/*************************************************************************** * 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. * ***************************************************************************/ // qt / kde includes #include #include #include #include #include #include // local includes #include "pagepainter.h" #include "core/page.h" #include "conf/settings.h" void PagePainter::paintPageOnPainter( const KPDFPage * page, int id, int flags, TQPainter * destPainter, const TQRect & limits, int width, int height ) { TQPixmap * pixmap = 0; // if a pixmap is present for given id, use it if ( page->m_pixmaps.contains( id ) ) pixmap = page->m_pixmaps[ id ]; // else find the closest match using pixmaps of other IDs (great optim!) else if ( !page->m_pixmaps.isEmpty() && width != -1 ) { int minDistance = -1; TQMap< int,TQPixmap * >::const_iterator it = page->m_pixmaps.begin(), end = page->m_pixmaps.end(); for ( ; it != end; ++it ) { int pixWidth = (*it)->width(), distance = pixWidth > width ? pixWidth - width : width - pixWidth; if ( minDistance == -1 || distance < minDistance ) { pixmap = *it; minDistance = distance; } } } // if have no pixmap, draw blank page with gray cross and exit if ( !pixmap ) { TQColor color = TQt::white; if ( KpdfSettings::changeColors() ) { switch ( KpdfSettings::renderMode() ) { case KpdfSettings::EnumRenderMode::Inverted: color = TQt::black; break; case KpdfSettings::EnumRenderMode::Paper: color = KpdfSettings::paperColor(); break; case KpdfSettings::EnumRenderMode::Recolor: color = KpdfSettings::recolorBackground(); break; default: ; } } destPainter->fillRect( limits, color ); // draw a cross (to that the pixmap as not yet been loaded) // helps a lot on pages that take much to render destPainter->setPen( TQt::gray ); destPainter->drawLine( 0, 0, width-1, height-1 ); destPainter->drawLine( 0, height-1, width-1, 0 ); // idea here: draw a hourglass (or kpdf icon :-) on top-left corner return; } // find out what to paint over the pixmap (manipulations / overlays) bool paintAccessibility = (flags & Accessibility) && KpdfSettings::changeColors() && (KpdfSettings::renderMode() != KpdfSettings::EnumRenderMode::Paper); bool paintHighlights = (flags & Highlights) && !page->m_highlights.isEmpty(); bool enhanceLinks = (flags & EnhanceLinks) && KpdfSettings::highlightLinks(); bool enhanceImages = (flags & EnhanceImages) && KpdfSettings::highlightImages(); // check if there are really some highlightRects to paint if ( paintHighlights ) { // precalc normalized 'limits rect' for intersection double nXMin = (double)limits.left() / (double)width, nXMax = (double)limits.right() / (double)width, nYMin = (double)limits.top() / (double)height, nYMax = (double)limits.bottom() / (double)height; // if no rect intersects limits, disable paintHighlights paintHighlights = false; TQValueList< HighlightRect * >::const_iterator hIt = page->m_highlights.begin(), hEnd = page->m_highlights.end(); for ( ; hIt != hEnd; ++hIt ) { if ( (*hIt)->intersects( nXMin, nYMin, nXMax, nYMax ) ) { paintHighlights = true; break; } } } // use backBuffer if 'pixmap direct manipulation' is needed bool backBuffer = paintAccessibility || paintHighlights; TQPixmap * backPixmap = 0; TQPainter * p = destPainter; if ( backBuffer ) { // let's paint using a buffered painter backPixmap = new TQPixmap( limits.width(), limits.height() ); p = new TQPainter( backPixmap ); p->translate( -limits.left(), -limits.top() ); } // 1. fast blit the pixmap if it has the right size.. if ( pixmap->width() == width && pixmap->height() == height ) p->drawPixmap( limits.topLeft(), *pixmap, limits ); // ..else set a scale matrix to the painter and