Пример #1
0
void NeoControl::updateRtc()
{
    if(screen != ScreenRtc)
        return;

    QDateTime rtcNow = Qtopia::rtcNow();
    QString rtcDate = Qtopia::readFile("/sys/class/rtc/rtc0/date").trimmed();
    QString rtcTime = Qtopia::readFile("/sys/class/rtc/rtc0/time").trimmed();

    QByteArray wakealarmStr = Qtopia::readFile("/sys/class/rtc/rtc0/wakealarm").trimmed();
    QString alarmStr;
    if(wakealarmStr.isEmpty()) {
        alarmStr = tr("not set");
    } else {
        uint wakealarmSecs = wakealarmStr.toUInt();
        QDateTime wakealarmDt = QDateTime::fromTime_t(wakealarmSecs);
        alarmStr = wakealarmDt.toString();
    }

    label->setText(QString(tr("RTC (Real time clock)\n\nDate: %1\nTime: %2\nLocal: %3\nAlarm: %4"))
                   .arg(rtcDate)
                   .arg(rtcTime)
                   .arg(rtcNow.toString())
                   .arg(alarmStr));

    QTimer::singleShot(1000, this, SLOT(updateRtc()));
}
Пример #2
0
void ForgetPwdVerifyPage::on_btnNextStep_clicked()
{
    if(editValidate->text().length() != 6){
        QString strText = tr("请输入6位验证码");
        hintMsgPage->setText(strText);
        hintMsgPage->show();

        editValidate->setFocus();
        return;
    }

    QString strValidationCode = editValidate->text().trimmed();
    QByteArray byteValidationCode = strValidationCode.toLatin1();
    verifyCode = byteValidationCode.toUInt();

    AssemblyData assemblyData;
    assemblyData.append(verifyCode);
    char* data = assemblyData.getAssemblyData();
    quint16 dataLen = assemblyData.getAssemblyDataLen();
    emit readyRead(CommandCode::FORGET_PASSWORD_VERIFY, data, dataLen);

    if(loadingPage == NULL){
        loadingPage = new LoadingPage(this);
        loadingPage->show();
    }
}
Пример #3
0
/**@brief convert QString to int (4 bytes, 32 bits);
 *
 *@param str [IN]: the string to convert;
 *@param data [OUT]: the result is stored in this parm;
 *@return bool: if convert succeed, return true; else, return false;
 *@note there is a bug in qt library, so hex->int16->int32.
 */
bool Lms511Thread::Str2Int_32(QByteArray str, int* data)
{
    bool ok;
    unsigned int temp = str.toUInt(&ok, 16);
    memcpy(data, &temp, sizeof(int));
    return ok;
}
Пример #4
0
// The reason we don't store stuff in a QString is because BitTorrent
// b-encoded strings may contain zeroes within the string, which makes
// a BString more of a buffer than a true string.
BString::BString (ByteStream &stream)
    : m_data()
{
    // A BString is \d+:.{n}, where n is whatever \d+ converted to.
    // So, read in the number part first.
    QByteArray numberData;

    while(*stream != ':') {
        numberData.append(*stream);
        ++stream;
    }

    ++stream; // Read past ':'

    bool validNumber = false;
    quint32 length = numberData.toUInt(&validNumber);

    if(!validNumber)
        throw std::runtime_error("Invalid number in string data");

    for(quint32 i = 0; i < length; ++i) {
        m_data.append(*stream);
        ++stream;
    }
}
Пример #5
0
void Bdecoder::read(QByteArray *buf)
{
    int end = m_buf.indexOf(':', m_pos);
    if (end <= m_pos || end >= m_len) {
        setError("buffer overrun");
        return;
    }
    QByteArray s = m_buf.mid(m_pos, end - m_pos);
    m_pos = end + 1;

    if (!validateInt(s))
        return;
    bool ok;
    int strlen = s.toUInt(&ok, 10);
    if (!ok) {
        setError("Invalid string length (%s)", s.constData());
        return;
    }

