// -*- Mode: c++; c-basic-offset: 4; indent-tabs-mode: nil; tab-width: 4; -*- /* This file is part of the KDE project Copyright (C) 1998, 1999 Reginald Stadlbauer Copyright (C) 2005 Thorsten Zachmann This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ // ### TODO: fix copyright date/authors // for getenv () #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "KPrPixmapObject.h" #include "KPrGradient.h" #include "KPrPixmapObjectIface.h" KPrPixmapObject::KPrPixmapObject( KoPictureCollection *_imageCollection ) : KPr2DObject() { imageCollection = _imageCollection; pen = KoPen( TQt::black, 1.0, Qt::NoPen ); mirrorType = PM_NORMAL; depth = 0; swapRGB = false; grayscal = false; bright = 0; m_effect = IE_NONE; m_ie_par1 = TQVariant(); m_ie_par2 = TQVariant(); m_ie_par3 = TQVariant(); // Forbid TQPixmap to cache the X-Window resources (Yes, it is slower!) m_cachedPixmap.setOptimization(TQPixmap::MemoryOptim); keepRatio = true; } KPrPixmapObject::KPrPixmapObject( KoPictureCollection *_imageCollection, const KoPictureKey & key ) : KPr2DObject() { imageCollection = _imageCollection; ext = KoSize(); // invalid size means unset pen = KoPen( TQt::black, 1.0, Qt::NoPen ); mirrorType = PM_NORMAL; depth = 0; swapRGB = false; grayscal = false; bright = 0; m_effect = IE_NONE; m_ie_par1 = TQVariant(); m_ie_par2 = TQVariant(); m_ie_par3 = TQVariant(); // Forbid TQPixmap to cache the X-Window resources (Yes, it is slower!) m_cachedPixmap.setOptimization(TQPixmap::MemoryOptim); setPicture( key ); } DCOPObject* KPrPixmapObject::dcopObject() { if ( !dcop ) dcop = new KPrPixmapObjectIface( this ); return dcop; } TQString KPrPixmapObject::convertValueToPercent( int val ) const { return TQString::number( val )+"%"; } void KPrPixmapObject::saveOasisPictureElement( KoGenStyle &styleobjectauto ) const { if ( bright != 0 ) { styleobjectauto.addProperty( "draw:luminance", convertValueToPercent( bright ) ); } if ( grayscal ) { styleobjectauto.addProperty( "draw:color-mode","greyscale" ); } switch (m_effect) { case IE_NONE: //nothing break; case IE_CHANNEL_INTENSITY: { //for the moment kpresenter support just one channel TQString percent = convertValueToPercent( m_ie_par1.toInt() ); KImageEffect::RGBComponent channel = static_cast( m_ie_par2.toInt() ); switch( channel ) { case KImageEffect::Red: styleobjectauto.addProperty( "draw:red", percent ); styleobjectauto.addProperty( "draw:blue", "0%" ); styleobjectauto.addProperty( "draw:green", "0%" ); break; case KImageEffect::Green: styleobjectauto.addProperty( "draw:green", percent ); styleobjectauto.addProperty( "draw:red", "0%" ); styleobjectauto.addProperty( "draw:blue", "0%" ); break; case KImageEffect::Blue: styleobjectauto.addProperty( "draw:blue", percent ); styleobjectauto.addProperty( "draw:red", "0%" ); styleobjectauto.addProperty( "draw:green", "0%" ); break; case KImageEffect::Gray: break; case KImageEffect::All: break; } } break; case IE_FADE: break; case IE_FLATTEN: break; case IE_INTENSITY: break; case IE_DESATURATE: break; case IE_CONTRAST: { //kpresenter use value between -255 and 255 //oo impress between -100% and 100% int val = m_ie_par1.toInt(); val = ( int )( ( double )val*100.0/255.0 ); styleobjectauto.addProperty( "draw:contrast", convertValueToPercent( val ) ); } break; case IE_NORMALIZE: break; case IE_EQUALIZE: break; case IE_THRESHOLD: break; case IE_SOLARIZE: break; case IE_EMBOSS: break; case IE_DESPECKLE: break; case IE_CHARCOAL: break; case IE_NOISE: break; case IE_BLUR: break; case IE_EDGE: break; case IE_IMPLODE: break; case IE_OIL_PAINT: break; case IE_SHARPEN: break; case IE_SPREAD: break; case IE_SHADE: break; case IE_SWIRL: break; case IE_WAVE: break; } } bool KPrPixmapObject::saveOasisObjectAttributes( KPOasisSaveContext &sc ) const { sc.xmlWriter.startElement( "draw:image" ); sc.xmlWriter.addAttribute( "xlink:type", "simple" ); sc.xmlWriter.addAttribute( "xlink:show", "embed" ); sc.xmlWriter.addAttribute( "xlink:actuate", "onLoad" ); sc.xmlWriter.addAttribute( "xlink:href", imageCollection->getOasisFileName( image ) ); sc.xmlWriter.endElement(); return true; } const char * KPrPixmapObject::getOasisElementName() const { return "draw:frame"; } // Deprecated, same as KPrPixmapObject::loadPicture void KPrPixmapObject::loadImage( const TQString & fileName ) { loadPicture( fileName ); } void KPrPixmapObject::loadPicture( const TQString & fileName ) { image = imageCollection->loadPicture( fileName ); } KPrPixmapObject &KPrPixmapObject::operator=( const KPrPixmapObject & ) { return *this; } // Deprecated, same as KPrPixmapObject::setPicture void KPrPixmapObject::setPixmap( const KoPictureKey & key ) { setPicture( key ); } void KPrPixmapObject::setPicture( const KoPictureKey & key ) { image = imageCollection->findPicture( key ); } void KPrPixmapObject::reload( void ) { // ### FIXME: this seems wrong, KoPictureCollection will never reload it (or perhaps it is the function name that is wrong) setPicture( image.getKey() ); if (image.isNull()) { // this happens for example when doing copy&paste from a different KPresenter instance image = imageCollection->loadPicture( image.getKey().filename() ); } } TQDomDocumentFragment KPrPixmapObject::save( TQDomDocument& doc, double offset ) { TQDomDocumentFragment fragment=KPr2DObject::save(doc, offset); TQDomElement elem=doc.createElement("KEY"); image.getKey().saveAttributes(elem); fragment.appendChild(elem); TQDomElement elemSettings = doc.createElement( "PICTURESETTINGS" ); elemSettings.setAttribute( "mirrorType", static_cast( mirrorType ) ); elemSettings.setAttribute( "depth", depth ); elemSettings.setAttribute( "swapRGB", static_cast( swapRGB ) ); elemSettings.setAttribute( "grayscal", static_cast( grayscal ) ); elemSettings.setAttribute( "bright", bright ); fragment.appendChild( elemSettings ); if (m_effect!=IE_NONE) { TQDomElement imageEffects = doc.createElement("EFFECTS"); imageEffects.setAttribute("type", static_cast(m_effect)); if (m_ie_par1.isValid()) imageEffects.setAttribute("param1", m_ie_par1.toString()); if (m_ie_par2.isValid()) imageEffects.setAttribute("param2", m_ie_par2.toString()); if (m_ie_par3.isValid()) imageEffects.setAttribute("param3", m_ie_par3.toString()); fragment.appendChild( imageEffects ); } return fragment; } void KPrPixmapObject::loadOasisPictureEffect(KoOasisContext & context ) { KoStyleStack &styleStack = context.styleStack(); styleStack.setTypeProperties( "graphic" ); if ( styleStack.hasAttributeNS( KoXmlNS::draw, "color-mode" ) && ( styleStack.attributeNS( KoXmlNS::draw, "color-mode" )=="greyscale" ) ) { grayscal = true; } if ( styleStack.hasAttributeNS( KoXmlNS::draw, "contrast" ) ) { TQString str( styleStack.attributeNS( KoXmlNS::draw, "contrast" ) ); str = str.remove( '%' ); int val = str.toInt(); m_effect = IE_CONTRAST; val = ( int )( 