paint a quick 'zoomed' pixmap else { p->save(); // TODO paint only the needed part (note: hope that TQt4 transforms are faster) p->scale( width / (double)pixmap->width(), height / (double)pixmap->height() ); p->drawPixmap( 0,0, *pixmap, 0,0, pixmap->width(), pixmap->height() ); p->restore(); } // 2. mangle pixmap: convert it to 32-bit qimage and perform pixel-level manipulations if ( backBuffer ) { TQImage backImage = backPixmap->convertToImage(); // 2.1. modify pixmap following accessibility settings if ( paintAccessibility ) { switch ( KpdfSettings::renderMode() ) { case KpdfSettings::EnumRenderMode::Inverted: // Invert image pixels using TQImage internal function backImage.invertPixels(false); break; case KpdfSettings::EnumRenderMode::Recolor: // Recolor image using KImageEffect::flatten with dither:0 KImageEffect::flatten( backImage, KpdfSettings::recolorForeground(), KpdfSettings::recolorBackground() ); break; case KpdfSettings::EnumRenderMode::BlackWhite: // Manual Gray and Contrast unsigned int * data = (unsigned int *)backImage.bits(); int val, pixels = backImage.width() * backImage.height(), con = KpdfSettings::bWContrast(), thr = 255 - KpdfSettings::bWThreshold(); for( int i = 0; i < pixels; ++i ) { val = tqGray( 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] = tqRgba( val, val, val, 255 ); } break; } } // 2.2. highlight rects in page if ( paintHighlights ) { // draw highlights that are inside the 'limits' paint region TQValueList< HighlightRect * >::const_iterator hIt = page->m_highlights.begin(), hEnd = page->m_highlights.end(); for ( ; hIt != hEnd; ++hIt ) { HighlightRect * r = *hIt; TQRect highlightRect = r->geometry( width, height ); if ( highlightRect.isValid() && highlightRect.intersects( limits ) ) { // find out the rect to highlight on pixmap highlightRect = highlightRect.intersect( limits ); highlightRect.moveBy( -limits.left(), -limits.top() ); // highlight composition (product: highlight color * destcolor) unsigned int * data = (unsigned int *)backImage.bits(); int val, newR, newG, newB, rh = r->color.red(), gh = r->color.green(), bh = r->color.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 = (tqRed(val) * rh) / 255; newG = (tqGreen(val) * gh) / 255; newB = (tqBlue(val) * bh) / 255; data[ x + offset ] = tqRgba( newR, newG, newB, 255 ); } offset += backImage.width(); } } } } backPixmap->convertFromImage( backImage ); } // 3. visually enchance links and images if requested if ( enhanceLinks || enhanceImages ) { TQColor normalColor = TQApplication::palette().active().highlight(); TQColor lightColor = normalColor.light( 140 ); // enlarging limits for intersection is like growing the 'rectGeometry' below TQRect limitsEnlarged = limits; limitsEnlarged.addCoords( -2, -2, 2, 2 ); // draw rects that are inside the 'limits' paint region as opaque rects TQValueList< ObjectRect * >::const_iterator lIt = page->m_rects.begin(), lEnd = page->m_rects.end(); for ( ; lIt != lEnd; ++lIt ) { ObjectRect * rect = *lIt; if ( (enhanceLinks && rect->objectType() == ObjectRect::Link) || (enhanceImages && rect->objectType() == ObjectRect::Image) ) { TQRect rectGeometry = rect->geometry( width, height ); if ( rectGeometry.intersects( limitsEnlarged ) ) { // expand rect and draw inner border rectGeometry.addCoords( -1,-1,1,1 ); p->setPen( lightColor ); p->drawRect( rectGeometry ); // expand rect to draw outer border rectGeometry.addCoords( -1,-1,1,1 ); p->setPen( normalColor ); p->drawRect( rectGeometry ); } } } } // 4. if was backbuffering, copy the backPixmap to destination if ( backBuffer ) { delete p; destPainter->drawPixmap( limits.left(), limits.top(), *backPixmap ); delete backPixmap; } }