QResizeEvent *e )
{
QFrame::resizeEvent( e );
updateLayout();
}
/*!
\brief Redraw the plot
If the autoReplot option is not set (which is the default)
or if any curves are attached to raw data, the plot has to
be refreshed explicitly in order to make changes visible.
\sa updateAxes(), setAutoReplot()
*/
void QwtPlot::replot()
{
bool doAutoReplot = autoReplot();
setAutoReplot( false );
updateAxes();
/*
Maybe the layout needs to be updated, because of changed
axes labels. We need to process them here before painting
to avoid that scales and canvas get out of sync.
*/
QApplication::sendPostedEvents( this, QEvent::LayoutRequest );
if ( d_data->canvas )
{
const bool ok = QMetaObject::invokeMethod(
d_data->canvas, "replot", Qt::DirectConnection );
if ( !ok )
{
// fallback, when canvas has no a replot method
d_data->canvas->update( d_data->canvas->contentsRect() );
}
}
setAutoReplot( doAutoReplot );
}
/*!
\brief Adjust plot content to its current size.
\sa resizeEvent()
*/
void QwtPlot::updateLayout()
{
d_data->layout->activate( this, contentsRect() );
QRect titleRect = d_data->layout->titleRect().toRect();
QRect footerRect = d_data->layout->footerRect().toRect();
QRect scaleRect[QwtPlot::axisCnt];
for ( int axisId = 0; axisId < axisCnt; axisId++ )
scaleRect[axisId] = d_data->layout->scaleRect( axisId ).toRect();
QRect legendRect = d_data->layout->legendRect().toRect();
QRect canvasRect = d_data->layout->canvasRect().toRect();
// resize and show the visible widgets
if ( !d_data->titleLabel->text().isEmpty() )
{
d_data->titleLabel->setGeometry( titleRect );
if ( !d_data->titleLabel->isVisibleTo( this ) )
d_data->titleLabel->show();
}
else
d_data->titleLabel->hide();
if ( !d_data->footerLabel->text().isEmpty() )
{
d_data->footerLabel->setGeometry( footerRect );
if ( !d_data->footerLabel->isVisibleTo( this ) )
d_data->footerLabel->show();
}
else
d_data->footerLabel->hide();
for ( int axisId = 0; axisId < axisCnt; axisId++ )
{
if ( axisEnabled( axisId ) )
{
axisWidget( axisId )->setGeometry( scaleRect[axisId] );
#if 1
if ( axisId == xBottom || axisId == xTop )
{
// do we need this code any longer ???
QRegion r( scaleRect[axisId] );
if ( axisEnabled( yLeft ) )
r = r.subtracted( QRegion( scaleRect[yLeft] ) );
if ( axisEnabled( yRight ) )
r = r.subtracted( QRegion( scaleRect[yRight] ) );
r.translate( -scaleRect[ axisId ].x(),
-scaleRect[axisId].y() );
axisWidget( axisId )->setMask( r );
}
#endif
if ( !axisWidget( axisId )->isVisibleTo( this ) )
axisWidget( axisId )->show();
}
else
axisWidget( axisId )->hide();
}
if ( d_data->legend )
{
if ( d_data->legend->isEmpty() )
{
d_data->legend->hide();
}
else
{
d_data->legend->setGeometry( legendRect );
d_data->legend->show();
}
}
d_data->canvas->setGeometry( canvasRect );
}
/*!
\brief Calculate the canvas margins
\param maps QwtPlot::axisCnt maps, mapping between plot and paint device coordinates
\param canvasRect Bounding rectangle where to paint
\param left Return parameter for the left margin
\param top Return parameter for the top margin
\param right Return parameter for the right margin
\param bottom Return parameter for the bottom margin
Plot items might indicate, that they need some extra space
at the borders of the canvas by the QwtPlotItem::Margins flag.
updateCanvasMargins(), QwtPlotItem::getCanvasMarginHint()
*/
void QwtPlot::getCanvasMarginsHint(
const QwtScaleMap maps[], const QRectF &canvasRect,
double &left, double &top, double &right, double &bottom) const
{
left = top = right = bottom = -1.0;
const QwtPlotItemList& itmList = itemList();
for ( QwtPlotItemIterator it = itmList.begin();
it != itmList.end(); ++it )
{
const QwtPlotItem *item = *it;
if ( item->testItemAttribute( QwtPlotItem::Margins ) )
{
double m[ QwtPlot::axisCnt ];
item->getCanvasMarginHint(
maps[ item->xAxis() ], maps[ item->yAxis() ],
canvasRect, m[yLeft], m[xTop], m[yRight], m[xBottom] );
left = qMax( left, m[yLeft] );
top = qMax( top, m[xTop] );
right = qMax( right, m[yRight] );
bottom = qMax( bottom, m[xBottom] );
}
}
}
/*!