    if (strlen + m_pos > m_len) {
        setError("buffer overrun");
        return;
    }
    if (buf)
        *buf = m_buf.mid(m_pos, strlen);
    m_pos += strlen;
}
Пример #6
0
static QString transcode(const QString &str, bool utf8)
{
    // Removed a and \a from here because it is not handled correctly by the linguist in our case
    static const char tab[] = "bfnrtv"; // removed a
    static const char backTab[] = "\b\f\n\r\t\v"; // removed \a
    const QString in = (!utf8 || yySourceIsUnicode)
        ? str : QString::fromUtf8(yySourceCodec->fromUnicode(str).data());
    QString out;

    out.reserve(in.length());
    for (int i = 0; i < in.length();) {
        ushort c = in[i++].unicode();
        if (c == '\\') {
            if (i >= in.length())
                break;
            c = in[i++].unicode();

            if (c == '\n')
                continue;

            if (c == 'x') {
                QByteArray hex;
                while (i < in.length() && isxdigit((c = in[i].unicode()))) {
                    hex += c;
                    i++;
                }
                out += hex.toUInt(0, 16);
            } else if (c >= '0' && c < '8') {
                QByteArray oct;
                int n = 0;
                oct += c;
                while (n < 2 && i < in.length() && (c = in[i].unicode()) >= '0' && c < '8') {
                    i++;
                    n++;
                    oct += c;
                }
                out += oct.toUInt(0, 8);
            } else {
                const char *p = strchr(tab, c);
                out += QString("\\") + QChar(QLatin1Char(!p ? c : backTab[p - tab]));
            }
        } else {
            out += c;
        }
    }
    return out;
}
bool NodeInstanceServerProxy::checkPuppetVersion(const QString &qmlPuppetPath)
{
    QProcess qmlPuppetVersionProcess;
    qmlPuppetVersionProcess.start(qmlPuppetPath, QStringList() << "--version");
    qmlPuppetVersionProcess.waitForReadyRead(6000);

    QByteArray versionString = qmlPuppetVersionProcess.readAll();

    bool canConvert;
    unsigned int versionNumber = versionString.toUInt(&canConvert);

    return canConvert && versionNumber == 2;
}
Пример #8
0
GpsdMasterDevice::GpsdMasterDevice()
        : _socket( new QTcpSocket(this))
        , _hostname("localhost")
        , _port(2947)
        , _gpsdStarted(false)
{
  connect(_socket, SIGNAL( readyRead()), this, SLOT( readFromSocketAndCopy()));
  QByteArray hostname = qgetenv("GPSD_HOST");
  if( !hostname.isEmpty())
      _hostname = hostname;
  QByteArray port = qgetenv("GPSD_PORT");
  if( !port.isEmpty())
  {
    bool ok = false;
    uint tmp = port.toUInt(&ok);
    if(ok)
        _port = tmp;
  }
}
Пример #9
0
QDateTime Qtopia::rtcNow()
{
    QByteArray secsStr = readFile("/sys/class/rtc/rtc0/since_epoch").trimmed();
    uint secs = secsStr.toUInt();
    return QDateTime::fromTime_t(secs);
}
Пример #10
0
bool Lexer::fetchNumber( double &d)
{
    char ch;
    d_source.peek( &ch, 1 );
    QByteArray number;

    enum State { Vorkomma, Nachkomma, Exponent2, Exponent1 };
    State state = Vorkomma;
    // Erstes Zeichen
    if( ch == '.' )
    {
        state = Nachkomma;
    }else if( !::isdigit( ch ) )
    {
        d_source.rewind();
        return false;
    }

    char ch2;
    d_source.peek( &ch2, 1 );
    if( state == Nachkomma && !::isdigit(ch2) )
    {
        d_source.rewind();
        return false; // wir haben einen Punkt gefunden, der aber nicht von einer Zahl gefolgt wird
    }

