/* -*- 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_painter.h"
#include "qwt_math.h"
#include "qwt_clipper.h"
#include "qwt_color_map.h"
#include "qwt_scale_map.h"
#include <qwindowdefs.h>
#include <qwidget.h>
#include <qframe.h>
#include <qrect.h>
#include <qpainter.h>
#include <qpalette.h>
#include <qpaintdevice.h>
#include <qpixmap.h>
#include <qstyle.h>
#include <qtextdocument.h>
#include <qabstracttextdocumentlayout.h>
#include <qstyleoption.h>
#include <qpaintengine.h>
#include <qapplication.h>
#include <qdesktopwidget.h>
bool QwtPainter::d_polylineSplitting = true;
bool QwtPainter::d_roundingAlignment = true;
static inline bool isClippingNeeded( const QPainter *painter, QRectF &clipRect )
{
bool doClipping = false;
const QPaintEngine *pe = painter->paintEngine();
if ( pe && pe->type() == QPaintEngine::SVG )
{
// The SVG paint engine ignores any clipping,
if ( painter->hasClipping() )
{
doClipping = true;
clipRect = painter->clipRegion().boundingRect();
}
}
return doClipping;
}
static inline void drawPolyline( QPainter *painter,
const QPointF *points, int pointCount, bool polylineSplitting )
{
bool doSplit = false;
if ( polylineSplitting )
{
const QPaintEngine *pe = painter->paintEngine();
if ( pe && pe->type() == QPaintEngine::Raster )
{
/*
The raster paint engine seems to use some algo with O(n*n).
( Qt 4.3 is better than Qt 4.2, but remains unacceptable)
To work around this problem, we have to split the polygon into
smaller pieces.
*/
doSplit = true;
}
}
if ( doSplit )
{
const int splitSize = 20;
for ( int i = 0; i < pointCount; i += splitSize )
{
const int n = qMin( splitSize + 1, pointCount - i );
painter->drawPolyline( points + i, n );
}
}
else
painter->drawPolyline( points, pointCount );
}
static inline void unscaleFont( QPainter *painter )
{
if ( painter->font().pixelSize() >= 0 )
return;
static QSize screenResolution;
if ( !screenResolution.isValid() )
{
QDesktopWidget *desktop = QApplication::desktop();
if ( desktop )
{
screenResolution.setWidth( desktop->logicalDpiX() );
screenResolution.setHeight( desktop->logicalDpiY() );
}
}
const QPaintDevice *pd = painter->device();
if ( pd->logicalDpiX() != screenResolution.width() ||
pd->logicalDpiY() != screenResolution.height() )
{
QFont pixelFont( painter->font(), QApplication::desktop() );
pixelFont.setPixelSize( QFontInfo( pixelFont ).pixelSize() );
painter->setFont( pixelFont );
}
}
/*!
Check if the painter is using a paint engine, that aligns
coordinates to integers. Today these are all paint engines
beside QPaintEngine::Pdf and QPaintEngine::SVG.
\param painter Painter
\return true, when the paint engine is aligning
\sa setRoundingAlignment()
*/
bool QwtPainter::isAligning( QPainter *painter )
{
if ( painter && painter->isActive() )
{
switch ( painter->paintEngine()->type() )
{
case QPaintEngine::Pdf:
case QPaintEngine::SVG:
return false;
default:;
}
}
return true;
}
/*!
Enable whether coordinates should be rounded, before they are painted
to a paint engine that floors to integer values. For other paint engines
this ( Pdf, SVG ), this flag has no effect.
QwtPainter stores this flag only, the rounding itsself is done in
the painting code ( f.e the plot items ).
The default setting is true.
\sa roundingAlignment(), isAligning()
*/
void QwtPainter::setRoundingAlignment( bool enable )
{
d_roundingAlignment = enable;
}
/*!
\brief En/Disable line splitting for the raster paint engine
The raster paint engine paints polylines of many points
much faster when they are splitted in smaller chunks.
