diff --git a/src/backend/datasources/LiveDataSource.cpp b/src/backend/datasources/LiveDataSource.cpp index 209879136..46dceb85d 100644 --- a/src/backend/datasources/LiveDataSource.cpp +++ b/src/backend/datasources/LiveDataSource.cpp @@ -1,1049 +1,1050 @@ /*************************************************************************** File : LiveDataSource.cpp Project : LabPlot Description : Represents live data source -------------------------------------------------------------------- Copyright : (C) 2009-2017 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2017 Fabian Kristof (fkristofszabolcs@gmail.com) Copyright : (C) 2018 Stefan Gerlach (stefan.gerlach@uni.kn) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "backend/datasources/LiveDataSource.h" #include "backend/datasources/filters/AsciiFilter.h" #include "backend/datasources/filters/FITSFilter.h" #include "backend/datasources/filters/BinaryFilter.h" #include "backend/core/Project.h" #include "kdefrontend/spreadsheet/PlotDataDialog.h" #include "commonfrontend/spreadsheet/SpreadsheetView.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*! \class LiveDataSource \brief Represents data stored in a file. Reading and writing is done with the help of appropriate I/O-filters. \ingroup datasources */ LiveDataSource::LiveDataSource(AbstractScriptingEngine* engine, const QString& name, bool loading) : Spreadsheet(engine, name, loading), - m_fileType(Ascii), - m_fileWatched(false), - m_fileLinked(false), - m_paused(false), - m_prepared(false), - m_keepLastValues(false), - m_updateInterval(1000), -//TODO: m_keepNvalues, m_sampleRate, m_port, m_baudRate ? - m_bytesRead(0), - m_filter(nullptr), - m_updateTimer(new QTimer(this)), - m_fileSystemWatcher(nullptr), - m_file(nullptr), - m_localSocket(nullptr), - m_tcpSocket(nullptr), - m_udpSocket(nullptr), - m_serialPort(nullptr), - m_device(nullptr) { + m_fileType(Ascii), + m_fileWatched(false), + m_fileLinked(false), + m_paused(false), + m_prepared(false), + m_keepLastValues(false), + m_sampleSize(1), + m_updateInterval(1000), +//TODO: m_keepNvalues, m_port, m_baudRate ? + m_bytesRead(0), + m_filter(nullptr), + m_updateTimer(new QTimer(this)), + m_fileSystemWatcher(nullptr), + m_file(nullptr), + m_localSocket(nullptr), + m_tcpSocket(nullptr), + m_udpSocket(nullptr), + m_serialPort(nullptr), + m_device(nullptr) { initActions(); connect(m_updateTimer, &QTimer::timeout, this, &LiveDataSource::read); } LiveDataSource::~LiveDataSource() { //stop reading before deleting the objects pauseReading(); if (m_filter) delete m_filter; if (m_fileSystemWatcher) delete m_fileSystemWatcher; if (m_file) delete m_file; if (m_localSocket) delete m_localSocket; if (m_tcpSocket) delete m_tcpSocket; if (m_serialPort) delete m_serialPort; delete m_updateTimer; } /*! * depending on the update type, periodically or on data changes, starts the timer or activates the file watchers, respectively. */ void LiveDataSource::ready() { DEBUG("LiveDataSource::ready() update type = " << m_updateType << ", interval = " << m_updateInterval); switch (m_updateType) { case TimeInterval: DEBUG("START TIMER"); m_updateTimer->start(m_updateInterval); DEBUG(" REMAINING TIME = " << m_updateTimer->remainingTime()); break; case NewData: DEBUG("START WATCHER"); watch(); } } void LiveDataSource::initActions() { m_reloadAction = new QAction(QIcon::fromTheme("view-refresh"), i18n("Reload"), this); connect(m_reloadAction, &QAction::triggered, this, &LiveDataSource::read); m_toggleLinkAction = new QAction(i18n("Link the file"), this); m_toggleLinkAction->setCheckable(true); connect(m_toggleLinkAction, &QAction::triggered, this, &LiveDataSource::linkToggled); m_plotDataAction = new QAction(QIcon::fromTheme("office-chart-line"), i18n("Plot data"), this); connect(m_plotDataAction, &QAction::triggered, this, &LiveDataSource::plotData); } QWidget* LiveDataSource::view() const { if (!m_partView) m_partView = new SpreadsheetView(const_cast(this), true); return m_partView; } /*! * \brief Returns a list with the names of the available ports */ QStringList LiveDataSource::availablePorts() { QStringList ports; qDebug() << "available ports count:" << QSerialPortInfo::availablePorts().size(); for (const QSerialPortInfo& sp : QSerialPortInfo::availablePorts()) { ports.append(sp.portName()); qDebug() << sp.description(); qDebug() << sp.manufacturer(); qDebug() << sp.portName(); qDebug() << sp.serialNumber(); qDebug() << sp.systemLocation(); } return ports; } /*! * \brief Returns a list with the supported baud rates */ QStringList LiveDataSource::supportedBaudRates() { QStringList baudRates; for (const auto& baud : QSerialPortInfo::standardBaudRates()) baudRates.append(QString::number(baud)); return baudRates; } /*! * \brief Updates this data source at this moment */ void LiveDataSource::updateNow() { DEBUG("LiveDataSource::updateNow() update interval = " << m_updateInterval); m_updateTimer->stop(); read(); //restart the timer after update if (m_updateType == TimeInterval) m_updateTimer->start(m_updateInterval); } /*! * \brief Continue reading from the live data source after it was paused */ void LiveDataSource::continueReading() { m_paused = false; switch (m_updateType) { case TimeInterval: m_updateTimer->start(m_updateInterval); break; case NewData: connect(m_fileSystemWatcher, &QFileSystemWatcher::fileChanged, this, &LiveDataSource::read); } } /*! * \brief Pause the reading of the live data source */ void LiveDataSource::pauseReading() { m_paused = true; switch (m_updateType) { case TimeInterval: m_updateTimer->stop(); break; case NewData: disconnect(m_fileSystemWatcher, &QFileSystemWatcher::fileChanged, this, &LiveDataSource::read); } } /*! returns the list of all supported data file formats */ QStringList LiveDataSource::fileTypes() { // see LiveDataSource::FileType return (QStringList() << i18n("ASCII data") << i18n("Binary data") << i18n("Image") << i18n("Hierarchical Data Format 5 (HDF5)") << i18n("Network Common Data Format (NetCDF)") << i18n("Flexible Image Transport System Data Format (FITS)") << i18n("ROOT (CERN) Histograms") ); } void LiveDataSource::setFileName(const QString& name) { m_fileName = name; } QString LiveDataSource::fileName() const { return m_fileName; } /*! * \brief Sets the local socket's server name to name * \param name */ void LiveDataSource::setLocalSocketName(const QString& name) { m_localSocketName = name; } QString LiveDataSource::localSocketName() const { return m_localSocketName; } void LiveDataSource::setFileType(FileType type) { m_fileType = type; } LiveDataSource::FileType LiveDataSource::fileType() const { return m_fileType; } void LiveDataSource::setFilter(AbstractFileFilter* f) { m_filter = f; } AbstractFileFilter* LiveDataSource::filter() const { return m_filter; } /*! sets whether the file should be watched or not. In the first case the data source will be automatically updated on file changes. */ void LiveDataSource::setFileWatched(bool b) { m_fileWatched = b; } bool LiveDataSource::isFileWatched() const { return m_fileWatched; } /*! * \brief Sets whether we'll keep the last values or append it to the previous ones * \param keepLastValues */ void LiveDataSource::setKeepLastValues(bool keepLastValues) { m_keepLastValues = keepLastValues; } bool LiveDataSource::keepLastValues() const { return m_keepLastValues; } /*! * \brief Sets the serial port's baud rate * \param baudrate */ void LiveDataSource::setBaudRate(int baudrate) { m_baudRate = baudrate; } int LiveDataSource::baudRate() const { return m_baudRate; } /*! * \brief Sets the source's update interval to \c interval * \param interval */ void LiveDataSource::setUpdateInterval(int interval) { m_updateInterval = interval; m_updateTimer->start(m_updateInterval); } int LiveDataSource::updateInterval() const { return m_updateInterval; } /*! * \brief Sets how many values we should store * \param keepnvalues */ void LiveDataSource::setKeepNvalues(int keepnvalues) { m_keepNvalues = keepnvalues; } int LiveDataSource::keepNvalues() const { return m_keepNvalues; } /*! * \brief Sets the network socket's port to port * \param port */ void LiveDataSource::setPort(quint16 port) { m_port = port; } void LiveDataSource::setBytesRead(qint64 bytes) { m_bytesRead = bytes; } int LiveDataSource::bytesRead() const { return m_bytesRead; } int LiveDataSource::port() const { return m_port; } /*! * \brief Sets the serial port's name to name * \param name */ void LiveDataSource::setSerialPort(const QString& name) { m_serialPortName = name; } QString LiveDataSource::serialPortName() const { return m_serialPortName; } bool LiveDataSource::isPaused() const { return m_paused; } /*! - * \brief Sets the sample rate to samplerate - * \param samplerate + * \brief Sets the sample size to size + * \param size */ -void LiveDataSource::setSampleRate(int samplerate) { - m_sampleRate = samplerate; +void LiveDataSource::setSampleSize(int size) { + m_sampleSize = size; } -int LiveDataSource::sampleRate() const { - return m_sampleRate; +int LiveDataSource::sampleSize() const { + return m_sampleSize; } /*! * \brief Sets the source's type to sourcetype * \param sourcetype */ void LiveDataSource::setSourceType(SourceType sourcetype) { m_sourceType = sourcetype; } LiveDataSource::SourceType LiveDataSource::sourceType() const { return m_sourceType; } /*! * \brief Sets the source's reading type to readingType * \param readingType */ void LiveDataSource::setReadingType(ReadingType readingType) { m_readingType = readingType; } LiveDataSource::ReadingType LiveDataSource::readingType() const { return m_readingType; } /*! * \brief Sets the source's update type to updatetype and handles this change * \param updatetype */ void LiveDataSource::setUpdateType(UpdateType updatetype) { switch (updatetype) { case NewData: m_updateTimer->stop(); if (m_fileSystemWatcher == nullptr) watch(); else connect(m_fileSystemWatcher, &QFileSystemWatcher::fileChanged, this, &LiveDataSource::read); break; case TimeInterval: if (m_fileSystemWatcher) disconnect(m_fileSystemWatcher, &QFileSystemWatcher::fileChanged, this, &LiveDataSource::read); } m_updateType = updatetype; } LiveDataSource::UpdateType LiveDataSource::updateType() const { return m_updateType; } /*! * \brief Sets the network socket's host * \param host */ void LiveDataSource::setHost(const QString& host) { m_host = host; } QString LiveDataSource::host() const { return m_host; } /*! sets whether only a link to the file is saved in the project file (\c b=true) or the whole content of the file (\c b=false). */ void LiveDataSource::setFileLinked(bool b) { m_fileLinked = b; } /*! returns \c true if only a link to the file is saved in the project file. \c false otherwise. */ bool LiveDataSource::isFileLinked() const { return m_fileLinked; } QIcon LiveDataSource::icon() const { QIcon icon; if (m_fileType == LiveDataSource::Ascii) icon = QIcon::fromTheme("text-plain"); else if (m_fileType == LiveDataSource::Binary) icon = QIcon::fromTheme("application-octet-stream"); else if (m_fileType == LiveDataSource::Image) icon = QIcon::fromTheme("image-x-generic"); // TODO: HDF5, NetCDF, FITS, etc. return icon; } QMenu* LiveDataSource::createContextMenu() { QMenu* menu = AbstractPart::createContextMenu(); QAction* firstAction = 0; // if we're populating the context menu for the project explorer, then //there're already actions available there. Skip the first title-action //and insert the action at the beginning of the menu. if (menu->actions().size() > 1) firstAction = menu->actions().at(1); menu->insertAction(firstAction, m_plotDataAction); menu->insertSeparator(firstAction); //TODO: doesnt always make sense... // if (!m_fileWatched) // menu->insertAction(firstAction, m_reloadAction); // // m_toggleWatchAction->setChecked(m_fileWatched); // menu->insertAction(firstAction, m_toggleWatchAction); // // m_toggleLinkAction->setChecked(m_fileLinked); // menu->insertAction(firstAction, m_toggleLinkAction); return menu; } //############################################################################## //################################# SLOTS #################################### //############################################################################## /* * called periodically or on new data changes (file changed, new data in the socket, etc.) */ void LiveDataSource::read() { DEBUG("LiveDataSource::read()"); if (m_filter == nullptr) return; //initialize the device (file, socket, serial port), when calling this function for the first time if (!m_prepared) { DEBUG(" preparing device. update type = " << m_updateType); switch (m_sourceType) { case FileOrPipe: m_file = new QFile(m_fileName); m_device = m_file; break; case NetworkTcpSocket: m_tcpSocket = new QTcpSocket(this); m_device = m_tcpSocket; m_tcpSocket->connectToHost(m_host, m_port, QIODevice::ReadOnly); connect(m_tcpSocket, &QTcpSocket::readyRead, this, &LiveDataSource::readyRead); connect(m_tcpSocket, static_cast(&QTcpSocket::error), this, &LiveDataSource::tcpSocketError); break; case NetworkUdpSocket: m_udpSocket = new QUdpSocket(this); m_device = m_udpSocket; m_udpSocket->bind(QHostAddress(m_host), m_port); m_udpSocket->connectToHost(m_host, 0, QUdpSocket::ReadOnly); // only connect to readyRead when update is on new data if (m_updateType == NewData) connect(m_udpSocket, &QUdpSocket::readyRead, this, &LiveDataSource::readyRead); connect(m_udpSocket, static_cast(&QUdpSocket::error), this, &LiveDataSource::tcpSocketError); break; case LocalSocket: m_localSocket = new QLocalSocket(this); m_device = m_localSocket; m_localSocket->connectToServer(m_localSocketName, QLocalSocket::ReadOnly); connect(m_localSocket, &QLocalSocket::readyRead, this, &LiveDataSource::readyRead); connect(m_localSocket, static_cast(&QLocalSocket::error), this, &LiveDataSource::localSocketError); break; case SerialPort: m_serialPort = new QSerialPort; m_device = m_serialPort; m_serialPort->setBaudRate(m_baudRate); m_serialPort->setPortName(m_serialPortName); connect(m_serialPort, static_cast(&QSerialPort::error), this, &LiveDataSource::serialPortError); connect(m_serialPort, &QSerialPort::readyRead, this, &LiveDataSource::readyRead); break; } m_prepared = true; } qint64 bytes = 0; switch (m_sourceType) { case FileOrPipe: DEBUG("Reading FileOrPipe .."); switch (m_fileType) { case Ascii: DEBUG(" type ASCII"); if (m_readingType == LiveDataSource::ReadingType::WholeFile) { dynamic_cast(m_filter)->readFromLiveDevice(*m_file, this, 0); } else { bytes = dynamic_cast(m_filter)->readFromLiveDevice(*m_file, this, m_bytesRead); m_bytesRead += bytes; } DEBUG("Read " << bytes << " bytes, in total: " << m_bytesRead); break; case Binary: DEBUG(" type Binary"); //TODO: bytes = dynamic_cast(m_filter)->readFromLiveDevice(*m_file, this, m_bytesRead); m_bytesRead += bytes; //TODO:? case Image: case HDF5: case NETCDF: case FITS: case ROOT: break; } break; case NetworkTcpSocket: DEBUG("reading from TCP socket. state before abort = " << m_tcpSocket->state()); m_tcpSocket->abort(); m_tcpSocket->connectToHost(m_host, m_port, QIODevice::ReadOnly); DEBUG("reading from TCP socket. state after reconnect = " << m_tcpSocket->state()); break; case NetworkUdpSocket: DEBUG("reading from UDP socket. state before abort = " << m_udpSocket->state()); // reading data here dynamic_cast(m_filter)->readFromLiveDeviceNotFile(*m_device, this); DEBUG("reading from UDP socket. state after reconnect = " << m_udpSocket->state()); break; case LocalSocket: DEBUG("reading from local socket. state before abort = " << m_localSocket->state()); m_localSocket->abort(); m_localSocket->connectToServer(m_localSocketName, QLocalSocket::ReadOnly); DEBUG("reading from local socket. state after reconnect = " << m_localSocket->state()); break; case SerialPort: DEBUG("reading from the serial port"); m_serialPort->setBaudRate(m_baudRate); m_serialPort->setPortName(m_serialPortName); m_device = m_serialPort; //TODO break; } } /*! * Slot for the signal that is emitted once every time new data is available for reading from the device. * It will only be emitted again once new data is available, such as when a new payload of network data has arrived on the network socket, * or when a new block of data has been appended to your device. */ void LiveDataSource::readyRead() { DEBUG("LiveDataSource::readyRead() update type = " << m_updateType); DEBUG(" REMAINING TIME = " << m_updateTimer->remainingTime()); if (m_fileType == Ascii) dynamic_cast(m_filter)->readFromLiveDeviceNotFile(*m_device, this); //TODO: else if (m_fileType == Binary) // dynamic_cast(m_filter)->readFromLiveDeviceNotFile(*m_device, this); //since we won't have the timer to call read() where we create new connections //for sequencial devices in read() we just request data/connect to servers if (m_updateType == NewData) read(); } void LiveDataSource::localSocketError(QLocalSocket::LocalSocketError socketError) { Q_UNUSED(socketError); /*disconnect(m_localSocket, SIGNAL(error(QLocalSocket::LocalSocketError)), this, SLOT(localSocketError(QLocalSocket::LocalSocketError))); disconnect(m_localSocket, SIGNAL(readyRead()), this, SLOT(readyRead()));*/ /*switch (socketError) { case QLocalSocket::ServerNotFoundError: QMessageBox::critical(0, i18n("Local Socket Error"), i18n("The socket was not found. Please check the socket name.")); break; case QLocalSocket::ConnectionRefusedError: QMessageBox::critical(0, i18n("Local Socket Error"), i18n("The connection was refused by the peer")); break; case QLocalSocket::PeerClosedError: QMessageBox::critical(0, i18n("Local Socket Error"), i18n("The socket has closed the connection.")); break; default: QMessageBox::critical(0, i18n("Local Socket Error"), i18n("The following error occurred: %1.", m_localSocket->errorString())); }*/ } void LiveDataSource::tcpSocketError(QAbstractSocket::SocketError socketError) { Q_UNUSED(socketError); /*switch (socketError) { case QAbstractSocket::ConnectionRefusedError: QMessageBox::critical(0, i18n("TCP Socket Error"), i18n("The connection was refused by the peer. Make sure the server is running and check the host name and port settings.")); break; case QAbstractSocket::RemoteHostClosedError: QMessageBox::critical(0, i18n("TCP Socket Error"), i18n("The remote host closed the connection.")); break; case QAbstractSocket::HostNotFoundError: QMessageBox::critical(0, i18n("TCP Socket Error"), i18n("The host was not found. Please check the host name and port settings.")); break; default: QMessageBox::critical(0, i18n("TCP Socket Error"), i18n("The following error occurred: %1.", m_tcpSocket->errorString())); }*/ } void LiveDataSource::serialPortError(QSerialPort::SerialPortError serialPortError) { switch (serialPortError) { case QSerialPort::DeviceNotFoundError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("Failed to open the device.")); break; case QSerialPort::PermissionError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("Failed to open the device. Please check your permissions on this device.")); break; case QSerialPort::OpenError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("Device already opened.")); break; case QSerialPort::NotOpenError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("The device is not opened.")); break; case QSerialPort::ReadError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("Failed to read data.")); break; case QSerialPort::ResourceError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("Failed to read data. The device is removed.")); break; case QSerialPort::TimeoutError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("The device timed out.")); break; #ifndef _MSC_VER //MSVC complains about the usage of deprecated enums, g++ and clang complain about missing enums case QSerialPort::ParityError: case QSerialPort::FramingError: case QSerialPort::BreakConditionError: #endif case QSerialPort::WriteError: case QSerialPort::UnsupportedOperationError: case QSerialPort::UnknownError: QMessageBox::critical(0, i18n("Serial Port Error"), i18n("The following error occurred: %1.", m_serialPort->errorString())); break; case QSerialPort::NoError: break; } } void LiveDataSource::watchToggled() { m_fileWatched = !m_fileWatched; watch(); project()->setChanged(true); } void LiveDataSource::linkToggled() { m_fileLinked = !m_fileLinked; project()->setChanged(true); } //watch the file upon reading for changes if required void LiveDataSource::watch() { DEBUG("LiveDataSource::watch() file name = " << m_fileName.toStdString()); if (m_fileWatched) { if (!m_fileSystemWatcher) { m_fileSystemWatcher = new QFileSystemWatcher; connect(m_fileSystemWatcher, &QFileSystemWatcher::fileChanged, this, &LiveDataSource::read); } if ( !m_fileSystemWatcher->files().contains(m_fileName) ) m_fileSystemWatcher->addPath(m_fileName); } else { if (m_fileSystemWatcher) m_fileSystemWatcher->removePath(m_fileName); } } /*! returns a string containing the general information about the file \c name and some content specific information (number of columns and lines for ASCII, color-depth for images etc.). */ QString LiveDataSource::fileInfoString(const QString &name) { QString infoString; QFileInfo fileInfo; QString fileTypeString; QIODevice *file = new QFile(name); QString fileName; #ifdef Q_OS_WIN if (name.at(1) != QLatin1Char(':')) fileName = QDir::homePath() + name; else fileName = name; #else if (name.at(0) != QDir::separator()) fileName = QDir::homePath() + QDir::separator() + name; else fileName = name; #endif if(file==0) file = new QFile(fileName); if (file->open(QIODevice::ReadOnly)) { QStringList infoStrings; //general information about the file infoStrings << "" + fileName + "
"; fileInfo.setFile(fileName); infoStrings << i18n("Readable: %1", fileInfo.isReadable() ? i18n("yes") : i18n("no")); infoStrings << i18n("Writable: %1", fileInfo.isWritable() ? i18n("yes") : i18n("no")); infoStrings << i18n("Executable: %1", fileInfo.isExecutable() ? i18n("yes") : i18n("no")); infoStrings << i18n("Created: %1", fileInfo.created().toString()); infoStrings << i18n("Last modified: %1", fileInfo.lastModified().toString()); infoStrings << i18n("Last read: %1", fileInfo.lastRead().toString()); infoStrings << i18n("Owner: %1", fileInfo.owner()); infoStrings << i18n("Group: %1", fileInfo.group()); infoStrings << i18n("Size: %1", i18np("%1 cByte", "%1 cBytes", fileInfo.size())); #ifdef HAVE_FITS if (fileName.endsWith(QLatin1String(".fits"))) { infoStrings << i18n("Images: %1", QString::number(FITSFilter::imagesCount(fileName) )); infoStrings << i18n("Tables: %1", QString::number(FITSFilter::tablesCount(fileName) )); } #endif // file type and type specific information about the file #ifdef Q_OS_LINUX QProcess *proc = new QProcess(); QStringList args; args<<"-b"<start( "file", args); if(proc->waitForReadyRead(1000) == false) infoStrings << i18n("Could not open file %1 for reading.", fileName); else { fileTypeString = proc->readLine(); if( fileTypeString.contains(i18n("cannot open")) ) fileTypeString=""; else { fileTypeString.remove(fileTypeString.length()-1,1); // remove '\n' } } infoStrings << i18n("File type: %1", fileTypeString); #endif //TODO depending on the file type, generate additional information about the file: //Number of lines for ASCII, color-depth for images etc. Use the specific filters here. // port the old labplot1.6 code. if( fileTypeString.contains("ASCII")) { infoStrings << "
"; //TODO: consider choosen separator infoStrings << i18n("Number of columns: %1", AsciiFilter::columnNumber(fileName)); infoStrings << i18n("Number of lines: %1", AsciiFilter::lineNumber(fileName)); } infoString += infoStrings.join("
"); } else infoString += i18n("Could not open file %1 for reading.", fileName); return infoString; } void LiveDataSource::plotData() { PlotDataDialog* dlg = new PlotDataDialog(this); dlg->exec(); } //############################################################################## //################## Serialization/Deserialization ########################### //############################################################################## /*! Saves as XML. */ void LiveDataSource::save(QXmlStreamWriter* writer) const { writer->writeStartElement("LiveDataSource"); writeBasicAttributes(writer); writeCommentElement(writer); //general writer->writeStartElement("general"); writer->writeAttribute("fileName", m_fileName); writer->writeAttribute("fileType", QString::number(m_fileType)); writer->writeAttribute("fileWatched", QString::number(m_fileWatched)); writer->writeAttribute("fileLinked", QString::number(m_fileLinked)); writer->writeAttribute("updateType", QString::number(m_updateType)); writer->writeAttribute("readingType", QString::number(m_readingType)); writer->writeAttribute("sourceType", QString::number(m_sourceType)); writer->writeAttribute("keepValues", QString::number(m_keepNvalues)); if (m_updateType == TimeInterval) writer->writeAttribute("updateInterval", QString::number(m_updateInterval)); if (m_readingType != TillEnd) - writer->writeAttribute("sampleRate", QString::number(m_sampleRate)); + writer->writeAttribute("sampleSize", QString::number(m_sampleSize)); switch (m_sourceType) { case SerialPort: writer->writeAttribute("baudRate", QString::number(m_baudRate)); writer->writeAttribute("serialPortName", m_serialPortName); break; case NetworkTcpSocket: case NetworkUdpSocket: writer->writeAttribute("host", m_host); writer->writeAttribute("port", QString::number(m_port)); break; case FileOrPipe: break; case LocalSocket: break; default: break; } writer->writeEndElement(); //filter m_filter->save(writer); //columns if (!m_fileLinked) { for (auto* col : children(IncludeHidden)) col->save(writer); } writer->writeEndElement(); // "LiveDataSource" } /*! Loads from XML. */ bool LiveDataSource::load(XmlStreamReader* reader, bool preview) { if (!readBasicAttributes(reader)) return false; KLocalizedString attributeWarning = ki18n("Attribute '%1' missing or empty, default value is used"); QXmlStreamAttributes attribs; QString str; while (!reader->atEnd()) { reader->readNext(); if (reader->isEndElement() && reader->name() == "LiveDataSource") break; if (!reader->isStartElement()) continue; if (reader->name() == "comment") { if (!readCommentElement(reader)) return false; } else if (reader->name() == "general") { attribs = reader->attributes(); str = attribs.value("fileName").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("fileName").toString()); else m_fileName = str; str = attribs.value("fileType").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("fileType").toString()); else m_fileType = (FileType)str.toInt(); str = attribs.value("fileWatched").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("fileWatched").toString()); else m_fileWatched = str.toInt(); str = attribs.value("fileLinked").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("fileLinked").toString()); else m_fileLinked = str.toInt(); str = attribs.value("updateType").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("updateType").toString()); else m_updateType = static_cast(str.toInt()); str = attribs.value("sourceType").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("sourceType").toString()); else m_sourceType = static_cast(str.toInt()); str = attribs.value("readingType").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("readingType").toString()); else m_readingType = static_cast(str.toInt()); if (m_updateType == TimeInterval) { str = attribs.value("updateInterval").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("updateInterval").toString()); else m_updateInterval = str.toInt(); } if (m_readingType != TillEnd) { - str = attribs.value("sampleRate").toString(); + str = attribs.value("sampleSize").toString(); if(str.isEmpty()) - reader->raiseWarning(attributeWarning.subs("sampleRate").toString()); + reader->raiseWarning(attributeWarning.subs("sampleSize").toString()); else - m_sampleRate = str.toInt(); + m_sampleSize = str.toInt(); } switch (m_sourceType) { case SerialPort: str = attribs.value("baudRate").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("baudRate").toString()); else m_baudRate = str.toInt(); str = attribs.value("serialPortName").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("serialPortName").toString()); else m_serialPortName = str; break; case NetworkTcpSocket: case NetworkUdpSocket: str = attribs.value("host").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("host").toString()); else m_host = str; str = attribs.value("port").toString(); if(str.isEmpty()) reader->raiseWarning(attributeWarning.subs("port").toString()); else m_host = str; break; case FileOrPipe: break; case LocalSocket: break; default: break; } } else if (reader->name() == "asciiFilter") { m_filter = new AsciiFilter(); if (!m_filter->load(reader)) return false; } else if(reader->name() == "column") { Column* column = new Column("", AbstractColumn::Text); if (!column->load(reader, preview)) { delete column; setColumnCount(0); return false; } addChild(column); } else {// unknown element reader->raiseWarning(i18n("unknown element '%1'", reader->name().toString())); if (!reader->skipToEndElement()) return false; } } //read the content of the file if it was only linked if (m_fileLinked) this->read(); return !reader->hasError(); } diff --git a/src/backend/datasources/LiveDataSource.h b/src/backend/datasources/LiveDataSource.h index ba230a231..9c5a65247 100644 --- a/src/backend/datasources/LiveDataSource.h +++ b/src/backend/datasources/LiveDataSource.h @@ -1,212 +1,212 @@ /*************************************************************************** File : LiveDataSource.h Project : LabPlot Description : File data source -------------------------------------------------------------------- Copyright : (C) 2012-2013 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2017 Fabian Kristof (fkristofszabolcs@gmail.com) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #ifndef LIVEDATASOURCE_H #define LIVEDATASOURCE_H #include "backend/spreadsheet/Spreadsheet.h" #include "backend/matrix/Matrix.h" #include #include #include class QString; class AbstractFileFilter; class QFileSystemWatcher; class QAction; class QTcpSocket; class QUdpSocket; class QFile; class LiveDataSource : public Spreadsheet { Q_OBJECT Q_ENUMS(FileType) public: enum FileType {Ascii, Binary, Image, HDF5, NETCDF, FITS, ROOT}; enum SourceType { - FileOrPipe = 0, - NetworkTcpSocket, - NetworkUdpSocket, - LocalSocket, - SerialPort + FileOrPipe = 0, // regular file or pipe + NetworkTcpSocket, // TCP socket + NetworkUdpSocket, // UDP socket + LocalSocket, // local socket + SerialPort // serial port }; enum UpdateType { - TimeInterval = 0, - NewData + TimeInterval = 0, // update periodically using given interval + NewData // update when new data is available }; enum ReadingType { - ContinuousFixed = 0, - FromEnd, - TillEnd, - WholeFile + ContinuousFixed = 0, // read fixed number of samples (aka lines) using given sample size + FromEnd, // ? + TillEnd, // read until the end + WholeFile // reread whole file }; LiveDataSource(AbstractScriptingEngine*, const QString& name, bool loading = false); ~LiveDataSource() override; void ready(); static QStringList supportedBaudRates(); static QStringList availablePorts(); static QStringList fileTypes(); static QString fileInfoString(const QString&); void setFileType(const FileType); FileType fileType() const; UpdateType updateType() const; void setUpdateType(UpdateType); SourceType sourceType() const; void setSourceType(SourceType); ReadingType readingType() const; void setReadingType(ReadingType); - int sampleRate() const; - void setSampleRate(int); + int sampleSize() const; + void setSampleSize(int); void setBytesRead(qint64 bytes); int bytesRead() const; int port() const; void setPort(quint16); bool isPaused() const; void setSerialPort(const QString& name); QString serialPortName() const; QString host() const; void setHost(const QString&); int baudRate() const; void setBaudRate(int); void setUpdateInterval(int); int updateInterval() const; void setKeepNvalues(int); int keepNvalues() const; void setKeepLastValues(bool); bool keepLastValues() const; void setFileWatched(bool); bool isFileWatched() const; void setFileLinked(bool); bool isFileLinked() const; void setFileName(const QString&); QString fileName() const; void setLocalSocketName(const QString&); QString localSocketName() const; void updateNow(); void pauseReading(); void continueReading(); void setFilter(AbstractFileFilter*); AbstractFileFilter* filter() const; QIcon icon() const override; QMenu* createContextMenu() override; QWidget* view() const override; void save(QXmlStreamWriter*) const override; bool load(XmlStreamReader*, bool preview) override; private: void initActions(); void watch(); QString m_fileName; QString m_serialPortName; QString m_localSocketName; QString m_host; FileType m_fileType; UpdateType