255.0 *val/100.0 ); m_ie_par1 = TQVariant(val); } if ( styleStack.hasAttributeNS( KoXmlNS::draw, "red" ) && styleStack.attributeNS( KoXmlNS::draw, "red" ) != "0%" ) { TQString str( styleStack.attributeNS( KoXmlNS::draw, "red" ) ); str = str.remove( '%' ); int val = str.toInt(); m_effect = IE_CHANNEL_INTENSITY; m_ie_par1 = TQVariant(val); m_ie_par2 = TQVariant( ( int )KImageEffect::Red ); } if ( styleStack.hasAttributeNS( KoXmlNS::draw, "green" ) && styleStack.attributeNS( KoXmlNS::draw, "green" ) != "0%" ) { TQString str( styleStack.attributeNS( KoXmlNS::draw, "green" ) ); str = str.remove( '%' ); int val = str.toInt(); m_effect = IE_CHANNEL_INTENSITY; m_ie_par1 = TQVariant(val); m_ie_par2 = TQVariant( ( int )KImageEffect::Green ); } if ( styleStack.hasAttributeNS( KoXmlNS::draw, "blue" ) && styleStack.attributeNS( KoXmlNS::draw, "blue" ) != "0%" ) { TQString str( styleStack.attributeNS( KoXmlNS::draw, "blue" ) ); str = str.remove( '%' ); int val = str.toInt(); m_effect = IE_CHANNEL_INTENSITY; m_ie_par1 = TQVariant(val); m_ie_par2 = TQVariant( ( int )KImageEffect::Blue ); } if ( styleStack.hasAttributeNS( KoXmlNS::draw, "luminance" ) ) { TQString str( styleStack.attributeNS( KoXmlNS::draw, "luminance" ) ); str = str.remove( '%' ); bright = str.toInt(); } } void KPrPixmapObject::fillStyle( KoGenStyle& styleObjectAuto, KoGenStyles& mainStyles ) const { KPr2DObject::fillStyle( styleObjectAuto, mainStyles ); saveOasisPictureElement( styleObjectAuto ); } void KPrPixmapObject::loadOasis(const TQDomElement &element, KoOasisContext & context, KPrLoadingInfo *info) { //load it into kpresenter_doc KPr2DObject::loadOasis( element, context, info ); loadOasisPictureEffect( context ); TQDomNode imageBox = KoDom::namedItemNS( element, KoXmlNS::draw, "image" ); const TQString href( imageBox.toElement().attributeNS( KoXmlNS::xlink, "href", TQString()) ); kdDebug()<<" href: "<=0) { strExtension=href.mid(result+1); // As we are using KoPicture, the extension should be without the dot. } TQString filename(href/*.mid(1)*/); const KoPictureKey key(filename, TQDateTime::tqcurrentDateTime(Qt::UTC)); image.setKey(key); KoStore* store = context.store(); if ( store->open( filename ) ) { KoStoreDevice dev(store); if ( !image.load( &dev, strExtension ) ) kdWarning() << "Cannot load picture: " << filename << " " << href << endl; store->close(); } imageCollection->insertPicture( key, image ); } // ### TODO: load remote file } double KPrPixmapObject::load(const TQDomElement &element) { double offset=KPr2DObject::load(element); TQDomElement e=element.namedItem("KEY").toElement(); if(!e.isNull()) { KoPictureKey key; key.loadAttributes( e ); image.clear(); image.setKey(key); } else { // try to find a PIXMAP tag if the KEY is not available... e=element.namedItem("PIXMAP").toElement(); if (e.isNull()) { // try to find a FILENAME tag (old cliparts...) e=element.namedItem("FILENAME").toElement(); if(!e.isNull()) { // Loads from the disk directly (unless it's in the collection already?) image = imageCollection->loadPicture( e.attribute("filename") ); } } else { bool openPic = true; TQString _data; TQString _fileName; if(e.hasAttribute("data")) _data=e.attribute("data"); if ( _data.isEmpty() ) openPic = true; else openPic = false; if(e.hasAttribute("filename")) _fileName=e.attribute("filename"); if ( !