/*************************************************************************** * Copyright (C) 2005 by Enrico Ros * * * * 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. * ***************************************************************************/ #include "pagepainter.h" // qt / kde includes #include #include #include #include #include #include #include #include #include // system includes #include // local includes #include "core/area.h" #include "core/page.h" #include "core/annotations.h" #include "core/utils.h" #include "guiutils.h" #include "settings.h" K_GLOBAL_STATIC_WITH_ARGS( QPixmap, busyPixmap, ( KIconLoader::global()->loadIcon("graphics-viewer-document", KIconLoader::NoGroup, 32, KIconLoader::DefaultState, QStringList(), 0, true) ) ) #define TEXTANNOTATION_ICONSIZE 24 void PagePainter::paintPageOnPainter( QPainter * destPainter, const Okular::Page * page, int pixID, int flags, int scaledWidth, int scaledHeight, const QRect &limits ) { /** 1 - RETRIEVE THE 'PAGE+ID' PIXMAP OR A SIMILAR 'PAGE' ONE **/ const QPixmap * pixmap = page->_o_nearestPixmap( pixID, scaledWidth, scaledHeight ); QColor color = Qt::white; if ( Okular::Settings::changeColors() ) { switch ( Okular::Settings::renderMode() ) { case Okular::Settings::EnumRenderMode::Inverted: color = Qt::black; break; case Okular::Settings::EnumRenderMode::Paper: color = Okular::Settings::paperColor(); break; case Okular::Settings::EnumRenderMode::Recolor: color = Okular::Settings::recolorBackground(); break; default: ; } } destPainter->fillRect( limits, color ); /** 1B - IF NO PIXMAP, DRAW EMPTY PAGE **/ double pixmapRescaleRatio = pixmap ? scaledWidth / (double)pixmap->width() : -1; long pixmapPixels = pixmap ? (long)pixmap->width() * (long)pixmap->height() : 0; if ( !pixmap || pixmapRescaleRatio > 20.0 || pixmapRescaleRatio < 0.25 || (scaledWidth != pixmap->width() && pixmapPixels > 6000000L) ) { // draw something on the blank page: the okular icon or a cross (as a fallback) if ( !busyPixmap->isNull() ) { destPainter->drawPixmap( QPoint( 10, 10 ), *busyPixmap ); } else { destPainter->setPen( Qt::gray ); destPainter->drawLine( 0, 0, scaledWidth-1, scaledHeight-1 ); destPainter->drawLine( 0, scaledHeight-1, scaledWidth-1, 0 ); } return; } /** 2 - FIND OUT WHAT TO PAINT (Flags + Configuration + Presence) **/ bool canDrawHighlights = (flags & Highlights) && !page->m_highlights.isEmpty(); bool canDrawTextSelection = (flags & TextSelection) && page->textSelection(); bool canDrawAnnotations = (flags & Annotations) && !page->m_annotations.isEmpty(); bool enhanceLinks = (flags & EnhanceLinks) && Okular::Settings::highlightLinks(); bool enhanceImages = (flags & EnhanceImages) && Okular::Settings::highlightImages(); // vectors containing objects to draw // make this a qcolor, rect map, since we don't need // to know s_id here! we are only drawing this right? QList< QPair > * bufferedHighlights = 0; QList< Okular::Annotation * > * bufferedAnnotations = 0; QList< Okular::Annotation * > * unbufferedAnnotations = 0; // fill up lists with visible annotation/highlight objects/text selections if ( canDrawHighlights || canDrawTextSelection || canDrawAnnotations ) { // precalc normalized 'limits rect' for intersection double nXMin = (double)limits.left() / (double)scaledWidth, nXMax = (double)limits.right() / (double)scaledWidth, nYMin = (double)limits.top() / (double)scaledHeight, nYMax = (double)limits.bottom() / (double)scaledHeight; // append all highlights inside limits to their list if ( canDrawHighlights ) { if ( !bufferedHighlights ) bufferedHighlights = new QList< QPair >(); /* else {*/ Okular::NormalizedRect* limitRect = new Okular::NormalizedRect(nXMin, nYMin, nXMax, nYMax ); QLinkedList< Okular::HighlightAreaRect * >::const_iterator h2It = page->m_highlights.begin(), hEnd = page->m_highlights.end(); Okular::HighlightAreaRect::const_iterator hIt; for ( ; h2It != hEnd; ++h2It ) for (hIt=(*h2It)->begin(); hIt!