\brief Update the canvas margins
Plot items might indicate, that they need some extra space
at the borders of the canvas by the QwtPlotItem::Margins flag.
getCanvasMarginsHint(), QwtPlotItem::getCanvasMarginHint()
*/
void QwtPlot::updateCanvasMargins()
{
QwtScaleMap maps[axisCnt];
for ( int axisId = 0; axisId < axisCnt; axisId++ )
maps[axisId] = canvasMap( axisId );
double margins[axisCnt];
getCanvasMarginsHint( maps, canvas()->contentsRect(),
margins[yLeft], margins[xTop], margins[yRight], margins[xBottom] );
bool doUpdate = false;
for ( int axisId = 0; axisId < axisCnt; axisId++ )
{
if ( margins[axisId] >= 0.0 )
{
const int m = qCeil( margins[axisId] );
plotLayout()->setCanvasMargin( m, axisId);
doUpdate = true;
}
}
if ( doUpdate )
updateLayout();
}
/*!
Redraw the canvas.
\param painter Painter used for drawing
\warning drawCanvas calls drawItems what is also used
for printing. Applications that like to add individual
plot items better overload drawItems()
\sa drawItems()
*/
void QwtPlot::drawCanvas( QPainter *painter )
{
QwtScaleMap maps[axisCnt];
for ( int axisId = 0; axisId < axisCnt; axisId++ )
maps[axisId] = canvasMap( axisId );
drawItems( painter, d_data->canvas->contentsRect(), maps );
}
/*!
Redraw the canvas items.
\param painter Painter used for drawing
\param canvasRect Bounding rectangle where to paint
\param maps QwtPlot::axisCnt maps, mapping between plot and paint device coordinates
\note Usually canvasRect is contentsRect() of the plot canvas.
Due to a bug in Qt this rectangle might be wrong for certain
frame styles ( f.e QFrame::Box ) and it might be necessary to
fix the margins manually using QWidget::setContentsMargins()
*/
void QwtPlot::drawItems( QPainter *painter, const QRectF &canvasRect,
const QwtScaleMap maps[axisCnt] ) const
{
const QwtPlotItemList& itmList = itemList();
for ( QwtPlotItemIterator it = itmList.begin();
it != itmList.end(); ++it )
{
QwtPlotItem *item = *it;
if ( item && item->isVisible() )
{
painter->save();
painter->setRenderHint( QPainter::Antialiasing,
item->testRenderHint( QwtPlotItem::RenderAntialiased ) );
painter->setRenderHint( QPainter::HighQualityAntialiasing,
item->testRenderHint( QwtPlotItem::RenderAntialiased ) );
item->draw( painter,
maps[item->xAxis()], maps[item->yAxis()],
canvasRect );
painter->restore();
}
}
}
/*!
\param axisId Axis
\return Map for the axis on the canvas. With this map pixel coordinates can
translated to plot coordinates and vice versa.
\sa QwtScaleMap, transform(), invTransform()
*/
QwtScaleMap QwtPlot::canvasMap( int axisId ) const
{
QwtScaleMap map;
if ( !d_data->canvas )
return map;
map.setTransformation( axisScaleEngine( axisId )->transformation() );
const QwtScaleDiv &sd = axisScaleDiv( axisId );
map.setScaleInterval( sd.lowerBound(), sd.upperBound() );
if ( axisEnabled( axisId ) )
{
const QwtScaleWidget *s = axisWidget( axisId );
if ( axisId == yLeft || axisId == yRight )
{
double y = s->y() + s->startBorderDist() - d_data->canvas->y();
double h = s->height() - s->startBorderDist() - s->endBorderDist();
map.setPaintInterval( y + h, y );
}
else
{
double x = s->x() + s->startBorderDist() - d_data->canvas->x();
double w = s->width() - s->startBorderDist() - s->endBorderDist();
map.setPaintInterval( x, x + w );
}
}
else
{
const QRect &canvasRect = d_data->canvas->contentsRect();
if ( axisId == yLeft || axisId == yRight )
{
int top = 0;
if ( !plotLayout()->alignCanvasToScale( xTop ) )
top = plotLayout()->canvasMargin( xTop );
int bottom = 0;
if ( !plotLayout()->alignCanvasToScale( xBottom ) )
bottom = plotLayout()->canvasMargin( xBottom );
map.setPaintInterval( canvasRect.bottom() - bottom,
canvasRect.top() + top );
}
else
{
int left = 0;
if ( !plotLayout()->alignCanvasToScale( yLeft ) )
left = plotLayout()->canvasMargin( yLeft );
int right = 0;
if ( !plotLayout()->alignCanvasToScale( yRight ) )
right = plotLayout()->canvasMargin( yRight );
map.setPaintInterval( canvasRect.left() + left,
canvasRect.right() - right );
}
}
return map;
}
/*!