m_updateType; SourceType m_sourceType; ReadingType m_readingType; bool m_fileWatched; bool m_fileLinked; bool m_paused; bool m_prepared; bool m_keepLastValues; - int m_sampleRate; + int m_sampleSize; int m_keepNvalues; int m_updateInterval; quint16 m_port; int m_baudRate; qint64 m_bytesRead; AbstractFileFilter* m_filter; QTimer* m_updateTimer; QFileSystemWatcher* m_fileSystemWatcher; QFile* m_file; QLocalSocket* m_localSocket; QTcpSocket* m_tcpSocket; QUdpSocket* m_udpSocket; QSerialPort* m_serialPort; QIODevice* m_device; QAction* m_reloadAction; QAction* m_toggleLinkAction; QAction* m_showEditorAction; QAction* m_showSpreadsheetAction; QAction* m_plotDataAction; public slots: void read(); private slots: void watchToggled(); void linkToggled(); void plotData(); void readyRead(); void localSocketError(QLocalSocket::LocalSocketError); void tcpSocketError(QAbstractSocket::SocketError); void serialPortError(QSerialPort::SerialPortError); }; #endif diff --git a/src/backend/datasources/filters/AsciiFilter.cpp b/src/backend/datasources/filters/AsciiFilter.cpp index f1030fda4..09e1847fb 100644 --- a/src/backend/datasources/filters/AsciiFilter.cpp +++ b/src/backend/datasources/filters/AsciiFilter.cpp @@ -1,1627 +1,1627 @@ /*************************************************************************** File : AsciiFilter.cpp Project : LabPlot Description : ASCII I/O-filter -------------------------------------------------------------------- Copyright : (C) 2009-2018 Stefan Gerlach (stefan.gerlach@uni.kn) Copyright : (C) 2009-2017 Alexander Semke (alexander.semke@web.de) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "backend/datasources/LiveDataSource.h" #include "backend/core/column/Column.h" #include "backend/core/Project.h" #include "backend/datasources/filters/AsciiFilter.h" #include "backend/datasources/filters/AsciiFilterPrivate.h" #include "backend/worksheet/plots/cartesian/CartesianPlot.h" #include "backend/worksheet/plots/cartesian/XYCurve.h" #include "backend/lib/macros.h" #include "backend/lib/trace.h" #include #include #include #include #include /*! \class AsciiFilter \brief Manages the import/export of data organized as columns (vectors) from/to an ASCII-file. \ingroup datasources */ AsciiFilter::AsciiFilter() : AbstractFileFilter(), d(new AsciiFilterPrivate(this)) {} AsciiFilter::~AsciiFilter() {} /*! reads the content of the device \c device. */ void AsciiFilter::readDataFromDevice(QIODevice& device, AbstractDataSource* dataSource, AbstractFileFilter::ImportMode importMode, int lines) { d->readDataFromDevice(device, dataSource, importMode, lines); } void AsciiFilter::readFromLiveDeviceNotFile(QIODevice &device, AbstractDataSource* dataSource) { d->readFromLiveDevice(device, dataSource); } qint64 AsciiFilter::readFromLiveDevice(QIODevice& device, AbstractDataSource* dataSource, qint64 from) { return d->readFromLiveDevice(device, dataSource, from); } /*! reads the content of the file \c fileName. */ QVector AsciiFilter::readDataFromFile(const QString& fileName, AbstractDataSource* dataSource, AbstractFileFilter::ImportMode importMode, int lines) { d->readDataFromFile(fileName, dataSource, importMode, lines); return QVector(); //TODO: remove this later once all read*-functions in the filter classes don't return any preview strings anymore } QVector AsciiFilter::preview(const QString& fileName, int lines) { return d->preview(fileName, lines); } QVector AsciiFilter::preview(QIODevice &device) { return d->preview(device); } /*! reads the content of the file \c fileName to the data source \c dataSource. */ //void AsciiFilter::read(const QString& fileName, AbstractDataSource* dataSource, AbstractFileFilter::ImportMode importMode) { // d->read(fileName, dataSource, importMode); //} /*! writes the content of the data source \c dataSource to the file \c fileName. */ void AsciiFilter::write(const QString& fileName, AbstractDataSource* dataSource) { d->write(fileName, dataSource); // emit() } /*! loads the predefined filter settings for \c filterName */ void AsciiFilter::loadFilterSettings(const QString& filterName) { Q_UNUSED(filterName); } /*! saves the current settings as a new filter with the name \c filterName */ void AsciiFilter::saveFilterSettings(const QString& filterName) const { Q_UNUSED(filterName); } /*! returns the list with the names of all saved (system wide or user defined) filter settings. */ QStringList AsciiFilter::predefinedFilters() { return QStringList(); } /*! returns the list of all predefined separator characters. */ QStringList AsciiFilter::separatorCharacters() { return (QStringList() << "auto" << "TAB" << "SPACE" << "," << ";" << ":" << ",TAB" << ";TAB" << ":TAB" << ",SPACE" << ";SPACE" << ":SPACE" << "2xSPACE" << "3xSPACE" << "4xSPACE" << "2xTAB"); } /*! returns the list of all predefined comment characters. */ QStringList AsciiFilter::commentCharacters() { return (QStringList() << "#" << "!" << "//" << "+" << "c" << ":" << ";"); } /*! returns the list of all predefined data types. */ QStringList AsciiFilter::dataTypes() { const QMetaObject& mo = AbstractColumn::staticMetaObject; const QMetaEnum& me = mo.enumerator(mo.indexOfEnumerator("ColumnMode")); QStringList list; for (int i = 0; i <= 100; ++i) // me.keyCount() does not work because we have holes in enum if (me.valueToKey(i)) list << me.valueToKey(i); return list; } /*! returns the number of columns in the file \c fileName. */ int AsciiFilter::columnNumber(const QString& fileName, const QString& separator) { KFilterDev device(fileName); if (!device.open(QIODevice::ReadOnly)) { DEBUG("Could not open file " << fileName.toStdString() << " for determining number of columns"); return -1; } QString line = device.readLine(); line.remove(QRegExp("[\\n\\r]")); QStringList lineStringList; if (separator.length() > 0) lineStringList = line.split(separator); else lineStringList = line.split(QRegExp("\\s+")); DEBUG("number of columns : " << lineStringList.size()); return lineStringList.size(); } size_t AsciiFilter::lineNumber(const QString& fileName) { KFilterDev device(fileName); if (!device.open(QIODevice::ReadOnly)) { DEBUG("Could not open file " << fileName.toStdString() << " to determine number of lines"); return 0; } if (!device.canReadLine()) return -1; size_t lineCount = 0; while (!device.atEnd()) { device.readLine(); lineCount++; } //TODO: wc is much faster but not portable /* QElapsedTimer myTimer; myTimer.start(); QProcess wc; wc.start(QString("wc"), QStringList() << "-l" << fileName); size_t lineCount = 0; while (wc.waitForReadyRead()) lineCount = wc.readLine().split(' ')[0].toInt(); lineCount++; // last line not counted DEBUG(" Elapsed time counting lines : " << myTimer.elapsed() << " ms"); */ return lineCount; } /*! returns the number of lines in the device \c device and 0 if sequential. resets the position to 0! */ size_t AsciiFilter::lineNumber(QIODevice &device) { if (device.isSequential()) return 0; if (!device.canReadLine()) DEBUG("WARNING in AsciiFilter::lineNumber(): device cannot 'readLine()' but using it anyway."); size_t lineCount = 0; device.seek(0); while (!device.atEnd()) { device.readLine(); lineCount++; } device.seek(0); return lineCount; } void AsciiFilter::setCommentCharacter(const QString& s) { d->commentCharacter = s; } QString AsciiFilter::commentCharacter() const { return d->commentCharacter; } void AsciiFilter::setSeparatingCharacter(const QString& s) { d->separatingCharacter = s; } QString AsciiFilter::separatingCharacter() const { return d->separatingCharacter; } void AsciiFilter::setDateTimeFormat(const QString &f) { d->dateTimeFormat = f; } QString AsciiFilter::dateTimeFormat() const { return d->dateTimeFormat; } void AsciiFilter::setNumberFormat(QLocale::Language lang) { d->numberFormat = lang; } QLocale::Language AsciiFilter::numberFormat() const { return d->numberFormat; } void AsciiFilter::setAutoModeEnabled(const bool b) { d->autoModeEnabled = b; } bool AsciiFilter::isAutoModeEnabled() const { return d->autoModeEnabled; } void AsciiFilter::setHeaderEnabled(const bool b) { d->headerEnabled = b; } bool AsciiFilter::isHeaderEnabled() const { return d->headerEnabled; } void AsciiFilter::setSkipEmptyParts(const bool b) { d->skipEmptyParts = b; } bool AsciiFilter::skipEmptyParts() const { return d->skipEmptyParts; } void AsciiFilter::setCreateIndexEnabled(bool b) { d->createIndexEnabled = b; } void AsciiFilter::setSimplifyWhitespacesEnabled(bool b) { d->simplifyWhitespacesEnabled = b; } bool AsciiFilter::simplifyWhitespacesEnabled() const { return d->simplifyWhitespacesEnabled; } void AsciiFilter::setNaNValueToZero(bool b) { if (b) d->nanValue = 0; else d->nanValue = NAN; } bool AsciiFilter::NaNValueToZeroEnabled() const { if (d->nanValue == 0) return true; return false; } void AsciiFilter::setRemoveQuotesEnabled(bool b) { d->removeQuotesEnabled = b; } bool AsciiFilter::removeQuotesEnabled() const { return d->removeQuotesEnabled; } void AsciiFilter::setVectorNames(const QString& s) { d->vectorNames.clear(); if (!s.simplified().isEmpty()) d->vectorNames = s.simplified().split(' '); } QStringList AsciiFilter::vectorNames() const { return d->vectorNames; } QVector AsciiFilter::columnModes() { return d->columnModes; } void AsciiFilter::setStartRow(const int r) { d->startRow = r; } int AsciiFilter::startRow() const { return d->startRow; } void AsciiFilter::setEndRow(const int r) { d->endRow = r; } int AsciiFilter::endRow() const { return d->endRow; } void AsciiFilter::setStartColumn(const int c) { d->startColumn = c; } int AsciiFilter::startColumn() const { return d->startColumn; } void AsciiFilter::setEndColumn(const int c) { d->endColumn = c; } int AsciiFilter::endColumn() const { return d->endColumn; } //##################################################################### //################### Private implementation ########################## //##################################################################### AsciiFilterPrivate::AsciiFilterPrivate(AsciiFilter* owner) : q(owner), commentCharacter("#"), separatingCharacter("auto"), numberFormat(QLocale::C), autoModeEnabled(true), headerEnabled(true), skipEmptyParts(false), simplifyWhitespacesEnabled(true), nanValue(NAN), removeQuotesEnabled(false), createIndexEnabled(false), startRow(1), endRow(-1), startColumn(1), endColumn(-1), m_actualStartRow(1), m_actualRows(0), m_actualCols(0), m_prepared(false), m_columnOffset(0) { } /*! * get a single line from device */ QStringList AsciiFilterPrivate::getLineString(QIODevice& device) { QString line; do { // skip comment lines in data lines if (!device.canReadLine()) DEBUG("WARNING in AsciiFilterPrivate::getLineString(): device cannot 'readLine()' but using it anyway."); // line = device.readAll(); line = device.readLine(); } while (line.startsWith(commentCharacter)); line.remove(QRegExp("[\\n\\r]")); // remove any newline if (simplifyWhitespacesEnabled) line = line.simplified(); DEBUG("data line : \'" << line.toStdString() << '\''); QStringList lineStringList = line.split(m_separator, (QString::SplitBehavior)skipEmptyParts); //TODO: remove quotes here? QDEBUG("data line, parsed: " << lineStringList); return lineStringList; } /*! * returns -1 if the device couldn't be opened, 1 if the current read position in the device is at the end and 0 otherwise. */ int AsciiFilterPrivate::prepareDeviceToRead(QIODevice& device) { DEBUG("AsciiFilterPrivate::prepareDeviceToRead(): is sequential = " << device.isSequential() << ", can readLine = " << device.canReadLine()); if (!device.open(QIODevice::ReadOnly)) return -1; if (device.atEnd() && !device.isSequential()) // empty file return 1; ///////////////////////////////////////////////////////////////// // Find first data line (ignoring comment lines) DEBUG(" Skipping " << startRow - 1 << " lines"); for (int i = 0; i < startRow - 1; ++i) { QString line; if (!device.canReadLine()) DEBUG("WARNING in AsciiFilterPrivate::prepareDeviceToRead(): device cannot 'readLine()' but using it anyway."); line = device.readLine(); DEBUG(" line = " << line.toStdString()); if (device.atEnd()) { if (device.isSequential()) break; else return 1; } //TOOD: this logic seems to be wrong. If the user asks to read from line startRow, we should start here independent of any comments if (line.startsWith(commentCharacter)) // ignore commented lines before startRow i--; } // Parse the first line: // Determine the number of columns, create the columns and use (if selected) the first row to name them QString firstLine; do { // skip comment lines if (!device.canReadLine()) DEBUG("WARNING in AsciiFilterPrivate::prepareDeviceToRead(): device cannot 'readLine()' but using it anyway."); firstLine = device.readLine(); if (device.atEnd()) { if (device.isSequential()) break; else return 1; } } while (firstLine.startsWith(commentCharacter)); DEBUG(" device position after first line and comments = " << device.pos()); firstLine.remove(QRegExp("[\\n\\r]")); // remove any newline if (simplifyWhitespacesEnabled) firstLine = firstLine.simplified(); DEBUG("First line: \'" << firstLine.toStdString() << '\''); // determine separator and split first line QStringList firstLineStringList; if (separatingCharacter == "auto") { DEBUG("automatic separator"); QRegExp regExp("(\\s+)|(,\\s+)|(;\\s+)|(:\\s+)"); firstLineStringList = firstLine.split(regExp, (QString::SplitBehavior)skipEmptyParts); if (!firstLineStringList.isEmpty()) { int length1 = firstLineStringList.at(0).length(); if (firstLineStringList.size() > 1) { int pos2 = firstLine.indexOf(firstLineStringList.at(1), length1); m_separator = firstLine.mid(length1, pos2 - length1); } else { //old: separator = line.right(line.length() - length1); m_separator = ' '; } } } else { // use given separator // replace symbolic "TAB" with '\t' m_separator = separatingCharacter.replace(QLatin1String("2xTAB"), "\t\t", Qt::CaseInsensitive); m_separator = separatingCharacter.replace(QLatin1String("TAB"), "\t", Qt::CaseInsensitive); // replace symbolic "SPACE" with ' ' m_separator = m_separator.replace(QLatin1String("2xSPACE"), QLatin1String(" "), Qt::CaseInsensitive); m_separator = m_separator.replace(QLatin1String("3xSPACE"), QLatin1String(" "), Qt::CaseInsensitive); m_separator = m_separator.replace(QLatin1String("4xSPACE"), QLatin1String(" "), Qt::CaseInsensitive); m_separator = m_separator.replace(QLatin1String("SPACE"), QLatin1String(" "), Qt::CaseInsensitive); firstLineStringList = firstLine.split(m_separator, (QString::SplitBehavior)skipEmptyParts); } DEBUG("separator: \'" << m_separator.toStdString() << '\''); DEBUG("number of columns: " << firstLineStringList.size()); QDEBUG("first line: " << firstLineStringList); DEBUG("headerEnabled = " << headerEnabled); //optionally, remove potential spaces in the first line if (simplifyWhitespacesEnabled) { for (int i = 0; i < firstLineStringList.size(); ++i) firstLineStringList[i] = firstLineStringList[i].simplified(); } if (headerEnabled) { // use first line to name vectors vectorNames = firstLineStringList; QDEBUG("vector names =" << vectorNames); m_actualStartRow = startRow + 1; } else m_actualStartRow = startRow; // set range to read if (endColumn == -1) { if (headerEnabled || vectorNames.size() == 0) endColumn = firstLineStringList.size(); // last column else //number of vector names provided in the import dialog (not more than the maximal number of columns in the file) endColumn = qMin(vectorNames.size(), firstLineStringList.size()); } if (createIndexEnabled) { vectorNames.prepend(i18n("Index")); endColumn++; } m_actualCols = endColumn - startColumn + 1; //TEST: readline-seek-readline fails /* qint64 testpos = device.pos(); DEBUG("read data line @ pos " << testpos << " : " << device.readLine().toStdString()); device.seek(testpos); testpos = device.pos(); DEBUG("read data line again @ pos " << testpos << " : " << device.readLine().toStdString()); */ ///////////////////////////////////////////////////////////////// // parse first data line to determine data type for each column if (!device.isSequential()) firstLineStringList = getLineString(device); columnModes.resize(m_actualCols); int col = 0; if (createIndexEnabled) { columnModes[0] = AbstractColumn::Integer; col = 1; } for (auto& valueString: firstLineStringList) { // parse columns available in first data line if (simplifyWhitespacesEnabled) valueString = valueString.simplified(); if (col == m_actualCols) break; columnModes[col++] = AbstractFileFilter::columnMode(valueString, dateTimeFormat, numberFormat); } // parsing more lines to better determine data types for (unsigned int i = 0; i < m_dataTypeLines; ++i) { firstLineStringList = getLineString(device); if (createIndexEnabled) col = 1; else col = 0; for (auto& valueString: firstLineStringList) { if (simplifyWhitespacesEnabled) valueString = valueString.simplified(); if (col == m_actualCols) break; AbstractColumn::ColumnMode mode = AbstractFileFilter::columnMode(valueString, dateTimeFormat, numberFormat); // numeric: integer -> numeric if (mode == AbstractColumn::Numeric && columnModes[col] == AbstractColumn::Integer) columnModes[col] = mode; // text: non text -> text if (mode == AbstractColumn::Text && columnModes[col] != AbstractColumn::Text) columnModes[col] = mode; col++; } } QDEBUG("column modes = " << columnModes); // ATTENTION: This resets the position in the device to 0 m_actualRows = (int)AsciiFilter::lineNumber(device); // reset to start of file //TODO: seems to be redundant since it's already done in the lineNumber() call above if (!device.isSequential()) device.seek(0); ///////////////////////////////////////////////////////////////// int actualEndRow = endRow; DEBUG("endRow(actualEndRow) = " << endRow << ", m_actualRows = " << m_actualRows); if (endRow == -1 || endRow > m_actualRows) actualEndRow = m_actualRows; if (m_actualRows > actualEndRow) m_actualRows = actualEndRow; DEBUG("start/end column: " << startColumn << ' ' << endColumn); DEBUG("start/end row: " << m_actualStartRow << ' ' << actualEndRow); DEBUG("actual cols/rows (w/o header incl. start rows): " << m_actualCols << ' ' << m_actualRows); if (m_actualRows == 0 && !device.isSequential()) return 1; return 0; } /*! reads the content of the file \c fileName to the data source \c dataSource. Uses the settings defined in the data source. */ void AsciiFilterPrivate::readDataFromFile(const QString& fileName, AbstractDataSource* dataSource, AbstractFileFilter::ImportMode importMode, int lines) { DEBUG("AsciiFilterPrivate::readDataFromFile(): fileName = \'" << fileName.toStdString() << "\', dataSource = " << dataSource << ", mode = " << ENUM_TO_STRING(AbstractFileFilter, ImportMode, importMode) << ", lines = " << lines); KFilterDev device(fileName); readDataFromDevice(device, dataSource, importMode, lines); } qint64 AsciiFilterPrivate::readFromLiveDevice(QIODevice& device, AbstractDataSource* dataSource, qint64 from) { DEBUG("AsciiFilterPrivate::readFromLiveDevice(): bytes available = " << device.bytesAvailable() << ", from = " << from); if (!(device.bytesAvailable() > 0)) { DEBUG(" No new data available"); return 0; } LiveDataSource* spreadsheet = dynamic_cast(dataSource); if (spreadsheet->sourceType() != LiveDataSource::SourceType::FileOrPipe) if (device.isSequential() && device.bytesAvailable() < (int)sizeof(quint16)) return 0; if (!m_prepared) { DEBUG(" Preparing .."); switch (spreadsheet->sourceType()) { case LiveDataSource::SourceType::FileOrPipe: { const int deviceError = prepareDeviceToRead(device); if (deviceError != 0) { DEBUG("Device error = " << deviceError); return 0; } break; } case LiveDataSource::SourceType::NetworkTcpSocket: case LiveDataSource::SourceType::NetworkUdpSocket: case LiveDataSource::SourceType::LocalSocket: case LiveDataSource::SourceType::SerialPort: m_actualRows = 1; if (createIndexEnabled) { m_actualCols = 2; columnModes << AbstractColumn::Integer << AbstractColumn::Numeric; vectorNames << i18n("Index") << i18n("Value"); } else { m_actualCols = 1; columnModes << AbstractColumn::Numeric; vectorNames << i18n("Value"); } QDEBUG(" vector names = " << vectorNames); } // prepare import for spreadsheet spreadsheet->setUndoAware(false); spreadsheet->resize(AbstractFileFilter::Replace, vectorNames, m_actualCols); DEBUG(" data source resized to col: " << m_actualCols); DEBUG(" data source rowCount: " << spreadsheet->rowCount()); //columns in a file data source don't have any manual changes. //make the available columns undo unaware and suppress the "data changed" signal. //data changes will be propagated via an explicit Column::setChanged() call once new data was read. for (int i = 0; i < spreadsheet->childCount(); i++) { spreadsheet->child(i)->setUndoAware(false); spreadsheet->child(i)->setSuppressDataChangedSignal(true); } //also here we need a cheaper version of this if (!spreadsheet->keepLastValues()) spreadsheet->setRowCount(m_actualRows > 1 ? m_actualRows : 1); else { spreadsheet->setRowCount(spreadsheet->keepNvalues()); m_actualRows = spreadsheet->keepNvalues(); } m_dataContainer.resize(m_actualCols); DEBUG(" Setting data .."); for (int n = 0; n < m_actualCols; ++n) { // data() returns a void* which is a pointer to any data type (see ColumnPrivate.cpp) spreadsheet->child(n)->setColumnMode(columnModes[n]); switch (columnModes[n]) { case AbstractColumn::Numeric: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::Integer: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::Text: { QVector* vector = static_cast*>(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::DateTime: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } //TODO case AbstractColumn::Month: case AbstractColumn::Day: break; } } DEBUG("prepared!"); } qint64 bytesread = 0; #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportTotal: "); #endif LiveDataSource::ReadingType readingType; if (!m_prepared) { readingType = LiveDataSource::ReadingType::TillEnd; } else { //we have to read all the data when reading from end //so we set readingType to TillEnd if (spreadsheet->readingType() == LiveDataSource::ReadingType::FromEnd) readingType = LiveDataSource::ReadingType::TillEnd; //if we read the whole file we just start from the beginning of it //and read till end else if (spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile) readingType = LiveDataSource::ReadingType::TillEnd; else readingType = spreadsheet->readingType(); } //move to the last read position, from == total bytes read //since the other source types are sequencial we cannot seek on them if (spreadsheet->sourceType() == LiveDataSource::SourceType::FileOrPipe) device.seek(from); DEBUG(" bytes available: " << device.bytesAvailable()); //count the new lines, increase actualrows on each //now we read all the new lines, if we want to use sample rate //then here we can do it, if we have actually sample rate number of lines :-? - int newLinesForSampleRateNotTillEnd = 0; + int newLinesForSampleSizeNotTillEnd = 0; int newLinesTillEnd = 0; QVector newData; if (readingType != LiveDataSource::ReadingType::TillEnd) - newData.resize(spreadsheet->sampleRate()); + newData.resize(spreadsheet->sampleSize()); int newDataIdx = 0; { #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportReadingFromFile: "); #endif while (!device.atEnd()) { DEBUG(" reading type = " << readingType); if (readingType != LiveDataSource::ReadingType::TillEnd) { // local socket and UDP socket needs read(), all other need readLine() //TODO: check serial port if (spreadsheet->sourceType() == LiveDataSource::SourceType::LocalSocket || spreadsheet->sourceType() == LiveDataSource::SourceType::NetworkUdpSocket) newData[newDataIdx++] = device.read(device.bytesAvailable()); else { if (!device.canReadLine()) DEBUG("WARNING in AsciiFilterPrivate::readFromLiveDevice(): device cannot 'readLine()' but using it anyway."); newData[newDataIdx++] = device.readLine(); } } else { // ReadingType::TillEnd if (spreadsheet->sourceType() == LiveDataSource::SourceType::LocalSocket || spreadsheet->sourceType() == LiveDataSource::SourceType::NetworkUdpSocket) newData.push_back(device.readAll()); else { if (!device.canReadLine()) DEBUG("WARNING in AsciiFilterPrivate::readFromLiveDevice(): device cannot 'readLine()' but using it anyway."); newData.push_back(device.readLine()); } } newLinesTillEnd++; if (readingType != LiveDataSource::ReadingType::TillEnd) { - newLinesForSampleRateNotTillEnd++; + newLinesForSampleSizeNotTillEnd++; //for Continuous reading and FromEnd we read sample rate number of lines if possible //here TillEnd and Whole file behave the same - if (newLinesForSampleRateNotTillEnd == spreadsheet->sampleRate()) + if (newLinesForSampleSizeNotTillEnd == spreadsheet->sampleSize()) break; } } QDEBUG(" data read: " << newData); } //now we reset the readingType if (spreadsheet->readingType() == LiveDataSource::ReadingType::FromEnd) readingType = spreadsheet->readingType(); //we had less new lines than the sample rate specified if (readingType != LiveDataSource::ReadingType::TillEnd) qDebug() << "Removed empty lines: " << newData.removeAll(""); //back to the last read position before counting when reading from files if (spreadsheet->sourceType() == LiveDataSource::SourceType::FileOrPipe) device.seek(from); const int spreadsheetRowCountBeforeResize = spreadsheet->rowCount(); int currentRow = 0; // indexes the position in the vector(column) int linesToRead = 0; if (m_prepared) { //increase row count if we don't have a fixed size //but only after the preparation step if (!spreadsheet->keepLastValues()) { if (readingType != LiveDataSource::ReadingType::TillEnd) - m_actualRows += qMin(newData.size(), spreadsheet->sampleRate()); + m_actualRows += qMin(newData.size(), spreadsheet->sampleSize()); else { //we don't increase it if we reread the whole file, we reset it if (!(spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile)) m_actualRows += newData.size(); else m_actualRows = newData.size(); } } //fixed size if (spreadsheet->keepLastValues()) { if (readingType == LiveDataSource::ReadingType::TillEnd) { //we had more lines than the fixed size, so we read m_actualRows number of lines if (newLinesTillEnd > m_actualRows) { linesToRead = m_actualRows; //TODO after reading we should skip the next data lines //because it's TillEnd actually } else linesToRead = newLinesTillEnd; } else { //we read max sample rate number of lines when the reading mode //is ContinuouslyFixed or FromEnd, WholeFile is disabled - linesToRead = qMin(spreadsheet->sampleRate(), newLinesTillEnd); + linesToRead = qMin(spreadsheet->sampleSize(), newLinesTillEnd); } } else { //appending if (spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile) linesToRead = m_actualRows; else linesToRead = m_actualRows - spreadsheetRowCountBeforeResize; } if (linesToRead == 0) return 0; } else { linesToRead = newLinesTillEnd; if (headerEnabled) --m_actualRows; } //new rows/resize columns if we don't have a fixed size //TODO if the user changes this value..m_resizedToFixedSize..setResizedToFixedSize if (!spreadsheet->keepLastValues()) { #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportResizing: "); #endif if (spreadsheet->rowCount() < m_actualRows) spreadsheet->setRowCount(m_actualRows); if (!m_prepared) currentRow = 0; else { // indexes the position in the vector(column) if (spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile) currentRow = 0; else currentRow = spreadsheetRowCountBeforeResize; } // if we have fixed size, we do this only once in preparation, here we can use // m_prepared and we need something to decide whether it has a fixed size or increasing for (int n = 0; n < m_actualCols; ++n) { // data() returns a void* which is a pointer to any data type (see ColumnPrivate.cpp) switch (columnModes[n]) { case AbstractColumn::Numeric: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::Integer: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::Text: { QVector* vector = static_cast*>(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } case AbstractColumn::DateTime: { QVector* vector = static_cast* >(spreadsheet->child(n)->data()); vector->resize(m_actualRows); m_dataContainer[n] = static_cast(vector); break; } //TODO case AbstractColumn::Month: case AbstractColumn::Day: break; } } } else { - //when we have a fixed size we have to pop sampleRate number of lines if specified + //when we have a fixed size we have to pop sampleSize number of lines if specified //here popping, setting currentRow if (!m_prepared) { if (spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile) currentRow = 0; else currentRow = m_actualRows - qMin(newLinesTillEnd, m_actualRows); } else { if (readingType == LiveDataSource::ReadingType::TillEnd) { if (newLinesTillEnd > m_actualRows) { currentRow = 0; } else { if (spreadsheet->readingType() == LiveDataSource::ReadingType::WholeFile) currentRow = 0; else currentRow = m_actualRows - newLinesTillEnd; } } else { //we read max sample rate number of lines when the reading mode //is ContinuouslyFixed or FromEnd - currentRow = m_actualRows - qMin(spreadsheet->sampleRate(), newLinesTillEnd); + currentRow = m_actualRows - qMin(spreadsheet->sampleSize(), newLinesTillEnd); } } if (m_prepared) { #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportPopping: "); #endif for (int row = 0; row < linesToRead; ++row) { for (int col = 0; col < m_actualCols; ++col) { switch (columnModes[col]) { case AbstractColumn::Numeric: { QVector* vector = static_cast* >(spreadsheet->child(col)->data()); vector->pop_front(); vector->resize(m_actualRows); m_dataContainer[col] = static_cast(vector); break; } case AbstractColumn::Integer: { QVector* vector = static_cast* >(spreadsheet->child(col)->data()); vector->pop_front(); vector->resize(m_actualRows); m_dataContainer[col] = static_cast(vector); break; } case AbstractColumn::Text: { QVector* vector = static_cast*>(spreadsheet->child(col)->data()); vector->pop_front(); vector->resize(m_actualRows); m_dataContainer[col] = static_cast(vector); break; } case AbstractColumn::DateTime: { QVector* vector = static_cast* >(spreadsheet->child(col)->data()); vector->pop_front(); vector->resize(m_actualRows); m_dataContainer[col] = static_cast(vector); break; } //TODO case AbstractColumn::Month: case AbstractColumn::Day: break; } } } } } // from the last row we read the new data in the spreadsheet qDebug() << "reading from line" << currentRow << " till end" << newLinesTillEnd; qDebug() << "Lines to read:" << linesToRead <<", actual rows:" << m_actualRows << ", actual cols:" << m_actualCols; newDataIdx = 0; if (readingType == LiveDataSource::ReadingType::FromEnd) { if (m_prepared) { - if (newData.size() > spreadsheet->sampleRate()) - newDataIdx = newData.size() - spreadsheet->sampleRate(); + if (newData.size() > spreadsheet->sampleSize()) + newDataIdx = newData.size() - spreadsheet->sampleSize(); //since we skip a couple of lines, we need to count those bytes too for (int i = 0; i < newDataIdx; ++i) bytesread += newData.at(i).size(); } } qDebug() << "newDataIdx: " << newDataIdx; //TODO static int indexColumnIdx = 0; { #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportFillingContainers: "); #endif int row = 0; if (readingType == LiveDataSource::ReadingType::TillEnd || (readingType == LiveDataSource::ReadingType::ContinuousFixed)) { if (headerEnabled) { if (!m_prepared) { row = 1; bytesread += newData.at(0).size(); } } } if (spreadsheet->sourceType() == LiveDataSource::SourceType::FileOrPipe) { if (readingType == LiveDataSource::ReadingType::WholeFile) { if (headerEnabled) { row = 1; bytesread += newData.at(0).size(); } } } for (; row < linesToRead; ++row) { DEBUG(" row = " << row); QString line; if (readingType == LiveDataSource::ReadingType::FromEnd) line = newData.at(newDataIdx++); else line = newData.at(row); //when we read the whole file we don't care about the previous position //so we don't have to count those bytes if (readingType != LiveDataSource::ReadingType::WholeFile) { if (spreadsheet->sourceType() == LiveDataSource::SourceType::FileOrPipe) { bytesread += line.size(); } } //qDebug() << "line bytes: " << line.size() << " line: " << line; //qDebug() << "reading in row: " << currentRow; if (simplifyWhitespacesEnabled) line = line.simplified(); if (line.isEmpty() || line.startsWith(commentCharacter)) // skip empty or commented lines continue; QLocale locale(numberFormat); QStringList lineStringList; // only FileOrPipe support multiple columns if (spreadsheet->sourceType() == LiveDataSource::SourceType::FileOrPipe) lineStringList = line.split(m_separator, (QString::SplitBehavior)skipEmptyParts); else lineStringList << line; QDEBUG(" line = " << lineStringList << ", separator = \'" << m_separator << "\'"); if (createIndexEnabled) { if (spreadsheet->keepLastValues()) lineStringList.prepend(QString::number(indexColumnIdx++)); else lineStringList.prepend(QString::number(currentRow)); } for (int n = 0; n < m_actualCols; ++n) { if (n < lineStringList.size()) { QString valueString = lineStringList.at(n); // set value depending on data type switch (columnModes[n]) { case AbstractColumn::Numeric: { bool isNumber; const double value = locale.toDouble(valueString, &isNumber); static_cast*>(m_dataContainer[n])->operator[](currentRow) = (isNumber ? value : nanValue); //qDebug() << "dataContainer[" << n << "] size:" << static_cast*>(m_dataContainer[n])->size(); break; } case AbstractColumn::Integer: { bool isNumber; const int value = locale.toInt(valueString, &isNumber); static_cast*>(m_dataContainer[n])->operator[](currentRow) = (isNumber ? value : 0); //qDebug() << "dataContainer[" << n << "] size:" << static_cast*>(m_dataContainer[n])->size(); break; } case AbstractColumn::DateTime: { const QDateTime valueDateTime = QDateTime::fromString(valueString, dateTimeFormat); static_cast*>(m_dataContainer[n])->operator[](currentRow) = valueDateTime.isValid() ? valueDateTime : QDateTime(); break; } case AbstractColumn::Text: if (removeQuotesEnabled) valueString.remove(QRegExp("[\"\']")); static_cast*>(m_dataContainer[n])->operator[](currentRow) = valueString; break; case AbstractColumn::Month: //TODO break; case AbstractColumn::Day: //TODO break; } } else { // missing columns in this line switch (columnModes[n]) { case AbstractColumn::Numeric: static_cast*>(m_dataContainer[n])->operator[](currentRow) = nanValue; break; case AbstractColumn::Integer: static_cast*>(m_dataContainer[n])->operator[](currentRow) = 0; break; case AbstractColumn::DateTime: static_cast*>(m_dataContainer[n])->operator[](currentRow) = QDateTime(); break; case AbstractColumn::Text: static_cast*>(m_dataContainer[n])->operator[](currentRow) = ""; break; case AbstractColumn::Month: //TODO break; case AbstractColumn::Day: //TODO break; } } } currentRow++; } } if (m_prepared) { //notify all affected columns and plots about the changes PERFTRACE("AsciiLiveDataImport, notify affected columns and plots"); const Project* project = spreadsheet->project(); QVector curves = project->children(AbstractAspect::Recursive); QVector plots; for (int n = 0; n < m_actualCols; ++n) { Column* column = spreadsheet->column(n); //determine the plots where the column is consumed for (const auto* curve: curves) { if (curve->xColumn() == column || curve->yColumn() == column) { CartesianPlot* plot = dynamic_cast(curve->parentAspect()); if (plots.indexOf(plot) == -1) { plots << plot; plot->setSuppressDataChangedSignal(true); } } } column->setChanged(); } //loop over all affected plots and retransform them for (auto* plot: plots) { plot->setSuppressDataChangedSignal(false); plot->dataChanged(); } } m_prepared = true; return bytesread; } /*! reads the content of device \c device to the data source \c dataSource. Uses the settings defined in the data source. */ void AsciiFilterPrivate::readDataFromDevice(QIODevice& device, AbstractDataSource* dataSource, AbstractFileFilter::ImportMode importMode, int lines) { DEBUG("AsciiFilterPrivate::readDataFromDevice(): dataSource = " << dataSource << ", mode = " << ENUM_TO_STRING(AbstractFileFilter, ImportMode, importMode) << ", lines = " << lines); if (!m_prepared) { const int deviceError = prepareDeviceToRead(device); if (deviceError != 0) { DEBUG("Device error = " << deviceError); return; } // matrix data has only one column mode (which is not text) if (dynamic_cast(dataSource)) { auto mode = columnModes[0]; if (mode == AbstractColumn::Text) mode = AbstractColumn::Numeric; for (auto& c: columnModes) if (c != mode) c = mode; } m_columnOffset = dataSource->prepareImport(m_dataContainer, importMode, m_actualRows - m_actualStartRow + 1, m_actualCols, vectorNames, columnModes); m_prepared = true; } DEBUG("locale = " << QLocale::languageToString(numberFormat).toStdString()); QLocale locale(numberFormat); // Read the data int currentRow = 0; // indexes the position in the vector(column) if (lines == -1) lines = m_actualRows; DEBUG("reading " << qMin(lines, m_actualRows) << " lines"); for (int i = 0; i < qMin(lines, m_actualRows); ++i) { QString line = device.readLine(); // skip start lines if (m_actualStartRow > 1) { m_actualStartRow--; continue; } line.remove(QRegExp("[\\n\\r]")); // remove any newline if (simplifyWhitespacesEnabled) line = line.simplified(); if (line.isEmpty() || line.startsWith(commentCharacter)) // skip empty or commented lines continue; QStringList lineStringList = line.split(m_separator, (QString::SplitBehavior)skipEmptyParts); //prepend the index if required //TODO: come up maybe with a solution with adding the index inside of the loop below, //without conversion to string, prepending to the list and then conversion back to integer. if (createIndexEnabled) lineStringList.prepend(QString::number(i+1)); // remove left white spaces if (skipEmptyParts) { for (int n = 0; n < lineStringList.size(); ++n) { QString valueString = lineStringList.at(n); if (!QString::compare(valueString, " ")) { lineStringList.removeAt(n); n--; } } } for (int n = 0; n < m_actualCols; ++n) { if (n < lineStringList.size()) { QString valueString = lineStringList.at(n); // set value depending on data type switch (columnModes[n]) { case AbstractColumn::Numeric: { bool isNumber; const double value = locale.toDouble(valueString, &isNumber); static_cast*>(m_dataContainer[n])->operator[](currentRow) = (isNumber ? value : nanValue); break; } case AbstractColumn::Integer: { bool isNumber; const int value = locale.toInt(valueString, &isNumber); static_cast*>(m_dataContainer[n])->operator[](currentRow) = (isNumber ? value : 0); break; } case AbstractColumn::DateTime: { const QDateTime valueDateTime = QDateTime::fromString(valueString, dateTimeFormat); static_cast*>(m_dataContainer[n])->operator[](currentRow) = valueDateTime.isValid() ? valueDateTime : QDateTime(); break; } case AbstractColumn::Text: if (removeQuotesEnabled) valueString.remove(QRegExp("[\"\']")); static_cast*>(m_dataContainer[n])->operator[](currentRow) = valueString; break; case AbstractColumn::Month: // never happens case AbstractColumn::Day: break; } } else { // missing columns in this line switch (columnModes[n]) { case AbstractColumn::Numeric: static_cast*>(m_dataContainer[n])->operator[](currentRow) = nanValue; break; case AbstractColumn::Integer: static_cast*>(m_dataContainer[n])->operator[](currentRow) = 0; break; case AbstractColumn::DateTime: static_cast*>(m_dataContainer[n])->operator[](currentRow) = QDateTime(); break; case AbstractColumn::Text: static_cast*>(m_dataContainer[n])->operator[](currentRow) = ""; break; case AbstractColumn::Month: // never happens case AbstractColumn::Day: break; } } } currentRow++; emit q->completed(100 * currentRow/m_actualRows); } dataSource->finalizeImport(m_columnOffset, startColumn, endColumn, dateTimeFormat, importMode); } /*! * preview for special devices (local/UDP/TCP socket or serial port) */ QVector AsciiFilterPrivate::preview(QIODevice &device) { DEBUG("AsciiFilterPrivate::preview(): bytesAvailable = " << device.bytesAvailable() << ", isSequential = " << device.isSequential()); QVector dataStrings; if (!(device.bytesAvailable() > 0)) { DEBUG("No new data available"); return dataStrings; } if (device.isSequential() && device.bytesAvailable() < (int)sizeof(quint16)) return dataStrings; #ifdef PERFTRACE_LIVE_IMPORT PERFTRACE("AsciiLiveDataImportTotal: "); #endif int linesToRead = 0; QVector newData; while (!device.atEnd()) { if (device.canReadLine()) newData.push_back(device.readLine()); else // UDP fails otherwise newData.push_back(device.readAll()); linesToRead++; } QDEBUG(" data = " << newData); if (linesToRead == 0) return dataStrings; int col = 0; int colMax = newData.at(0).size(); if (createIndexEnabled) colMax++; columnModes.resize(colMax); if (createIndexEnabled) { columnModes[0] = AbstractColumn::ColumnMode::Integer; col = 1; vectorNames.prepend(i18n("Index")); } vectorNames.append(i18n("Value")); QDEBUG(" vector names = " << vectorNames); for (const auto& valueString: newData.at(0).split(' ', QString::SkipEmptyParts)) { if (col == colMax) break; columnModes[col++] = AbstractFileFilter::columnMode(valueString, dateTimeFormat, numberFormat); } for (int i = 0; i < linesToRead; ++i) { QString line = newData.at(i); if (simplifyWhitespacesEnabled) line = line.simplified(); if (line.isEmpty() || line.startsWith(commentCharacter)) // skip empty or commented lines continue; QLocale locale(numberFormat); QStringList lineStringList = line.split(' ', QString::SkipEmptyParts); if (createIndexEnabled) lineStringList.prepend(QString::number(i)); QStringList lineString; for (int n = 0; n < lineStringList.size(); ++n) { if (n < lineStringList.size()) { QString valueString = lineStringList.at(n); switch (columnModes[n]) { case AbstractColumn::Numeric: { bool isNumber; const double value = locale.toDouble(valueString, &isNumber); lineString += QString::number(isNumber ? value : nanValue, 'g', 16); break; } case AbstractColumn::Integer: { bool isNumber; const int value = locale.toInt(valueString, &isNumber); lineString += QString::number(isNumber ? value : 0); break; } case AbstractColumn::DateTime: { const QDateTime valueDateTime = QDateTime::fromString(valueString, dateTimeFormat); lineString += valueDateTime.isValid() ? valueDateTime.toString(dateTimeFormat) : QLatin1String(" "); break; } case AbstractColumn::Text: if (removeQuotesEnabled) valueString.remove(QRegExp("[\"\']")); lineString += valueString; break; case AbstractColumn::Month: // never happens case AbstractColumn::Day: break; } } else // missing columns in this line lineString += QLatin1String(""); } dataStrings << lineString; } return dataStrings; } /*! * generates the preview for the file \c fileName reading the provided number of \c lines. */ QVector AsciiFilterPrivate::preview(const QString& fileName, int lines) { QVector dataStrings; KFilterDev device(fileName); const int deviceError = prepareDeviceToRead(device); if (deviceError != 0) { DEBUG("Device error = " << deviceError); return dataStrings; } //number formatting DEBUG("locale = " << QLocale::languageToString(numberFormat).toStdString()); QLocale locale(numberFormat); // Read the data if (lines == -1) lines = m_actualRows; // set column names for preview if (!headerEnabled) { int start = 0; if (createIndexEnabled) start = 1; for (int i=start;i 1) { m_actualStartRow--; continue; } line.remove(QRegExp("[\\n\\r]")); // remove any newline if (simplifyWhitespacesEnabled) line = line.simplified(); if (line.isEmpty() || line.startsWith(commentCharacter)) // skip empty or commented lines continue; QStringList lineStringList = line.split(m_separator, (QString::SplitBehavior)skipEmptyParts); QDEBUG(" line = " << lineStringList); //prepend index if required if (createIndexEnabled) lineStringList.prepend(QString::number(i+1)); QStringList lineString; for (int n = 0; n < m_actualCols; ++n) { if (n < lineStringList.size()) { QString valueString = lineStringList.at(n); //DEBUG(" valueString = " << valueString.toStdString()); if (skipEmptyParts && !QString::compare(valueString, " ")) // handle left white spaces continue; // set value depending on data type switch (columnModes[n]) { case AbstractColumn::Numeric: { bool isNumber; const double value = locale.toDouble(valueString, &isNumber); lineString += QString::number(isNumber ? value : nanValue, 'g', 15); break; } case AbstractColumn::Integer: { bool isNumber; const int value = locale.toInt(valueString, &isNumber); lineString += QString::number(isNumber ? value : 0); break; } case AbstractColumn::DateTime: { const QDateTime valueDateTime = QDateTime::fromString(valueString, dateTimeFormat); lineString += valueDateTime.isValid() ? valueDateTime.toString(dateTimeFormat) : QLatin1String(" "); break; } case AbstractColumn::Text: if (removeQuotesEnabled) valueString.remove(QRegExp("[\"\']")); lineString += valueString; break; case AbstractColumn::Month: // never happens case AbstractColumn::Day: break; } } else // missing columns in this line lineString += QLatin1String(""); } dataStrings << lineString; } return dataStrings; } /*! writes the content of \c dataSource to the file \c fileName. */ void AsciiFilterPrivate::write(const QString & fileName, AbstractDataSource* dataSource) { Q_UNUSED(fileName); Q_UNUSED(dataSource); //TODO: save data to ascii file } //############################################################################## //################## Serialization/Deserialization ########################### //############################################################################## /*! Saves as XML. */ void AsciiFilter::save(QXmlStreamWriter* writer) const { writer->writeStartElement( "asciiFilter"); writer->writeAttribute( "commentCharacter", d->commentCharacter); writer->writeAttribute( "separatingCharacter", d->separatingCharacter); writer->writeAttribute( "autoMode", QString::number(d->autoModeEnabled)); writer->writeAttribute( "createIndex", QString::number(d->createIndexEnabled)); writer->writeAttribute( "header", QString::number(d->headerEnabled)); writer->writeAttribute( "vectorNames", d->vectorNames.join(' ')); writer->writeAttribute( "skipEmptyParts", QString::number(d->skipEmptyParts)); writer->writeAttribute( "simplifyWhitespaces", QString::number(d->simplifyWhitespacesEnabled)); writer->writeAttribute( "nanValue", QString::number(d->nanValue)); writer->writeAttribute( "removeQuotes", QString::number(d->removeQuotesEnabled)); writer->writeAttribute( "startRow", QString::number(d->startRow)); writer->writeAttribute( "endRow", QString::number(d->endRow)); writer->writeAttribute( "startColumn", QString::number(d->startColumn)); writer->writeAttribute( "endColumn", QString::number(d->endColumn)); writer->writeEndElement(); } /*! Loads from XML. */ bool AsciiFilter::load(XmlStreamReader* reader) { if (!reader->isStartElement() || reader->name() != "asciiFilter") { reader->raiseError(i18n("no ascii filter element found")); return false; } KLocalizedString attributeWarning = ki18n("Attribute '%1' missing or empty, default value is used"); QXmlStreamAttributes attribs = reader->attributes(); QString str = attribs.value("commentCharacter").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("commentCharacter").toString()); else d->commentCharacter = str; str = attribs.value("separatingCharacter").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("separatingCharacter").toString()); else d->separatingCharacter = str; str = attribs.value("createIndex").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("createIndex").toString()); else d->createIndexEnabled = str.toInt(); str = attribs.value("autoMode").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("autoMode").toString()); else d->autoModeEnabled = str.toInt(); str = attribs.value("header").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("header").toString()); else d->headerEnabled = str.toInt(); str = attribs.value("vectorNames").toString(); d->vectorNames = str.split(' '); //may be empty str = attribs.value("simplifyWhitespaces").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("simplifyWhitespaces").toString()); else d->simplifyWhitespacesEnabled = str.toInt(); str = attribs.value("nanValue").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("nanValue").toString()); else d->nanValue = str.toDouble(); str = attribs.value("removeQuotes").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("removeQuotes").toString()); else d->removeQuotesEnabled = str.toInt(); str = attribs.value("skipEmptyParts").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("skipEmptyParts").toString()); else d->skipEmptyParts = str.toInt(); str = attribs.value("startRow").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("startRow").toString()); else d->startRow = str.toInt(); str = attribs.value("endRow").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("endRow").toString()); else d->endRow = str.toInt(); str = attribs.value("startColumn").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("startColumn").toString()); else d->startColumn = str.toInt(); str = attribs.value("endColumn").