/** * Returns an enumeration describing the available options. * * @return an enumeration of all the available options. */ @Override public Enumeration<Option> listOptions() { Vector<Option> result = new Vector<Option>(); Enumeration<Option> wrapperOpts = m_wrapperTemplate.listOptions(); while (wrapperOpts.hasMoreElements()) { result.addElement(wrapperOpts.nextElement()); } result.addElement(new Option( "\tEvaluate an attribute by measuring the impact of leaving it out\n\t" + "from the full set instead of considering its worth in isolation", "L", 0, "-L")); result.addElement(new Option( "\tNumber of attributes to evaluate in parallel.\n\t" + "Default = 1 (i.e. no parallelism)", "execution-slots", 1, "-execution-slots <integer>")); return result.elements(); }
/** * Returns an enumeration describing the available options. * * @return an enumeration of all the available options. */ @Override public Enumeration<Option> listOptions() { Vector<Option> result = new Vector<Option>(); Enumeration<Option> wrapperOpts = m_wrapperTemplate.listOptions(); while (wrapperOpts.hasMoreElements()) { result.addElement(wrapperOpts.nextElement()); } result.addElement(new Option( "\tEvaluate an attribute by measuring the impact of leaving it out\n\t" + "from the full set instead of considering its worth in isolation", "L", 0, "-L")); result.addElement(new Option( "\tNumber of attributes to evaluate in parallel.\n\t" + "Default = 1 (i.e. no parallelism)", "execution-slots", 1, "-execution-slots <integer>")); return result.elements(); }