=(*h2It)->end(); ++hIt) { if ((*hIt).intersects(limitRect)) bufferedHighlights->append( qMakePair((*h2It)->color,*hIt) ); } delete limitRect; //} } if ( canDrawTextSelection ) { if ( !bufferedHighlights ) bufferedHighlights = new QList< QPair >(); /* else {*/ Okular::NormalizedRect* limitRect = new Okular::NormalizedRect(nXMin, nYMin, nXMax, nYMax ); const Okular::RegularAreaRect *textSelection = page->textSelection(); Okular::HighlightAreaRect::const_iterator hIt = textSelection->begin(), hEnd = textSelection->end(); for ( ; hIt != hEnd; ++hIt ) { if ( (*hIt).intersects( limitRect ) ) bufferedHighlights->append( qMakePair( page->textSelectionColor(), *hIt ) ); } delete limitRect; //} } // append annotations inside limits to the un/buffered list if ( canDrawAnnotations ) { QLinkedList< Okular::Annotation * >::const_iterator aIt = page->m_annotations.begin(), aEnd = page->m_annotations.end(); for ( ; aIt != aEnd; ++aIt ) { Okular::Annotation * ann = *aIt; if ( ann->flags() & ( Okular::Annotation::Hidden /*| Okular::Annotation::External*/ ) ) continue; bool intersects = ann->transformedBoundingRectangle().intersects( nXMin, nYMin, nXMax, nYMax ); if ( ann->subType() == Okular::Annotation::AText ) { Okular::TextAnnotation * ta = static_cast< Okular::TextAnnotation * >( ann ); if ( ta->textType() == Okular::TextAnnotation::Linked ) { Okular::NormalizedRect iconrect( ann->transformedBoundingRectangle().left, ann->transformedBoundingRectangle().top, ann->transformedBoundingRectangle().left + TEXTANNOTATION_ICONSIZE / page->width(), ann->transformedBoundingRectangle().top + TEXTANNOTATION_ICONSIZE / page->height() ); intersects = iconrect.intersects( nXMin, nYMin, nXMax, nYMax ); } } if ( intersects ) { Okular::Annotation::SubType type = ann->subType(); if ( type == Okular::Annotation::ALine || type == Okular::Annotation::AHighlight || type == Okular::Annotation::AInk /*|| (type == Annotation::AGeom && ann->style().opacity() < 0.99)*/ ) { if ( !bufferedAnnotations ) bufferedAnnotations = new QList< Okular::Annotation * >(); bufferedAnnotations->append( ann ); } else { if ( !unbufferedAnnotations ) unbufferedAnnotations = new QList< Okular::Annotation * >(); unbufferedAnnotations->append( ann ); } } } } // end of intersections checking } /** 3 - ENABLE BACKBUFFERING IF DIRECT IMAGE MANIPULATION IS NEEDED **/ bool bufferAccessibility = (flags & Accessibility) && Okular::Settings::changeColors() && (Okular::Settings::renderMode() != Okular::Settings::EnumRenderMode::Paper); bool useBackBuffer = bufferAccessibility || bufferedHighlights || bufferedAnnotations; QPixmap * backPixmap = 0; QPainter * mixedPainter = 0; /** 4A -- REGULAR FLOW. PAINT PIXMAP NORMAL OR RESCALED USING GIVEN QPAINTER **/ if ( !useBackBuffer ) { // 4A.1. if size is ok, draw the page pixmap using painter if ( pixmap->width() == scaledWidth && pixmap->height() == scaledHeight ) destPainter->drawPixmap( limits.topLeft(), *pixmap, limits ); // else draw a scaled portion of the magnified pixmap else { QImage destImage; scalePixmapOnImage( destImage, pixmap, scaledWidth, scaledHeight, limits ); destPainter->drawImage( limits.left(), limits.top(), destImage, 0, 0, limits.width(),limits.height() ); } // 4A.2. active painter is the one passed to this method mixedPainter = destPainter; } /** 4B -- BUFFERED FLOW. IMAGE PAINTING + OPERATIONS. QPAINTER OVER PIXMAP **/ else { // the