Ejemplo n.º 1
0
bool KMpcPlugin::readInfo( KFileMetaInfo& info, uint what )
{

    bool readComment = false;
    bool readTech = false;
    if (what & (KFileMetaInfo::Fastest |
                KFileMetaInfo::DontCare |
                KFileMetaInfo::ContentInfo)) readComment = true;

    if (what & (KFileMetaInfo::Fastest |
                KFileMetaInfo::DontCare |
                KFileMetaInfo::TechnicalInfo)) readTech = true;

    if ( info.path().isEmpty() ) // remote file
        return false;

    TagLib::File *file = new TagLib::MPC::File(QFile::encodeName(info.path()).data(), readTech);

    if (!file->isOpen())
    {
        kDebug(7034) << "Couldn't open " << file->name();
        delete file;
        return false;
    }

    if(readComment)
    {
        KFileMetaInfoGroup commentgroup = appendGroup(info, "Comment");

        QString date  = file->tag()->year() > 0 ? QString::number(file->tag()->year()) : QString();
        QString track = file->tag()->track() > 0 ? QString::number(file->tag()->track()) : QString();

        appendItem(commentgroup, "Title",       TStringToQString(file->tag()->title()).trimmed());
        appendItem(commentgroup, "Artist",      TStringToQString(file->tag()->artist()).trimmed());
        appendItem(commentgroup, "Album",       TStringToQString(file->tag()->album()).trimmed());
        appendItem(commentgroup, "Date",        date);
        appendItem(commentgroup, "Comment",     TStringToQString(file->tag()->comment()).trimmed());
        appendItem(commentgroup, "Tracknumber", track);
        appendItem(commentgroup, "Genre",       TStringToQString(file->tag()->genre()).trimmed());
    }

    if (readTech)
    {
        KFileMetaInfoGroup techgroup = appendGroup(info, "Technical");
        TagLib::MPC::Properties *properties =
                   (TagLib::MPC::Properties*)(file->audioProperties());

        appendItem(techgroup, "Bitrate",      properties->bitrate());
        appendItem(techgroup, "Sample Rate",  properties->sampleRate());
        appendItem(techgroup, "Channels",     properties->channels());
        appendItem(techgroup, "Length",       properties->length());
        appendItem(techgroup, "Version",      properties->mpcVersion());
    }

    delete file;
    return true;

}
Ejemplo n.º 2
0
bool KOfficePlugin::readInfo( KFileMetaInfo& info, uint what)
{
    if ( info.path().isEmpty() ) // remote file
        return false;

    KFileMetaInfoGroup group = appendGroup(info, "DocumentInfo");

    KoStore* store = KoStore::createStore(info.path(), KoStore::Read);
    if ( store && store->open( QString("documentinfo.xml") ) )
    {
        KoStoreDevice dev( store );
        QDomDocument doc;
        doc.setContent( &dev );

        QDomNode authorNode = doc.namedItem("document-info").namedItem("author");
        QDomNode aboutNode = doc.namedItem("document-info").namedItem("about");

        QString author = stringFromNode(authorNode, "full-name");
        QString title = stringFromNode(aboutNode, "title");
        QString abstract = stringFromNode(aboutNode, "abstract");

        appendItem(group, "Author", author);
        appendItem(group, "Title", title);
        appendItem(group, "Abstract", abstract);

        store->close();
        delete store;
        return true;
    }
    delete store;
    return false;
}
Ejemplo n.º 3
0
void QTlenRosterManager::showRoster()
{
	for(int i = 0; i < addedItems.count(); i++)
        {
            //all the items should be painted, not emulated by widgets
            if (rosterBox->itemWidget(addedItems[i].item, 0))
                rosterBox->itemWidget(addedItems[i].item, 0)->deleteLater();
        }
	rosterBox->clear();
	qSort( rosterItems.begin(), rosterItems.end() );
	addedItems.clear();
	addedGroups.clear();
	AddedItem i;
	QTreeWidgetItem *node;
	for ( int n = 0; n < (int)rosterItems.count(); n++ )
	{
            appendGroup(rosterItems[n].group);
		if (!dontShowOfflines || rosterItems[n].presence != Offline)
		{
                        int group_index = getIndexOfGroup(rosterItems[n].group);
                        if(group_index != -1)
                                node = addedGroups[group_index].item;
			else
			{
				node = rosterBox->addRosterNode(rosterItems[n].group);
				AddedGroup g;
				g.item = node;
				g.group = rosterItems[n].group;
				addedGroups.append(g);
			}
			QPixmap tmpAvatar = QPixmap(rosterItems[n].avatar);
                        if(!tmpAvatar.isNull())
                            tmpAvatar.setAlphaChannel(avMask);

			i.item = rosterBox->addRosterItem(rosterItems[n].name,
							  rosterItems[n].presence,
							  rosterItems[n].desc,
							  rosterItems[n].jid,
							  tmpAvatar,
							  node);
			i.jid = rosterItems[n].jid;
			addedItems.append(i);
		}
        }
}
Ejemplo n.º 4
0
/**
 * @details Constructs a LofarBeams object.
 */
LofarBeams::LofarBeams()
{
    setName("LofarBeams");

    // Main Instrument Definitions
    ParameterGroup g(QString("Lofar Settings"));
    g.addParameter(_lofar.clockSpeeds() );
    appendGroup(g);

    // setup the beam parameter groups
    int maxBeams = 8; // Lofar can support up to 8 beams
    for(int i=0; i < maxBeams; ++i )
    {
        ParameterGroup g(QString("Beam %1").arg( i+1 ));
        LofarBeam* beam = new LofarBeam( &_lofar );
        beam->setName(QString("Beam %1").arg( i+1 ));
        //beam.setChannel(i/2);
        addBeam(beam);
        g.enableDeactivation();
        if( i != 0 ) {
            g.setActiveState(false);
            beam->setActiveMode(false);
        }

/*
        Parameter dataStream(QObject::tr("Stream"), "The Stream on which to output the data. Maximum of 2 beams per Channel");
        QMap<QString,QString> dataStreamOptions;
        dataStreamOptions["Channel 1"] = "1";
        dataStreamOptions["Channel 2"] = "2";
        dataStreamOptions["Channel 3"] = "3";
        dataStreamOptions["Channel 4"] = "4";
        dataStream.setRestrictedValues( dataStreamOptions );
        g.addParameter(dataStream);
*/

        // add the finished group to the class
        //_groups.append(g);
    }
}
Ejemplo n.º 5
0
bool KRfc822Plugin::readInfo(KFileMetaInfo &info, uint /*what*/)
{

    QFile file(info.path());

    if(!file.open(IO_ReadOnly))
    {
        kdDebug(7034) << "Couldn't open " << QFile::encodeName(info.path()) << endl;
        return false;
    }

    /*
         Note to self: probably should use QCString for all this, but
         what we're doing is simple and self-contained so never mind..
    */

    char id_from[] = "From: ";
    char id_to[] = "To: ";
    char id_subject[] = "Subject: ";
    char id_date[] = "Date: ";
    char id_contenttype[] = "Content-Type: ";

    // we need a buffer for lines
    char linebuf[4096];

    // we need a buffer for other stuff
    char buf_from[1000] = "";
    char buf_to[1000] = "";
    char buf_subject[1000] = "";
    char buf_date[1000] = "";
    char buf_contenttype[1000] = "";

    memset(buf_from, 0, 999);
    memset(buf_to, 0, 999);
    memset(buf_subject, 0, 999);
    memset(buf_date, 0, 999);
    memset(buf_contenttype, 0, 999);
    char *myptr;

    bool done = false;
    while(!done)
    {

        // read a line
        file.readLine(linebuf, sizeof(linebuf));

