Ejemplo n.º 1
0
  /**
   * This is the UART protocol decoder core The decoder scans for a decode start event like CS high
   * to low edge or the trigger of the captured data. After this the decoder starts to decode the
   * data by the selected mode, number of bits and bit order. The decoded data are put to a JTable
   * object directly.
   */
  @Override
  public void onToolWorkerReady(final UARTDataSet aAnalysisResult) {
    super.onToolWorkerReady(aAnalysisResult);

    try {
      final String htmlPage;
      if (aAnalysisResult != null) {
        htmlPage = toHtmlPage(null /* aFile */, aAnalysisResult);
        this.exportAction.setEnabled(!aAnalysisResult.isEmpty());
      } else {
        htmlPage = getEmptyHtmlPage();
        this.exportAction.setEnabled(false);
      }

      this.outText.setText(htmlPage);
      this.outText.setEditable(false);

      this.runAnalysisAction.restore();
    } catch (final IOException exception) {
      // Make sure to handle IO-interrupted exceptions properly!
      if (!HostUtils.handleInterruptedException(exception)) {
        // Should not happen in this situation!
        throw new RuntimeException(exception);
      }
    }
  }
Ejemplo n.º 2
0
 /**
  * stores the data to a HTML file
  *
  * @param aFile file object
  */
 private void storeToHtmlFile(final File aFile, final UARTDataSet aDataSet) {
   try {
     toHtmlPage(aFile, aDataSet);
   } catch (final IOException exception) {
     // Make sure to handle IO-interrupted exceptions properly!
     if (!HostUtils.handleInterruptedException(exception)) {
       LOG.log(Level.WARNING, "HTML export failed!", exception);
     }
   }
 }
Ejemplo n.º 3
0
  /**
   * 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);
      }
    }
  }