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|
/*
* Kivio - Visual Modelling and Flowcharting
* Copyright (C) 2000-2001 theKompany.com & Dave Marotti
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "kivioglobal.h"
#include "kivio_line_style.h"
#include "kivio_point.h"
#include "kivio_screen_painter.h"
#include <tqimage.h>
#include <tqpen.h>
#include <tqbrush.h>
#include <tqsimplerichtext.h>
#include <tqpalette.h>
#include <kdebug.h>
#define PAINTER_CHECK() { if(!m_pPainter) { kdDebug(43000) << "KivioScreenPainter::PAINTER_CHECK() - no TQPainter exists." << endl; } }
KivioScreenPainter::KivioScreenPainter()
: m_pPainter(NULL)
{
m_transX = 0.0f;
m_transY = 0.0f;
m_rotation = 0;
}
KivioScreenPainter::KivioScreenPainter(TQPainter* painter)
: m_pPainter(painter)
{
m_transX = 0.0f;
m_transY = 0.0f;
m_rotation = 0;
}
KivioScreenPainter::~KivioScreenPainter()
{
if( m_pPainter )
{
kdDebug(43000) << "KivioScreenPainter::~KivioScreenPainter - A TQPainter slipped through the cracks" << endl;
delete m_pPainter;
m_pPainter = NULL;
}
}
/**
* Starts the drawing on a @ref TQPaintDevice
*
* @param dev The device to paint on
*
* Call this function before you call any other @ref KivioScreenPainter
* functions. This will create an internal TQPainter object for drawing
* with. If you fail to call this function, nothing will work.
*/
bool KivioScreenPainter::start( TQPaintDevice *dev )
{
// Bomb out if one exists already
if( m_pPainter )
{
kdDebug(43000) << "KivioScreenPainter::start() - A TQPainter already exists" << endl;
return false;
}
// Allocate a new drawing thingy
m_pPainter = new TQPainter(dev);
return true;
}
/**
* Stops the drawing and flushes the drawing pipeline
*
* After using the @ref KivioScreenPainter object, call stop() to
* finalize it all.
*/
bool KivioScreenPainter::stop()
{
// Bomb out if we don't have a painter. This means that they never
// called @ref start().
if( !m_pPainter )
{
kdDebug(43000) <<"KivioScreenPainter::stop() called without previous call to start" << endl;
return false;
}
// Otherwise delete and nullify the pointer
delete m_pPainter;
m_pPainter = NULL;
return true;
}
/**
* Draws a line from one point to another
*
* @param x1 The first x coord
* @param y1 The first y coord
* @param x2 The second x coord
* @param y2 The second y coord
*
* This function will draw a line from one point to another in
* the current fgColor and using the current lineWidth.
*/
void KivioScreenPainter::drawLine( float x1, float y1, float x2, float y2 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->drawLine( int(x1), int(y1), int(x2), int(y2) );
}
/**
* Draws an arc
*
* @param x1 The x-coord of the arc-box
* @param y1 The y-coord of the arc-box
* @param w1 The width of the arc
* @param h1 The height of the arc
* @param a1 The starting angle of the arc ??
* @param a2 The total angle of the arc???
*
* This will draw an arc in the current fgColor and lineWidth.
*/
void KivioScreenPainter::drawArc( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->drawArc( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
}
/**
* Draws a single quad-bezier curve
*
* @param pArray The array of 4 points to draw
*
* This will draw a quad-bezier curve in the current fgColor
* and lineWidth. @ref pArray must have 4 points.
*/
void KivioScreenPainter::drawBezier( TQPointArray &pArray )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->drawCubicBezier(pArray);
}
/**
* Draws a hollow rectangle
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
*/
void KivioScreenPainter::drawRect( float x1, float y1, float w1, float h1 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawRect( int(x1), int(y1), int(w1), int(h1) );
}
/**
* Draws a filled/outlined rectangle
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
*
* This draws a filled, and outlined rectangle in the current
* fgColor, lineWidth, and fillStyle.
*/
void KivioScreenPainter::fillRect( float x1, float y1, float w1, float h1 )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
TQPixmap pix((int)w1, (int)h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(), m_pFillStyle->color2(),
(KImageEffect::GradientType) m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(int(x1 + m_transX), int(y1 + m_transY));
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawRect( int(x1), int(y1), int(w1), int(h1) );
m_pPainter->setBrushOrigin(0, 0);
}
/**
* Draws a hollow round-rectangle
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a hollow round-rectangle in the current
* fgColor and lineWidth.