        // have we got something useful?
        if(memcmp(linebuf, id_from, 6) == 0)
        {
            // we have a name
            myptr = linebuf + 6;
            strncpy(buf_from, myptr, sizeof(buf_from));
            buf_from[998] = '\0';
        }
        else if(memcmp(linebuf, id_to, 4) == 0)
        {
            // we have a name
            myptr = linebuf + 4;
            strncpy(buf_to, myptr, sizeof(buf_to));
            buf_to[998] = '\0';
        }
        else if(memcmp(linebuf, id_subject, 9) == 0)
        {
            // we have a name
            myptr = linebuf + 9;
            strncpy(buf_subject, myptr, sizeof(buf_subject));
            buf_subject[998] = '\0';
        }
        else if(memcmp(linebuf, id_date, 6) == 0)
        {
            // we have a name
            myptr = linebuf + 6;
            strncpy(buf_date, myptr, sizeof(buf_date));
            buf_date[998] = '\0';
        }
        else if(memcmp(linebuf, id_contenttype, 14) == 0)
        {
            // we have a name
            myptr = linebuf + 14;
            strncpy(buf_contenttype, myptr, sizeof(buf_contenttype));
            buf_contenttype[998] = '\0';
        }

        // are we done yet?
        if(
            ((strlen(buf_from) > 0) && (strlen(buf_to) > 0) &&
             (strlen(buf_subject) > 0) && (strlen(buf_date) > 0) &&
             (strlen(buf_contenttype) > 0)) ||
            (file.atEnd())
        )
            done = true;

    };

    KFileMetaInfoGroup group = appendGroup(info, "Technical");

    if(strlen(buf_from) > 0)           appendItem(group, "From", buf_from);
    if(strlen(buf_to) > 0)             appendItem(group, "To", buf_to);
    if(strlen(buf_subject) > 0)        appendItem(group, "Subject", buf_subject);
    if(strlen(buf_date) > 0)           appendItem(group, "Date", buf_date);
    if(strlen(buf_contenttype) > 0)    appendItem(group, "Content-Type", buf_contenttype);

    return true;
}
Ejemplo n.º 6
0
bool KCppPlugin::readInfo( KFileMetaInfo& info, uint )
{
    QFile f(info.path());
    if (!f.open(IO_ReadOnly))
        return false;

    int codeLines     = 0;
    int commentLines  = 0;
    int totalLines    = 0;
    int emptyLines    = 0;
    int Strings       = 0;
    int Stringsi18n   = 0;
    int Includes      = 0;
    
    bool inComment = false;
    
    QString line;
    
    QTextStream stream( &f );
    while (!stream.eof())
    {
        line = stream.readLine();
        totalLines++;

        if (line.stripWhiteSpace().isEmpty())
        {
            emptyLines++;
            continue;
        }
        
        if (line.contains("/*")) inComment = true;

        if (!inComment)
        {
            codeLines++;
            if (line.contains(QRegExp("^\\s*#\\s*include"))) Includes++;

            int pos = line.find("//");
            if (pos>=0) commentLines++;
            // truncate the comment - we don't want to count strings in it
            line.truncate(pos);
                
            Strings+=line.contains(QRegExp("\".*\""));
            Stringsi18n+=line.contains(QRegExp("(?:i18n|I18N_NOOP)\\s*\\("));
        }
        else
            commentLines++;
          
        if (line.contains("*/")) inComment = false;
    }

    KFileMetaInfoGroup group = appendGroup(info, "General");
    
    appendItem(group, "Lines",          int(totalLines));
    appendItem(group, "Code",           int(codeLines));
    appendItem(group, "Comment",        int(commentLines));
    appendItem(group, "Blank",          int(emptyLines));
    appendItem(group, "Strings",        int(Strings));
    appendItem(group, "i18n Strings",   int(Stringsi18n));
    appendItem(group, "Included Files", int(Includes));
    return true;
}
Ejemplo n.º 7
0
bool KFileMediaPlugin::readInfo(KFileMetaInfo &info, uint /*what*/)
{
        const Medium medium = askMedium(info);

	kdDebug() << "KFileMediaPlugin::readInfo " << medium.id() << endl;
 
	if (medium.id().isNull()) return false;
	
	QString mount_point = medium.mountPoint();
	KURL base_url = medium.prettyBaseURL();
	QString device_node = medium.deviceNode();

	KFileMetaInfoGroup group = appendGroup(info, "mediumInfo");

	if (base_url.isValid())
	{
		appendItem(group, "baseURL", base_url.prettyURL());
	}

	if (!device_node.isEmpty())
	{
		appendItem(group, "deviceNode", device_node);
	}

	if (!mount_point.isEmpty() && medium.isMounted())
	{
		m_total = 0;
		m_used = 0;
		m_free = 0;

		struct statvfs vfs;
		memset(&vfs, 0, sizeof(vfs));

		if ( ::statvfs(QFile::encodeName(mount_point), &vfs) != -1 )
		{
			m_total = static_cast<KIO::filesize_t>(vfs.f_blocks) * static_cast<KIO::filesize_t>(vfs.f_frsize);
			m_free = static_cast<KIO::filesize_t>(vfs.f_bavail) * static_cast<KIO::filesize_t>(vfs.f_frsize);
			m_used = m_total - m_free;

			int percent = 0;
			int length = 0;

			if (m_total != 0)
			{
				percent = 100 * m_used / m_total;
				length = 150 * m_used / m_total;
			}

			appendItem(group, "free", m_free);
			appendItem(group, "used", m_used);
			appendItem(group, "total", m_total);

			group = appendGroup(info, "mediumSummary");

			appendItem(group, "percent", QString("%1%").arg(percent));

			QPixmap bar(150, 20);
			QPainter p(&bar);

			p.fillRect(0, 0, length, 20, Qt::red);
			p.fillRect(length, 0, 150-length, 20, Qt::green);

			QColorGroup cg = QApplication::palette().active();

			QApplication::style().drawPrimitive(QStyle::PE_Panel, &p,
							    QRect(0, 0, 150, 20), cg,
							    QStyle::Style_Sunken);

			appendItem( group, "thumbnail", bar );
		}
	}

	return true;
}
bool kfile_metadatPlugin::readInfo ( KFileMetaInfo& info, uint what )
{
    bool readTech = false;
    // add your "calculations" here
    // if something goes wrong, "return false;"

    if ( what & ( KFileMetaInfo::Fastest |
                  KFileMetaInfo::DontCare |
                  KFileMetaInfo::TechnicalInfo ) )
        readTech = true;

    if ( info.path().isEmpty() ) // remote file cannot be handled
        return false;

    if ( readTech )
    {
        KFileMetaInfoGroup group = appendGroup ( info, "Technical" );
        char buffer[112];
        QFile qf ( info.path() );
        if ( ! qf.open ( IO_ReadOnly ) ||
                ( qf.readBlock ( buffer, 112 ) != 112 ) )
            return false; // File cannot be read --> no meta info
        qf.close();

        try
        {
            comag::meta m ( ( const unsigned char * ) buffer );

            appendItem ( group, "Title", QString::fromLatin1( m.gettitle().data() ) );
            appendItem ( group, "Title Type", ( m.gettitle_type() == comag::meta::TT_TRANSMISSION ) ?
                         i18n ( "Transmission" ) :
                         ( m.gettitle_type() == comag::meta::TT_STATION ) ?
                         i18n ( "Station" ) :
                         i18n ( "Unknown" ) );
#ifdef ENABLE_DATETIMETWOLINES
            appendItem ( group, "Start Time", QTime ( m.getstart_time().hour,
                         m.getstart_time().minute,
                         m.getstart_time().second ) );
            appendItem ( group, "Start Date", QDate ( m.getstart_date().year,
                         m.getstart_date().month,
                         m.getstart_date().day ) );
#else
            appendItem ( group, "Start Time", QDateTime ( QDate ( m.getstart_date().year,
                         m.getstart_date().month,
                         m.getstart_date().day ),
                         QTime ( m.getstart_time().hour,
                                 m.getstart_time().minute,
                                 m.getstart_time().second ) ) );
#endif
            appendItem ( group, "Duration", QTime ( m.getduration().hour,
                                                    m.getduration().minute,
                                                    m.getduration().second ) );
            appendItem ( group, "Packets", m.getpackets() );
            appendItem ( group, "Service", ( m.getservice() == comag::meta::S_RADIO ) ?
                         i18n ( "Radio" ) :
                         ( m.getservice() == comag::meta::S_TV ) ?
                         i18n ( "TV" ) : i18n ( "Unknown" ) );
            appendItem ( group, "PID", m.getpid() );
            appendItem ( group, "Timer", ( unsigned long long ) ( m.gettimer() ) );
        }
        catch ( ... )
        {
            return false; // Exceptions simply means: no meta info
        }
        // and finally display it!
        return true;
    }
    return false;
}
Ejemplo n.º 9
0
bool KRgbPlugin::readInfo(KFileMetaInfo& info, uint /*what*/)
{
	QFile file(info.path());

	if (!file.open(QIODevice::ReadOnly)) {
		kDebug(7034) << "Couldn't open " << QFile::encodeName(info.path());
		return false;
	}