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("endColumn").toString()); else d->endColumn = str.toInt(); return true; } diff --git a/src/kdefrontend/datasources/ImportFileWidget.cpp b/src/kdefrontend/datasources/ImportFileWidget.cpp index be97869b2..34142e169 100644 --- a/src/kdefrontend/datasources/ImportFileWidget.cpp +++ b/src/kdefrontend/datasources/ImportFileWidget.cpp @@ -1,1243 +1,1244 @@ /*************************************************************************** File : ImportFileWidget.cpp Project : LabPlot Description : import file data widget -------------------------------------------------------------------- Copyright : (C) 2009-2018 Stefan Gerlach (stefan.gerlach@uni.kn) Copyright : (C) 2009-2017 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2017 Fabian Kristof (fkristofszabolcs@gmail.com) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "ImportFileWidget.h" #include "FileInfoDialog.h" #include "backend/datasources/filters/AsciiFilter.h" #include "backend/datasources/filters/BinaryFilter.h" #include "backend/datasources/filters/HDF5Filter.h" #include "backend/datasources/filters/NetCDFFilter.h" #include "backend/datasources/filters/ImageFilter.h" #include "backend/datasources/filters/FITSFilter.h" #include "backend/datasources/filters/ROOTFilter.h" #include "AsciiOptionsWidget.h" #include "BinaryOptionsWidget.h" #include "HDF5OptionsWidget.h" #include "ImageOptionsWidget.h" #include "NetCDFOptionsWidget.h" #include "FITSOptionsWidget.h" #include "ROOTOptionsWidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*! \class ImportFileWidget \brief Widget for importing data from a file. \ingroup kdefrontend */ ImportFileWidget::ImportFileWidget(QWidget* parent, const QString& fileName) : QWidget(parent), m_fileName(fileName), m_fileEmpty(false), m_liveDataSource(true), m_suppressRefresh(false) { ui.setupUi(this); QCompleter* completer = new QCompleter(this); completer->setModel(new QDirModel); ui.leFileName->setCompleter(completer); ui.cbFileType->addItems(LiveDataSource::fileTypes()); QStringList filterItems; filterItems << i18n("Automatic") << i18n("Custom"); ui.cbFilter->addItems(filterItems); // file type specific option widgets QWidget* asciiw = new QWidget(); m_asciiOptionsWidget = std::unique_ptr(new AsciiOptionsWidget(asciiw)); ui.swOptions->insertWidget(LiveDataSource::Ascii, asciiw); QWidget* binaryw = new QWidget(); m_binaryOptionsWidget = std::unique_ptr(new BinaryOptionsWidget(binaryw)); ui.swOptions->insertWidget(LiveDataSource::Binary, binaryw); QWidget* imagew = new QWidget(); m_imageOptionsWidget = std::unique_ptr(new ImageOptionsWidget(imagew)); ui.swOptions->insertWidget(LiveDataSource::Image, imagew); QWidget* hdf5w = new QWidget(); m_hdf5OptionsWidget = std::unique_ptr(new HDF5OptionsWidget(hdf5w, this)); ui.swOptions->insertWidget(LiveDataSource::HDF5, hdf5w); QWidget* netcdfw = new QWidget(); m_netcdfOptionsWidget = std::unique_ptr(new NetCDFOptionsWidget(netcdfw, this)); ui.swOptions->insertWidget(LiveDataSource::NETCDF, netcdfw); QWidget* fitsw = new QWidget(); m_fitsOptionsWidget = std::unique_ptr(new FITSOptionsWidget(fitsw, this)); ui.swOptions->insertWidget(LiveDataSource::FITS, fitsw); QWidget* rootw = new QWidget(); m_rootOptionsWidget = std::unique_ptr(new ROOTOptionsWidget(rootw, this)); ui.swOptions->insertWidget(LiveDataSource::ROOT, rootw); // the table widget for preview m_twPreview = new QTableWidget(ui.tePreview); m_twPreview->verticalHeader()->hide(); m_twPreview->setEditTriggers(QTableWidget::NoEditTriggers); QHBoxLayout* layout = new QHBoxLayout; layout->addWidget(m_twPreview); ui.tePreview->setLayout(layout); m_twPreview->hide(); // default filter ui.swOptions->setCurrentIndex(LiveDataSource::Ascii); #if !defined(HAVE_HDF5) || !defined(HAVE_NETCDF) || !defined(HAVE_FITS) || !defined(HAVE_ZIP) const QStandardItemModel* model = qobject_cast(ui.cbFileType->model()); #endif #ifndef HAVE_HDF5 // disable HDF5 item QStandardItem* item = model->item(LiveDataSource::HDF5); item->setFlags(item->flags() & ~(Qt::ItemIsSelectable | Qt::ItemIsEnabled)); #endif #ifndef HAVE_NETCDF // disable NETCDF item QStandardItem* item2 = model->item(LiveDataSource::NETCDF); item2->setFlags(item2->flags() & ~(Qt::ItemIsSelectable | Qt::ItemIsEnabled)); #endif #ifndef HAVE_FITS // disable FITS item QStandardItem* item3 = model->item(LiveDataSource::FITS); item3->setFlags(item3->flags() & ~(Qt::ItemIsSelectable | Qt::ItemIsEnabled)); #endif #ifndef HAVE_ZIP // disable ROOT item QStandardItem* item4 = model->item(LiveDataSource::ROOT); item4->setFlags(item4->flags() & ~(Qt::ItemIsSelectable | Qt::ItemIsEnabled)); #endif ui.cbReadType->addItem(i18n("Whole file"), LiveDataSource::WholeFile); ui.lePort->setValidator( new QIntValidator(ui.lePort) ); ui.gbOptions->hide(); ui.gbUpdateOptions->hide(); ui.bOpen->setIcon( QIcon::fromTheme("document-open") ); ui.bFileInfo->setIcon( QIcon::fromTheme("help-about") ); ui.bManageFilters->setIcon( QIcon::fromTheme("configure") ); ui.bSaveFilter->setIcon( QIcon::fromTheme("document-save") ); ui.bRefreshPreview->setIcon( QIcon::fromTheme("view-refresh") ); connect( ui.leFileName, SIGNAL(textChanged(QString)), SLOT(fileNameChanged(QString)) ); connect( ui.bOpen, SIGNAL(clicked()), this, SLOT (selectFile()) ); connect( ui.bFileInfo, SIGNAL(clicked()), this, SLOT (fileInfoDialog()) ); connect( ui.bSaveFilter, SIGNAL(clicked()), this, SLOT (saveFilter()) ); connect( ui.bManageFilters, SIGNAL(clicked()), this, SLOT (manageFilters()) ); connect( ui.cbFileType, SIGNAL(currentIndexChanged(int)), SLOT(fileTypeChanged(int)) ); connect( ui.cbUpdateType, SIGNAL(currentIndexChanged(int)), this, SLOT(updateTypeChanged(int))); connect( ui.cbReadType, SIGNAL(currentIndexChanged(int)), this, SLOT(readingTypeChanged(int))); connect( ui.cbFilter, SIGNAL(activated(int)), SLOT(filterChanged(int)) ); connect( ui.bRefreshPreview, SIGNAL(clicked()), SLOT(refreshPreview()) ); connect(ui.leHost, SIGNAL(textChanged(QString)), this, SIGNAL(hostChanged())); connect(ui.lePort, SIGNAL(textChanged(QString)), this, SIGNAL(portChanged())); connect( ui.cbSourceType, SIGNAL(currentIndexChanged(int)), this, SLOT(sourceTypeChanged(int))); //TODO: implement save/load of user-defined settings later and activate these buttons again ui.bSaveFilter->hide(); ui.bManageFilters->hide(); //defer the loading of settings a bit in order to show the dialog prior to blocking the GUI in refreshPreview() QTimer::singleShot( 100, this, SLOT(loadSettings()) ); } void ImportFileWidget::loadSettings() { m_suppressRefresh = true; //load last used settings QString confName; if (m_liveDataSource) confName = QLatin1String("LiveDataImport"); else confName = QLatin1String("FileImport"); KConfigGroup conf(KSharedConfig::openConfig(), confName); //settings for data type specific widgets m_asciiOptionsWidget->loadSettings(); m_binaryOptionsWidget->loadSettings(); m_imageOptionsWidget->loadSettings(); //read the source type first since settings in fileNameChanged() depend on this ui.cbSourceType->setCurrentIndex(conf.readEntry("SourceType").toInt()); //general settings ui.cbFileType->setCurrentIndex(conf.readEntry("Type", 0)); ui.cbFilter->setCurrentIndex(conf.readEntry("Filter", 0)); filterChanged(ui.cbFilter->currentIndex()); // needed if filter is not changed if (m_fileName.isEmpty()) ui.leFileName->setText(conf.readEntry("LastImportedFile", "")); else ui.leFileName->setText(m_fileName); //live data related settings ui.cbBaudRate->setCurrentIndex(conf.readEntry("BaudRate").toInt()); ui.cbReadType->setCurrentIndex(conf.readEntry("ReadType").toInt()); ui.cbSerialPort->setCurrentIndex(conf.readEntry("SerialPort").toInt()); ui.cbUpdateType->setCurrentIndex(conf.readEntry("UpdateType").toInt()); ui.leHost->setText(conf.readEntry("Host","")); ui.leKeepLastValues->setText(conf.readEntry("KeepLastNValues","")); ui.lePort->setText(conf.readEntry("Port","")); - ui.sbSampleRate->setValue(conf.readEntry("SampleRate").toInt()); + ui.sbSampleSize->setValue(conf.readEntry("SampleSize").toInt()); ui.sbUpdateInterval->setValue(conf.readEntry("UpdateInterval").toInt()); m_suppressRefresh = false; refreshPreview(); } ImportFileWidget::~ImportFileWidget() { // save current settings QString confName; if (m_liveDataSource) confName = QLatin1String("LiveDataImport"); else confName = QLatin1String("FileImport"); KConfigGroup conf(KSharedConfig::openConfig(), confName); // general settings conf.writeEntry("Type", ui.cbFileType->currentIndex()); conf.writeEntry("Filter", ui.cbFilter->currentIndex()); conf.writeEntry("LastImportedFile", ui.leFileName->text()); //live data related settings conf.writeEntry("SourceType", ui.cbSourceType->currentIndex()); conf.writeEntry("UpdateType", ui.cbUpdateType->currentIndex()); conf.writeEntry("ReadType", ui.cbReadType->currentIndex()); - conf.writeEntry("SampleRate", ui.sbSampleRate->value()); + conf.writeEntry("SampleSize", ui.sbSampleSize->value()); conf.writeEntry("KeepLastNValues", ui.leKeepLastValues->text()); conf.writeEntry("BaudRate", ui.cbBaudRate->currentIndex()); conf.writeEntry("SerialPort", ui.cbSerialPort->currentIndex()); conf.writeEntry("Host", ui.leHost->text()); conf.writeEntry("Port", ui.lePort->text()); conf.writeEntry("UpdateInterval", ui.sbUpdateInterval->value()); // data type specific settings m_asciiOptionsWidget->saveSettings(); m_binaryOptionsWidget->saveSettings(); m_imageOptionsWidget->saveSettings(); } void ImportFileWidget::hideDataSource() { m_liveDataSource = false; ui.gbUpdateOptions->hide(); ui.chbLinkFile->hide(); ui.cbBaudRate->hide(); ui.lBaudRate->hide(); ui.lHost->hide(); ui.leHost->hide(); ui.lPort->hide(); ui.lePort->hide(); ui.cbSerialPort->hide(); ui.lSerialPort->hide(); ui.lSourceType->hide(); ui.cbSourceType->hide(); ui.cbUpdateType->hide(); ui.lUpdateType->hide(); ui.sbUpdateInterval->hide(); ui.lUpdateInterval->hide(); } void ImportFileWidget::showAsciiHeaderOptions(bool b) { m_asciiOptionsWidget->showAsciiHeaderOptions(b); } void ImportFileWidget::showOptions(bool b) { ui.gbOptions->setVisible(b); if (m_liveDataSource) ui.gbUpdateOptions->setVisible(b); resize(layout()->minimumSize()); } QString ImportFileWidget::fileName() const { return ui.leFileName->text(); } QString ImportFileWidget::selectedObject() const { const QString& path = ui.leFileName->text(); //determine the file name only QString name = path.right(path.length() - path.lastIndexOf(QDir::separator()) - 1); //strip away the extension if available if (name.indexOf('.') != -1) name = name.left(name.lastIndexOf('.')); //for multi-dimensinal formats like HDF, netCDF and FITS add the currently selected object const auto format = currentFileType(); if (format == LiveDataSource::HDF5) { const QStringList& hdf5Names = m_hdf5OptionsWidget->selectedHDF5Names(); if (hdf5Names.size()) name += hdf5Names.first(); //the names of the selected HDF5 objects already have '/' } else if (format == LiveDataSource::NETCDF) { const QStringList& names = m_netcdfOptionsWidget->selectedNetCDFNames(); if (names.size()) name += QLatin1Char('/') + names.first(); } else if (format == LiveDataSource::FITS) { const QString& extensionName = m_fitsOptionsWidget->currentExtensionName(); if (!extensionName.isEmpty()) name += QLatin1Char('/') + extensionName; } else if (format == LiveDataSource::ROOT) { const QStringList& names = m_rootOptionsWidget->selectedROOTNames(); if (names.size()) name += QLatin1Char('/') + names.first(); } return name; } /*! * returns \c true if the number of lines to be imported from the currently selected file is zero ("file is empty"), * returns \c false otherwise. */ bool ImportFileWidget::isFileEmpty() const { return m_fileEmpty; } QString ImportFileWidget::host() const { return ui.leHost->text(); } QString ImportFileWidget::port() const { return ui.lePort->text(); } QString ImportFileWidget::serialPort() const { return ui.cbSerialPort->currentText(); } int ImportFileWidget::baudRate() const { return ui.cbBaudRate->currentText().toInt(); } /*! saves the settings to the data source \c source. */ void ImportFileWidget::saveSettings(LiveDataSource* source) const { LiveDataSource::FileType fileType = static_cast(ui.cbFileType->currentIndex()); LiveDataSource::UpdateType updateType = static_cast(ui.cbUpdateType->currentIndex()); LiveDataSource::SourceType sourceType = static_cast(ui.cbSourceType->currentIndex()); LiveDataSource::ReadingType readingType = static_cast(ui.cbReadType->currentIndex()); source->setComment( ui.leFileName->text() ); source->setFileType(fileType); source->setFilter(this->currentFileFilter()); source->setSourceType(sourceType); source->setReadingType(readingType); if (updateType == LiveDataSource::UpdateType::TimeInterval) source->setUpdateInterval(ui.sbUpdateInterval->value()); else source->setFileWatched(true); if (!ui.leKeepLastValues->text().isEmpty()) { source->setKeepLastValues(true); source->setKeepNvalues(ui.leKeepLastValues->text().toInt()); } source->setUpdateType(updateType); if (readingType != LiveDataSource::ReadingType::TillEnd) - source->setSampleRate(ui.sbSampleRate->value()); + source->setSampleSize(ui.sbSampleSize->value()); switch (sourceType) { case LiveDataSource::SourceType::FileOrPipe: source->setFileName( ui.leFileName->text() ); source->setFileLinked( ui.chbLinkFile->isChecked() ); break; case LiveDataSource::SourceType::LocalSocket: source->setLocalSocketName(ui.leFileName->text()); break; case LiveDataSource::SourceType::NetworkTcpSocket: case LiveDataSource::SourceType::NetworkUdpSocket: source->setHost(ui.leHost->text()); source->setPort((quint16)ui.lePort->text().toInt()); break; case LiveDataSource::SourceType::SerialPort: source->setBaudRate(ui.cbBaudRate->currentText().toInt()); source->setSerialPort(ui.cbSerialPort->currentText()); break; default: break; } } /*! returns the currently used file type. */ LiveDataSource::FileType ImportFileWidget::currentFileType() const { return static_cast(ui.cbFileType->currentIndex()); } LiveDataSource::SourceType ImportFileWidget::currentSourceType() const { return static_cast(ui.cbSourceType->currentIndex()); } /*! returns the currently used filter. */ AbstractFileFilter* ImportFileWidget::currentFileFilter() const { DEBUG("ImportFileWidget::currentFileFilter()"); LiveDataSource::FileType fileType = static_cast(ui.cbFileType->currentIndex()); switch (fileType) { case LiveDataSource::Ascii: { DEBUG(" ASCII"); //TODO std::unique_ptr filter(new AsciiFilter()); AsciiFilter* filter = new AsciiFilter(); if (ui.cbFilter->currentIndex() == 0) //"automatic" filter->setAutoModeEnabled(true); else if (ui.cbFilter->currentIndex() == 1) { //"custom" filter->setAutoModeEnabled(false); m_asciiOptionsWidget->applyFilterSettings(filter); } else filter->loadFilterSettings( ui.cbFilter->currentText() ); //save the data portion to import filter->setStartRow( ui.sbStartRow->value()); filter->setEndRow( ui.sbEndRow->value() ); filter->setStartColumn( ui.sbStartColumn->value()); filter->setEndColumn( ui.sbEndColumn->value()); return filter; } case LiveDataSource::Binary: { BinaryFilter* filter = new BinaryFilter(); if ( ui.cbFilter->currentIndex() == 0 ) //"automatic" filter->setAutoModeEnabled(true); else if ( ui.cbFilter->currentIndex() == 1 ) { //"custom" filter->setAutoModeEnabled(false); m_binaryOptionsWidget->applyFilterSettings(filter); } else { //TODO: load filter settings // filter->setFilterName( ui.cbFilter->currentText() ); } filter->setStartRow( ui.sbStartRow->value() ); filter->setEndRow( ui.sbEndRow->value() ); return filter; } case LiveDataSource::Image: { ImageFilter* filter = new ImageFilter(); filter->setImportFormat(m_imageOptionsWidget->currentFormat()); filter->setStartRow( ui.sbStartRow->value() ); filter->setEndRow( ui.sbEndRow->value() ); filter->setStartColumn( ui.sbStartColumn->value() ); filter->setEndColumn( ui.sbEndColumn->value() ); return filter; } case LiveDataSource::HDF5: { HDF5Filter* filter = new HDF5Filter(); QStringList names = selectedHDF5Names(); if (!names.isEmpty()) filter->setCurrentDataSetName(names[0]); filter->setStartRow( ui.sbStartRow->value() ); filter->setEndRow( ui.sbEndRow->value() ); filter->setStartColumn( ui.sbStartColumn->value() ); filter->setEndColumn( ui.sbEndColumn->value() ); return filter; } case LiveDataSource::NETCDF: { NetCDFFilter* filter = new NetCDFFilter(); if (!selectedNetCDFNames().isEmpty()) filter->setCurrentVarName(selectedNetCDFNames()[0]); filter->setStartRow( ui.sbStartRow->value() ); filter->setEndRow( ui.sbEndRow->value() ); filter->setStartColumn( ui.sbStartColumn->value() ); filter->setEndColumn( ui.sbEndColumn->value() ); return filter; } case LiveDataSource::FITS: { FITSFilter* filter = new FITSFilter(); filter->setStartRow( ui.sbStartRow->value()); filter->setEndRow( ui.sbEndRow->value() ); filter->setStartColumn( ui.sbStartColumn->value()); filter->setEndColumn( ui.sbEndColumn->value()); return filter; } case LiveDataSource::ROOT: { ROOTFilter* filter = new ROOTFilter(); QStringList names = selectedROOTNames(); if (!names.isEmpty()) filter->setCurrentHistogram(names.first()); filter->setStartBin( m_rootOptionsWidget->startBin() ); filter->setEndBin( m_rootOptionsWidget->endBin() ); filter->setColumns( m_rootOptionsWidget->columns() ); return filter; } } return 0; } /*! opens a file dialog and lets the user select the file data source. */ void ImportFileWidget::selectFile() { KConfigGroup conf(KSharedConfig::openConfig(), "ImportFileWidget"); QString dir = conf.readEntry("LastDir", ""); QString path = QFileDialog::getOpenFileName(this, i18n("Select the File Data Source"), dir); if (path.isEmpty()) return; //cancel was clicked in the file-dialog int pos = path.lastIndexOf(QDir::separator()); if (pos != -1) { QString newDir = path.left(pos); if (newDir != dir) conf.writeEntry("LastDir", newDir); } ui.leFileName->setText(path); //TODO: decide whether the selection of several files should be possible // QStringList filelist = QFileDialog::getOpenFileNames(this,i18n("Select one or more files to open")); // if (! filelist.isEmpty() ) // ui.leFileName->setText(filelist.join(";")); } /************** SLOTS **************************************************************/ /*! called on file name changes. Determines the file format (ASCII, binary etc.), if the file exists, and activates the corresponding options. */ void ImportFileWidget::fileNameChanged(const QString& name) { QString fileName = name; #ifndef HAVE_WINDOWS // make relative path if ( !fileName.isEmpty() && fileName.at(0) != QDir::separator()) fileName = QDir::homePath() + QDir::separator() + fileName; #endif bool fileExists = QFile::exists(fileName); if (fileExists) ui.leFileName->setStyleSheet(""); else ui.leFileName->setStyleSheet("QLineEdit{background:red;}"); ui.gbOptions->setEnabled(fileExists); ui.bManageFilters->setEnabled(fileExists); ui.cbFilter->setEnabled(fileExists); ui.cbFileType->setEnabled(fileExists); ui.bFileInfo->setEnabled(fileExists); ui.gbUpdateOptions->setEnabled(fileExists); if (!fileExists) { //file doesn't exist -> delete the content preview that is still potentially //available from the previously selected file ui.tePreview->clear(); m_twPreview->clear(); m_hdf5OptionsWidget->clear(); m_netcdfOptionsWidget->clear(); m_fitsOptionsWidget->clear(); m_rootOptionsWidget->clear(); emit fileNameChanged(); return; } if (currentSourceType() == LiveDataSource::FileOrPipe) { QString fileInfo; #ifndef HAVE_WINDOWS //check, if we can guess the file type by content QProcess* proc = new QProcess(this); QStringList args; args << "-b" << ui.leFileName->text(); proc->start("file", args); if (proc->waitForReadyRead(1000) == false) { QDEBUG("ERROR: reading file type of file" << fileName); return; } fileInfo = proc->readLine(); #endif QByteArray imageFormat = QImageReader::imageFormat(fileName); if (fileInfo.contains(QLatin1String("compressed data")) || fileInfo.contains(QLatin1String("ASCII")) || fileName.endsWith(QLatin1String("dat"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("txt"), Qt::CaseInsensitive)) { //probably ascii data ui.cbFileType->setCurrentIndex(LiveDataSource::Ascii); } else if (fileInfo.contains(QLatin1String("Hierarchical Data Format")) || fileName.endsWith(QLatin1String("h5"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("hdf"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("hdf5"), Qt::CaseInsensitive) ) { ui.cbFileType->setCurrentIndex(LiveDataSource::HDF5); // update HDF5 tree widget using current selected file m_hdf5OptionsWidget->updateContent((HDF5Filter*)this->currentFileFilter(), fileName); } else if (fileInfo.contains(QLatin1String("NetCDF Data Format")) || fileName.endsWith(QLatin1String("nc"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("netcdf"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("cdf"), Qt::CaseInsensitive)) { ui.cbFileType->setCurrentIndex(LiveDataSource::NETCDF); // update NetCDF tree widget using current selected file m_netcdfOptionsWidget->updateContent((NetCDFFilter*)this->currentFileFilter(), fileName); } else if (fileInfo.contains(QLatin1String("FITS image data")) || fileName.endsWith(QLatin1String("fits"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("fit"), Qt::CaseInsensitive) || fileName.endsWith(QLatin1String("fts"), Qt::CaseInsensitive)) { #ifdef HAVE_FITS ui.cbFileType->setCurrentIndex(LiveDataSource::FITS); #endif // update FITS tree widget using current selected file m_fitsOptionsWidget->updateContent((FITSFilter*)this->currentFileFilter(), fileName); } else if (fileInfo.contains(QLatin1String("ROOT Data Format")) || fileName.endsWith(QLatin1String("root"), Qt::CaseInsensitive)) { // TODO find out file description ui.cbFileType->setCurrentIndex(LiveDataSource::ROOT); // update ROOT list widget using current selected file m_rootOptionsWidget->updateContent((ROOTFilter*)this->currentFileFilter(), fileName); } else if (fileInfo.contains("image") || fileInfo.contains("bitmap") || !imageFormat.isEmpty()) ui.cbFileType->setCurrentIndex(LiveDataSource::Image); else ui.cbFileType->setCurrentIndex(LiveDataSource::Binary); } refreshPreview(); emit fileNameChanged(); } /*! saves the current filter settings */ void ImportFileWidget::saveFilter() { bool ok; QString text = QInputDialog::getText(this, i18n("Save Filter Settings as"), i18n("Filter name:"), QLineEdit::Normal, i18n("new filter"), &ok); if (ok && !text.isEmpty()) { //TODO //AsciiFilter::saveFilter() } } /*! opens a dialog for managing all available predefined filters. */ void ImportFileWidget::manageFilters() { //TODO } /*! Depending on the selected file type, activates the corresponding options in the data portion tab and populates the combobox with the available pre-defined fllter settings for the selected type. */ void ImportFileWidget::fileTypeChanged(int fileType) { ui.swOptions->setCurrentIndex(fileType); //default ui.lFilter->show(); ui.cbFilter->show(); //if we switch from ROOT format (only two tabs available), add the data portion-tab again if (ui.tabWidget->count() == 1) { ui.tabWidget->insertTab(1, ui.tabDataPortion, i18n("Data portion to read")); } //if we switch from netCDF-format (only two tabs available), add the data preview-tab again if (ui.tabWidget->count() == 2) { ui.tabWidget->setTabText(0, i18n("Data format")); ui.tabWidget->insertTab(1, ui.tabDataPreview, i18n("Preview")); } ui.lPreviewLines->show(); ui.sbPreviewLines->show(); ui.lStartColumn->show(); ui.sbStartColumn->show(); ui.lEndColumn->show(); ui.sbEndColumn->show(); switch (fileType) { case LiveDataSource::Ascii: break; case LiveDataSource::Binary: ui.lStartColumn->hide(); ui.sbStartColumn->hide(); ui.lEndColumn->hide(); ui.sbEndColumn->hide(); break; case LiveDataSource::ROOT: ui.tabWidget->removeTab(1); // falls through case LiveDataSource::HDF5: case LiveDataSource::NETCDF: ui.lFilter->hide(); ui.cbFilter->hide(); // hide global preview tab. we have our own ui.tabWidget->setTabText(0, i18n("Data format && preview")); ui.tabWidget->removeTab(1); ui.tabWidget->setCurrentIndex(0); break; case LiveDataSource::Image: ui.lPreviewLines->hide(); ui.sbPreviewLines->hide(); ui.lFilter->hide(); ui.cbFilter->hide(); break; case LiveDataSource::FITS: ui.lFilter->hide(); ui.cbFilter->hide(); ui.tabWidget->setTabText(0, i18n("Data format && preview")); ui.tabWidget->removeTab(1); ui.tabWidget->setCurrentIndex(0); break; default: DEBUG("unknown file type"); } m_hdf5OptionsWidget->clear(); m_netcdfOptionsWidget->clear(); m_rootOptionsWidget->clear(); int lastUsedFilterIndex = ui.cbFilter->currentIndex(); ui.cbFilter->clear(); ui.cbFilter->addItem( i18n("Automatic") ); ui.cbFilter->addItem( i18n("Custom") ); //TODO: populate the combobox with the available pre-defined filter settings for the selected type ui.cbFilter->setCurrentIndex(lastUsedFilterIndex); filterChanged(lastUsedFilterIndex); refreshPreview(); } const QStringList ImportFileWidget::selectedHDF5Names() const { return m_hdf5OptionsWidget->selectedHDF5Names(); } const QStringList ImportFileWidget::selectedNetCDFNames() const { return m_netcdfOptionsWidget->selectedNetCDFNames(); } const QStringList ImportFileWidget::selectedFITSExtensions() const { return m_fitsOptionsWidget->selectedFITSExtensions(); } const QStringList ImportFileWidget::selectedROOTNames() const { return m_rootOptionsWidget->selectedROOTNames(); } /*! shows the dialog with the information about the file(s) to be imported. */ void ImportFileWidget::fileInfoDialog() { QStringList files = ui.leFileName->text().split(';'); FileInfoDialog* dlg = new FileInfoDialog(this); dlg->setFiles(files); dlg->exec(); } /*! enables the options if the filter "custom" was chosen. Disables the options otherwise. */ void ImportFileWidget::filterChanged(int index) { // ignore filter for these formats if (ui.cbFileType->currentIndex() == LiveDataSource::HDF5 || ui.cbFileType->currentIndex() == LiveDataSource::NETCDF || ui.cbFileType->currentIndex() == LiveDataSource::Image || ui.cbFileType->currentIndex() == LiveDataSource::FITS || ui.cbFileType->currentIndex() == LiveDataSource::ROOT) { ui.swOptions->setEnabled(true); return; } if (index == 0) { // "automatic" ui.swOptions->setEnabled(false); ui.bSaveFilter->setEnabled(false); } else if (index == 1) { //custom ui.swOptions->setEnabled(true); ui.bSaveFilter->setEnabled(true); } else { // predefined filter settings were selected. //load and show them in the GUI. //TODO } } void ImportFileWidget::refreshPreview() { if (m_suppressRefresh) return; WAIT_CURSOR; QString fileName = ui.leFileName->text(); #ifndef HAVE_WINDOWS if (!fileName.isEmpty() && fileName.at(0) != QDir::separator()) fileName = QDir::homePath() + QDir::separator() + fileName; #endif DEBUG("refreshPreview() file name = " << fileName.toStdString()); QVector importedStrings; LiveDataSource::FileType fileType = (LiveDataSource::FileType)ui.cbFileType->currentIndex(); // generic table widget if (fileType == LiveDataSource::Ascii || fileType == LiveDataSource::Binary) m_twPreview->show(); else m_twPreview->hide(); int lines = ui.sbPreviewLines->value(); bool ok = true; QTableWidget* tmpTableWidget{nullptr}; QStringList vectorNameList; QVector columnModes; switch (fileType) { case LiveDataSource::Ascii: { DEBUG("ASCII"); ui.tePreview->clear(); AsciiFilter* filter = static_cast(this->currentFileFilter()); switch (currentSourceType()) { case LiveDataSource::SourceType::FileOrPipe: { DEBUG(" FileOrPipe"); importedStrings = filter->preview(fileName, lines); break; } case LiveDataSource::SourceType::LocalSocket: { QLocalSocket lsocket{this}; DEBUG("Local socket: CONNECT PREVIEW"); lsocket.connectToServer(fileName, QLocalSocket::ReadOnly); if (lsocket.waitForConnected()) { DEBUG("connected to local socket " << fileName.toStdString()); if (lsocket.waitForReadyRead()) importedStrings = filter->preview(lsocket); DEBUG("Local socket: DISCONNECT PREVIEW"); lsocket.disconnectFromServer(); // read-only socket is disconnected immediately (no waitForDisconnected()) } else { DEBUG("failed connect to local socket " << fileName.toStdString() << " - " << lsocket.errorString().toStdString()); } break; } case LiveDataSource::SourceType::NetworkTcpSocket: { DEBUG(" TCPSocket"); QTcpSocket tcpSocket{this}; tcpSocket.connectToHost(host(), port().toInt(), QTcpSocket::ReadOnly); if (tcpSocket.waitForConnected()) { DEBUG("connected to TCP socket"); if ( tcpSocket.waitForReadyRead() ) importedStrings = filter->preview(tcpSocket); tcpSocket.disconnectFromHost(); } else { DEBUG("failed to connect to TCP socket " << " - " << tcpSocket.errorString().toStdString()); } break; } case LiveDataSource::SourceType::NetworkUdpSocket: { QUdpSocket udpSocket{this}; DEBUG("UDP Socket: CONNECT PREVIEW, state = " << udpSocket.state()); udpSocket.bind(QHostAddress(host()), port().toInt()); udpSocket.connectToHost(host(), 0, QUdpSocket::ReadOnly); if (udpSocket.waitForConnected()) { DEBUG(" connected to UDP socket " << host().toStdString() << ':' << port().toInt()); if (!udpSocket.waitForReadyRead(2000) ) DEBUG(" ERROR: not ready for read after 2 sec"); if (udpSocket.hasPendingDatagrams()) { DEBUG(" has pending data"); } else { DEBUG(" has no pending data"); } importedStrings = filter->preview(udpSocket); DEBUG("UDP Socket: DISCONNECT PREVIEW, state = " << udpSocket.state()); udpSocket.disconnectFromHost(); } else { DEBUG("failed to connect to UDP socket " << " - " << udpSocket.errorString().toStdString()); } break; } case LiveDataSource::SourceType::SerialPort: { DEBUG(" SerialPort"); QSerialPort sPort{this}; sPort.setBaudRate(baudRate()); sPort.setPortName(serialPort()); if (sPort.open(QIODevice::ReadOnly)) { bool canread = sPort.waitForReadyRead(500); if (canread) importedStrings = filter->preview(sPort); sPort.close(); } break; } } tmpTableWidget = m_twPreview; vectorNameList = filter->vectorNames(); columnModes = filter->columnModes(); break; } case LiveDataSource::Binary: { DEBUG("Binary"); ui.tePreview->clear(); BinaryFilter *filter = (BinaryFilter *)this->currentFileFilter(); importedStrings = filter->preview(fileName, lines); tmpTableWidget = m_twPreview; break; } case LiveDataSource::Image: { DEBUG("Image"); ui.tePreview->clear(); QImage image(fileName); QTextCursor cursor = ui.tePreview->textCursor(); cursor.insertImage(image); RESET_CURSOR; return; } case LiveDataSource::HDF5: { DEBUG(" HDF5"); HDF5Filter *filter = (HDF5Filter *)this->currentFileFilter(); lines = m_hdf5OptionsWidget->lines(); importedStrings = filter->readCurrentDataSet(fileName, NULL, ok, AbstractFileFilter::Replace, lines); tmpTableWidget = m_hdf5OptionsWidget->previewWidget(); break; } case LiveDataSource::NETCDF: { DEBUG(" NETCDF"); NetCDFFilter *filter = (NetCDFFilter *)this->currentFileFilter(); lines = m_netcdfOptionsWidget->lines(); importedStrings = filter->readCurrentVar(fileName, NULL, AbstractFileFilter::Replace, lines); tmpTableWidget = m_netcdfOptionsWidget->previewWidget(); break; } case LiveDataSource::FITS: { DEBUG(" FITS"); FITSFilter* filter = (FITSFilter*)this->currentFileFilter(); lines = m_fitsOptionsWidget->lines(); // update file name (may be any file type) m_fitsOptionsWidget->updateContent(filter, fileName); QString extensionName = m_fitsOptionsWidget->extensionName(&ok); if (!extensionName.isEmpty()) { DEBUG(" extension name = " << extensionName.toStdString()); fileName = extensionName; } DEBUG(" file name = " << fileName.toStdString()); bool readFitsTableToMatrix; importedStrings = filter->readChdu(fileName, &readFitsTableToMatrix, lines); emit checkedFitsTableToMatrix(readFitsTableToMatrix); tmpTableWidget = m_fitsOptionsWidget->previewWidget(); break; } case LiveDataSource::ROOT: { DEBUG(" ROOT"); ROOTFilter *filter = (ROOTFilter *)this->currentFileFilter(); lines = m_rootOptionsWidget->lines(); m_rootOptionsWidget->setNBins(filter->binsInCurrentHistogram(fileName)); importedStrings = filter->previewCurrentHistogram( fileName, m_rootOptionsWidget->startBin(), qMin(m_rootOptionsWidget->startBin() + m_rootOptionsWidget->lines() - 1, m_rootOptionsWidget->endBin()) ); tmpTableWidget = m_rootOptionsWidget->previewWidget(); // the last vector element contains the column names vectorNameList = importedStrings.last(); importedStrings.removeLast(); columnModes = QVector(vectorNameList.size(), AbstractColumn::Numeric); break; } } // fill the table widget tmpTableWidget->setRowCount(0); tmpTableWidget->setColumnCount(0); if( !importedStrings.isEmpty() ) { //QDEBUG("importedStrings =" << importedStrings); if (!ok) { // show imported strings as error message tmpTableWidget->setRowCount(1); tmpTableWidget->setColumnCount(1); QTableWidgetItem* item = new QTableWidgetItem(); item->setText(importedStrings[0][0]); tmpTableWidget->setItem(0, 0, item); } else { //TODO: maxrows not used const int rows = qMax(importedStrings.size(), 1); const int maxColumns = 300; tmpTableWidget->setRowCount(rows); for (int i = 0; i < rows; ++i) { QDEBUG(importedStrings[i]); int cols = importedStrings[i].size() > maxColumns ? maxColumns : importedStrings[i].size(); // new if (cols > tmpTableWidget->columnCount()) tmpTableWidget->setColumnCount(cols); for (int j = 0; j < cols; ++j) { QTableWidgetItem* item = new QTableWidgetItem(importedStrings[i][j]); tmpTableWidget->setItem(i, j, item); } } // set header if columnMode available for (int i = 0; i < qMin(tmpTableWidget->columnCount(), columnModes.size()); ++i) { QString columnName = QString::number(i+1); if (i < vectorNameList.size()) columnName = vectorNameList[i]; auto* item = new QTableWidgetItem(columnName + QLatin1String(" {") + ENUM_TO_STRING(AbstractColumn, ColumnMode, columnModes[i]) + QLatin1String("}")); item->setTextAlignment(Qt::AlignLeft); item->setIcon(AbstractColumn::iconForMode(columnModes[i])); tmpTableWidget->setHorizontalHeaderItem(i, item); } } tmpTableWidget->horizontalHeader()->resizeSections(QHeaderView::ResizeToContents); m_fileEmpty = false; } else { m_fileEmpty = true; } RESET_CURSOR; } void ImportFileWidget::updateTypeChanged(int idx) { LiveDataSource::UpdateType type = static_cast(idx); - if (type == LiveDataSource::UpdateType::TimeInterval) { + switch (type) { + case LiveDataSource::UpdateType::TimeInterval: ui.lUpdateInterval->show(); ui.sbUpdateInterval->show(); - ui.lUpdateIntervalUnit->show(); - } else if (type == LiveDataSource::UpdateType::NewData) { + break; + case LiveDataSource::UpdateType::NewData: ui.lUpdateInterval->hide(); ui.sbUpdateInterval->hide(); - ui.lUpdateIntervalUnit->hide(); } } void ImportFileWidget::readingTypeChanged(int idx) { LiveDataSource::ReadingType type = static_cast(idx); - if (type == LiveDataSource::ReadingType::TillEnd || type == LiveDataSource::ReadingType::WholeFile) { - ui.lSampleRate->hide(); - ui.sbSampleRate->hide(); + if (type == LiveDataSource::ReadingType::TillEnd || type == LiveDataSource::ReadingType::WholeFile) { + ui.lSampleSize->hide(); + ui.sbSampleSize->hide(); } else { - ui.lSampleRate->show(); - ui.sbSampleRate->show(); + ui.lSampleSize->show(); + ui.sbSampleSize->show(); } if (type == LiveDataSource::ReadingType::WholeFile) { ui.lKeepLastValues->hide(); ui.leKeepLastValues->hide(); } else { ui.lKeepLastValues->show(); ui.leKeepLastValues->show(); } } void ImportFileWidget::sourceTypeChanged(int idx) { LiveDataSource::SourceType type = static_cast(idx); + switch (type) { case LiveDataSource::SourceType::FileOrPipe: { ui.lFileName->show(); ui.leFileName->show(); ui.bFileInfo->show(); ui.bOpen->show(); ui.chbLinkFile->show(); ui.cbBaudRate->hide(); ui.lBaudRate->hide(); ui.lHost->hide(); ui.leHost->hide(); ui.lPort->hide(); ui.lePort->hide(); ui.cbSerialPort->hide(); ui.lSerialPort->hide(); fileNameChanged(ui.leFileName->text()); int itemIdx = -1; for (int i = 0; i < ui.cbReadType->count(); ++i) { if (ui.cbReadType->itemData(i).toInt() == LiveDataSource::WholeFile) { itemIdx = i; break; } } if (itemIdx == -1) ui.cbReadType->addItem(i18n("Whole file"), LiveDataSource::WholeFile); break; } case LiveDataSource::SourceType::LocalSocket: ui.lFileName->show(); ui.leFileName->show(); ui.bOpen->show(); ui.bFileInfo->hide(); ui.cbBaudRate->hide(); ui.lBaudRate->hide(); ui.lHost->hide(); ui.leHost->hide(); ui.lPort->hide(); ui.lePort->hide(); ui.cbSerialPort->hide(); ui.lSerialPort->hide(); ui.chbLinkFile->hide(); ui.gbOptions->setEnabled(true); ui.bManageFilters->setEnabled(true); ui.cbFilter->setEnabled(true); ui.cbFileType->setEnabled(true); for (int i = 0; i < ui.cbReadType->count(); ++i) { if (ui.cbReadType->itemData(i).toInt() == LiveDataSource::WholeFile) ui.cbReadType->removeItem(i); } break; case LiveDataSource::SourceType::NetworkTcpSocket: case LiveDataSource::SourceType::NetworkUdpSocket: ui.lHost->show(); ui.leHost->show(); ui.lePort->show(); ui.lPort->show(); ui.lBaudRate->hide(); ui.cbBaudRate->hide(); ui.lSerialPort->hide(); ui.cbSerialPort->hide(); ui.lFileName->hide(); ui.leFileName->hide(); ui.bFileInfo->hide(); ui.bOpen->hide(); ui.chbLinkFile->hide(); ui.gbOptions->setEnabled(true); ui.bManageFilters->setEnabled(true); ui.cbFilter->setEnabled(true); ui.cbFileType->setEnabled(true); for (int i = 0; i < ui.cbReadType->count(); ++i) { if (ui.cbReadType->itemData(i).toInt() == LiveDataSource::WholeFile) ui.cbReadType->removeItem(i); } break; case LiveDataSource::SourceType::SerialPort: ui.lBaudRate->show(); ui.cbBaudRate->show(); ui.lSerialPort->show(); ui.cbSerialPort->show(); ui.lHost->hide(); ui.leHost->hide(); ui.lePort->hide(); ui.lPort->hide(); ui.lFileName->hide(); ui.leFileName->hide(); ui.bFileInfo->hide(); ui.bOpen->hide(); ui.chbLinkFile->hide(); ui.cbFileType->setEnabled(true); ui.gbOptions->setEnabled(true); ui.bManageFilters->setEnabled(true); ui.cbFilter->setEnabled(true); for (int i = 0; i < ui.cbReadType->count(); ++i) { if (ui.cbReadType->itemData(i).toInt() == LiveDataSource::WholeFile) ui.cbReadType->removeItem(i); } break; default: break; } //"update options" groupbox can be deactived for "file and pipe" if the file is invalid. //Activate the groupbox when switching from "file and pipe" to a different sourcy type. if (type != LiveDataSource::SourceType::FileOrPipe) ui.gbUpdateOptions->setEnabled(true); emit sourceTypeChanged(); refreshPreview(); } void ImportFileWidget::initializeAndFillPortsAndBaudRates() { for (int i = 2; i < ui.swOptions->count(); ++i) ui.swOptions->removeWidget(ui.swOptions->widget(i)); const int size = ui.cbFileType->count(); for (int i = 2; i < size; ++i) ui.cbFileType->removeItem(2); ui.cbBaudRate->hide(); ui.lBaudRate->hide(); ui.lHost->hide(); ui.leHost->hide(); ui.lPort->hide(); ui.lePort->hide(); ui.cbSerialPort->hide(); ui.lSerialPort->hide(); ui.cbBaudRate->addItems(LiveDataSource::supportedBaudRates()); ui.cbSerialPort->addItems(LiveDataSource::availablePorts()); ui.leKeepLastValues->setValidator(new QIntValidator(2, 100000)); ui.tabWidget->removeTab(2); } diff --git a/src/kdefrontend/dockwidgets/LiveDataDock.cpp b/src/kdefrontend/dockwidgets/LiveDataDock.cpp index 3ac406afd..cc137c078 100644 --- a/src/kdefrontend/dockwidgets/LiveDataDock.cpp +++ b/src/kdefrontend/dockwidgets/LiveDataDock.cpp @@ -1,219 +1,216 @@ /*************************************************************************** File : LiveDataDock.cpp Project : LabPlot Description : Dock widget for live data properties -------------------------------------------------------------------- Copyright : (C) 2017 by Fabian Kristof (fkristofszabolcs@gmail.com) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #include "LiveDataDock.h" #include LiveDataDock::LiveDataDock(QWidget* parent) : QWidget(parent), m_paused(false) { ui.setupUi(this); ui.bUpdateNow->setIcon(QIcon::fromTheme(QLatin1String("view-refresh"))); connect(ui.bPausePlayReading, &QPushButton::clicked, this, &LiveDataDock::pauseContinueReading); connect(ui.bUpdateNow, &QPushButton::clicked, this, &LiveDataDock::updateNow); connect(ui.sbUpdateInterval, static_cast(&QSpinBox::valueChanged), this, &LiveDataDock::updateIntervalChanged); connect(ui.leKeepNValues, &QLineEdit::textChanged, this, &LiveDataDock::keepNvaluesChanged); - connect(ui.sbSampleRate, static_cast(&QSpinBox::valueChanged), this, &LiveDataDock::sampleRateChanged); + connect(ui.sbSampleSize, static_cast(&QSpinBox::valueChanged), this, &LiveDataDock::sampleSizeChanged); connect(ui.cbUpdateType, static_cast(&QComboBox::currentIndexChanged), this, &LiveDataDock::updateTypeChanged); connect(ui.cbReadingType, static_cast(&QComboBox::currentIndexChanged), this, &LiveDataDock::readingTypeChanged); } LiveDataDock::~LiveDataDock() { } /*! * \brief Sets the live data sources of this dock widget * \param sources */ void LiveDataDock::setLiveDataSources(const QList& sources) { m_liveDataSources = sources; const LiveDataSource* const fds = sources.at(0); ui.sbUpdateInterval->setValue(fds->updateInterval()); ui.cbUpdateType->setCurrentIndex(static_cast(fds->updateType())); ui.cbReadingType->setCurrentIndex(static_cast(fds->readingType())); if (fds->updateType() == LiveDataSource::UpdateType::NewData) { ui.lUpdateInterval->hide(); ui.sbUpdateInterval->hide(); } if (fds->isPaused()) { ui.bPausePlayReading->setText(i18n("Continue Reading")); ui.bPausePlayReading->setIcon(QIcon::fromTheme(QLatin1String("media-record"))); } else { ui.bPausePlayReading->setText(i18n("Pause Reading")); ui.bPausePlayReading->setIcon(QIcon::fromTheme(QLatin1String("media-playback-pause"))); } if(!fds->keepLastValues()) { ui.leKeepNValues->hide(); ui.lKeepNvalues->hide(); } else { ui.leKeepNValues->setValidator(new QIntValidator(2, 100000)); ui.leKeepNValues->setText(QString::number(fds->keepNvalues())); } if (fds->sourceType() != LiveDataSource::SourceType::FileOrPipe) { int itemIdx = -1; for (int i = 0; i < ui.cbReadingType->count(); ++i) { if (ui.cbReadingType->itemText(i) == i18n("Read Whole File")) { // FIXME never ever compare to UI strings! itemIdx = i; break; } } if (itemIdx != -1) ui.cbReadingType->removeItem(itemIdx); } - if (fds->readingType() == LiveDataSource::ReadingType::TillEnd) { - ui.lSampleRate->hide(); - ui.sbSampleRate->hide(); - } else if (fds->readingType() == LiveDataSource::ReadingType::WholeFile) { - ui.lSampleRate->hide(); - ui.sbSampleRate->hide(); + if (fds->readingType() == LiveDataSource::ReadingType::TillEnd || fds->readingType() == LiveDataSource::ReadingType::WholeFile) { + ui.lSampleSize->hide(); + ui.sbSampleSize->hide(); } else - ui.sbSampleRate->setValue(fds->sampleRate()); + ui.sbSampleSize->setValue(fds->sampleSize()); } /*! * \brief Modifies the sample rate of the live data sources * \param sampleRate */ -void LiveDataDock::sampleRateChanged(int sampleRate) { +void LiveDataDock::sampleSizeChanged(int sampleSize) { for (auto* source : m_liveDataSources) - source->setSampleRate(sampleRate); + source->setSampleSize(sampleSize); } /*! * \brief Updates the live data sources now */ void LiveDataDock::updateNow() { for (auto* source : m_liveDataSources) source->updateNow(); } /*! * \brief LiveDataDock::updateTypeChanged * \param idx */ void LiveDataDock::updateTypeChanged(int idx) { DEBUG("LiveDataDock::updateTypeChanged()"); LiveDataSource::UpdateType type = static_cast(idx); switch (type) { case LiveDataSource::UpdateType::TimeInterval: ui.lUpdateInterval->show(); ui.sbUpdateInterval->show(); for (auto* source: m_liveDataSources) { source->setUpdateType(type); source->setUpdateInterval(ui.sbUpdateInterval->value()); source->setFileWatched(false); } break; case LiveDataSource::UpdateType::NewData: ui.lUpdateInterval->hide(); ui.sbUpdateInterval->hide(); for (auto* source: m_liveDataSources) { source->setFileWatched(true); source->setUpdateType(type); } } } /*! * \brief Handles the change of the reading type in the dock widget * \param idx */ void LiveDataDock::readingTypeChanged(int idx) { LiveDataSource::ReadingType type = static_cast(idx); if (type == LiveDataSource::ReadingType::TillEnd) { - ui.lSampleRate->hide(); - ui.sbSampleRate->hide(); + ui.lSampleSize->hide(); + ui.sbSampleSize->hide(); } else { - ui.lSampleRate->show(); - ui.sbSampleRate->show(); + ui.lSampleSize->show(); + ui.sbSampleSize->show(); } for (auto* source : m_liveDataSources) source->setReadingType(type); } /*! * \brief Modifies the update interval of the live data sources * \param updateInterval */ void LiveDataDock::updateIntervalChanged(int updateInterval) { for (auto* source : m_liveDataSources) source->setUpdateInterval(updateInterval); } /*! * \brief Modifies the number of samples to keep in each of the live data sources * \param keepNvalues */ void LiveDataDock::keepNvaluesChanged(const QString& keepNvalues) { for (auto* source : m_liveDataSources) source->setKeepNvalues(keepNvalues.toInt()); } /*! * \brief Pauses the reading of the live data source */ void LiveDataDock::pauseReading() { for (auto* source: m_liveDataSources) source->pauseReading(); } /*! * \brief Continues the reading of the live data source */ void LiveDataDock::continueReading() { for (auto* source: m_liveDataSources) source->continueReading(); } /*! * \brief Handles the pausing/continuing of reading of the live data source */ void LiveDataDock::pauseContinueReading() { m_paused = !m_paused; if (m_paused) { pauseReading(); ui.bPausePlayReading->setText(i18n("Continue Reading")); ui.bPausePlayReading->setIcon(QIcon::fromTheme(QLatin1String("media-record"))); } else { continueReading(); ui.bPausePlayReading->setText(i18n("Pause Reading")); ui.bPausePlayReading->setIcon(QIcon::fromTheme(QLatin1String("media-playback-pause"))); } } diff --git a/src/kdefrontend/dockwidgets/LiveDataDock.h b/src/kdefrontend/dockwidgets/LiveDataDock.h index aae17238d..83c2cea03 100644 --- a/src/kdefrontend/dockwidgets/LiveDataDock.h +++ b/src/kdefrontend/dockwidgets/LiveDataDock.h @@ -1,69 +1,69 @@ /*************************************************************************** File : LiveDataDock.h Project : LabPlot Description : Dock widget for live data properties -------------------------------------------------------------------- Copyright : (C) 2017 by Fabian Kristof (fkristofszabolcs@gmail.com) ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, * * Boston, MA 02110-1301 USA * * * ***************************************************************************/ #ifndef LIVEDATADOCK_H #define LIVEDATADOCK_H #include #include "ui_livedatadock.h" #include "backend/datasources/LiveDataSource.h" #include class LiveDataDock : public QWidget { Q_OBJECT public: explicit LiveDataDock(QWidget *parent = 0); void setLiveDataSources(const QList& sources); ~LiveDataDock(); private: Ui::LiveDataDock ui; QList m_liveDataSources; bool m_paused; void pauseReading(); void continueReading(); private slots: void updateTypeChanged(int); void readingTypeChanged(int); - void sampleRateChanged(int); + void sampleSizeChanged(int); void updateIntervalChanged(int); void keepNvaluesChanged(const QString&); void updateNow(); void pauseContinueReading(); public slots: signals: }; #endif // LIVEDATADOCK_H diff --git a/src/kdefrontend/ui/datasources/importfilewidget.ui b/src/kdefrontend/ui/datasources/importfilewidget.ui index 4da7f8876..cb7e346d5 100644 --- a/src/kdefrontend/ui/datasources/importfilewidget.ui +++ b/src/kdefrontend/ui/datasources/importfilewidget.ui @@ -1,740 +1,718 @@ ImportFileWidget 0 0 679 837 0 0 - - 0 - - - 0 - - - 0 - - + 0 0 0 Data Source false Filter: Type: Qt::Vertical QSizePolicy::Fixed 20 13 Baud rate: Port: false 0 0 Host: Qt::Vertical QSizePolicy::Fixed 20 10 false 0 0 Show file info 0 0 Select the file to import Specify the name of the file to import. - + true Name: File or Named Pipe Network TCP Socket Network UDP Socket Local Socket Serial Port Port: false Save the current filter settings false 0 0 Manage filters Source: false 0 0 Format Options - - 0 - - - 0 - - - 0 - - + 0 0 0 0 Data format 0 0 0 0 0 0 0 0 Preview 0 0 Number of rows to preview: 1 10000 100 Qt::Horizontal 23 20 Refresh true QTextEdit::NoWrap true 0 0 Data portion to read Start row: Specify the end row to import; -1 stands for the last row -1 2147483647 -1 Start column: Specify the start column for import 1 2147483647 Qt::Horizontal QSizePolicy::Fixed 40 20 Specify the start row for import 1 2147483647 1 Qt::Horizontal 108 20 Qt::Horizontal QSizePolicy::Fixed 40 20 End column: Specify the end column to import; -1 stands for the last column -1 2147483647 -1 Qt::Horizontal 108 20 End row: Qt::Vertical 20 10 Update Options + + + + Update interval: + + + + + + + + + + + 0 + 0 + + + + ms + + + 5 + + + 60000 + + + 1000 + + + + + + + 1 + + + 10000 + + + 1 + + + + + + + Sample rate: + + + Read: 0 0 Periodically On New Data If this option is checked, only the link to the file is stored in the project file but not it's content. Link the file true Keep last N values: Update: - - - - Update interval: - - - - - - - - - - - 0 - 0 - - - - 5 - - - 60000 - - - 1000 - - - - - - - ms - - - Continuously Fixed From End Till the End - - - - 1 - - - 10000 - - - 5 - - - - - - - Sample rate: - - - KComboBox QComboBox
kcombobox.h
 diff --git a/src/kdefrontend/ui/dockwidgets/livedatadock.ui b/src/kdefrontend/ui/dockwidgets/livedatadock.ui index f342aaeb3..5c7bd2436 100644 --- a/src/kdefrontend/ui/dockwidgets/livedatadock.ui +++ b/src/kdefrontend/ui/dockwidgets/livedatadock.ui @@ -1,150 +1,150 @@ LiveDataDock 0 0 301 288 Read: - + - Sample rate: + Sample size: Update interval: Qt::Vertical 20 40 Update: Keep last N values: Update Now Pause Reading Periodically On New Data Continuously Fixed From End Till the End Read Whole File - + 1 1000000 - 200 + 1 ms 20 3600000 1000