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okular/ui/guiutils.cpp

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/***************************************************************************
* Copyright (C) 2006-2007 by Pino Toscano <pino@kde.org> *
* *
* 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 "guiutils.h"
// qt/kde includes
#include <QPainter>
#include <QSvgRenderer>
#include <QTextDocument>
#include <QFileDialog>
#include <QStandardPaths>
#include <KIconLoader>
#include <KMessageBox>
#include <KLocalizedString>
// local includes
#include "core/action.h"
#include "core/annotations.h"
#include "core/document.h"
#include <memory>
struct GuiUtilsHelper
{
GuiUtilsHelper()
{
}
QSvgRenderer* svgStamps();
QList<KIconLoader *> il;
std::unique_ptr< QSvgRenderer > svgStampFile;
};
QSvgRenderer* GuiUtilsHelper::svgStamps()
{
if ( !svgStampFile.get() )
{
const QString stampFile = QStandardPaths::locate(QStandardPaths::GenericDataLocation, QStringLiteral("okular/pics/stamps.svg") );
if ( !stampFile.isEmpty() )
{
svgStampFile.reset( new QSvgRenderer( stampFile ) );
if ( !svgStampFile->isValid() )
{
svgStampFile.reset();
}
}
}
return svgStampFile.get();
}
Q_GLOBAL_STATIC( GuiUtilsHelper, s_data )
namespace GuiUtils {
QString captionForAnnotation( const Okular::Annotation * ann )
{
Q_ASSERT( ann );
QString ret;
switch( ann->subType() )
{
case Okular::Annotation::AText:
if( ( (Okular::TextAnnotation*)ann )->textType() == Okular::TextAnnotation::Linked )
ret = i18n( "Pop-up Note" );
else
ret = i18n( "Inline Note" );
break;
case Okular::Annotation::ALine:
if( ( (Okular::LineAnnotation*)ann )->linePoints().count() == 2 )
ret = i18n( "Straight Line" );
else
ret = i18n( "Polygon" );
break;
case Okular::Annotation::AGeom:
ret = i18n( "Geometry" );
break;
case Okular::Annotation::AHighlight:
switch ( ( (Okular::HighlightAnnotation*)ann )->highlightType() )
{
case Okular::HighlightAnnotation::Highlight:
ret = i18n( "Highlight" );
break;
case Okular::HighlightAnnotation::Squiggly:
ret = i18n( "Squiggle" );
break;
case Okular::HighlightAnnotation::Underline:
ret = i18n( "Underline" );
break;
case Okular::HighlightAnnotation::StrikeOut:
ret = i18n( "Strike Out" );
break;
}
break;
case Okular::Annotation::AStamp:
ret = i18n( "Stamp" );
break;
case Okular::Annotation::AInk:
ret = i18n( "Freehand Line" );
break;
case Okular::Annotation::ACaret:
ret = i18n( "Caret" );
break;
case Okular::Annotation::AFileAttachment:
ret = i18n( "File Attachment" );
break;
case Okular::Annotation::ASound:
ret = i18n( "Sound" );
break;
case Okular::Annotation::AMovie:
ret = i18n( "Movie" );
break;
case Okular::Annotation::AScreen:
ret = i18nc( "Caption for a screen annotation", "Screen" );
break;
case Okular::Annotation::AWidget:
ret = i18nc( "Caption for a widget annotation", "Widget" );
break;
case Okular::Annotation::ARichMedia:
ret = i18nc( "Caption for a rich media annotation", "Rich Media" );
break;
case Okular::Annotation::A_BASE:
break;
}
return ret;
}
QString authorForAnnotation( const Okular::Annotation * ann )
{
Q_ASSERT( ann );
return !ann->author().isEmpty() ? ann->author() : i18nc( "Unknown author", "Unknown" );
}
QString contentsHtml( const Okular::Annotation * ann )
{
QString text = ann->contents().toHtmlEscaped();
text.replace( QLatin1Char('\n'), QLatin1String("<br>") );
return text;
}
QString prettyToolTip( const Okular::Annotation * ann )
{
Q_ASSERT( ann );
QString author = authorForAnnotation( ann );
QString contents = contentsHtml( ann );
QString tooltip = QStringLiteral( "<qt><b>" ) + i18n( "Author: %1", author ) + QStringLiteral( "</b>" );
if ( !contents.isEmpty() )
tooltip += QStringLiteral( "<div style=\"font-size: 4px;\"><hr /></div>" ) + contents;
tooltip += QLatin1String("</qt>");
return tooltip;
}
QPixmap loadStamp( const QString& _name, const QSize& size, int iconSize )
{
const QString name = _name.toLower();
QSvgRenderer * r = 0;
if ( ( r = s_data->svgStamps() ) && r->elementExists( name ) )
{
const QRectF stampElemRect = r->boundsOnElement( name );
const QRectF stampRect( size.isValid() ? QRectF( QPointF( 0, 0 ), size ) : stampElemRect );
QPixmap pixmap( stampRect.size().toSize() );
pixmap.fill( Qt::transparent );
QPainter p( &pixmap );
r->render( &p, name );
p.end();
return pixmap;
}
QPixmap pixmap;
const KIconLoader * il = iconLoader();
QString path;
const int minSize = iconSize > 0 ? iconSize : qMin( size.width(), size.height() );
pixmap = il->loadIcon( name, KIconLoader::User, minSize, KIconLoader::DefaultState, QStringList(), &path, true );
if ( path.isEmpty() )
pixmap = il->loadIcon( name, KIconLoader::NoGroup, minSize );
return pixmap;
}
void addIconLoader( KIconLoader * loader )
{
s_data->il.append( loader );
}
void removeIconLoader( KIconLoader * loader )
{
s_data->il.removeAll( loader );
}
KIconLoader* iconLoader()
{
return s_data->il.isEmpty() ? KIconLoader::global() : s_data->il.back();
}
void saveEmbeddedFile( Okular::EmbeddedFile *ef, QWidget *parent )
{
const QString caption = i18n( "Where do you want to save %1?", ef->name() );
const QString path = QFileDialog::getSaveFileName( parent, caption, ef->name() );
if ( path.isEmpty() )
return;
QFile targetFile( path );
writeEmbeddedFile( ef, parent, targetFile );
}
void writeEmbeddedFile( Okular::EmbeddedFile *ef, QWidget *parent, QFile& target ) {
if ( !target.open( QIODevice::WriteOnly ) )
{
KMessageBox::error( parent, i18n( "Could not open \"%1\" for writing. File was not saved.", target.fileName() ) );
return;
}
target.write( ef->data() );
target.close();
}
Okular::Movie* renditionMovieFromScreenAnnotation( const Okular::ScreenAnnotation *annotation )
{
if ( !annotation )
return 0;
if ( annotation->action() && annotation->action()->actionType() == Okular::Action::Rendition )
{
Okular::RenditionAction *renditionAction = static_cast< Okular::RenditionAction * >( annotation->action() );
return renditionAction->movie();
}
return 0;
}
// from Arthur - qt4
static inline int qt_div_255(int x) { return (x + (x>>8) + 0x80) >> 8; }
void colorizeImage( QImage & grayImage, const QColor & color, unsigned int destAlpha )
{
// Make sure that the image is Format_ARGB32_Premultiplied
if ( grayImage.format() != QImage::Format_ARGB32_Premultiplied )
grayImage = grayImage.convertToFormat( QImage::Format_ARGB32_Premultiplied );
// 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( 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 );
}
}
}
}
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