*/
void KivioScreenPainter::drawRoundRect( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawRoundRect( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
}
/**
* Draws a filled/outlined round-rectangle
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a hollow round-rectangle in the current
* fgColor, lineWidth, and fillStyle.
*/
void KivioScreenPainter::fillRoundRect( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
TQPixmap pix((int)w1, (int)h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(), m_pFillStyle->color2(),
(KImageEffect::GradientType) m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(int(x1 + m_transX), int(y1 + m_transY));
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawRoundRect( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
m_pPainter->setBrushOrigin(0, 0);
}
/**
* Draws a hollow pie
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a hollow pie in the current
* fgColor and lineWidth.
*/
void KivioScreenPainter::drawPie( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawPie( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
}
/**
* Draws a filled/outlined pie
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a filled/outlined pie in the current
* fgColor, lineWidth, and fillStyle.
*/
void KivioScreenPainter::fillPie( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
TQPixmap pix((int)w1, (int)h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(), m_pFillStyle->color2(),
(KImageEffect::GradientType) m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(int(x1 + m_transX), int(y1 + m_transY));
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawPie( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
m_pPainter->setBrushOrigin(0, 0);
}
/**
* Draws a hollow chord
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a hollow chord in the current
* fgColor and lineWidth.
*/
void KivioScreenPainter::drawChord( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawChord( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
}
/**
* Draws a filled/outlined chord
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
* @param a1 ????
* @param a2 ????
*
* This draws a filled/outlined chord in the current
* fgColor, fillStyle and lineWidth.
*/
void KivioScreenPainter::fillChord( float x1, float y1, float w1, float h1, float a1, float a2 )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
TQPixmap pix((int)w1, (int)h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(),
m_pFillStyle->color2(), m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(int(x1 + m_transX), int(y1 + m_transY));
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawChord( int(x1), int(y1), int(w1), int(h1), int(a1), int(a2) );
m_pPainter->setBrushOrigin(0, 0);
}
/**
* Draws a hollow ellipse
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
*
* This draws a hollow ellipse in the current
* fgColor and lineWidth.
*/
void KivioScreenPainter::drawEllipse( float x1, float y1, float w1, float h1 )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawEllipse( int(x1), int(y1), int(w1), int(h1) );
}
/**
* Draws a filled/outlined ellipse
*
* @param x1 The x coord
* @param y1 The y coord
* @param w1 The width
* @param h1 The height
*
* This draws a filled/outlined ellipse in the current
* fgColor, fillstyle and lineWidth.
*/
void KivioScreenPainter::fillEllipse( float x1, float y1, float w1, float h1 )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
TQPixmap pix((int)w1, (int)h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(), m_pFillStyle->color2(),
(KImageEffect::GradientType) m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(int(x1 + m_transX), int(y1 + m_transY));
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawEllipse( int(x1), int(y1), int(w1), int(h1) );
m_pPainter->setBrushOrigin(0, 0);
}
/**
* Draws an array of lines
*
* @param pList The array of points to draw lines with
*
* The list of points should contain a list of points in
* pairs. Lines are drawn from p1->p2 p3->p4 p5->p6, etc...
*/
void KivioScreenPainter::drawLineArray( TQPtrList<KivioPoint> *pList )
{
PAINTER_CHECK();
KivioPoint *pPoint;
TQPointArray points(pList->count());
int i;
TQBrush b;
b.setStyle( Qt::NoBrush );
i=0;
pPoint = pList->first();
while( pPoint )
{
points.setPoint( i++, int(pPoint->x()), int(pPoint->y()) );
pPoint = pList->next();
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawLineSegments(points);
}
/**
* Draws a polyline
*
* @param pList The array of points to draw the polyline with
*
* Draws a polyline (hollow) from p1->p2->p3->pn
*/
void KivioScreenPainter::drawPolyline( TQPtrList<KivioPoint> *pList )
{
PAINTER_CHECK();
KivioPoint *pPoint;
