/** {@inheritDoc} */ @Override protected void prepareToolTask(final ToolTask<UARTDataSet> aToolTask) { final UARTAnalyserTask toolTask = (UARTAnalyserTask) aToolTask; // The value at index zero is "Unused", so extracting one of all items // causes all "unused" values to be equivalent to -1, which is interpreted // as not used... toolTask.setRxdIndex(this.rxd.getSelectedIndex() - 1); toolTask.setTxdIndex(this.txd.getSelectedIndex() - 1); toolTask.setCtsIndex(this.cts.getSelectedIndex() - 1); toolTask.setRtsIndex(this.rts.getSelectedIndex() - 1); toolTask.setDcdIndex(this.dcd.getSelectedIndex() - 1); toolTask.setRiIndex(this.ri.getSelectedIndex() - 1); toolTask.setDsrIndex(this.dsr.getSelectedIndex() - 1); toolTask.setDtrIndex(this.dtr.getSelectedIndex() - 1); // Handle the auto detect option for baudrates... if (this.autoDetectBaudRate.isSelected()) { toolTask.setBaudRate(UARTAnalyserTask.AUTO_DETECT_BAUDRATE); } else { toolTask.setBaudRate(((Integer) this.baudrate.getSelectedItem()).intValue()); } // Other properties... toolTask.setIdleLevel((BitLevel) this.idleLevel.getSelectedItem()); toolTask.setBitEncoding((BitEncoding) this.bitEncoding.getSelectedItem()); toolTask.setBitOrder((BitOrder) this.bitOrder.getSelectedItem()); toolTask.setParity((Parity) this.parity.getSelectedItem()); toolTask.setStopBits((StopBits) this.stop.getSelectedItem()); toolTask.setBitCount(NumberUtils.smartParseInt((String) this.bits.getSelectedItem(), 8)); }
/** * Returns all supported capture sizes. * * @return an array of capture sizes, in bytes, never <code>null</code>. */ public Integer[] getCaptureSizes() { final String rawValue = this.properties.get(DEVICE_CAPTURESIZES); final String[] values = rawValue.split(",\\s*"); final List<Integer> result = new ArrayList<Integer>(); for (String value : values) { result.add(Integer.valueOf(value.trim())); } Collections.sort( result, NumberUtils.<Integer>createNumberComparator(false /* aSortAscending */)); return result.toArray(new Integer[result.size()]); }
/** * Returns all supported sample rates. * * @return an array of sample rates, in Hertz, never <code>null</code>. */ public Integer[] getSampleRates() { final String rawValue = this.properties.get(DEVICE_SAMPLERATES); final String[] values = rawValue.split(",\\s*"); final SortedSet<Integer> result = new TreeSet<Integer>( NumberUtils.<Integer>createNumberComparator(false /* aSortAscending */)); for (String value : values) { result.add(Integer.valueOf(value.trim())); } return result.toArray(new Integer[result.size()]); }
/** * @see * nl.lxtreme.ols.tool.base.BaseAsyncToolDialog#setupToolWorker(nl.lxtreme.ols.tool.base.BaseAsyncToolWorker) */ @Override protected void setupToolWorker(final UARTAnalyserWorker aToolWorker) { // The value at index zero is "Unused", so extracting one of all items // causes all "unused" values to be equivalent to -1, which is interpreted // as not used... aToolWorker.setRxdIndex(this.rxd.getSelectedIndex() - 1); aToolWorker.setTxdIndex(this.txd.getSelectedIndex() - 1); aToolWorker.setCtsIndex(this.cts.getSelectedIndex() - 1); aToolWorker.setRtsIndex(this.rts.getSelectedIndex() - 1); aToolWorker.setDcdIndex(this.dcd.getSelectedIndex() - 1); aToolWorker.setRiIndex(this.ri.getSelectedIndex() - 1); aToolWorker.setDsrIndex(this.dsr.getSelectedIndex() - 1); aToolWorker.setDtrIndex(this.dtr.getSelectedIndex() - 1); // Other properties... aToolWorker.setInverted(this.inv.isSelected()); aToolWorker.setParity((UARTParity) this.parity.getSelectedItem()); aToolWorker.setStopBits((UARTStopBits) this.stop.getSelectedItem()); aToolWorker.setBitCount(NumberUtils.smartParseInt((String) this.bits.getSelectedItem(), 8)); }