\sa polylineSplitting()
*/
void QwtPainter::setPolylineSplitting( bool enable )
{
d_polylineSplitting = enable;
}
//! Wrapper for QPainter::drawPath()
void QwtPainter::drawPath( QPainter *painter, const QPainterPath &path )
{
painter->drawPath( path );
}
//! Wrapper for QPainter::drawRect()
void QwtPainter::drawRect( QPainter *painter, double x, double y, double w, double h )
{
drawRect( painter, QRectF( x, y, w, h ) );
}
//! Wrapper for QPainter::drawRect()
void QwtPainter::drawRect( QPainter *painter, const QRectF &rect )
{
const QRectF r = rect;
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping )
{
if ( !clipRect.intersects( r ) )
return;
if ( !clipRect.contains( r ) )
{
fillRect( painter, r & clipRect, painter->brush() );
painter->save();
painter->setBrush( Qt::NoBrush );
drawPolyline( painter, QPolygonF( r ) );
painter->restore();
return;
}
}
painter->drawRect( r );
}
//! Wrapper for QPainter::fillRect()
void QwtPainter::fillRect( QPainter *painter,
const QRectF &rect, const QBrush &brush )
{
if ( !rect.isValid() )
return;
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
/*
Performance of Qt4 is horrible for non trivial brushs. Without
clipping expect minutes or hours for repainting large rects
(might result from zooming)
*/
if ( deviceClipping )
clipRect &= painter->window();
else
clipRect = painter->window();
if ( painter->hasClipping() )
clipRect &= painter->clipRegion().boundingRect();
QRectF r = rect;
if ( deviceClipping )
r = r.intersect( clipRect );
if ( r.isValid() )
painter->fillRect( r, brush );
}
//! Wrapper for QPainter::drawPie()
void QwtPainter::drawPie( QPainter *painter, const QRectF &rect,
int a, int alen )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping && !clipRect.contains( rect ) )
return;
painter->drawPie( rect, a, alen );
}
//! Wrapper for QPainter::drawEllipse()
void QwtPainter::drawEllipse( QPainter *painter, const QRectF &rect )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping && !clipRect.contains( rect ) )
return;
painter->drawEllipse( rect );
}
//! Wrapper for QPainter::drawText()
void QwtPainter::drawText( QPainter *painter, double x, double y,
const QString &text )
{
drawText( painter, QPointF( x, y ), text );
}
//! Wrapper for QPainter::drawText()
void QwtPainter::drawText( QPainter *painter, const QPointF &pos,
const QString &text )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping && !clipRect.contains( pos ) )
return;
painter->save();
unscaleFont( painter );
painter->drawText( pos, text );
painter->restore();
}
//! Wrapper for QPainter::drawText()
void QwtPainter::drawText( QPainter *painter,
double x, double y, double w, double h,
int flags, const QString &text )
{
drawText( painter, QRectF( x, y, w, h ), flags, text );
}
//! Wrapper for QPainter::drawText()
void QwtPainter::drawText( QPainter *painter, const QRectF &rect,
int flags, const QString &text )
{
painter->save();
unscaleFont( painter );
painter->drawText( rect, flags, text );
painter->restore();
}
#ifndef QT_NO_RICHTEXT
/*!
Draw a text document into a rectangle
\param painter Painter
\param rect Traget rectangle
\param flags Alignments/Text flags, see QPainter::drawText()
\param text Text document
*/
void QwtPainter::drawSimpleRichText( QPainter *painter, const QRectF &rect,
int flags, const QTextDocument &text )
{
QTextDocument *txt = text.clone();
painter->save();
painter->setFont( txt->defaultFont() );
unscaleFont( painter );
txt->setDefaultFont( painter->font() );
txt->setPageSize( QSizeF( rect.width(), QWIDGETSIZE_MAX ) );
QAbstractTextDocumentLayout* layout = txt->documentLayout();
const double height = layout->documentSize().height();
double y = rect.y();
if ( flags & Qt::AlignBottom )
y += ( rect.height() - height );
else if ( flags & Qt::AlignVCenter )
y += ( rect.height() - height ) / 2;
QAbstractTextDocumentLayout::PaintContext context;
context.palette.setColor( QPalette::Text, painter->pen().color() );
painter->translate( rect.x(), y );