_fileName.isEmpty() ) { if ( int _envVarB = _fileName.tqfind( '$' ) >= 0 ) { int _envVarE = _fileName.tqfind( '/', _envVarB ); // ### FIXME: it should be TQString::local8Bit instead of TQFile::encodeName, shouldn't it? TQString path = getenv( TQFile::encodeName(_fileName.mid( _envVarB, _envVarE-_envVarB )) ); _fileName.tqreplace( _envVarB-1, _envVarE-_envVarB+1, path ); } } if ( openPic ) // !! this loads it from the disk (unless it's in the image collection already) image = imageCollection->loadPicture( _fileName ); else { KoPictureKey key( _fileName ); image.clear(); image.setKey(key); TQByteArray rawData=_data.utf8(); // XPM is normally ASCII, therefore UTF-8 rawData[rawData.size()-1]=char(10); // Replace the NULL character by a LINE FEED TQBuffer buffer(rawData); // ### TODO: open? image.loadXpm(TQT_TQIODEVICE(&buffer)); } } } e = element.namedItem( "PICTURESETTINGS" ).toElement(); if ( !e.isNull() ) { PictureMirrorType _mirrorType = PM_NORMAL; int _depth = 0; bool _swapRGB = false; bool _grayscal = false; int _bright = 0; if ( e.hasAttribute( "mirrorType" ) ) _mirrorType = static_cast( e.attribute( "mirrorType" ).toInt() ); if ( e.hasAttribute( "depth" ) ) _depth = e.attribute( "depth" ).toInt(); if ( e.hasAttribute( "swapRGB" ) ) _swapRGB = static_cast( e.attribute( "swapRGB" ).toInt() ); if ( e.hasAttribute( "grayscal" ) ) _grayscal = static_cast( e.attribute( "grayscal" ).toInt() ); if ( e.hasAttribute( "bright" ) ) _bright = e.attribute( "bright" ).toInt(); mirrorType = _mirrorType; depth = _depth; swapRGB = _swapRGB; grayscal = _grayscal; bright = _bright; } else { mirrorType = PM_NORMAL; depth = 0; swapRGB = false; grayscal = false; bright = 0; } e = element.namedItem( "EFFECTS" ).toElement(); if (!e.isNull()) { if (e.hasAttribute("type")) m_effect = static_cast(e.attribute("type").toInt()); if (e.hasAttribute("param1")) m_ie_par1 = TQVariant(e.attribute("param1")); else m_ie_par1 = TQVariant(); if (e.hasAttribute("param2")) m_ie_par2 = TQVariant(e.attribute("param2")); else m_ie_par2 = TQVariant(); if (e.hasAttribute("param3")) m_ie_par3 = TQVariant(e.attribute("param3")); else m_ie_par3 = TQVariant(); } else m_effect = IE_NONE; return offset; } void KPrPixmapObject::drawShadow( TQPainter* _painter, KoZoomHandler* _zoomHandler) { const double ox = orig.x(); const double oy = orig.y(); const double ow = ext.width(); const double oh = ext.height(); _painter->save(); TQPen pen2 = pen.zoomedPen( _zoomHandler ); _painter->setPen( pen2 ); _painter->setBrush( getBrush() ); double sx = 0; double sy = 0; getShadowCoords( sx, sy ); _painter->translate( _zoomHandler->zoomItX( ox ), _zoomHandler->zoomItY( oy ) ); _painter->setPen( TQPen( shadowColor ) ); _painter->setBrush( shadowColor ); if ( kAbs(angle) <= DBL_EPSILON ) _painter->drawRect( _zoomHandler->zoomItX( sx ), _zoomHandler->zoomItY( sy ), _zoomHandler->zoomItX( ext.width() ), _zoomHandler->zoomItY( ext.height() ) ); else { TQSize bs = TQSize( _zoomHandler->zoomItX( ow ), _zoomHandler->zoomItY( oh ) ); TQRect br = TQRect( 0, 0, bs.width(), bs.height() ); int pw = br.width(); int ph = br.height(); TQRect rr = br; int pixYPos = -rr.y(); int pixXPos = -rr.x(); br.moveTopLeft( TQPoint( -br.width() / 2, -br.height() / 2 ) ); rr.moveTopLeft( TQPoint( -rr.width() / 2, -rr.height() / 2 ) ); TQWMatrix m; m.translate( pw / 2, ph / 2 ); m.rotate( angle ); m.translate( rr.left() + pixXPos + _zoomHandler->zoomItX( sx ), rr.top() + pixYPos + _zoomHandler->zoomItY( sy ) ); _painter->setWorldMatrix( m, true ); _painter->drawRect( 0, 0, bs.width(), bs.height() ); } _painter->restore(); } TQPixmap KPrPixmapObject::generatePixmap(KoZoomHandler*_zoomHandler) { const double penw = _zoomHandler->zoomItX( ( ( pen.style() == TQt::NoPen ) ? 