	QDataStream dstream(&file);

	quint16 magic;
	quint8  storage;
	quint8  bpc;
	quint16 dimension;
	quint16 xsize;
	quint16 ysize;
	quint16 zsize;
	quint32 pixmin;
	quint32 pixmax;
	quint32 dummy;
	char     imagename[80];
	quint32 colormap;

	dstream >> magic;
	dstream >> storage;
	dstream >> bpc;
	dstream >> dimension;
	dstream >> xsize;
	dstream >> ysize;
	dstream >> zsize;
	dstream >> pixmin;
	dstream >> pixmax;
	dstream >> dummy;
	dstream.readRawBytes(imagename, 80);
	imagename[79] = '\0';
	dstream >> colormap;
	quint8 u8;
	for (uint i = 0; i < 404; i++)
		dstream >> u8;

	if (magic != 474)
		return false;

	KFileMetaInfoGroup group;

	group = appendGroup(info, "Technical");

	if (dimension == 1)
		ysize = 1;
	appendItem(group, "Dimensions", QSize(xsize, ysize));
	appendItem(group, "BitDepth", zsize * 8 * bpc);

	if (zsize == 1)
		appendItem(group, "ColorMode", i18n("Grayscale"));
	else if (zsize == 2)
		appendItem(group, "ColorMode", i18n("Grayscale/Alpha"));
	else if (zsize == 3)
		appendItem(group, "ColorMode", i18n("RGB"));
	else if (zsize == 4)
		appendItem(group, "ColorMode", i18n("RGB/Alpha"));

	if (!storage)
		appendItem(group, "Compression", i18nc("Compression", "Uncompressed"));
	else if (storage == 1) {
		long compressed = file.size() - 512;
		long verbatim = xsize * ysize * zsize;
		appendItem(group, "Compression", i18nc("Compression", "Runlength Encoded")
				+ QString(", %1%").arg(compressed * 100.0 / verbatim, 0, 'f', 1));

		long k;
		quint32 offs;
		QMap<quint32, uint> map;
		QMap<quint32, uint>::Iterator it;
		QMap<quint32, uint>::Iterator end = map.end();
		for (k = 0; k < (ysize * zsize); k++) {
			dstream >> offs;
			if ((it = map.find(offs)) != end)
				map.insert(offs, *it + 1);
			else
				map[offs] = 0;
		}
		for (k = 0, it = map.begin(); it != end; ++it)
			k += *it;

		if (k)
			appendItem(group, "SharedRows", QString("%1%").arg(k * 100.0
					/ (ysize * zsize), 0, 'f', 1));
		else
			appendItem(group, "SharedRows", i18nc("SharedRows", "None"));
	} else
Ejemplo n.º 10
0
/**
 * @details Constructs a LofarBeam object.
 */
LofarBeam::LofarBeam( Lofar* lofar )
    : State(true), _lofar(lofar), _localUpdate(false)
{
    // construct parameters
    //_streams.reset(new MultiRangeParameter<unsigned int>(
   //                        "streams(beamlets)", 
    //                       "the output channels to map the subbands to. Max of 64 per beam is allowed") );
    //_streams.setRange( Range<unsigned int>(0,247) );

    _array.reset(new SelectionParameter<RCU::Array>(
                           "Antenna Array",
                           "Defines the Antenna array to use in this beam" ) );

    QList<QString> arrayDesc;  arrayDesc << "Low Band" 
                                         << "High Band";

    QList<RCU::Array> arrayValues;  arrayValues << RCU::LB << RCU::HB;
    _array->setAllowableValues( arrayDesc, arrayValues);


    _filter.reset( new SelectionParameter<RCU_Filter>(
                       "RCU Filter", 
                       "The filter to apply to the RCU chain") );

    _ids.reset( new MultiRangeParameter<unsigned int>(
                       "rcu id", 
                       "The ids of all rcu's to be included in the beam") );

    _frequency.reset( new SingleParameter<float>(
                       "frequency",
                       "The frequency range to observe" ) );

    _bandwidth.reset( new SingleParameter<float>(
                       "bandwidth",
                       "The width of the frequecy band to observe"
                       " relative to the start frequency" ) );

    _subbands.reset( new MultiRangeParameter<unsigned int>(
                       "subbands", 
                       "The subband identifiers associated with the frequen") );

    _directionType.reset( new SelectionParameter<QString>( 
                       "direction", "The type "
                       "of direction input. "
                       "SKYSCAN will scan the sky with a L x M grid in "
                       "the (l,m) plane") );
    _directionType->setAllowableValues( _direction.types(), _direction.types() );
    _directionType->set(_direction.types()[0]);

    _directionX.reset( new SingleParameter<float>("x", 
                   "The longitude in degrees for direction specification" ) );
    _directionX->setRange( Range<float>(-180,180) );
    _directionY.reset( new SingleParameter<float>("y", 
                   "The latitude in degrees for direction specification" ) );
    _directionY->setRange( Range<float>(-90.0,90.0) );
     updateDirection();

    // set default values (pre-connection)
    _frequency->set(0.0);
    _bandwidth->set(0.0);
    _setupConnections();

    // set default values
    _array->set(RCU::LB);
    refreshFilter();
    _filter->set(RCU_Filter());
    _ids->set( _lofar->rcuIds( _array->value()) );
    _subbands->set( _lofar->subbandRanges() );
    _subbands->setAllowableValues( _lofar->subbandRanges() );
    _directionX->set(0.0);
    _directionY->set(0.0);
    refreshFrequency();
    refreshRCU();

    // set up the RCU group
    ParameterGroup g("RCU Selection");
    g.addParameter( _array );
    g.addParameter( _filter );
    g.addParameter( _ids );

    // set up the frequency group
    ParameterGroup f("Frequency");
    f.addParameter( _frequency );
    f.addParameter( _bandwidth );
    f.addParameter( _subbands );

    // set up the direction group
    ParameterGroup d("Direction");
    d.addParameter( _directionType );
    d.addParameter( _directionX );
    d.addParameter( _directionY );

    appendGroup( g );
    appendGroup( f );
    appendGroup( d );
}
Ejemplo n.º 11
0
bool KIcoPlugin::readInfo( KFileMetaInfo& info, uint what)
{


    QFile file(info.path());

    if (!file.open(IO_ReadOnly))
    {
        kdDebug(7034) << "Couldn't open " << QFile::encodeName(info.path()) << endl;
        return false;
    }

    QDataStream dstream(&file);

    // ICO files are little-endian
    dstream.setByteOrder(QDataStream::LittleEndian);


    // read the beginning of the file and make sure it looks ok
    uint16_t ico_reserved;
    uint16_t ico_type;
    uint16_t ico_count;

    dstream >> ico_reserved;
    dstream >> ico_type;
    dstream >> ico_count;

    if ((ico_reserved != 0) || (ico_type != 1) || (ico_count < 1))
        return false;