layout->draw( painter, context );
painter->restore();
delete txt;
}
#endif // !QT_NO_RICHTEXT
//! Wrapper for QPainter::drawLine()
void QwtPainter::drawLine( QPainter *painter,
const QPointF &p1, const QPointF &p2 )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping &&
!( clipRect.contains( p1 ) && clipRect.contains( p2 ) ) )
{
QPolygonF polygon;
polygon += p1;
polygon += p2;
drawPolyline( painter, polygon );
return;
}
painter->drawLine( p1, p2 );
}
//! Wrapper for QPainter::drawPolygon()
void QwtPainter::drawPolygon( QPainter *painter, const QPolygonF &polygon )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
QPolygonF cpa = polygon;
if ( deviceClipping )
cpa = QwtClipper::clipPolygonF( clipRect, polygon );
painter->drawPolygon( cpa );
}
//! Wrapper for QPainter::drawPolyline()
void QwtPainter::drawPolyline( QPainter *painter, const QPolygonF &polygon )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
QPolygonF cpa = polygon;
if ( deviceClipping )
cpa = QwtClipper::clipPolygonF( clipRect, cpa );
::drawPolyline( painter,
cpa.constData(), cpa.size(), d_polylineSplitting );
}
//! Wrapper for QPainter::drawPolyline()
void QwtPainter::drawPolyline( QPainter *painter,
const QPointF *points, int pointCount )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping )
{
QPolygonF polygon( pointCount );
qMemCopy( polygon.data(), points, pointCount * sizeof( QPointF ) );
polygon = QwtClipper::clipPolygonF( clipRect, polygon );
::drawPolyline( painter,
polygon.constData(), polygon.size(), d_polylineSplitting );
}
else
::drawPolyline( painter, points, pointCount, d_polylineSplitting );
}
//! Wrapper for QPainter::drawPoint()
void QwtPainter::drawPoint( QPainter *painter, const QPointF &pos )
{
QRectF clipRect;
const bool deviceClipping = isClippingNeeded( painter, clipRect );
if ( deviceClipping && !clipRect.contains( pos ) )
return;
painter->drawPoint( pos );
}
//! Wrapper for QPainter::drawImage()
void QwtPainter::drawImage( QPainter *painter,
const QRectF &rect, const QImage &image )
{
const QRect alignedRect = rect.toAlignedRect();
if ( alignedRect != rect )
{
const QRectF clipRect = rect.adjusted( 0.0, 0.0, -1.0, -1.0 );
painter->save();
painter->setClipRect( clipRect, Qt::IntersectClip );
painter->drawImage( alignedRect, image );
painter->restore();
}
else
{
painter->drawImage( alignedRect, image );
}
}
//! Wrapper for QPainter::drawPixmap()
void QwtPainter::drawPixmap( QPainter *painter,
const QRectF &rect, const QPixmap &pixmap )
{
const QRect alignedRect = rect.toAlignedRect();
if ( alignedRect != rect )
{
const QRectF clipRect = rect.adjusted( 0.0, 0.0, -1.0, -1.0 );
painter->save();
painter->setClipRect( clipRect, Qt::IntersectClip );
painter->drawPixmap( alignedRect, pixmap );
painter->restore();
}
else
{
painter->drawPixmap( alignedRect, pixmap );
}
}
//! Draw a focus rectangle on a widget using its style.
void QwtPainter::drawFocusRect( QPainter *painter, QWidget *widget )
{
drawFocusRect( painter, widget, widget->rect() );
}
//! Draw a focus rectangle on a widget using its style.
void QwtPainter::drawFocusRect( QPainter *painter, QWidget *widget,
const QRect &rect )
{
QStyleOptionFocusRect opt;
opt.init( widget );
opt.rect = rect;
opt.state |= QStyle::State_HasFocus;
widget->style()->drawPrimitive( QStyle::PE_FrameFocusRect,
&opt, painter, widget );
}
/*!
Draw a frame with rounded borders
\param painter Painter
\param rect Frame rectangle
\param xRadius x-radius of the ellipses defining the corners
\param yRadius y-radius of the ellipses defining the corners
\param palette QPalette::WindowText is used for plain borders
QPalette::Dark and QPalette::Light for raised
or sunken borders
\param lineWidth Line width
\param frameStyle bitwise OR´ed value of QFrame::Shape and QFrame::Shadow
*/
void QwtPainter::drawRoundedFrame( QPainter *painter,
const QRectF &rect, double xRadius, double yRadius,
const QPalette &palette, int lineWidth, int frameStyle )
{
painter->save();