TQPointArray points( pList->count() );
int i = 0;
pPoint = pList->first();
while( pPoint )
{
points.setPoint(i++, int(pPoint->x()), int(pPoint->y()) );
pPoint = pList->next();
}
drawPolyline(points);
}
/**
* Draws a polygon
*
* @param pList The array of points to draw the polyline with
*
* Draws a filled (if set) polygon from p1->p2->p3->pn->p1
*/
void KivioScreenPainter::drawPolygon( TQPtrList<KivioPoint> *pList )
{
PAINTER_CHECK();
KivioPoint *pPoint;
TQPointArray points( pList->count() );
int i = 0;
pPoint = pList->first();
while( pPoint )
{
points.setPoint(i++, int(pPoint->x()), int(pPoint->y()) );
pPoint = pList->next();
}
drawPolygon(points);
}
void KivioScreenPainter::drawPolyline( TQPointArray &pArray )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush( TQBrush::NoBrush );
m_pPainter->drawPolyline( pArray, 0, pArray.size() );
}
void KivioScreenPainter::drawPolygon( TQPointArray &pArray )
{
PAINTER_CHECK();
TQBrush b;
b = m_pFillStyle->brush();
if(m_pFillStyle->colorStyle() == KivioFillStyle::kcsGradient) {
int x1, y1, w1, h1;
x1 = pArray[0].x();
y1 = pArray[0].y();
w1 = h1 = 0;
for(unsigned int i = 0; i < pArray.count(); i++) {
x1 = TQMIN(x1, pArray[i].x());
y1 = TQMIN(y1, pArray[i].y());
w1 = TQMAX(w1, pArray[i].x());
h1 = TQMAX(h1, pArray[i].y());
}
w1 = w1 - x1;
h1 = h1 - y1;
TQPixmap pix(w1, h1);
TQImage image = KImageEffect::gradient(pix.size(), m_pFillStyle->color(), m_pFillStyle->color2(),
(KImageEffect::GradientType) m_pFillStyle->gradientType());
pix.convertFromImage(image);
b.setPixmap(pix);
m_pPainter->setBrushOrigin(x1 + (int)m_transX, y1 + (int)m_transY);
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(b);
m_pPainter->drawPolygon( pArray, true );
m_pPainter->setBrushOrigin(0, 0);
}
void KivioScreenPainter::drawLineArray( TQPointArray &pArray )
{
PAINTER_CHECK();
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush(TQBrush::NoBrush);
m_pPainter->drawLineSegments(pArray);
}
/**
* Draws a filled path object
*
* @param pPoints The array of points to draw the polyline with
*
* Draws a filled (if set) curve with the points stored
* in pPoints. They can be made up of bezier, arc, and normal points.
*/
void KivioScreenPainter::drawClosedPath( TQPtrList<KivioPoint> *pPoints )
{
PAINTER_CHECK();
TQBrush brush;
KivioPoint *pPoint, *pPoint2, *pPoint3, *pPoint4;
TQPtrList <KivioPoint> *pPointList = pPoints;
TQPointArray controlPoints(4), bPoints(0), tmpPoints;
int pointIndex=0;
pPoint = pPointList->first();
while( pPoint )
{
if( pPoint->pointType() == KivioPoint::kptNormal )
{
bPoints.putPoints( pointIndex, 1, int(pPoint->x()), int(pPoint->y()) );
pointIndex++;
}
else if( pPoint->pointType() == KivioPoint::kptBezier )
{
pPoint2 = pPointList->next();
pPoint3 = pPointList->next();
pPoint4 = pPointList->next();
if( !pPoint2 || !pPoint3 || !pPoint4 )
{
kdDebug(43000) << "drawClosedPath() - incorrect # of bezier points" << endl;
return;
}
if( pPoint2->pointType() != KivioPoint::kptBezier ||
pPoint3->pointType() != KivioPoint::kptBezier ||
pPoint4->pointType() != KivioPoint::kptBezier )
{
kdDebug(43000) << "drawClosedPath() - bezier curves must have 4 points" << endl;
return;
}
controlPoints.setPoint( 0, tqRound(pPoint->x()), tqRound(pPoint->y()) );
controlPoints.setPoint( 1, tqRound(pPoint2->x()), tqRound(pPoint2->y()) );
controlPoints.setPoint( 2, tqRound(pPoint3->x()), tqRound(pPoint3->y()) );
controlPoints.setPoint( 3, tqRound(pPoint4->x()), tqRound(pPoint4->y()) );
tmpPoints = controlPoints.cubicBezier();
for( int j=0; j<int(tmpPoints.size()); j++ )
{
bPoints.putPoints( pointIndex, 1, tmpPoints.point(j).x(), tmpPoints.point(j).y() );
pointIndex++;
}
} // end pointtype==bezier
else if( pPoint->pointType() == KivioPoint::kptArc )
{
pPoint2 = pPointList->next();
pPoint3 = pPointList->next();
if( !pPoint2 || !pPoint3 )
{
kdDebug(43000) << "drawClosedPath() - incorrect # of arc points" << endl;
return;
}
if( pPoint2->pointType() != KivioPoint::kptArc ||
pPoint3->pointType() != KivioPoint::kptArc )
{
kdDebug(43000) << "drawClosedPath() - Arc points must come in triplets" << endl;
return;
}
tmpPoints.makeArc( tqRound(pPoint->x()), tqRound(pPoint->y()), tqRound(pPoint2->x()), tqRound(pPoint2->y()),
tqRound(pPoint3->x()), tqRound(pPoint3->y()) );
for( int j=0; j<int(tmpPoints.size()); j++ )
{
bPoints.putPoints( pointIndex, 1, tmpPoints.point(j).x(),tmpPoints.point(j).y());
pointIndex++;
}
} // end pointtype==arc
else
{
kdDebug(43000) << "drawClosedPath() - Unknown point type discovered. WOOO!!!" << endl;
}
pPoint = pPointList->next();
}
// If we make it here, the list is built
switch( m_pFillStyle->colorStyle() )
{
case KivioFillStyle::kcsNone:
// A hollow path? That's a polypath!