    bool ok;
    if( ch2 == 'x' )
    {
        if( ch != '0')
            return error("invalid number format");
        // Parse Hex
        while( true )
        {
            d_source.peek( &ch2, 1 );
            if( ::isdigit( ch2 ) || _isHexChar( ch2 ) )
                number += ch2;
            else
            {
                // Zahl ist fertig
                d = number.toUInt( &ok, 16 );
                if( !ok )
                    return error("invalid hex format");
                else
                {
                    d_source.eat( number.size() + 2 );
                    return true;
                }
            }
        }
    }else
    {
        // Parse Decimal
        number += ch;
        int anzNachkomma = 0;
        while( true )
        {
            switch( state )
            {
            case Vorkomma:
                if( ch2 == '.' )
                {
                    state = Nachkomma;
                }else if( ::isdigit( ch2 ) )
                    ;
                else if( ch2 == 'e' || ch2 == 'E' )
                {
                    state = Exponent1;
                    ch2 = 'e';
                }else
                {
                    d = number.toUInt( &ok );
                    if( !ok )
                        return error("invalid integer");
                    else
                    {
                        d_source.eat( number.size() );
                        return true;
                    }
                }
                number += ch2;
                break;
            case Nachkomma:
                if( ::isdigit( ch2 ) )
                    ;
                else if( ch2 == 'e' || ch2 == 'E' )
                {
                    if( anzNachkomma == 0 )
                        return error("invalid number format");
                    state = Exponent1;
                    ch2 = 'e';
                }else
                {
                    // Zahl ist fertig
                    if( anzNachkomma == 0 )
                        return error("invalid number format");
                    d = number.toDouble( &ok );
                    if( !ok )
                        return error("invalid decimal format");
                    else
                    {
                        d_source.eat( number.size() );
                        return true;
                    }
                }
                anzNachkomma++;
                number += ch2;
                break;
            case Exponent1:
                if( ::isdigit( ch2 ) || ch2 == '+' || ch2 == '-' )
                    state = Exponent2;
                else
                    return error("invalid number format");
                number += ch2;
                break;
            case Exponent2:
                if( ::isdigit( ch2 ) )
                    ;
                else
                {
                    // Zahl ist fertig
                    d = number.toDouble( &ok );
                    if( !ok )
                        return error("invalid exponential format");
                    else
                    {
                        d_source.eat( number.size() );
                        return true;
                    }
                }
                number += ch2;
                break;
            }
            d_source.peek( &ch2, 1 );
        }
    }
    d_source.rewind();
    return false;
}
Пример #11
0
/**@brief convert QString to unsigned int (4 bytes, 32 bits);
 *
 *@param str [IN]: the string to convert;;
 *@param data [OUT]: the result is stored in this parm;
 *@return bool, if convert succeed, return true; else, return false;
 *@note
 */
bool Lms511Thread::Str2Uint_32(QByteArray str, unsigned int * data)
{
    bool ok;
    *data = str.toUInt(&ok, 16);
    return ok;
}
Пример #12
0
void EngineShoutcast::updateFromPreferences() {
    qDebug() << "EngineShoutcast: updating from preferences";

    m_pUpdateShoutcastFromPrefs->slotSet(0.0f);

    m_format_is_mp3 = false;
    m_format_is_ov = false;
    m_protocol_is_icecast1 = false;
    m_protocol_is_icecast2 = false;
    m_protocol_is_shoutcast = false;
    m_ogg_dynamic_update = false;

    // Convert a bunch of QStrings to QByteArrays so we can get regular C char*
    // strings to pass to libshout.

    QString codec = m_pConfig->getValueString(ConfigKey(SHOUTCAST_PREF_KEY, "metadata_charset"));
    QByteArray baCodec = codec.toLatin1();
    m_pTextCodec = QTextCodec::codecForName(baCodec);
    if (!m_pTextCodec) {
        qDebug() << "Couldn't find shoutcast metadata codec for codec:" << codec
                 << " defaulting to ISO-8859-1.";
    }

    // Indicates our metadata is in the provided charset.
    shout_metadata_add(m_pShoutMetaData, "charset",  baCodec.constData());

    // Host, server type, port, mountpoint, login, password should be latin1.
    QByteArray baHost = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "host")).toLatin1();
    QByteArray baServerType = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "servertype")).toLatin1();
    QByteArray baPort = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "port")).toLatin1();
    QByteArray baMountPoint = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "mountpoint")).toLatin1();
    QByteArray baLogin = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "login")).toLatin1();
    QByteArray baPassword = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "password")).toLatin1();
    QByteArray baFormat = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "format")).toLatin1();
    QByteArray baBitrate = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "bitrate")).toLatin1();

    // Encode metadata like stream name, website, desc, genre, title/author with
    // the chosen TextCodec.
    QByteArray baStreamName = encodeString(m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "stream_name")));
    QByteArray baStreamWebsite = encodeString(m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "stream_website")));
    QByteArray baStreamDesc = encodeString(m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "stream_desc")));
    QByteArray baStreamGenre = encodeString(m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "stream_genre")));
    QByteArray baStreamPublic = encodeString(m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "stream_public")));