painter->setRenderHint( QPainter::Antialiasing, true );
painter->setBrush( Qt::NoBrush );
double lw2 = lineWidth * 0.5;
QRectF r = rect.adjusted( lw2, lw2, -lw2, -lw2 );
QPainterPath path;
path.addRoundedRect( r, xRadius, yRadius );
enum Style
{
Plain,
Sunken,
Raised
};
Style style = Plain;
if ( (frameStyle & QFrame::Sunken) == QFrame::Sunken )
style = Sunken;
else if ( (frameStyle & QFrame::Raised) == QFrame::Raised )
style = Raised;
if ( style != Plain && path.elementCount() == 17 )
{
// move + 4 * ( cubicTo + lineTo )
QPainterPath pathList[8];
for ( int i = 0; i < 4; i++ )
{
const int j = i * 4 + 1;
pathList[ 2 * i ].moveTo(
path.elementAt(j - 1).x, path.elementAt( j - 1 ).y
);
pathList[ 2 * i ].cubicTo(
path.elementAt(j + 0).x, path.elementAt(j + 0).y,
path.elementAt(j + 1).x, path.elementAt(j + 1).y,
path.elementAt(j + 2).x, path.elementAt(j + 2).y );
pathList[ 2 * i + 1 ].moveTo(
path.elementAt(j + 2).x, path.elementAt(j + 2).y
);
pathList[ 2 * i + 1 ].lineTo(
path.elementAt(j + 3).x, path.elementAt(j + 3).y
);
}
QColor c1( palette.color( QPalette::Dark ) );
QColor c2( palette.color( QPalette::Light ) );
if ( style == Raised )
qSwap( c1, c2 );
for ( int i = 0; i < 4; i++ )
{
QRectF r = pathList[2 * i].controlPointRect();
QPen arcPen;
arcPen.setWidth( lineWidth );
QPen linePen;
linePen.setWidth( lineWidth );
switch( i )
{
case 0:
{
arcPen.setColor( c1 );
linePen.setColor( c1 );
break;
}
case 1:
{
QLinearGradient gradient;
gradient.setStart( r.topLeft() );
gradient.setFinalStop( r.bottomRight() );
gradient.setColorAt( 0.0, c1 );
gradient.setColorAt( 1.0, c2 );
arcPen.setBrush( gradient );
linePen.setColor( c2 );
break;
}
case 2:
{
arcPen.setColor( c2 );
linePen.setColor( c2 );
break;
}
case 3:
{
QLinearGradient gradient;
gradient.setStart( r.bottomRight() );
gradient.setFinalStop( r.topLeft() );
gradient.setColorAt( 0.0, c2 );
gradient.setColorAt( 1.0, c1 );
arcPen.setBrush( gradient );
linePen.setColor( c1 );
break;
}
}
painter->setPen( arcPen );
painter->drawPath( pathList[ 2 * i] );
painter->setPen( linePen );
painter->drawPath( pathList[ 2 * i + 1] );
}
}
else
{
QPen pen( palette.color( QPalette::WindowText ), lineWidth );
painter->setPen( pen );
painter->drawPath( path );
}
painter->restore();
}
/*!
Draw a color bar into a rectangle
\param painter Painter
\param colorMap Color map
\param interval Value range
\param scaleMap Scale map
\param orientation Orientation
\param rect Traget rectangle
*/
void QwtPainter::drawColorBar( QPainter *painter,
const QwtColorMap &colorMap, const QwtInterval &interval,
const QwtScaleMap &scaleMap, Qt::Orientation orientation,
const QRectF &rect )
{
QVector<QRgb> colorTable;
if ( colorMap.format() == QwtColorMap::Indexed )
colorTable = colorMap.colorTable( interval );
QColor c;
const QRect devRect = rect.toAlignedRect();
/*
We paint to a pixmap first to have something scalable for printing
( f.e. in a Pdf document )
*/
QPixmap pixmap( devRect.size() );
QPainter pmPainter( &pixmap );
pmPainter.translate( -devRect.x(), -devRect.y() );
if ( orientation == Qt::Horizontal )
{
QwtScaleMap sMap = scaleMap;
sMap.setPaintInterval( rect.left(), rect.right() );
for ( int x = devRect.left(); x <= devRect.right(); x++ )
{
const double value = sMap.invTransform( x );
if ( colorMap.format() == QwtColorMap::RGB )
c.setRgb( colorMap.rgb( interval, value ) );
else
c = colorTable[colorMap.colorIndex( interval, value )];
pmPainter.setPen( c );
pmPainter.drawLine( x, devRect.top(), x, devRect.bottom() );
}
}
else // Vertical
{
QwtScaleMap sMap = scaleMap;
sMap.setPaintInterval( rect.bottom(), rect.top() );
for ( int y = devRect.top(); y <= devRect.bottom(); y++ )
{
const double value = sMap.invTransform( y );
if ( colorMap.format() == QwtColorMap::RGB )
c.setRgb( colorMap.rgb( interval, value ) );
else
c = colorTable[colorMap.colorIndex( interval, value )];
pmPainter.setPen( c );
pmPainter.drawLine( devRect.left(), y, devRect.right(), y );
}
}
pmPainter.end();
drawPixmap( painter, rect, pixmap );
}