drawPolyline( bPoints );
break;
case KivioFillStyle::kcsSolid:
case KivioFillStyle::kcsGradient:
{
drawPolygon(bPoints);
break;
}
default:
kdDebug(43000) << "drawClosedPath() - Unknown colors style" << endl;
break;
}
}
void KivioScreenPainter::drawOpenPath( TQPtrList<KivioPoint> *pPoints )
{
PAINTER_CHECK();
TQBrush brush;
KivioPoint *pPoint, *pPoint2, *pPoint3, *pPoint4;
TQPtrList <KivioPoint> *pPointList = pPoints;
TQPointArray controlPoints(4), bPoints(0), tmpPoints;
int pointIndex=0;
pPoint = pPointList->first();
while( pPoint )
{
if( pPoint->pointType() == KivioPoint::kptNormal )
{
bPoints.putPoints( pointIndex, 1, int(pPoint->x()), int(pPoint->y()) );
pointIndex++;
}
else if( pPoint->pointType() == KivioPoint::kptBezier )
{
pPoint2 = pPointList->next();
pPoint3 = pPointList->next();
pPoint4 = pPointList->next();
if( !pPoint2 || !pPoint3 || !pPoint4 )
{
kdDebug(43000) << "drawOpenPath() - incorrect # of bezier points" << endl;
return;
}
if( pPoint2->pointType() != KivioPoint::kptBezier ||
pPoint3->pointType() != KivioPoint::kptBezier ||
pPoint4->pointType() != KivioPoint::kptBezier )
{
kdDebug(43000) << "drawOpenPath() - bezier curves must have 4 points" << endl;
return;
}
controlPoints.setPoint( 0, tqRound(pPoint->x()), tqRound(pPoint->y()) );
controlPoints.setPoint( 1, tqRound(pPoint2->x()), tqRound(pPoint2->y()) );
controlPoints.setPoint( 2, tqRound(pPoint3->x()), tqRound(pPoint3->y()) );
controlPoints.setPoint( 3, tqRound(pPoint4->x()), tqRound(pPoint4->y()) );
tmpPoints = controlPoints.cubicBezier();
for( int j=0; j<int(tmpPoints.size()); j++ )
{
bPoints.putPoints( pointIndex, 1, tmpPoints.point(j).x(), tmpPoints.point(j).y() );
pointIndex++;
}
} // end pointtype==bezier
else if( pPoint->pointType() == KivioPoint::kptArc )
{
pPoint2 = pPointList->next();
pPoint3 = pPointList->next();
if( !pPoint2 || !pPoint3 )
{
kdDebug(43000) << "drawOpenPath() - incorrect # of arc points" << endl;
return;
}
if( pPoint2->pointType() != KivioPoint::kptArc ||
pPoint3->pointType() != KivioPoint::kptArc )
{
kdDebug(43000) << "drawOpenPath() - Arc points must come in triplets" << endl;
return;
}
tmpPoints.makeArc( tqRound(pPoint->x()), tqRound(pPoint->y()), tqRound(pPoint2->x()), tqRound(pPoint2->y()),
tqRound(pPoint3->x()), tqRound(pPoint3->y()) );
for( int j=0; j<int(tmpPoints.size()); j++ )
{
bPoints.putPoints( pointIndex, 1, tmpPoints.point(j).x(),tmpPoints.point(j).y());
pointIndex++;
}
} // end pointtype==arc
else
{
kdDebug(43000) << "drawOpenPath() - Unknown point type discovered. WOOO!!!" << endl;
}
pPoint = pPointList->next();
}
m_pPainter->setPen(m_pLineStyle->pen(1.0f));
m_pPainter->setBrush( TQBrush::NoBrush );
m_pPainter->drawPolyline( bPoints );
}
void KivioScreenPainter::setFont( const TQFont &f )
{
PAINTER_CHECK();
m_pPainter->setFont( f );
}
void KivioScreenPainter::drawText( int x, int y, int w, int h, int tf, const TQString &str )
{
PAINTER_CHECK();