1 : pen.width() ) / 2.0 ); TQSize size( _zoomHandler->zoomSize( ext ) ); //kdDebug(33001) << "KPrPixmapObject::generatePixmap size= " << size << endl; TQPixmap pixmap(size); TQPainter paint; paint.begin( &pixmap ); pixmap.fill( TQt::white ); // Draw background paint.setPen( TQt::NoPen ); paint.setBrush( getBrush() ); TQRect rect( (int)( penw ), (int)( penw ), (int)( _zoomHandler->zoomItX( ext.width() ) - 2.0 * penw ), (int)( _zoomHandler->zoomItY( ext.height() ) - 2.0 * penw ) ); if ( getFillType() == FT_BRUSH || !gradient ) paint.drawRect( rect ); else { // ### TODO: this was also drawn for drawContour==true, but why? gradient->setSize( size ); paint.drawPixmap( (int)( penw ), (int)( penw ), gradient->pixmap(), 0, 0, (int)( _zoomHandler->zoomItX( ext.width() ) - 2 * penw ), (int)( _zoomHandler->zoomItY( ext.height() ) - 2 * penw ) ); } image.draw(paint, 0, 0, size.width(), size.height(), 0, 0, -1, -1, false); // Always slow mode! image.clearCache(); // Release the memoy of the picture cache image.setAlphaBuffer(true); TQBitmap tmpMask; tmpMask = image.createAlphaMask().scale(size); pixmap.setMask(tmpMask); paint.end(); return pixmap; } void KPrPixmapObject::draw( TQPainter *_painter, KoTextZoomHandler*_zoomHandler, int pageNum, SelectionMode selectionMode, bool drawContour ) { if ( image.isNull() ) return; if ( shadowDistance > 0 && !drawContour ) drawShadow(_painter, _zoomHandler); const double ox = orig.x(); const double oy = orig.y(); const double ow = ext.width(); const double oh = ext.height(); const double penw = _zoomHandler->zoomItX( ( ( pen.style() == TQt::NoPen ) ? 1.0 : pen.width() ) / 2.0 ); _painter->save(); _painter->translate( _zoomHandler->zoomItX( ox ), _zoomHandler->zoomItY( oy ) ); if ( kAbs(angle)> DBL_EPSILON ) { TQSize bs = TQSize( _zoomHandler->zoomItX( ow ), _zoomHandler->zoomItY( oh ) ); TQRect br = TQRect( 0, 0, bs.width(), bs.height() ); int pw = br.width(); int ph = br.height(); TQRect rr = br; int pixYPos = -rr.y(); int pixXPos = -rr.x(); br.moveTopLeft( TQPoint( -br.width() / 2, -br.height() / 2 ) ); rr.moveTopLeft( TQPoint( -rr.width() / 2, -rr.height() / 2 ) ); TQWMatrix m; m.translate( pw / 2, ph / 2 ); m.rotate( angle ); m.translate( rr.left() + pixXPos, rr.top() + pixYPos ); _painter->setWorldMatrix( m, true ); } if ( !drawContour ) { TQRect rect( 0, 0, (int)( _zoomHandler->zoomItX( ow ) ), (int)( _zoomHandler->zoomItY( oh ) ) ); // ### HACK QT seems not to be able to correctly compare TQVariant bool variants1; if (m_ie_par1.isNull()) variants1=m_cachedPar1.isNull(); else variants1=(m_ie_par1 == m_cachedPar1); bool variants2; if (m_ie_par2.isNull()) variants2=m_cachedPar2.isNull(); else variants2=(m_ie_par2 == m_cachedPar2); bool variants3; if (m_ie_par3.isNull()) variants3=m_cachedPar3.isNull(); else variants3=(m_ie_par3 == m_cachedPar3); if (m_cachedRect == rect // All what KPrPixmapObject::changePictureSettings needs && m_cachedMirrorType == mirrorType && m_cachedSwapRGB == swapRGB && m_cachedGrayscal == grayscal && m_cachedBright == bright && m_cachedEffect == m_effect // Who needs it? && m_cachedDepth == depth #if 0 && m_ie_par1 == m_cachedPar1 && m_ie_par2 == m_cachedPar2 && m_ie_par3 == m_cachedPar3 #else && variants1 && variants2 && variants3 #endif ) { //kdDebug(33001) << "Drawing cached pixmap " << (void*) this << " " << k_funcinfo << endl; } else { if (mirrorType != PM_NORMAL || depth != 0 || swapRGB || grayscal || bright != 0 || m_effect!