    // now loop through each of the icon entries
    uint8_t icoe_width;
    uint8_t icoe_height;
    uint8_t icoe_colorcount;
    uint8_t icoe_reserved;
    uint16_t icoe_planes;
    uint16_t icoe_bitcount;
    uint32_t icoe_bytesinres;
    uint32_t icoe_imageoffset;

    // read the data on the 1st icon
    dstream >> icoe_width;
    dstream >> icoe_height;
    dstream >> icoe_colorcount;
    dstream >> icoe_reserved;
    dstream >> icoe_planes;
    dstream >> icoe_bitcount;
    dstream >> icoe_bytesinres;
    dstream >> icoe_imageoffset;


    // output the useful bits
    KFileMetaInfoGroup group = appendGroup(info, "Technical");
    appendItem(group, "Number", ico_count);

    if (ico_count == 1) {
        appendItem(group, "Dimensions", QSize(icoe_width, icoe_height));

        if (icoe_colorcount > 0)
            appendItem(group, "Colors", icoe_colorcount);
        else if (icoe_bitcount > 0)
            appendItem(group, "Colors", 2 ^ icoe_bitcount);

    } else {

        appendItem(group, "DimensionsM", QSize(icoe_width, icoe_height));

        if (icoe_colorcount > 0)
            appendItem(group, "ColorsM", icoe_colorcount);
        else if (icoe_bitcount > 0)
            appendItem(group, "ColorsM", 2 ^ icoe_bitcount);

    }

    return true;
}
Ejemplo n.º 12
0
bool KFlacPlugin::readInfo( KFileMetaInfo& info, uint what )
{
    if ( info.path().isEmpty() ) // remote file
        return false;

    bool readComment = false;
    bool readTech = false;
    if (what & (KFileMetaInfo::Fastest |
                KFileMetaInfo::DontCare |
                KFileMetaInfo::ContentInfo)) readComment = true;

    if (what & (KFileMetaInfo::Fastest |
                KFileMetaInfo::DontCare |
                KFileMetaInfo::TechnicalInfo)) readTech = true;

    TagLib::File *file = 0;

    if (info.mimeType() == "audio/x-flac")
        file = new TagLib::FLAC::File(QFile::encodeName(info.path()).data(), readTech);
#ifdef TAGLIB_1_2
    else
        file = new TagLib::Ogg::FLAC::File(QFile::encodeName(info.path()).data(), readTech);
#endif

    if (!file || !file->isValid())
    {
        kdDebug(7034) << "Couldn't open " << file->name() << endl;
        delete file;
        return false;
    }

    if(readComment && file->tag())
    {
        KFileMetaInfoGroup commentgroup = appendGroup(info, "Comment");

        QString date  = file->tag()->year() > 0 ? QString::number(file->tag()->year()) : QString::null;
        QString track = file->tag()->track() > 0 ? QString::number(file->tag()->track()) : QString::null;

        appendItem(commentgroup, "Title",       TStringToQString(file->tag()->title()).stripWhiteSpace());
        appendItem(commentgroup, "Artist",      TStringToQString(file->tag()->artist()).stripWhiteSpace());
        appendItem(commentgroup, "Album",       TStringToQString(file->tag()->album()).stripWhiteSpace());
        appendItem(commentgroup, "Date",        date);
        appendItem(commentgroup, "Comment",     TStringToQString(file->tag()->comment()).stripWhiteSpace());
        appendItem(commentgroup, "Tracknumber", track);
        appendItem(commentgroup, "Genre",       TStringToQString(file->tag()->genre()).stripWhiteSpace());
    }

    if (readTech && file->audioProperties())
    {
        KFileMetaInfoGroup techgroup = appendGroup(info, "Technical");
        TagLib::FLAC::Properties *properties =
                   (TagLib::FLAC::Properties*)(file->audioProperties());

        appendItem(techgroup, "Bitrate",      properties->bitrate());
        appendItem(techgroup, "Sample Rate",  properties->sampleRate());
        appendItem(techgroup, "Sample Width", properties->sampleWidth());
        appendItem(techgroup, "Channels",     properties->channels());
        appendItem(techgroup, "Length",       properties->length());
    }

    delete file;
    return true;

}
Ejemplo n.º 13
0
bool KRpmPlugin::readInfo( KFileMetaInfo& info, uint what)
{
    QFile file(info.path());
    int pass;
    KFileMetaInfoGroup general, all;

    if (!file.open(QIODevice::ReadOnly))
    {
        kDebug(7034) << "Couldn't open " << QFile::encodeName(info.path());
        return false;
    }

    QDataStream dstream(&file);
    dstream.setByteOrder(QDataStream::BigEndian);
    general = appendGroup(info, "General");
    if (what == KFileMetaInfo::Everything) all = appendGroup(info, "All tags");

    file.seek(96); // Seek past old lead

    for (pass = 0; pass < 2; ++pass) { // RPMs have two headers
	uint32_t storepos, entries, size, reserved;
	unsigned char version;
	char magic[3];

	dstream.readRawBytes(magic, 3);
	dstream >> version >> reserved >> entries >> size;
	if (memcmp(magic, RPM_HEADER_MAGIC, 3)) return false;
	if (version != 1) return false; // Only v1 headers supported

	storepos = file.pos() + entries * 16;
	if (pass == 0) { // Don't need the first batch of tags - pgp etc
		file.seek(storepos + size);
		file.seek(file.pos() + (8 - (file.pos() % 8)) % 8); // Skip padding
		continue;
	}

	if (entries < 500) while (entries--) { // Just in case something goes wrong, limit to 500
		uint32_t tag, type, offset, count;
		QString tagname;
		dstream >> tag >> type >> offset >> count;
		offset += storepos;

		switch (tag) {
			case RPMTAG_NAME: tagname = "Name"; break;
			case RPMTAG_VERSION: tagname = "Version"; break;
			case RPMTAG_SUMMARY: tagname = "Summary"; break;
			case RPMTAG_GROUP: tagname = "Group"; break;
			case RPMTAG_SIZE: tagname = "Size"; break;
			case RPMTAG_RELEASE: tagname = "Release"; break;
			case RPMTAG_VENDOR: tagname = "Vendor"; break;
			case RPMTAG_PACKAGER: tagname = "Packager"; break;
			case RPMTAG_DESCRIPTION: tagname = "Comment"; break;
		}

		if ( !tagname.isEmpty() || all.isValid() ) {
			// kDebug(7034) << "Tag number: " << tag << " Type: " << type;
			int oldPos = file.pos();
			file.seek(offset); // Set file position to correct place in store
			switch (type) {
				case RPM_INT32_TYPE:	uint32_t int32tag;
							dstream >> int32tag;
							if ( !tagname.isEmpty() ) appendItem(general, tagname, int(int32tag));
							if ( all.isValid() ) appendItem(all, QString("%1").arg( tag ), QString("%1").arg( int32tag ));
							break;
				case RPM_INT16_TYPE:	uint16_t int16tag;
							dstream >> int16tag;
							if ( !tagname.isEmpty() ) appendItem(general, tagname, int(int16tag));
							if ( all.isValid() ) appendItem(all, QString("%1").arg( tag ), QString("%1").arg( int16tag ));
							break;
				case RPM_I18NSTRING_TYPE: // Fallthru
				case RPM_STRING_TYPE:   QString strtag; char in;
							while ( ( in = file.getch() ) != '\0' ) strtag += in;
							if ( !tagname.isEmpty() ) appendItem(general, tagname, strtag);
							if( all.isValid() ) appendItem(all, QString("%1").arg( tag ), strtag);
							break;
			}
			file.seek(oldPos); // Restore old position
		}
	}
	appendItem(general, "Archive Offset", (storepos + size) );
    }
Ejemplo n.º 14
0
bool KAuPlugin::readInfo( KFileMetaInfo& info, uint what)
{
    // the file signature, wants to be tidier...
    const char fsig[] = { 0x2e, 0x73, 0x6e, 0x64 };

    // a dword buffer for input
    char inbuf[4];

    // some vars for the file properties
    uint32_t datasize;
    uint32_t encoding;
    uint32_t samplerate;
    uint32_t channels;
    uint16_t bytespersample;

    if ( info.path().isEmpty() ) // remote file
        return false;

