コード例 #1
0
void getMainGridDimensions(int32NDArray& gridDimensions, const QString &hostName, quint16 port, QString caseName)
{
    QString serverName = hostName;
    quint16 serverPort = port;

    const int Timeout = 5 * 1000;

    QTcpSocket socket;
    socket.connectToHost(serverName, serverPort);

    if (!socket.waitForConnected(Timeout))
    {
        error((("Connection: ") + socket.errorString()).toLatin1().data());
        return;
    }

    // Create command and send it:

    QString command("GetMainGridDimensions ");
    command += caseName;
    QByteArray cmdBytes = command.toLatin1();

    QDataStream socketStream(&socket);
    socketStream.setVersion(QDataStream::Qt_4_0);

    socketStream << (qint64)(cmdBytes.size());
    socket.write(cmdBytes);

    // Get response. First wait for the header

    while (socket.bytesAvailable() < (int)(3*sizeof(quint64)))
    {
        if (!socket.waitForReadyRead(Timeout))
        {
            error((("Wating for header: ") + socket.errorString()).toLatin1().data());
            return;
        }
    }

    // Read timestep count and blocksize

    quint64 iCount;
    quint64 jCount;
    quint64 kCount;

    socketStream >> iCount;
    socketStream >> jCount;
    socketStream >> kCount;

    dim_vector dv (1, 1);
    dv(0) = 3;

    gridDimensions.resize(dv);
    gridDimensions(0) = iCount;
    gridDimensions(1) = jCount;
    gridDimensions(2) = kCount;


    QString tmp = QString("riGetMainGridDimensions : Read main grid dimensions");
    if (caseName.isEmpty())
    {
        tmp += QString(" from active case.");
    }
    else
    {
        tmp += QString(" from %1.").arg(caseName);
    }
    octave_stdout << tmp.toStdString() << " Dimensions: " << iCount << ", " << jCount << ", " << kCount << std::endl;

    return;
}
コード例 #2
-1
void getCoarseningInfo(int32NDArray& coarseningInfo, const QString &hostName, quint16 port, const qint64& caseId)
{
    QString serverName = hostName;
    quint16 serverPort = port;

    QTcpSocket socket;
    socket.connectToHost(serverName, serverPort);

    if (!socket.waitForConnected(riOctavePlugin::connectTimeOutMilliSecs))
    {
        error((("Connection: ") + socket.errorString()).toLatin1().data());
        return;
    }

    // Create command and send it:

    QString command = QString("GetCoarseningInfo %1").arg(caseId);
    QByteArray cmdBytes = command.toLatin1();

    QDataStream socketStream(&socket);
    socketStream.setVersion(riOctavePlugin::qtDataStreamVersion);

    socketStream << (qint64)(cmdBytes.size());
    socket.write(cmdBytes);

    // Get response. First wait for the header

    while (socket.bytesAvailable() < (int)(sizeof(quint64)))
    {
        if (!socket.waitForReadyRead(riOctavePlugin::longTimeOutMilliSecs))
        {
            error((("Waiting for header: ") + socket.errorString()).toLatin1().data());
            return;
        }
    }

    quint64 byteCount;
    socketStream >> byteCount;

    quint64 boxCount = byteCount / (6 * sizeof(qint32));

    dim_vector dv (1, 1);
    dv(0) = boxCount;
    dv(1) = 6;

    coarseningInfo.resize(dv);

    for (size_t i = 0; i < boxCount; i++)
    {
        qint32 i1;
        qint32 i2;
        qint32 j1;
        qint32 j2;
        qint32 k1;
        qint32 k2;

        socketStream >> i1;
        socketStream >> i2;
        socketStream >> j1;
        socketStream >> j2;
        socketStream >> k1;
        socketStream >> k2;

        coarseningInfo(i, 0) = i1;
        coarseningInfo(i, 1) = i2;
        coarseningInfo(i, 2) = j1;
        coarseningInfo(i, 3) = j2;
        coarseningInfo(i, 4) = k1;
        coarseningInfo(i, 5) = k2;
    }

    return;
}