image over which we are going to draw QImage backImage; // 4B.1. draw the page pixmap: normal or scaled if ( pixmap->width() == scaledWidth && pixmap->height() == scaledHeight ) cropPixmapOnImage( backImage, pixmap, limits ); else scalePixmapOnImage( backImage, pixmap, scaledWidth, scaledHeight, limits ); // 4B.2. modify pixmap following accessibility settings if ( bufferAccessibility ) { switch ( Okular::Settings::renderMode() ) { case Okular::Settings::EnumRenderMode::Inverted: // Invert image pixels using QImage internal function backImage.invertPixels(QImage::InvertRgb); break; case Okular::Settings::EnumRenderMode::Recolor: // Recolor image using Blitz::flatten with dither:0 Blitz::flatten( backImage, Okular::Settings::recolorForeground(), Okular::Settings::recolorBackground() ); break; case Okular::Settings::EnumRenderMode::BlackWhite: // Manual Gray and Contrast unsigned int * data = (unsigned int *)backImage.bits(); int val, pixels = backImage.width() * backImage.height(), con = Okular::Settings::bWContrast(), thr = 255 - Okular::Settings::bWThreshold(); for( int i = 0; i < pixels; ++i ) { val = qGray( data[i] ); if ( val > thr ) val = 128 + (127 * (val - thr)) / (255 - thr); else if ( val < thr ) val = (128 * val) / thr; if ( con > 2 ) { val = con * ( val - thr ) / 2 + thr; if ( val > 255 ) val = 255; else if ( val < 0 ) val = 0; } data[i] = qRgba( val, val, val, 255 ); } break; } } // 4B.3. highlight rects in page if ( bufferedHighlights ) { // draw highlights that are inside the 'limits' paint region QList< QPair >::const_iterator hIt = bufferedHighlights->begin(), hEnd = bufferedHighlights->end(); for ( ; hIt != hEnd; ++hIt ) { const Okular::NormalizedRect & r = (*hIt).second; // find out the rect to highlight on pixmap QRect highlightRect = r.geometry( scaledWidth, scaledHeight ).intersect( limits ); highlightRect.translate( -limits.left(), -limits.top() ); // highlight composition (product: highlight color * destcolor) unsigned int * data = (unsigned int *)backImage.bits(); int val, newR, newG, newB, rh = (*hIt).first.red(), gh = (*hIt).first.green(), bh = (*hIt).first.blue(), offset = highlightRect.top() * backImage.width(); for( int y = highlightRect.top(); y <= highlightRect.bottom(); ++y ) { for( int x = highlightRect.left(); x <= highlightRect.right(); ++x ) { val = data[ x + offset ]; newR = (qRed(val) * rh) / 255; newG = (qGreen(val) * gh) / 255; newB = (qBlue(val) * bh) / 255; data[ x + offset ] = qRgba( newR, newG, newB, 255 ); } offset += backImage.width(); } } } // 4B.4. paint annotations [COMPOSITED ONES] if ( bufferedAnnotations ) { // Albert: This is quite "heavy" but all the backImage that reach here are QImage::Format_ARGB32_Premultiplied // and have to be so that the QPainter::CompositionMode_Multiply works // we could also put a // backImage = backImage.convertToFormat(QImage::Format_ARGB32_Premultiplied) // that would be almost a noop, but we'll leave the assert for now Q_ASSERT(backImage.format() == QImage::Format_ARGB32_Premultiplied); // precalc costants for normalizing the quads to the image double pageScale = (double)scaledWidth / page->width(); double xOffset = (double)limits.left() / (double)scaledWidth, xScale = (double)scaledWidth / (double)limits.width(), yOffset = (double)limits.top() / (double)scaledHeight, yScale = (double)scaledHeight / (double)limits.height(); // paint all buffered annotations in the page QList< Okular::Annotation * >::const_iterator aIt = bufferedAnnotations->begin(), aEnd = bufferedAnnotations->end(); for ( ; aIt != aEnd; ++aIt ) { Okular::Annotation * a = *aIt; Okular::Annotation::SubType type = a->subType(); QColor