    QFile file(info.path());

    if (!file.open(IO_ReadOnly))
    {
        kdDebug(7034) << "Couldn't open " << QFile::encodeName(info.path()) << endl;
        return false;
    }

    QDataStream dstream(&file);

    // AU files are big-endian
    dstream.setByteOrder(QDataStream::BigEndian);


    // Read and verify the signature
    dstream.readRawBytes(inbuf, 4);
    if (memcmp(fsig, inbuf, 4))
        return false;

    // skip unwanted bits
    file.at(8);

    // grab the bits we want
    dstream >> datasize;
    dstream >> encoding;
    dstream >> samplerate;
    dstream >> channels;

    // add the info
    KFileMetaInfoGroup group = appendGroup(info, "Technical");
    appendItem(group, "Sample Rate", (uint) samplerate);
    appendItem(group, "Channels", (uint) channels);

    // work out the encoding
    switch (encoding) {
    case 1 :
        appendItem(group, "Encoding", i18n("8-bit ISDN u-law"));
        bytespersample = 1;
        break;
    case 2 :
        appendItem(group, "Encoding", i18n("8-bit linear PCM [REF-PCM]"));
        bytespersample = 1;
        break;
    case 3 :
        appendItem(group, "Encoding", i18n("16-bit linear PCM"));
        bytespersample = 2;
        break;
    case 4 :
        appendItem(group, "Encoding", i18n("24-bit linear PCM"));
        bytespersample = 3;
        break;
    case 5 :
        appendItem(group, "Encoding", i18n("32-bit linear PCM"));
        bytespersample = 4;
        break;
    case 6 :
        appendItem(group, "Encoding", i18n("32-bit IEEE floating point"));
        bytespersample = 4;
        break;
    case 7 :
        appendItem(group, "Encoding", i18n("64-bit IEEE floating point"));
        bytespersample = 8;
        break;
    case 23 :
        appendItem(group, "Encoding", i18n("8-bit ISDN u-law compressed"));
        bytespersample = 1;
        break;
    default :
        appendItem(group, "Encoding", i18n("Unknown"));
        bytespersample = 0;
    }

    // work out length from bytespersample + channels + size
    if ((channels > 0) && (datasize > 0) && (datasize != 0xFFFFFFFF) && (bytespersample > 0) && (samplerate > 0)) {
        uint32_t length = datasize / channels / bytespersample / samplerate;
        appendItem(group, "Length", (uint) length);
    } else {
        appendItem(group, "Length", "???");
    }

    return true;
}
Ejemplo n.º 15
0
bool KigPlugin::readInfo( KFileMetaInfo& metainfo, uint /*what*/ )
{
  KFileMetaInfoGroup metagroup = appendGroup( metainfo, "KigInfo");

  QString sfile =  metainfo.path();
  bool iscompressed = false;
  QFile f( sfile );
  if ( !sfile.endsWith( ".kig", false ) )
  {
    iscompressed = true;

    QString tempdir = KGlobal::dirs()->saveLocation( "tmp" );
    if ( tempdir.isEmpty() )
      return false;

    QString tempname = sfile.section( '/', -1 );
    if ( sfile.endsWith( ".kigz", false ) )
    {
      tempname.remove( QRegExp( "\\.[Kk][Ii][Gg][Zz]$" ) );
    }
    else
      return false;
    // reading compressed file
    KTar* ark = new KTar( sfile, "application/x-gzip" );
    ark->open( IO_ReadOnly );
    const KArchiveDirectory* dir = ark->directory();
    QStringList entries = dir->entries();
    QStringList kigfiles = entries.grep( QRegExp( "\\.kig$" ) );
    if ( kigfiles.count() != 1 )
      return false;
    const KArchiveEntry* kigz = dir->entry( kigfiles[0] );
    if ( !kigz->isFile() )
      return false;
    dynamic_cast<const KArchiveFile*>( kigz )->copyTo( tempdir );

    f.setName( tempdir + kigz->name() );
  }

  if ( !f.open( IO_ReadOnly ) )
    return false;

  QDomDocument doc( "KigDocument" );
  if ( !doc.setContent( &f ) )
    return false;

  f.close();

  // removing temp file
  if ( iscompressed )
    f.remove();

  QDomElement main = doc.documentElement();

  // reading the version...
  QString version = main.attribute( "Version" );
  if ( version.isEmpty() ) version = main.attribute( "version" );
  if ( version.isEmpty() ) version = i18n( "Translators: Not Available", "n/a" );
  appendItem( metagroup, "Version", version );

  // reading the compatibility version...
  QString compatversion = main.attribute( "CompatibilityVersion" );
  if ( compatversion.isEmpty() )
    compatversion = i18n( "%1 represents Kig version",
                          "%1 (as the version)" ).arg( version );
  appendItem( metagroup, "CompatVersion", compatversion );

  // reading the Coordinate System...
  QCString coordsystem;
  for ( QDomNode n = main.firstChild(); ! n.isNull(); n = n.nextSibling() )
  {
    QDomElement e = n.toElement();
    if ( e.isNull() ) continue;
    if ( e.tagName() == "CoordinateSystem" )
      coordsystem = e.text().latin1();
  }
  appendItem( metagroup, "CoordSystem", coordsystem );

  // has Kig document the grid?
  bool btmp = true;
  QString stmp = main.attribute( "grid" );
  if ( !( stmp.isEmpty() || ( stmp != "0" ) ) )
    btmp = ( stmp != "0" );
  QString stmp2 = btmp ? i18n( "Yes" ) : i18n( "No" );
  appendItem( metagroup, "Grid", stmp2 );

  // has Kig document the axes?
  btmp = true;
  stmp = main.attribute( "axes" );
  if ( !( stmp.isEmpty() || ( stmp != "0" ) ) )
    btmp = ( stmp != "0" );
  stmp2 = btmp ? i18n( "Yes" ) : i18n( "No" );
  appendItem( metagroup, "Axes", stmp2 );

  stmp2 = iscompressed ? i18n( "Yes" ) : i18n( "No" );
  appendItem( metagroup, "Compressed", stmp2 );

  return true;
}
Ejemplo n.º 16
0
bool KXpsPlugin::readInfo( KFileMetaInfo& info, uint /* what */)
{
    KFileMetaInfoGroup generalGroup = appendGroup(info, "General");

    KZip *xpsArchive = new KZip( info.path() );
    if ( xpsArchive->open( IO_ReadOnly ) == true ) {
        // kdDebug(7115) << "Successful open of " << xpsArchive->fileName() << endl;
    } else {
        kDebug(7115) << "Could not open XPS archive: " << xpsArchive->fileName();
	delete xpsArchive;
	return false;
    }

    const KZipFileEntry* relFile = static_cast<const KZipFileEntry *>(xpsArchive->directory()->entry("_rels/.rels"));

    if ( !relFile ) {
        delete xpsArchive;	
        // this might occur if we can't read the zip directory, or it doesn't have the relationships entry
        return false;
    }


    if ( relFile->name().isEmpty() ) {
	delete xpsArchive;
        // this might occur if we can't read the zip directory, or it doesn't have the relationships entry
        return false;
    }

    QIODevice* relDevice = relFile->createDevice();

    QDomDocument relDom;
    QString errMsg;
    int errLine, errCol;
    if ( relDom.setContent( relDevice, true, &errMsg, &errLine, &errCol ) == false ) {
        // parse error
        kDebug(7115) << "Could not parse relationship document: " << errMsg << " : "
		     << errLine << " : " << errCol << endl;
        delete relDevice;
	delete xpsArchive;
	return false;
    }

    QDomElement docElem = relDom.documentElement();
    
    QString thumbFileName;
    QString fixedRepresentationFileName;
    QString metadataFileName;