\brief Change the background of the plotting area
Sets brush to QPalette::Window of all color groups of
the palette of the canvas. Using canvas()->setPalette()
is a more powerful way to set these colors.
\param brush New background brush
\sa canvasBackground()
*/
void QwtPlot::setCanvasBackground( const QBrush &brush )
{
QPalette pal = d_data->canvas->palette();
pal.setBrush( QPalette::Window, brush );
canvas()->setPalette( pal );
}
/*!
Nothing else than: canvas()->palette().brush(
QPalette::Normal, QPalette::Window);
\return Background brush of the plotting area.
\sa setCanvasBackground()
*/
QBrush QwtPlot::canvasBackground() const
{
return canvas()->palette().brush(
QPalette::Normal, QPalette::Window );
}
/*!
\return \c true if the specified axis exists, otherwise \c false
\param axisId axis index
*/
bool QwtPlot::axisValid( int axisId )
{
return ( ( axisId >= QwtPlot::yLeft ) && ( axisId < QwtPlot::axisCnt ) );
}
/*!
\brief Insert a legend
If the position legend is \c QwtPlot::LeftLegend or \c QwtPlot::RightLegend
the legend will be organized in one column from top to down.
Otherwise the legend items will be placed in a table
with a best fit number of columns from left to right.
insertLegend() will set the plot widget as parent for the legend.
The legend will be deleted in the destructor of the plot or when
another legend is inserted.
Legends, that are not inserted into the layout of the plot widget
need to connect to the legendDataChanged() signal. Calling updateLegend()
initiates this signal for an initial update. When the application code
wants to implement its own layout this also needs to be done for
rendering plots to a document ( see QwtPlotRenderer ).
\param legend Legend
\param pos The legend's position. For top/left position the number
of columns will be limited to 1, otherwise it will be set to
unlimited.
\param ratio Ratio between legend and the bounding rectangle
of title, canvas and axes. The legend will be shrunk
if it would need more space than the given ratio.
The ratio is limited to ]0.0 .. 1.0]. In case of <= 0.0
it will be reset to the default ratio.
The default vertical/horizontal ratio is 0.33/0.5.
\sa legend(), QwtPlotLayout::legendPosition(),
QwtPlotLayout::setLegendPosition()
*/
void QwtPlot::insertLegend( QwtAbstractLegend *legend,
QwtPlot::LegendPosition pos, double ratio )
{
d_data->layout->setLegendPosition( pos, ratio );
if ( legend != d_data->legend )
{
if ( d_data->legend && d_data->legend->parent() == this )
delete d_data->legend;
d_data->legend = legend;
if ( d_data->legend )
{
connect( this,
SIGNAL( legendDataChanged(
const QVariant &, const QList<QwtLegendData> & ) ),
d_data->legend,
SLOT( updateLegend(
const QVariant &, const QList<QwtLegendData> & ) )
);
if ( d_data->legend->parent() != this )
d_data->legend->setParent( this );
qwtEnableLegendItems( this, false );
updateLegend();
qwtEnableLegendItems( this, true );
QwtLegend *lgd = qobject_cast<QwtLegend *>( legend );
if ( lgd )
{
switch ( d_data->layout->legendPosition() )
{
case LeftLegend:
case RightLegend:
{
if ( lgd->maxColumns() == 0 )
lgd->setMaxColumns( 1 ); // 1 column: align vertical
break;
}
case TopLegend:
case BottomLegend:
{
lgd->setMaxColumns( 0 ); // unlimited
break;
}
default:
break;
}
}
QWidget *previousInChain = NULL;
switch ( d_data->layout->legendPosition() )
{
case LeftLegend:
{
previousInChain = axisWidget( QwtPlot::xTop );
break;
}
case TopLegend:
{
previousInChain = this;
break;
}
case RightLegend:
{
previousInChain = axisWidget( QwtPlot::yRight );
break;
}
case BottomLegend:
{
previousInChain = footerLabel();
break;
}
}
if ( previousInChain )
qwtSetTabOrder( previousInChain, legend, true );
}
}
updateLayout();
}
/*!