acolor( a->style().color().red(), a->style().color().green(), a->style().color().blue(), (int)( 255.0 * a->style().opacity() ) ); // draw LineAnnotation MISSING: all if ( type == Okular::Annotation::ALine ) { // get the annotation Okular::LineAnnotation * la = (Okular::LineAnnotation *) a; NormalizedPath path; // normalize page point to image const QLinkedList points = la->transformedLinePoints(); QLinkedList::const_iterator it = points.begin(); QLinkedList::const_iterator itEnd = points.end(); for ( ; it != itEnd; ++it ) { Okular::NormalizedPoint point; point.x = ( (*it).x - xOffset) * xScale; point.y = ( (*it).y - yOffset) * yScale; path.append( point ); } // draw the line as normalized path into image drawShapeOnImage( backImage, path, la->lineClosed(), QPen( a->style().color(), a->style().width() ), QBrush(), pageScale ,Multiply); if ( path.count() == 2 && fabs( la->lineLeadingForwardPoint() ) > 0.1 ) { Okular::NormalizedPoint delta( la->transformedLinePoints().last().x - la->transformedLinePoints().first().x, la->transformedLinePoints().first().y - la->transformedLinePoints().last().y ); double angle = atan2( delta.y, delta.x ); if ( delta.y < 0 ) angle += 2 * M_PI; int sign = la->lineLeadingForwardPoint() > 0.0 ? 1 : -1; double LLx = fabs( la->lineLeadingForwardPoint() ) * cos( angle + sign * M_PI_2 + 2 * M_PI ) / page->width(); double LLy = fabs( la->lineLeadingForwardPoint() ) * sin( angle + sign * M_PI_2 + 2 * M_PI ) / page->height(); NormalizedPath path2; NormalizedPath path3; Okular::NormalizedPoint point; point.x = ( la->transformedLinePoints().first().x + LLx - xOffset ) * xScale; point.y = ( la->transformedLinePoints().first().y - LLy - yOffset ) * yScale; path2.append( point ); point.x = ( la->transformedLinePoints().last().x + LLx - xOffset ) * xScale; point.y = ( la->transformedLinePoints().last().y - LLy - yOffset ) * yScale; path3.append( point ); // do we have the extension on the "back"? if ( fabs( la->lineLeadingBackwardPoint() ) > 0.1 ) { double LLEx = la->lineLeadingBackwardPoint() * cos( angle - sign * M_PI_2 + 2 * M_PI ) / page->width(); double LLEy = la->lineLeadingBackwardPoint() * sin( angle - sign * M_PI_2 + 2 * M_PI ) / page->height(); point.x = ( la->transformedLinePoints().first().x + LLEx - xOffset ) * xScale; point.y = ( la->transformedLinePoints().first().y - LLEy - yOffset ) * yScale; path2.append( point ); point.x = ( la->transformedLinePoints().last().x + LLEx - xOffset ) * xScale; point.y = ( la->transformedLinePoints().last().y - LLEy - yOffset ) * yScale; path3.append( point ); } else { path2.append( path[0] ); path3.append( path[1] ); } drawShapeOnImage( backImage, path2, false, QPen( a->style().color(), a->style().width() ), QBrush(), pageScale, Multiply ); drawShapeOnImage( backImage, path3, false, QPen( a->style().color(), a->style().width() ), QBrush(), pageScale, Multiply ); } } // draw HighlightAnnotation MISSING: under/strike width, feather, capping else if ( type == Okular::Annotation::AHighlight ) { // get the annotation Okular::HighlightAnnotation * ha = (Okular::HighlightAnnotation *) a; Okular::HighlightAnnotation::HighlightType type = ha->highlightType(); // draw each quad of the annotation int quads = ha->highlightQuads().size(); for ( int q = 0; q < quads; q++ ) { NormalizedPath path; const Okular::HighlightAnnotation::Quad & quad = ha->highlightQuads()[ q ]; // normalize page point to image for ( int i = 0; i < 4; i++ ) { Okular::NormalizedPoint point; point.x = (quad.transformedPoint( i ).x - xOffset) * xScale; point.y = (quad.transformedPoint( i ).y - yOffset) * yScale; path.append( point ); } // draw the normalized path into image switch ( type ) { // highlight