    QDomNode n = docElem.firstChild();
    while( !n.isNull() ) {
        QDomElement e = n.toElement();
	if( !e.isNull() ) {
	    if ("http://schemas.openxmlformats.org/package/2006/relationships/metadata/thumbnail" == e.attribute("Type") ) {
	        thumbFileName = e.attribute("Target");
	    } else if ("http://schemas.microsoft.com/xps/2005/06/fixedrepresentation" == e.attribute("Type") ) {
	        fixedRepresentationFileName = e.attribute("Target");
	    } else if ("http://schemas.openxmlformats.org/package/2006/relationships/metadata/core-properties" == e.attribute("Type") ) {
	        metadataFileName = e.attribute("Target");
	    }
	}
	n = n.nextSibling();
    }

    delete relDevice;

    if ( fixedRepresentationFileName.isEmpty() ) {
	delete xpsArchive;
        // FixedRepresentation is a required part of the XPS document
        return false;
    }

    const KZipFileEntry* fixedRepFile = static_cast<const KZipFileEntry *>(xpsArchive->directory()->entry( fixedRepresentationFileName ));

    QIODevice* fixedRepDevice = fixedRepFile->createDevice();

    QDomDocument fixedRepDom;
    if ( fixedRepDom.setContent( fixedRepDevice, true, &errMsg, &errLine, &errCol ) == false ) {
        // parse error
        kDebug(7115) << "Could not parse Fixed Representation document: " << errMsg << " : "
		     << errLine << " : " << errCol << endl;
        delete fixedRepDevice;
	delete xpsArchive;
	return false;
    }

    docElem = fixedRepDom.documentElement();

    QString firstDocumentFileName;
    int numDocuments = 0; // the number of Documents in this FixedDocumentSequence

    n = docElem.firstChild();
    while( !n.isNull() ) {
        QDomElement e = n.toElement();
	if( !e.isNull() ) {
	    if (e.tagName() == "DocumentReference") {
	        if (firstDocumentFileName.isEmpty()) {
		    // we don't already have a filename, so take this one
		    firstDocumentFileName = e.attribute("Source");
		}
		numDocuments++;
	    }
	}
	n = n.nextSibling();
    }

    delete fixedRepDevice;

#if 0
    // This stuff is used for detailed parsing - not really required

    // no document? bail out here.
    if ( firstDocumentFileName.isEmpty() ) {
        return false;
    }

    KZipFileEntry* firstDocumentFile = static_cast<const KZipFileEntry *>(xpsArchive->directory()->entry( firstDocumentFileName ));

    QIODevice* firstDocumentDevice = firstDocumentFile->device();    

    QDomDocument firstDocumentDom;
    if ( firstDocumentDom.setContent( firstDocumentDevice, true, &errMsg, &errLine, &errCol ) == false ) {
        // parse error
        kDebug(7115) << "Could not parse first document: " << errMsg << " : "
		     << errLine << " : " << errCol << endl;
	return false;
    }

    n = firstDocumentDom.documentElement().firstChild();

    while( !n.isNull() ) {
        QDomElement e = n.toElement();
	if( !e.isNull() ) {
	  kDebug(7155) << "DOcument: " << e.tagName() << " : " << e.text();
	}
	n = n.nextSibling();
    }
#endif

    if ( ! metadataFileName.isEmpty() ) {
        const KZipFileEntry* corepropsFile = static_cast<const KZipFileEntry *>(xpsArchive->directory()->entry(metadataFileName));
	kDebug(7115) << "metadata file name: " << metadataFileName;

	QDomDocument metadataDocumentDom;

	QIODevice *corepropsDevice = corepropsFile->createDevice();

	if ( metadataDocumentDom.setContent( corepropsDevice, true, &errMsg, &errLine, &errCol ) == false ) {
	    // parse error
	    kDebug(7115) << "Could not parse core properties (metadata) document: " << errMsg << " : "
			 << errLine << " : " << errCol << endl;
            delete corepropsDevice;
	    delete xpsArchive;
	    return false;
	}

	n = metadataDocumentDom.documentElement().firstChild(); // the <coreProperties> level
	while( !n.isNull() ) {
	    QDomElement e = n.toElement();
	    if( !e.isNull() ) {
		if (e.tagName() == "title") {
		    appendItem(generalGroup, "Title", e.text() );
		} else if (e.tagName() == "subject") {
		    appendItem(generalGroup, "Subject", e.text() );
		} else if (e.tagName() == "description") {
		    appendItem(generalGroup, "Description", e.text() );
		} else if (e.tagName() == "creator") {
		    appendItem(generalGroup, "Author", e.text() );
		} else if (e.tagName() == "created") {
		    appendItem(generalGroup, "CreationDate", QDateTime::fromString( e.text(), "yyyy-MM-ddThh:mm:ssZ" ) );
		} else if (e.tagName() == "modified") {
		    appendItem(generalGroup, "ModificationDate", QDateTime::fromString( e.text(), "yyyy-MM-ddThh:mm:ssZ" ) );
		} else if (e.tagName() == "keywords") {
		    appendItem(generalGroup, "Keywords", e.text() );
		} else {
		    kDebug(7155) << "unhandled metadata tag: " << e.tagName() << " : " << e.text();
		}
	    }
	    n = n.nextSibling();
	}

	delete corepropsDevice;
    }

    if ( ! thumbFileName.isEmpty() ) {
        const KZipFileEntry* thumbFile = static_cast<const KZipFileEntry *>(xpsArchive->directory()->entry(thumbFileName));

	QImage img;
	img.loadFromData(thumbFile->data());

	appendItem( generalGroup, "Thumbnail", img);
	appendItem( generalGroup, "ThumbnailDimensions", QSize( img.width(), img.height() ) );
    }

    appendItem(generalGroup, "Documents", numDocuments);

    delete xpsArchive;

    return true;
}
Ejemplo n.º 17
0
bool KPngPlugin::readInfo( KFileMetaInfo& info, uint what)
{
    if ( info.path().isEmpty() ) // remote file
        return false;
    QFile f(info.path());
    if ( !f.open(IO_ReadOnly) )
        return false;

    QIODevice::Offset fileSize = f.size();

    if (fileSize < 29) return false;
    // the technical group will be read from the first 29 bytes. If the file
    // is smaller, we can't even read this.

    bool readComments = false;
    if (what & (KFileMetaInfo::Fastest |
                KFileMetaInfo::DontCare |
                KFileMetaInfo::ContentInfo)) readComments = true;
    else
	fileSize = 29; // No need to read more

    uchar *data = new uchar[fileSize+1];
    f.readBlock(reinterpret_cast<char*>(data), fileSize);
    data[fileSize]='\n';

    // find the start
    if (data[0] == 137 && data[1] == 80 && data[2] == 78 && data[3] == 71 &&
        data[4] ==  13 && data[5] == 10 && data[6] == 26 && data[7] == 10 )
    {
        // ok
        // the IHDR chunk should be the first
        if (!strncmp((char*)&data[12], "IHDR", 4))
        {
            // we found it, get the dimensions
            ulong x,y;
            x = (data[16]<<24) + (data[17]<<16) + (data[18]<<8) + data[19];
            y = (data[20]<<24) + (data[21]<<16) + (data[22]<<8) + data[23];

            uint type = data[25];
            uint bpp =  data[24];
            kdDebug(7034) << "dimensions " << x << "*" << y << endl;

            // the bpp are only per channel, so we need to multiply the with
            // the channel count
            switch (type)
            {
                case 0: break;           // Grayscale
                case 2: bpp *= 3; break; // RGB
                case 3: break;           // palette
                case 4: bpp *= 2; break; // grayscale w. alpha
                case 6: bpp *= 4; break; // RGBA

                default: // we don't get any sensible value here
                    bpp = 0;
            }