    // Dynamic Ogg metadata update
    m_ogg_dynamic_update = (bool)m_pConfig->getValueString(
	        ConfigKey(SHOUTCAST_PREF_KEY,"ogg_dynamicupdate")).toInt();

    m_custom_metadata = (bool)m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "enable_metadata")).toInt();
    m_customTitle = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "custom_title"));
    m_customArtist = m_pConfig->getValueString(
            ConfigKey(SHOUTCAST_PREF_KEY, "custom_artist"));

    int format;
    int protocol;

    if (shout_set_host(m_pShout, baHost.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting hostname!"), shout_get_error(m_pShout));
        return;
    }

    // WTF? Why SHOUT_PROTOCOL_HTTP and not.. the chosen protocol?
    if (shout_set_protocol(m_pShout, SHOUT_PROTOCOL_HTTP) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting protocol!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_port(m_pShout, baPort.toUInt()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting port!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_password(m_pShout, baPassword.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting password!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_mount(m_pShout, baMountPoint.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting mount!"), shout_get_error(m_pShout));
        return;
    }


    if (shout_set_user(m_pShout, baLogin.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting username!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_name(m_pShout, baStreamName.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting stream name!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_description(m_pShout, baStreamDesc.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting stream description!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_genre(m_pShout, baStreamGenre.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting stream genre!"), shout_get_error(m_pShout));
        return;
    }

    if (shout_set_url(m_pShout, baStreamWebsite.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting stream url!"), shout_get_error(m_pShout));
        return;
    }

    m_format_is_mp3 = !qstrcmp(baFormat.constData(), SHOUTCAST_FORMAT_MP3);
    m_format_is_ov = !qstrcmp(baFormat.constData(), SHOUTCAST_FORMAT_OV);
    if (m_format_is_mp3) {
        format = SHOUT_FORMAT_MP3;
    } else if (m_format_is_ov) {
        format = SHOUT_FORMAT_OGG;
    } else {
        qDebug() << "Error: unknown format:" << baFormat.constData();
        return;
    }

    if (shout_set_format(m_pShout, format) != SHOUTERR_SUCCESS) {
        errorDialog("Error setting soutcast format!", shout_get_error(m_pShout));
        return;
    }

    bool bitrate_is_int = false;
    int iBitrate = baBitrate.toInt(&bitrate_is_int);

    if (!bitrate_is_int) {
        qDebug() << "Error: unknown bitrate:" << baBitrate.constData();
    }

    int iMasterSamplerate = m_pMasterSamplerate->get();
    if (m_format_is_ov && iMasterSamplerate == 96000) {
        errorDialog(tr("Broadcasting at 96kHz with Ogg Vorbis is not currently "
                       "supported. Please try a different sample-rate or switch "
                       "to a different encoding."),
                    tr("See https://bugs.launchpad.net/mixxx/+bug/686212 for more "
                       "information."));
        return;
    }

    if (shout_set_audio_info(m_pShout, SHOUT_AI_BITRATE, baBitrate.constData()) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting bitrate"), shout_get_error(m_pShout));
        return;
    }

    m_protocol_is_icecast2 = !qstricmp(baServerType.constData(), SHOUTCAST_SERVER_ICECAST2);
    m_protocol_is_shoutcast = !qstricmp(baServerType.constData(), SHOUTCAST_SERVER_SHOUTCAST);
    m_protocol_is_icecast1 = !qstricmp(baServerType.constData(), SHOUTCAST_SERVER_ICECAST1);


    if (m_protocol_is_icecast2) {
        protocol = SHOUT_PROTOCOL_HTTP;
    } else if (m_protocol_is_shoutcast) {
        protocol = SHOUT_PROTOCOL_ICY;
    } else if (m_protocol_is_icecast1) {
        protocol = SHOUT_PROTOCOL_XAUDIOCAST;
    } else {
        errorDialog(tr("Error: unknown server protocol!"), shout_get_error(m_pShout));
        return;
    }

    if (m_protocol_is_shoutcast && !m_format_is_mp3) {
        errorDialog(tr("Error: libshout only supports Shoutcast with MP3 format!"),
                    shout_get_error(m_pShout));
        return;
    }

    if (shout_set_protocol(m_pShout, protocol) != SHOUTERR_SUCCESS) {
        errorDialog(tr("Error setting protocol!"), shout_get_error(m_pShout));
        return;
    }