the whole rect case Okular::HighlightAnnotation::Highlight: drawShapeOnImage( backImage, path, true, Qt::NoPen, acolor, pageScale, Multiply ); break; // highlight the bottom part of the rect case Okular::HighlightAnnotation::Squiggly: path[ 3 ].x = ( path[ 0 ].x + path[ 3 ].x ) / 2.0; path[ 3 ].y = ( path[ 0 ].y + path[ 3 ].y ) / 2.0; path[ 2 ].x = ( path[ 1 ].x + path[ 2 ].x ) / 2.0; path[ 2 ].y = ( path[ 1 ].y + path[ 2 ].y ) / 2.0; drawShapeOnImage( backImage, path, true, Qt::NoPen, acolor, pageScale, Multiply ); break; // make a line at 3/4 of the height case Okular::HighlightAnnotation::Underline: path[ 0 ].x = ( 3 * path[ 0 ].x + path[ 3 ].x ) / 4.0; path[ 0 ].y = ( 3 * path[ 0 ].y + path[ 3 ].y ) / 4.0; path[ 1 ].x = ( 3 * path[ 1 ].x + path[ 2 ].x ) / 4.0; path[ 1 ].y = ( 3 * path[ 1 ].y + path[ 2 ].y ) / 4.0; path.pop_back(); path.pop_back(); drawShapeOnImage( backImage, path, false, QPen( acolor, 2 ), QBrush(), pageScale ); break; // make a line at 1/2 of the height case Okular::HighlightAnnotation::StrikeOut: path[ 0 ].x = ( path[ 0 ].x + path[ 3 ].x ) / 2.0; path[ 0 ].y = ( path[ 0 ].y + path[ 3 ].y ) / 2.0; path[ 1 ].x = ( path[ 1 ].x + path[ 2 ].x ) / 2.0; path[ 1 ].y = ( path[ 1 ].y + path[ 2 ].y ) / 2.0; path.pop_back(); path.pop_back(); drawShapeOnImage( backImage, path, false, QPen( acolor, 2 ), QBrush(), pageScale ); break; } } } // draw InkAnnotation MISSING:invar width, PENTRACER else if ( type == Okular::Annotation::AInk ) { // get the annotation Okular::InkAnnotation * ia = (Okular::InkAnnotation *) a; // draw each ink path const QList< QLinkedList > transformedInkPaths = ia->transformedInkPaths(); int paths = transformedInkPaths.size(); for ( int p = 0; p < paths; p++ ) { NormalizedPath path; const QLinkedList & inkPath = transformedInkPaths[ p ]; // normalize page point to image QLinkedList::const_iterator pIt = inkPath.begin(), pEnd = inkPath.end(); for ( ; pIt != pEnd; ++pIt ) { const Okular::NormalizedPoint & inkPoint = *pIt; Okular::NormalizedPoint point; point.x = (inkPoint.x - xOffset) * xScale; point.y = (inkPoint.y - yOffset) * yScale; path.append( point ); } // draw the normalized path into image drawShapeOnImage( backImage, path, false, QPen( acolor, a->style().width() ), QBrush(), pageScale ); } } } // end current annotation drawing } // 4B.5. create the back pixmap converting from the local image backPixmap = new QPixmap( QPixmap::fromImage( backImage ) ); // 4B.6. create a painter over the pixmap and set it as the active one mixedPainter = new QPainter( backPixmap ); mixedPainter->translate( -limits.left(), -limits.top() ); } /** 5 -- MIXED FLOW. Draw ANNOTATIONS [OPAQUE ONES] on ACTIVE PAINTER **/ if ( unbufferedAnnotations ) { // iterate over annotations and paint AText, AGeom, AStamp QList< Okular::Annotation * >::const_iterator aIt = unbufferedAnnotations->begin(), aEnd = unbufferedAnnotations->end(); for ( ; aIt != aEnd; ++aIt ) { Okular::Annotation * a = *aIt; // honor opacity settings on supported types unsigned int opacity = (unsigned int)( 255.0 * a->style().opacity() ); // skip the annotation drawing if all the annotation is fully // transparent, but not with text annotations if ( opacity <= 0 && a->subType() != Okular::Annotation::AText ) continue; // get annotation boundary and drawn rect QRect annotBoundary = a->transformedBoundingRectangle().geometry( scaledWidth, scaledHeight ); QRect annotRect = annotBoundary.intersect( limits ); QRect innerRect( annotRect.left() - annotBoundary.left(), annotRect.top() - annotBoundary.top(), annotRect.width(), annotRect.height() ); Okular::Annotation::SubType type = a->subType(); // draw TextAnnotation if ( type == Okular::Annotation::AText ) { Okular::TextAnnotation * text = (Okular::TextAnnotation *)a; if ( text->textType() == Okular::TextAnnotation::InPlace ) { QImage image( annotBoundary.size(), QImage::Format_ARGB32 ); image.fill( qRgba( a->style().color().red(), a->style().color().green(), a->style().color().blue(), opacity ) ); QPainter painter( &image ); painter.setPen( Qt::black ); painter.setFont( text->textFont() ); Qt::AlignmentFlag halign = ( text->inplaceAlignment() == 1 ? Qt::AlignHCenter : ( text->inplaceAlignment() == 2 ? Qt::AlignRight : Qt::AlignLeft ) ); painter.scale( 1.0 * scaledWidth / page->width(), 1.0 * scaledHeight / page->height() ); painter.drawText( 2, 2, image.width() - 2, image.height() - 2, Qt::AlignTop | halign | Qt::TextWordWrap, text->inplaceText() ); painter.resetTransform(); painter.drawRect( 0, 0, image.width() - 1, image.height() - 1 ); painter.end(); mixedPainter->drawImage( annotBoundary.topLeft(), image ); } else if ( text->textType() == Okular::TextAnnotation::Linked ) { // get pixmap, colorize and alpha-blend it QString path; QPixmap pixmap = GuiUtils::iconLoader()->loadIcon( text->textIcon().toLower(), KIconLoader::User, 32, KIconLoader::DefaultState, QStringList(), &path, true ); if ( path.isEmpty() ) pixmap = GuiUtils::iconLoader()->loadIcon( text->textIcon().toLower(), KIconLoader::NoGroup, 32 ); QImage scaledImage; QRect annotBoundary2 = QRect( annotBoundary.topLeft(), QSize( TEXTANNOTATION_ICONSIZE, TEXTANNOTATION_ICONSIZE ) ); QRect annotRect2 = annotBoundary2.intersect( limits ); QRect innerRect2( annotRect2.left() - annotBoundary2.left(), annotRect2.top() - annotBoundary2.top(), annotRect2.width(), annotRect2.height() ); scalePixmapOnImage( scaledImage, &pixmap, TEXTANNOTATION_ICONSIZE, TEXTANNOTATION_ICONSIZE, innerRect2, QImage::Format_ARGB32 ); // if the annotation color is valid (ie it was set), then // use it to colorize the icon, otherwise the icon will be // "gray" if ( a->style().color().isValid() ) colorizeImage( scaledImage, a->style().color(), opacity ); pixmap = QPixmap::fromImage( scaledImage ); // draw the mangled image to painter mixedPainter->drawPixmap( annotRect.topLeft(), pixmap ); } } // draw StampAnnotation else if ( type == Okular::Annotation::AStamp ) { Okular::StampAnnotation * stamp = (Okular::StampAnnotation *)a; // get pixmap and alpha blend it if needed QString path; QPixmap pixmap = GuiUtils::iconLoader()->loadIcon( stamp->stampIconName().toLower(), KIconLoader::User, qMin( annotBoundary.width(), annotBoundary.height() ), KIconLoader::DefaultState, QStringList(), &path, true ); if ( path.isEmpty() ) pixmap = GuiUtils::iconLoader()->loadIcon( stamp->stampIconName().toLower(), KIconLoader::NoGroup, qMin( annotBoundary.width(), annotBoundary.height() ) ); QImage scaledImage; scalePixmapOnImage( scaledImage, &pixmap, annotBoundary.width(), annotBoundary.height(), innerRect, QImage::Format_ARGB32 ); if ( opacity < 255 ) changeImageAlpha( scaledImage, opacity ); pixmap = QPixmap::fromImage( scaledImage ); // draw the scaled and al mixedPainter->drawPixmap( annotRect.topLeft(), pixmap ); } // draw GeomAnnotation else if ( type == Okular::Annotation::AGeom ) { Okular::GeomAnnotation * geom = (Okular::GeomAnnotation *)a; QImage shape( annotBoundary.size(), QImage::Format_ARGB32 ); shape.fill( qRgba( 0, 0, 0, 0 ) ); // width is already divided by two double width = geom->geometricalPointWidth() * Okular::Utils::dpiX() / ( 72.0 * 2.0 ) * scaledWidth / page->width(); QPainter p( &shape ); p.setPen( QPen( QBrush( QColor( a->style().color().red(), a->style().color().green(), a->style().color().blue(), opacity ) ), width * 