m_pPainter->setPen( m_textColor );
m_pPainter->drawText( x, y, w, h, tf, str );
/* TQSimpleRichText textArea(str, m_pPainter->font());
textArea.setWidth(w);
TQColorGroup cg;
cg.setColor(TQColorGroup::Base, m_pFillStyle->color());
cg.setColor(TQColorGroup::Text, m_textColor);
TQBrush b = m_pFillStyle->brush();
textArea.draw(m_pPainter, x, y, TQRect(0, 0, 0, 0), cg, &b);*/
}
TQRect KivioScreenPainter::boundingRect( int x, int y, int w, int h, int tf, const TQString &str )
{
PAINTER_CHECK();
return m_pPainter->boundingRect( x,y,w,h, tf, str );
}
void KivioScreenPainter::drawPixmap( float x, float y, const TQPixmap &pix )
{
PAINTER_CHECK();
m_pPainter->drawPixmap( (int)x, (int)y, pix );
}
void KivioScreenPainter::drawHandle( float x, float y, int flags )
{
PAINTER_CHECK();
TQColor fillColor, penColor;
TQBrush b;
TQPen p;
const float HW = 6.0f;
const float HWP1 = HW+1.0f;
const float HWo2 = HW/2.0f;
float x1, y1;
// Is it a locked handle?
if( flags & cpfLock )
{
x1 = x - 4;
y1 = y - 4;
m_pPainter->drawPixmap( tqRound(x1), tqRound(y1), Kivio::lockPixmap() );
return;
}
if( flags & cpfConnected )
{
fillColor = TQColor(200,0,0);
}
else
{
fillColor = TQColor(0,200,0);
}
penColor.setRgb(0, 0, 0);
b.setColor(fillColor);
b.setStyle(Qt::SolidPattern);
p.setColor(penColor);
m_pPainter->setPen(p);
m_pPainter->setBrush(b);
x1 = x - HWo2;
y1 = y - HWo2;
// first fill it
// m_pPainter->fillRect( x1, y1, HWP1, HWP1, b );
if(flags & cpfEnd) {
m_pPainter->drawEllipse( tqRound(x1), tqRound(y1), tqRound(HWP1), tqRound(HWP1) );
} else {
m_pPainter->drawRect( tqRound(x1), tqRound(y1), tqRound(HWP1), tqRound(HWP1) );
}
// Now put something in it if needed
if( flags & cpfConnectable )
{
b.setColor(TQColor(0,0,0));
m_pPainter->fillRect(tqRound(x-1),tqRound(y-1),3,3, b);
}
}
void KivioScreenPainter::drawSelectionBox( const TQRect& r )
{
PAINTER_CHECK();
TQPen p;
p.setColor(TQColor(0,200,0));
p.setStyle(Qt::DashLine);
m_pPainter->setBrush(TQt::NoBrush);
m_pPainter->setPen(p);
m_pPainter->drawRect(r);
}
void KivioScreenPainter::saveState()
{
PAINTER_CHECK();
m_pPainter->save();
}
void KivioScreenPainter::restoreState()
{
PAINTER_CHECK();
m_pPainter->restore();
}
void KivioScreenPainter::setTranslation( float _x, float _y )
{
PAINTER_CHECK();
m_transX = _x;
m_transY = _y;
m_pPainter->translate(_x, _y);
}
void KivioScreenPainter::translateBy( float _x, float _y )
{
PAINTER_CHECK();
m_transX += _x;
m_transY += _y;
m_pPainter->translate( m_transX, m_transY );
}
void KivioScreenPainter::setRotation( int _d )
{
PAINTER_CHECK();
m_rotation = _d;
m_pPainter->rotate(_d);
}
void KivioScreenPainter::rotateBy( int _d )
{
PAINTER_CHECK();
m_rotation += _d;
m_pPainter->rotate(m_rotation);
}
int KivioScreenPainter::rotation()
{
return m_rotation;
}
void KivioScreenPainter::setWorldMatrix(TQWMatrix m, bool c)
{
PAINTER_CHECK();
m_pPainter->setWorldMatrix(m, c);
}
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