    // Initialize m_encoder
    if (m_encoder) {
        // delete m_encoder if it has been initalized (with maybe) different bitrate
        delete m_encoder;
        m_encoder = NULL;
    }

    if (m_format_is_mp3) {
        m_encoder = new EncoderMp3(this);
    } else if (m_format_is_ov) {
        m_encoder = new EncoderVorbis(this);
    } else {
        qDebug() << "**** Unknown Encoder Format";
        return;
    }

    if (m_encoder->initEncoder(iBitrate, iMasterSamplerate) < 0) {
        //e.g., if lame is not found
        //init m_encoder itself will display a message box
        qDebug() << "**** Encoder init failed";
        delete m_encoder;
        m_encoder = NULL;
    }
}
Пример #13
0
void MigrateDialog::process()
{
    unsigned size = 0;
    for (list<QCheckBox*>::iterator it = m_boxes.begin(); it != m_boxes.end(); ++it){
        if (!(*it)->isChecked())
            continue;
        QString path = user_file((*it)->text());
        path += '/';
        icqConf.close();
        clientsConf.close();
        contactsConf.close();
        icqConf.setFileName(path + "icq.conf");
        clientsConf.setFileName(path + "clients.conf");
        contactsConf.setFileName(path + "contacts.conf");
        lblStatus->setText(path + "icq.conf");
        if (!icqConf.open(QIODevice::ReadOnly)){
            error(i18n("Can't open %1") .arg(path + "icq.conf"));
            return;
        }
        if (!clientsConf.open(QIODevice::WriteOnly | QIODevice::Truncate)){
            error(i18n("Can't open %1") .arg(path + "clients.conf"));
            return;
        }
        if (!contactsConf.open(QIODevice::WriteOnly | QIODevice::Truncate)){
            error(i18n("Can't open %1") .arg(path + "contacts.conf"));
            return;
        }
        m_uin    = 0;
        m_passwd = "";
        m_state  = 0;
        m_grpId		= 0;
        m_contactId = 0;
        Buffer cfg;
        cfg.init(icqConf.size());
        icqConf.read(cfg.data(), icqConf.size());
        for (;;){
            QByteArray section = cfg.getSection();
            if (section.isEmpty())
                break;
            m_state = 3;
            if (section == "Group")
                m_state = 1;
            if (section == "User")
                m_state = 2;
            if (!m_bProcess)
                return;
            for (;;){
                QByteArray l = cfg.getLine();
                if (l.isEmpty())
                    break;
                QByteArray line = l;
                QByteArray name = getToken(line, '=');
                if (name == "UIN")
                    m_uin = line.toUInt();
                if (name == "EncryptPassword")
                    m_passwd = line;
                if (name == "Name")
                    m_name = line;
                if (name == "Alias")
                    m_name = line;
            }
            flush();
            barCnv->setValue(cfg.readPos());
            qApp->processEvents();
        }
        icqConf.close();
        clientsConf.close();
        contactsConf.close();
        m_state = 3;
        size += icqConf.size();
        if (!m_bProcess)
            return;
        barCnv->setValue(size);
        qApp->processEvents();
        QString h_path = path;
#ifdef WIN32
        h_path += "history\\";
#else
        h_path += "history/";
#endif
        QDir history(h_path);
        QStringList l = history.entryList(QStringList("*.history"), QDir::Files);
        for (QStringList::Iterator it = l.begin(); it != l.end(); ++it){
            hFrom.close();
            hTo.close();
            hFrom.setFileName(h_path + (*it));
            lblStatus->setText(h_path + (*it));
            hTo.setFileName(h_path + QString(m_owner) + '.' + it->left(it->indexOf('.')));
            if (!hFrom.open(QIODevice::ReadOnly)){
                error(i18n("Can't open %1") .arg(hFrom.fileName()));
                return;
            }
            if (!hTo.open(QIODevice::WriteOnly | QIODevice::Truncate)){
                error(i18n("Can't open %1") .arg(hTo.fileName()));
                return;
            }
            cfg.init(hFrom.size());
            hFrom.read(cfg.data(), hFrom.size());
            for (;;){
                QByteArray section = cfg.getSection();
                if (section.isEmpty())
                    break;
                m_state = 3;
                if (section == "Message")
                    m_state = 4;
                if (!m_bProcess)
                    return;
                for (;;){
                    QByteArray l = cfg.getLine();
                    if (l.isEmpty())
                        break;
                    QByteArray line = l;
                    QByteArray name = getToken(line, '=');
                    if (name == "Message")
                        m_message = line;
                    if (name == "Time")
                        m_time = line;
                    if (name == "Direction")
                        m_direction = line;
                    if (name == "Charset")
                        m_charset = line;
                }
                flush();
                barCnv->setValue(cfg.readPos());
                qApp->processEvents();
            }
            hFrom.close();
            hTo.close();
            m_state = 3;
            size += hFrom.size();
            if (!m_bProcess)
                return;
            barCnv->setValue(size);
            qApp->processEvents();
        }
        if (chkRemove->isChecked()){
            icqConf.remove();
            icqConf.setFileName(path + "sim.conf");
            icqConf.remove();
            for (QStringList::Iterator it = l.begin(); it != l.end(); ++it){
                hFrom.setFileName(h_path + (*it));
                hFrom.remove();
            }
        }
    }
    m_bProcess = false;
    accept();
}
Пример #14
0
bool
Field::setDefaultValue(const QByteArray& def)
{
    if (def.isNull()) {
        m_defaultValue = QVariant();
        return true;
    }