2, Qt::SolidLine, Qt::SquareCap, Qt::MiterJoin ) ); QRectF r( .0, .0, annotBoundary.width(), annotBoundary.height() ); r.adjust( width, width, -width, -width ); if ( geom->geometricalType() == Okular::GeomAnnotation::InscribedSquare ) p.drawRect( r ); else p.drawEllipse( r ); if ( geom->geometricalInnerColor().isValid() ) { p.setPen( Qt::NoPen ); const QColor color = geom->geometricalInnerColor(); p.setBrush( QColor( color.red(), color.green(), color.blue(), opacity ) ); r.adjust( width, width, -width, -width ); if ( geom->geometricalType() == Okular::GeomAnnotation::InscribedSquare ) p.drawRect( r ); else p.drawEllipse( r ); } p.end(); mixedPainter->drawImage( annotBoundary.topLeft(), shape ); } // draw extents rectangle if ( Okular::Settings::debugDrawAnnotationRect() ) { mixedPainter->setPen( a->style().color() ); mixedPainter->drawRect( annotBoundary ); } } } /** 6 -- MIXED FLOW. Draw LINKS+IMAGES BORDER on ACTIVE PAINTER **/ if ( enhanceLinks || enhanceImages ) { mixedPainter->save(); mixedPainter->scale( scaledWidth, scaledHeight ); QColor normalColor = QApplication::palette().color( QPalette::Active, QPalette::Highlight ); QColor lightColor = normalColor.light( 140 ); // enlarging limits for intersection is like growing the 'rectGeometry' below QRect limitsEnlarged = limits; limitsEnlarged.adjust( -2, -2, 2, 2 ); // draw rects that are inside the 'limits' paint region as opaque rects QLinkedList< Okular::ObjectRect * >::const_iterator lIt = page->m_rects.begin(), lEnd = page->m_rects.end(); for ( ; lIt != lEnd; ++lIt ) { Okular::ObjectRect * rect = *lIt; if ( (enhanceLinks && rect->objectType() == Okular::ObjectRect::Action) || (enhanceImages && rect->objectType() == Okular::ObjectRect::Image) ) { if ( limitsEnlarged.intersects( rect->boundingRect( scaledWidth, scaledHeight ) ) ) { mixedPainter->strokePath( rect->region(), QPen( normalColor ) ); } } } mixedPainter->restore(); } /** 7 -- BUFFERED FLOW. Copy BACKPIXMAP on DESTINATION PAINTER **/ if ( useBackBuffer ) { delete mixedPainter; destPainter->drawPixmap( limits.left(), limits.top(), *backPixmap ); delete backPixmap; } // delete object containers delete bufferedHighlights; delete bufferedAnnotations; delete unbufferedAnnotations; } /** Private Helpers :: Pixmap conversion **/ void PagePainter::cropPixmapOnImage( QImage & dest, const QPixmap * src, const QRect & r ) { // handle quickly the case in which the whole pixmap has to be converted if ( r == QRect( 0, 0, src->width(), src->height() ) ) { dest = src->toImage(); dest = dest.convertToFormat(QImage::Format_ARGB32_Premultiplied); } // else copy a portion of the src to an internal pixmap (smaller) and convert it else { QImage croppedImage( r.width(), r.height(), QImage::Format_ARGB32_Premultiplied ); QPainter p( &croppedImage ); p.drawPixmap( 0, 0, *src, r.left(), r.top(), r.width(), r.height() ); dest = croppedImage; } } void PagePainter::scalePixmapOnImage ( QImage & dest, const QPixmap * src, int scaledWidth, int scaledHeight, const QRect & cropRect, QImage::Format format ) { // {source, destination, scaling} params int srcWidth = src->width(), srcHeight = src->height(), destLeft = cropRect.left(), destTop = cropRect.top(), destWidth = cropRect.width(), destHeight = cropRect.height(); // destination image (same geometry as the pageLimits rect) dest = QImage( destWidth, destHeight, format ); unsigned int * destData = (unsigned int *)dest.bits(); // source image (1:1 conversion from pixmap) QImage srcImage = src->toImage(); unsigned int * srcData = (unsigned int *)srcImage.bits(); // precalc the x correspondancy conversion in a lookup table QVarLengthArray xOffset( destWidth ); for ( int x = 