/** * exports the data to a CSV file * * @param aFile File object */ private void storeToCsvFile(final File aFile, final UARTDataSet aDataSet) { try { final CsvExporter exporter = ExportUtils.createCsvExporter(aFile); exporter.setHeaders( "index", "start-time", "end-time", "event?", "event-type", "RxD event", "TxD event", "RxD data", "TxD data"); final List<UARTData> decodedData = aDataSet.getData(); for (int i = 0; i < decodedData.size(); i++) { final UARTData ds = decodedData.get(i); final String startTime = Unit.Time.format(aDataSet.getTime(ds.getStartSampleIndex())); final String endTime = Unit.Time.format(aDataSet.getTime(ds.getEndSampleIndex())); String eventType = null; String rxdEvent = null; String txdEvent = null; String rxdData = null; String txdData = null; switch (ds.getType()) { case UARTData.UART_TYPE_EVENT: eventType = ds.getEventName(); break; case UARTData.UART_TYPE_RXEVENT: rxdEvent = ds.getEventName(); break; case UARTData.UART_TYPE_TXEVENT: txdEvent = ds.getEventName(); break; case UARTData.UART_TYPE_RXDATA: rxdData = Integer.toString(ds.getData()); break; case UARTData.UART_TYPE_TXDATA: txdData = Integer.toString(ds.getData()); break; default: break; } exporter.addRow( Integer.valueOf(i), startTime, endTime, Boolean.valueOf(ds.isEvent()), eventType, rxdEvent, txdEvent, rxdData, txdData); } exporter.close(); } catch (final IOException exception) { // Make sure to handle IO-interrupted exceptions properly! if (!HostUtils.handleInterruptedException(exception)) { LOG.log(Level.WARNING, "CSV export failed!", exception); } } }
/** * Returns the given double value as time string. * * @return a time representation. */ public static String formatTime(final Double aTime) { if (aTime != null) { return Unit.Time.format(aTime.doubleValue()); } return "-"; }