Emit legendDataChanged() for all plot item
\sa QwtPlotItem::legendData(), legendDataChanged()
*/
void QwtPlot::updateLegend()
{
const QwtPlotItemList& itmList = itemList();
for ( QwtPlotItemIterator it = itmList.begin();
it != itmList.end(); ++it )
{
updateLegend( *it );
}
}
/*!
Emit legendDataChanged() for a plot item
\param plotItem Plot item
\sa QwtPlotItem::legendData(), legendDataChanged()
*/
void QwtPlot::updateLegend( const QwtPlotItem *plotItem )
{
if ( plotItem == NULL )
return;
QList<QwtLegendData> legendData;
if ( plotItem->testItemAttribute( QwtPlotItem::Legend ) )
legendData = plotItem->legendData();
const QVariant itemInfo = itemToInfo( const_cast< QwtPlotItem *>( plotItem) );
Q_EMIT legendDataChanged( itemInfo, legendData );
}
/*!
\brief Update all plot items interested in legend attributes
Call QwtPlotItem::updateLegend(), when the QwtPlotItem::LegendInterest
flag is set.
\param itemInfo Info about the plot item
\param legendData Entries to be displayed for the plot item ( usually 1 )
\sa QwtPlotItem::LegendInterest,
QwtPlotLegendItem, QwtPlotItem::updateLegend()
*/
void QwtPlot::updateLegendItems( const QVariant &itemInfo,
const QList<QwtLegendData> &legendData )
{
QwtPlotItem *plotItem = infoToItem( itemInfo );
if ( plotItem )
{
const QwtPlotItemList& itmList = itemList();
for ( QwtPlotItemIterator it = itmList.begin();
it != itmList.end(); ++it )
{
QwtPlotItem *item = *it;
if ( item->testItemInterest( QwtPlotItem::LegendInterest ) )
item->updateLegend( plotItem, legendData );
}
}
}
/*!
\brief Attach/Detach a plot item
\param plotItem Plot item
\param on When true attach the item, otherwise detach it
*/
void QwtPlot::attachItem( QwtPlotItem *plotItem, bool on )
{
if ( plotItem->testItemInterest( QwtPlotItem::LegendInterest ) )
{
// plotItem is some sort of legend
const QwtPlotItemList& itmList = itemList();
for ( QwtPlotItemIterator it = itmList.begin();
it != itmList.end(); ++it )
{
QwtPlotItem *item = *it;
QList<QwtLegendData> legendData;
if ( on && item->testItemAttribute( QwtPlotItem::Legend ) )
{
legendData = item->legendData();
plotItem->updateLegend( item, legendData );
}
}
}
if ( on )
insertItem( plotItem );
else
removeItem( plotItem );
Q_EMIT itemAttached( plotItem, on );
if ( plotItem->testItemAttribute( QwtPlotItem::Legend ) )
{
// the item wants to be represented on the legend
if ( on )
{
updateLegend( plotItem );
}
else
{
const QVariant itemInfo = itemToInfo( plotItem );
Q_EMIT legendDataChanged( itemInfo, QList<QwtLegendData>() );
}
}
autoRefresh();
}
/*!
\brief Build an information, that can be used to identify
a plot item on the legend.
The default implementation simply wraps the plot item
into a QVariant object. When overloading itemToInfo()
usually infoToItem() needs to reimplemeted too.
\code
QVariant itemInfo;
qVariantSetValue( itemInfo, plotItem );
\endcode
\param plotItem Plot item
\return Plot item embedded in a QVariant
\sa infoToItem()
*/
QVariant QwtPlot::itemToInfo( QwtPlotItem *plotItem ) const
{
QVariant itemInfo;
qVariantSetValue( itemInfo, plotItem );
return itemInfo;
}
/*!
\brief Identify the plot item according to an item info object,
that has bee generated from itemToInfo().
The default implementation simply tries to unwrap a QwtPlotItem
pointer:
\code
if ( itemInfo.canConvert<QwtPlotItem *>() )
return qvariant_cast<QwtPlotItem *>( itemInfo );
\endcode
\param itemInfo Plot item
\return A plot item, when successful, otherwise a NULL pointer.
\sa itemToInfo()
*/
QwtPlotItem *QwtPlot::infoToItem( const QVariant &itemInfo ) const
{
if ( itemInfo.canConvert<QwtPlotItem *>() )
return qvariant_cast<QwtPlotItem *>( itemInfo );
return NULL;
}