0; x < destWidth; x++ ) xOffset[ x ] = ((x + destLeft) * srcWidth) / scaledWidth; // for each pixel of the destination image apply the color of the // corresponsing pixel on the source image (note: keep parenthesis) for ( int y = 0; y < destHeight; y++ ) { unsigned int srcOffset = srcWidth * (((destTop + y) * srcHeight) / scaledHeight); for ( int x = 0; x < destWidth; x++ ) (*destData++) = srcData[ srcOffset + xOffset[x] ]; } } /** Private Helpers :: Image Drawing **/ // from Arthur - qt4 inline int qt_div_255(int x) { return (x + (x>>8) + 0x80) >> 8; } void PagePainter::changeImageAlpha( QImage & image, unsigned int destAlpha ) { // iterate over all pixels changing the alpha component value unsigned int * data = (unsigned int *)image.bits(); unsigned int pixels = image.width() * image.height(); int source, sourceAlpha; for( register unsigned int i = 0; i < pixels; ++i ) { // optimize this loop keeping byte order into account source = data[i]; if ( (sourceAlpha = qAlpha( source )) == 255 ) { // use destAlpha data[i] = qRgba( qRed(source), qGreen(source), qBlue(source), destAlpha ); } else { // use destAlpha * sourceAlpha product sourceAlpha = qt_div_255( destAlpha * sourceAlpha ); data[i] = qRgba( qRed(source), qGreen(source), qBlue(source), sourceAlpha ); } } } void PagePainter::colorizeImage( QImage & grayImage, const QColor & color, unsigned int destAlpha ) { // iterate over all pixels changing the alpha component value unsigned int * data = (unsigned int *)grayImage.bits(); unsigned int pixels = grayImage.width() * grayImage.height(); int red = color.red(), green = color.green(), blue = color.blue(); int source, sourceSat, sourceAlpha; for( register unsigned int i = 0; i < pixels; ++i ) { // optimize this loop keeping byte order into account source = data[i]; sourceSat = qRed( source ); int newR = qt_div_255( sourceSat * red ), newG = qt_div_255( sourceSat * green ), newB = qt_div_255( sourceSat * blue ); if ( (sourceAlpha = qAlpha( source )) == 255 ) { // use destAlpha data[i] = qRgba( newR, newG, newB, destAlpha ); } else { // use destAlpha * sourceAlpha product if ( destAlpha < 255 ) sourceAlpha = qt_div_255( destAlpha * sourceAlpha ); data[i] = qRgba( newR, newG, newB, sourceAlpha ); } } } void PagePainter::drawShapeOnImage( QImage & image, const NormalizedPath & normPath, bool closeShape, const QPen & pen, const QBrush & brush, double penWidthMultiplier, RasterOperation op //float antiAliasRadius ) { // safety checks int pointsNumber = normPath.size(); if ( pointsNumber < 2 ) return; int imageWidth = image.width(); int imageHeight = image.height(); double fImageWidth = (double)imageWidth; double fImageHeight = (double)imageHeight; // stroke outline double penWidth = (double)pen.width() * penWidthMultiplier; QPainter painter(&image); painter.setRenderHint(QPainter::Antialiasing); QPen pen2 = pen; pen2.setWidthF(penWidth); painter.setPen(pen2); painter.setBrush(brush); if (op == Multiply) { painter.setCompositionMode(QPainter::CompositionMode_Multiply); } if ( brush.style() == Qt::NoBrush ) { // create a polygon QPolygonF poly( closeShape ? pointsNumber + 1 : pointsNumber ); for ( int i = 0; i < pointsNumber; ++i ) { poly[ i ] = QPointF( normPath[ i ].x * fImageWidth, normPath[ i ].y * fImageHeight ); } if ( closeShape ) poly[ pointsNumber ] = poly[ 0 ]; painter.drawPolyline( poly ); } else { // create a 'path' QPainterPath path; path.moveTo( normPath[ 0 ].x * fImageWidth, normPath[ 0 ].y * fImageHeight ); for ( int i = 1; i < pointsNumber; i++ ) { path.lineTo( normPath[ i ].x * fImageWidth, normPath[ i ].y * fImageHeight ); } if ( closeShape ) path.closeSubpath(); painter.drawPath( path ); } }