=IE_NONE) m_cachedPixmap = changePictureSettings( generatePixmap( _zoomHandler ) ); else m_cachedPixmap = generatePixmap( _zoomHandler ); m_cachedRect = rect; m_cachedMirrorType = mirrorType; m_cachedSwapRGB = swapRGB; m_cachedGrayscal = grayscal; m_cachedBright = bright; m_cachedEffect = m_effect; m_cachedDepth = depth; m_cachedPar1 = m_ie_par1; m_cachedPar2 = m_ie_par2; m_cachedPar3 = m_ie_par3; //kdDebug(33001) << "Drawing non-cached pixmap " << (void*) this << " " << k_funcinfo << endl; } _painter->drawPixmap( rect, m_cachedPixmap); } // Draw border // ### TODO port to KoBorder::drawBorders() (after writing a simplified version of it, that takes the same border on each size) TQPen pen2; if ( drawContour ) { pen2 = TQPen( TQt::black, 1, TQt::DotLine ); _painter->setRasterOp( TQt::NotXorROP ); } else { pen2 = pen; pen2.setWidth( _zoomHandler->zoomItX( ( pen.style() == TQt::NoPen ) ? 1.0 : (double)pen.width() ) ); } _painter->setPen( pen2 ); _painter->setBrush( TQt::NoBrush ); _painter->drawRect( (int)( penw ), (int)( penw ), (int)( _zoomHandler->zoomItX( ow ) - 2.0 * penw ), (int)( _zoomHandler->zoomItY( oh ) - 2.0 * penw ) ); _painter->restore(); KPrObject::draw( _painter, _zoomHandler, pageNum, selectionMode, drawContour ); } TQPixmap KPrPixmapObject::getOriginalPixmap() { TQSize _pixSize = image.getOriginalSize(); kdDebug(33001) << "KPrPixmapObject::getOriginalPixmap size= " << _pixSize << endl; TQPixmap _pixmap = image.generatePixmap( _pixSize, true ); image.clearCache(); // Release the memoy of the picture cache return _pixmap; } TQPixmap KPrPixmapObject::changePictureSettings( TQPixmap _tmpPixmap ) { TQImage _tmpImage = _tmpPixmap.convertToImage(); if (_tmpImage.isNull()) return _tmpPixmap; bool _horizontal = false; bool _vertical = false; if ( mirrorType == PM_HORIZONTAL ) _horizontal = true; else if ( mirrorType == PM_VERTICAL ) _vertical = true; else if ( mirrorType == PM_HORIZONTALANDVERTICAL ) { _horizontal = true; _vertical = true; } _tmpImage = _tmpImage.mirror( _horizontal, _vertical ); if ( depth != 0 ) { TQImage tmpImg = _tmpImage.convertDepth( depth ); if ( !tmpImg.isNull() ) _tmpImage = tmpImg; } if ( swapRGB ) _tmpImage = _tmpImage.swapRGB(); if ( grayscal ) { if ( depth == 1 || depth == 8 ) { for ( int i = 0; i < _tmpImage.numColors(); ++i ) { TQRgb rgb = _tmpImage.color( i ); int gray = tqGray( rgb ); rgb = tqRgb( gray, gray, gray ); _tmpImage.setColor( i, rgb ); } } else { int _width = _tmpImage.width(); int _height = _tmpImage.height(); int _x = 0; int _y = 0; for ( _x = 0; _x < _width; ++_x ) { for ( _y = 0; _y < _height; ++_y ) { if ( _tmpImage.valid( _x, _y ) ) { TQRgb rgb = _tmpImage.pixel( _x, _y ); int gray = tqGray( rgb ); rgb = tqRgb( gray, gray, gray ); _tmpImage.setPixel( _x, _y, rgb ); } } } } } if ( bright != 0 ) { if ( depth == 1 || depth == 8 ) { for ( int i = 0; i < _tmpImage.numColors(); ++i ) { TQRgb rgb = _tmpImage.color( i ); TQColor c( rgb ); if ( bright > 0 ) rgb = c.light( 100 + bright ).rgb(); else rgb = c.dark( 100 + abs( bright ) ).rgb(); _tmpImage.setColor( i, rgb ); } } else { int _width = _tmpImage.width(); int _height = _tmpImage.height(); int _x = 0; int _y = 0; for ( _x = 0; _x < _width; ++_x ) { for ( _y = 0; _y < _height; ++_y ) { if ( _tmpImage.valid( _x, _y ) ) { TQRgb rgb = _tmpImage.pixel( _x, _y ); TQColor c( rgb ); if ( bright > 0 ) rgb = c.light( 100 + bright ).rgb(); else rgb = c.dark( 100 + abs( bright ) ).rgb(); _tmpImage.setPixel( _x, _y, rgb ); } } } } } switch (m_effect) { case IE_CHANNEL_INTENSITY: { _tmpImage = KImageEffect::channelIntensity(_tmpImage, m_ie_par1.toDouble()/100.0, static_cast(m_ie_par2.toInt())); break; } case IE_FADE: { _tmpImage = KImageEffect::fade(_tmpImage, m_ie_par1.toDouble(), m_ie_par2.toColor()); break; } case IE_FLATTEN: { _tmpImage = KImageEffect::flatten(_tmpImage, m_ie_par1.toColor(), m_ie_par2.toColor()); break; } case IE_INTENSITY: { _tmpImage = KImageEffect::intensity(_tmpImage, m_ie_par1.toDouble()/100.0); break; } case IE_DESATURATE: { _tmpImage = KImageEffect::desaturate(_tmpImage, m_ie_par1.toDouble()); break; } case IE_CONTRAST: { _tmpImage = KImageEffect::contrast(_tmpImage, m_ie_par1.toInt()); break; } case IE_NORMALIZE: { KImageEffect::normalize(_tmpImage); break; } case IE_EQUALIZE: { KImageEffect::equalize(_tmpImage); break; } case IE_THRESHOLD: { KImageEffect::threshold(_tmpImage, m_ie_par1.toInt()); break; } case IE_SOLARIZE: { KImageEffect::solarize(_tmpImage, m_ie_par1.toDouble()); break; } case IE_EMBOSS: { _tmpImage = KImageEffect::emboss(_tmpImage); break; } case IE_DESPECKLE: { _tmpImage = KImageEffect::despeckle(_tmpImage); break; } case IE_CHARCOAL: { _tmpImage = KImageEffect::charcoal(_tmpImage, m_ie_par1.toDouble()); break; } case IE_NOISE: { _tmpImage = KImageEffect::addNoise(_tmpImage, static_cast(m_ie_par1.toInt())); break; } case IE_BLUR: { _tmpImage = KImageEffect::blur(_tmpImage, m_ie_par1.toDouble()); break; } case IE_EDGE: { _tmpImage = KImageEffect::edge(_tmpImage, m_ie_par1.toDouble()); break; } case IE_IMPLODE: { _tmpImage = KImageEffect::implode(_tmpImage, m_ie_par1.toDouble()); break; } case IE_OIL_PAINT: { _tmpImage = KImageEffect::oilPaint(_tmpImage, m_ie_par1.toInt()); break; } case IE_SHARPEN: { _tmpImage = KImageEffect::sharpen(_tmpImage, m_ie_par1.toDouble()); break; } case IE_SPREAD: { _tmpImage = KImageEffect::spread(_tmpImage, m_ie_par1.toInt()); break; } case IE_SHADE: { _tmpImage = KImageEffect::shade(_tmpImage, m_ie_par1.toBool(), m_ie_par2.toDouble(), m_ie_par3.toDouble()); break; } case IE_SWIRL: { _tmpImage = KImageEffect::swirl(_tmpImage, m_ie_par1.toDouble()); break; } case IE_WAVE: { _tmpImage = KImageEffect::wave(_tmpImage, m_ie_par1.toDouble(), m_ie_par2.toDouble()); break; } case IE_NONE: default: break; } _tmpPixmap.convertFromImage( _tmpImage ); return _tmpPixmap; } void KPrPixmapObject::flip( bool horizontal ) { KPr2DObject::flip( horizontal ); if ( horizontal ) { switch ( mirrorType ) { case PM_NORMAL: mirrorType = PM_HORIZONTAL; break; case PM_HORIZONTAL: mirrorType = PM_NORMAL; break; case PM_VERTICAL: mirrorType = PM_HORIZONTALANDVERTICAL; break; case PM_HORIZONTALANDVERTICAL: mirrorType = PM_VERTICAL; break; } } else { switch ( mirrorType ) { case PM_NORMAL: mirrorType = PM_VERTICAL; break; case PM_HORIZONTAL: mirrorType = PM_HORIZONTALANDVERTICAL; break; case PM_VERTICAL: mirrorType = PM_NORMAL; break; case PM_HORIZONTALANDVERTICAL: mirrorType = PM_HORIZONTAL; break; } } }