    bool ok;
    switch (type()) {
    case Byte: {
        unsigned int v = def.toUInt(&ok);
        if (!ok || v > 255)
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(v);
        break;
    }
    case ShortInteger: {
        int v = def.toInt(&ok);
        if (!ok || (!(m_options & Unsigned) && (v < -32768 || v > 32767)) || ((m_options & Unsigned) && (v < 0 || v > 65535)))
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(v);
        break;
    }
    case Integer: {//4 bytes
        long v = def.toLong(&ok);
//js: FIXME   if (!ok || (!(m_options & Unsigned) && (-v > 0x080000000 || v > (0x080000000-1))) || ((m_options & Unsigned) && (v < 0 || v > 0x100000000)))
        if (!ok || (!(m_options & Unsigned) && (-v > (int)0x07FFFFFFF || v > (int)(0x080000000 - 1))))
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant((qint64)v);
        break;
    }
    case BigInteger: {//8 bytes
//! @todo BigInteger support
        /*
              qint64 long v = def.toLongLong(&ok);
        //TODO: 2-part decoding
              if (!ok || (!(m_options & Unsigned) && (-v > 0x080000000 || v > (0x080000000-1))))
                m_defaultValue = QVariant();
              else
                if (m_options & Unsigned)
                  m_defaultValue=QVariant((quint64) v);
                else
                  m_defaultValue = QVariant((qint64)v);*/
        break;
    }
    case Boolean: {
        unsigned short v = def.toUShort(&ok);
        if (!ok || v > 1)
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant((bool)v);
        break;
    }
    case Date: {//YYYY-MM-DD
        QDate date = QDate::fromString(def, Qt::ISODate);
        if (!date.isValid())
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(date);
        break;
    }
    case DateTime: {//YYYY-MM-DDTHH:MM:SS
        QDateTime dt = QDateTime::fromString(def, Qt::ISODate);
        if (!dt.isValid())
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(dt);
        break;
    }
    case Time: {//HH:MM:SS
        QTime time = QTime::fromString(def, Qt::ISODate);
        if (!time.isValid())
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(time);
        break;
    }
    case Float: {
        float v = def.toFloat(&ok);
        if (!ok || ((m_options & Unsigned) && (v < 0.0)))
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(v);
        break;
    }
    case Double: {
        double v = def.toDouble(&ok);
        if (!ok || ((m_options & Unsigned) && (v < 0.0)))
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(v);
        break;
    }
    case Text: {
        if (def.isNull() || (uint(def.length()) > maxLength()))
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant((QString)def);
        break;
    }
    case LongText: {
        if (def.isNull())
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant((QString)def);
        break;
    }
    case BLOB: {
//TODO
        if (def.isNull())
            m_defaultValue = QVariant();
        else
            m_defaultValue = QVariant(def);
        break;
    }
    default:
        m_defaultValue = QVariant();
    }
    return m_defaultValue.isNull();
}
Пример #15
0
/*! read data from TCP socket. Connects to signal readyRead of socket
 */
void So2sdrBandmap::readData()
{
    // continue on as long as data is available
    while (socket->bytesAvailable()) {
        // first read command and length
        char buff[2];
        if (cmdLen==0) {
            if (socket->bytesAvailable()<2) return;
            int n=socket->read(buff,2);
            if (n==2) {
                cmd=buff[0];
                cmdLen=buff[1];
            }
        }
        QByteArray data;
        data.clear();
        if (cmdLen>0) {
            if  (socket->bytesAvailable()<cmdLen) return;
            data=socket->read(cmdLen);
        }
        bool ok=false;
        int f;
        unsigned int ff;
        switch (cmd) {
        case BANDMAP_CMD_SET_FREQ: // set frequency
            f=data.toInt(&ok);
            if  (ok) {
                centerFreq=f;
                int b=getBand(f);
                setBandName(b);