            KFileMetaInfoGroup techgroup = appendGroup(info, "Technical");

            appendItem(techgroup, "Dimensions", QSize(x, y));
            appendItem(techgroup, "BitDepth", bpp);
            appendItem(techgroup, "ColorMode",
                       (type < sizeof(colors)/sizeof(colors[0]))
                       ? i18n(colors[data[25]]) : i18n("Unknown"));

            appendItem(techgroup, "Compression",
                       (data[26] < sizeof(compressions)/sizeof(compressions[0]))
                       ? i18n(compressions[data[26]]) : i18n("Unknown"));

            appendItem(techgroup, "InterlaceMode",
                       (data[28] < sizeof(interlaceModes)/sizeof(interlaceModes[0]))
                       ? i18n(interlaceModes[data[28]]) : i18n("Unknown"));
        }

        // look for a tEXt chunk
        if (readComments)
        {
            uint index = 8;
            index += CHUNK_SIZE(data, index) + CHUNK_HEADER_SIZE;
            KFileMetaInfoGroup commentGroup = appendGroup(info, "Comment");

            while(index<fileSize-12)
            {
                while (index < fileSize - 12 &&
                       strncmp((char*)CHUNK_TYPE(data,index), "tEXt", 4) &&
                       strncmp((char*)CHUNK_TYPE(data,index), "zTXt", 4))

                {
                    if (!strncmp((char*)CHUNK_TYPE(data,index), "IEND", 4))
                        goto end;

                    index += CHUNK_SIZE(data, index) + CHUNK_HEADER_SIZE;
                }

                if (index < fileSize - 12)
                {
                    // we found a tEXt or zTXt field

                    // get the key, it's a null terminated string at the
                    //  chunk start

                    uchar* key = &CHUNK_DATA(data,index,0);

                    int keysize=0;
                    for (;key[keysize]!=0; keysize++)
                        // look if we reached the end of the file
                        // (it might be corrupted)
                        if (8+index+keysize>=fileSize)
                            goto end;

		    QByteArray arr;
		    if(!strncmp((char*)CHUNK_TYPE(data,index), "zTXt", 4)) {
			kdDebug(7034) << "We found a zTXt field\n";
			// we get the compression method after the key
			uchar* compressionMethod = &CHUNK_DATA(data,index,keysize+1);
			if ( *compressionMethod != 0x00 ) {
			    // then it isn't zlib compressed and we are sunk
			    kdDebug(7034) << "Non-standard compression method." << endl;
			    goto end;
			}
			// compressed string after the compression technique spec
			uchar* compressedText = &CHUNK_DATA(data, index, keysize+2);
			uint compressedTextSize = CHUNK_SIZE(data, index)-keysize-2;

			// security check, also considering overflow wraparound from the addition --
			// we may endup with a /smaller/ index if we wrap all the way around
			uint firstIndex       = (uint)(compressedText - data);
			uint onePastLastIndex = firstIndex + compressedTextSize;
			if ( onePastLastIndex > fileSize || onePastLastIndex <= firstIndex)
			    goto end;

			uLongf uncompressedLen = compressedTextSize * 2; // just a starting point
			int zlibResult;
			do {
			    arr.resize(uncompressedLen);
			    zlibResult = uncompress((Bytef*)arr.data(), &uncompressedLen,
						    compressedText, compressedTextSize);
			    if (Z_OK == zlibResult) {
				// then it is all OK
				arr.resize(uncompressedLen);
			    } else if (Z_BUF_ERROR == zlibResult) {
				// the uncompressedArray needs to be larger
				// kdDebug(7034) << "doubling size for decompression" << endl;
				uncompressedLen *= 2;

                                // DoS protection. can't be bigger than 64k
                                if ( uncompressedLen > 131072 )
                                    break;
			    } else {
				// something bad happened
				goto end;
			    }
			} while (Z_BUF_ERROR == zlibResult);

			if (Z_OK != zlibResult)
			    goto end;
		    } else if (!strncmp((char*)CHUNK_TYPE(data,index), "tEXt", 4)) {
			kdDebug(7034) << "We found a tEXt field\n";
			// the text comes after the key, but isn't null terminated
			uchar* text = &CHUNK_DATA(data,index, keysize+1);
			uint textsize = CHUNK_SIZE(data, index)-keysize-1;

			// security check, also considering overflow wraparound from the addition --
			// we may endup with a /smaller/ index if we wrap all the way around
			uint firstIndex       = (uint)(text - data);
			uint onePastLastIndex = firstIndex + textsize;

			if ( onePastLastIndex > fileSize || onePastLastIndex <= firstIndex)
			    goto end;

			arr.resize(textsize);
			arr = QByteArray(textsize).duplicate((const char*)text,
							     textsize);
			
		    } else {
			kdDebug(7034) << "We found a field, not expected though\n";
			goto end;
		    }
		    appendItem(commentGroup,
			       QString(reinterpret_cast<char*>(key)),
			       QString(arr));
		    
		    kdDebug(7034) << "adding " << key << " / "
				  << QString(arr) << endl;

		    index += CHUNK_SIZE(data, index) + CHUNK_HEADER_SIZE;
                }
            }
        }
    }
end:
    delete[] data;
    return true;
}
Ejemplo n.º 18
0
bool KOfficePlugin::readInfo( KFileMetaInfo& info, uint /*what*/)
{
    if ( info.path().isEmpty() ) // remote file
        return false;

    KFileMetaInfoGroup group = appendGroup(info, DocumentInfo);
    QDomDocument doc = getMetaDocument(info.path());
    if (doc.isNull())
	    return false;
    QDomElement base = getBaseNode(doc).toElement();
    if (base.isNull())
	    return false;
    for (int i = 0; Information[i]; i+=2)
	    appendItem(group, Information[i],
		       stringFromNode(base, Information[i]));
    // Special case for keyword
    QDomNodeList keywordList = base.elementsByTagName( metakeyword );
    QString allKeywords;
    for (uint i = 0; i < keywordList.length(); i++){
      QDomNode node = keywordList.item(i);
      if (node.isElement()){
	if (i>0)
		allKeywords += ", ";
	allKeywords += node.toElement().text();
      }
    }
    appendItem(group, metakeyword,
	       allKeywords);

    KFileMetaInfoGroup group1 = appendGroup(info, DocAdvanced);
    for (int i = 0; Advanced[i]; i+=2){
	    QString txt = stringFromNode(base, Advanced[i]);
	    if (!txt.isEmpty()){
		    // A silly way to do it...
		    switch (i){
			    case 2:
			    case 4:
			    case 6:
			    	getDateTime(group1, Advanced[i], txt);
				break;
			    case 14:
				getEditingTime(group1, Advanced[i], txt);
				break;
			    default:
				appendItem(group1, Advanced[i], txt);}
		   }
	    }

    QDomNode dstat = base.namedItem(metadocstat);

    KFileMetaInfoGroup group2 = appendGroup(info, DocStatistics);
    if (!dstat.isNull() && dstat.isElement()){
	    QDomElement dinfo = dstat.toElement();
    	    for (int i = 0; Statistics[i]; i+=2)
		    addAttributeInfo(dinfo, group2, Statistics[i] );
    }


    QDomNodeList userList = base.elementsByTagName( metauserdef );

    KFileMetaInfoGroup groupuser = appendGroup(info, UserDefined);

    for (uint i = 0; i < userList.length(); i++){
      QDomNode node = userList.item(i);
      if (node.isElement()){
	appendItem(groupuser,
		   node.toElement().attribute(metaname,
					      QString("User %1").arg(i)),
		   node.toElement().text());
      }
    }
    return true;
}
Ejemplo n.º 19
0
bool KTiffPlugin::readInfo(KFileMetaInfo& info, uint)
{
    TIFF *tiff = TIFFOpen(QFile::encodeName(info.path()), "r");
    if (!tiff)
        return false;

    uint32 imageLength=0, imageWidth=0;
    uint16 bitsPerSample=0, imageCompression=0, colorMode=0, samplesPerPixel=0,
        imageAlpha=0, imageResUnit=0, dummy=0, faxPages=0;
    float imageXResolution=0, imageYResolution=0;
    char *description=0, *copyright=0, *software=0, *datetime=0, *artist=0,
        *scannerMake=0, *scannerModel=0;