                endFreqs[0] = centerFreq-
                        settings->value(s_sdr_sample_freq,s_sdr_sample_freq_def).toInt()/2
                        -settings->value(s_sdr_offset,s_sdr_offset_def).toInt();
                endFreqs[1] = centerFreq+
                        settings->value(s_sdr_sample_freq,s_sdr_sample_freq_def).toInt()/2
                        -settings->value(s_sdr_offset,s_sdr_offset_def).toInt();

                setWindowTitle("Bandmap "+bandName+" ["+QString::number(endFreqs[0]/1000)+"-"+QString::number(endFreqs[1]/1000)+"]");
                if (band != b) {
                    // if band changed, clear all signals
                    spectrumProcessor->clearSigs();
                    spectrumProcessor->clearCQ();
                    band=b;
                }
                spectrumProcessor->setFreq(centerFreq, band, endFreqs[0], endFreqs[1]);
                spectrumProcessor->resetAvg();
                makeFreqScaleAbsolute();
                FreqLabel->setPixmap(freqPixmap);
                FreqLabel->update();
            }
            break;
        case BANDMAP_CMD_SET_LOWER_FREQ: // set freq finder lower limit
            ff=data.toUInt(&ok);
            if (ok) {
                flow=ff;
            }
            break;
        case BANDMAP_CMD_SET_UPPER_FREQ: // set freq finder upper limit
            ff=data.toUInt(&ok);
            if (ok) {
                fhigh=ff;
            }
            break;
        case BANDMAP_CMD_QUIT: // quit program
            quit();
            break;
        case BANDMAP_CMD_TX: // set transmit state
            tx=true;
            txLabel.setText("<font color=#FF0000>TX");
            settings->setValue(s_sdr_peakdetect,false);
            break;
        case BANDMAP_CMD_RX: // cancel transmit state
            tx=false;
            txLabel.setText("<font color=#000000>TX");
            settings->setValue(s_sdr_peakdetect,true);
            break;
        case BANDMAP_CMD_FIND_FREQ: // find open frequency
            if (centerFreq!=0 && flow!=0 && fhigh!=0) {
                spectrumProcessor->startFindCQ(flow,fhigh,callList);
            }
            break;
        case BANDMAP_CMD_SET_INVERT: // invert spectrum
            if (data[0]==char(0x00)) {
                setInvert(false);
            } else {
                setInvert(true);
            }
            break;
        case BANDMAP_CMD_SET_ADD_OFFSET: // set additional IF offset
            f=data.toInt(&ok);
            if (ok) {
                spectrumProcessor->setAddOffset(f);
            }
            break;
        case BANDMAP_CMD_ADD_CALL: // add callsign
            addCall(data);
            break;
        case BANDMAP_CMD_CLEAR: // clear callsign list
            callList.clear();
            break;
        case BANDMAP_CMD_DELETE_CALL: // delete callsign
            deleteCall(data);
            break;
        case BANDMAP_CMD_QSY_UP:  // qsy to next higher signal
            qsyNext(true);
            break;
        case BANDMAP_CMD_QSY_DOWN:  // qsy to next lower signal
            qsyNext(false);
            break;
        }
        cmd=0;
        cmdLen=0;
    }
}