    TIFFGetField(tiff, TIFFTAG_IMAGELENGTH, &imageLength);
    TIFFGetField(tiff, TIFFTAG_IMAGEWIDTH, &imageWidth);
    TIFFGetFieldDefaulted(tiff, TIFFTAG_BITSPERSAMPLE, &bitsPerSample);
    TIFFGetFieldDefaulted(tiff, TIFFTAG_SAMPLESPERPIXEL, &samplesPerPixel);
    TIFFGetField(tiff, TIFFTAG_PHOTOMETRIC, &colorMode);
    TIFFGetFieldDefaulted(tiff, TIFFTAG_COMPRESSION, &imageCompression);
    TIFFGetField(tiff, TIFFTAG_MATTEING, &imageAlpha);
    TIFFGetField(tiff, TIFFTAG_XRESOLUTION, &imageXResolution);
    TIFFGetField(tiff, TIFFTAG_YRESOLUTION, &imageYResolution);
    TIFFGetFieldDefaulted(tiff, TIFFTAG_RESOLUTIONUNIT, &imageResUnit);
    TIFFGetField(tiff, TIFFTAG_IMAGEDESCRIPTION, &description);
    TIFFGetField(tiff, TIFFTAG_SOFTWARE, &software);
    TIFFGetField(tiff, TIFFTAG_COPYRIGHT, &copyright);
    TIFFGetField(tiff, TIFFTAG_DATETIME, &datetime);
    TIFFGetField(tiff, TIFFTAG_ARTIST, &artist);
    TIFFGetField(tiff, TIFFTAG_PAGENUMBER, &dummy, &faxPages);
    TIFFGetField(tiff, TIFFTAG_MAKE, &scannerMake);
    TIFFGetField(tiff, TIFFTAG_MODEL, &scannerModel);

    kDebug(7034) << "Description: " << description;
    kDebug(7034) << "Width: " << imageWidth;
    kDebug(7034) << "Height: " << imageLength;
    kDebug(7034) << "BitDepth: " << bitsPerSample;
    kDebug(7034) << "ColorMode: " << colorMode;
    kDebug(7034) << "Compression: " << imageCompression;
    kDebug(7034) << "SamplesPerPixel: " << samplesPerPixel;
    kDebug(7034) << "ImageAlpha: " << imageAlpha;
    kDebug(7034) << "XResolution: " << imageXResolution;
    kDebug(7034) << "YResolution: " << imageYResolution;
    kDebug(7034) << "ResolutionUnit: " << imageResUnit;
    kDebug(7034) << "FaxPages: " << faxPages;
    kDebug(7034) << "DateTime: " << datetime;
    kDebug(7034) << "Copyright: " << copyright;
    kDebug(7034) << "Software: " <<  software;
    kDebug(7034) << "Artist: " << artist;
    kDebug(7034) << "Make: " << scannerMake;
    kDebug(7034) << "Model: " << scannerModel;

    if (imageResUnit == RESUNIT_CENTIMETER)
    {
        imageXResolution *= 2.54;
        imageYResolution *= 2.54;
    }
    else if (imageResUnit == RESUNIT_NONE)
    {
        imageXResolution = 0;
        imageYResolution = 0;
    }

    int imageBpp = bitsPerSample*samplesPerPixel;
    if (imageAlpha && colorMode==PHOTOMETRIC_RGB)
        m_colorMode.replace(PHOTOMETRIC_RGB, new QString(I18N_NOOP("RGBA")));

    KFileMetaInfoGroup group = appendGroup(info, "General");
    if (description)
        appendItem(group, "Description", QString(description));
    appendItem(group, "Dimensions", QSize(imageWidth, imageLength));
    appendItem(group, "BitDepth", imageBpp);
    if (imageXResolution>0 && imageYResolution>0)
        appendItem(group, "Resolution", QSize(
                static_cast<int>(imageXResolution),
                static_cast<int>(imageYResolution)));
    if (m_colorMode[colorMode])
        appendItem(group, "ColorMode", *m_colorMode[colorMode]);
    if (m_imageCompression[imageCompression])
        appendItem(group, "Compression", *m_imageCompression[imageCompression]);
    if (datetime)
    {
        QDateTime dt = tiffDate(QString(datetime));
        if (dt.isValid())
            appendItem(group, "DateTime", dt);
    }
    if (copyright)
        appendItem(group, "Copyright", QString(copyright));
    if (software)
        appendItem(group, "Software", QString(software));
    if (artist)
        appendItem(group, "Artist", QString(artist));

    if (faxPages>0 && (imageCompression==COMPRESSION_CCITTFAX3 ||
            imageCompression==COMPRESSION_CCITTFAX4))
    {
        appendItem(group, "FaxPages", faxPages);
    }

    if (scannerMake || scannerModel)
    {
        group = appendGroup(info, "Scanner");
        if (scannerMake)
            appendItem(group, "Make", QString(scannerMake));
        if (scannerModel)
            appendItem(group, "Model", QString(scannerModel));
    }

    TIFFClose(tiff);

    return true;
}
Ejemplo n.º 20
0
void r_makeDFA( FA *fa )
{
    ARC *prevarc = NULL;
    ARC *curarc;
    int inp;
    int bundleNum;
    FLAG reserved = 0;
    int i;
    FLAG newFlag;
    FALIST *volatileList = NULL;
    CLASSFLAGS unifyAccptFlag;
    CLASSFLAGS unifyStartFlag;

    verboseMes( "[func]r_makeDFA(FA %08x)", (long)fa );
    DFAtravTotal++;
    if( fa->traversed == 1 ){
	verboseMes( "traversed..." );
	return;
    }
    fa->traversed = 1;
    DFAtravSuccess++;

    FAprocessed++;
    if( !SW_SemiQuiet ){
	fprintf( stderr, "\rNow making deterministic finite automaton[%d/%d] ", FAprocessed, FAtotal );
	NoNewLine = 1;
    }
    curarc = fa->nsList;
    while( curarc != NULL ){
	FA *unifyingDstFA = NULL;
	{
	    ARC *arc = curarc;
	    int inp = arc->inp;
	    FALIST *group = NULL;
	    CLASSFLAGS accptFlag = 0;
	    CLASSFLAGS startFlag = 0;

	    bundleNum = 0;
	    while( 1 ){
		if( arc == NULL || arc->inp != inp ) break;
		group = appendGroup( group, arc->fa );
		accptFlag |= arc->fa->accpt;
		startFlag |= arc->fa->start;
		arc = arc->next;
		bundleNum++;
	    }
	    if( bundleNum > 1 ){
		unifyingDstFA = chkGroup( group, accptFlag,
					 startFlag,&newFlag );
	    } else {
		/* この下4行はブロック外のwhileに対してのもの */
		freeFAlist( group );
		prevarc = curarc;
		curarc = curarc->next;
		continue;
	    }
	}

	inp = curarc->inp;
	unifyAccptFlag = 0;
	unifyStartFlag = 0;
	for( i = 0; i < bundleNum; i++ ){
	    unifyAccptFlag |= curarc->accpt;
	    unifyStartFlag |= curarc->start;
	    if( !newFlag ){
/*		volatileList = volatileFA( volatileList, curarc->ns );*/
		curarc = unconnectFA( fa, prevarc, curarc );
	    } else {
		if( curarc->fa == fa /* self-loop */ ){
		    reserved = 1;
/*		    volatileList = volatileFA( volatileList, fa );*/
		    curarc = unconnectFA( fa, prevarc, curarc );
		} else {
		    curarc = unifyFA( unifyingDstFA, prevarc, curarc, fa );
		}
	    }
	}
	connectUnifyFA( fa, inp, unifyingDstFA, reserved,
		       unifyAccptFlag, unifyStartFlag );
	reserved = 0;
    }
    usArc2nsArc( fa );
/*    unvolatileFA( volatileList );*/

    curarc = fa->nsList;
    while( curarc != NULL ){
	r_makeDFA( curarc->fa );
	curarc = curarc->next;
    }
}