setMatchMissingValues(Utils.getFlag('M', options)); setModifyHeader(Utils.getFlag('H', options)); setDontFilterAfterFirstBatch(Utils.getFlag('F', options));
setMatchMissingValues(Utils.getFlag('M', options)); setModifyHeader(Utils.getFlag('H', options)); setDontFilterAfterFirstBatch(Utils.getFlag('F', options));
public void testMatchMissingValues() { ((RemoveWithValues)m_Filter).setAttributeIndex("5"); ((RemoveWithValues)m_Filter).setInvertSelection(false); ((RemoveWithValues)m_Filter).setMatchMissingValues(false); Instances result = useFilter(); assertEquals(m_Instances.numAttributes(), result.numAttributes()); assertTrue(result.numInstances() > 0); for (int i = 0; i < result.numInstances(); i++) { assertTrue("Should select only instances with missing values", result.instance(i).isMissing(4)); } }
public void testMatchMissingValues() { ((RemoveWithValues)m_Filter).setAttributeIndex("5"); ((RemoveWithValues)m_Filter).setInvertSelection(false); ((RemoveWithValues)m_Filter).setMatchMissingValues(false); Instances result = useFilter(); assertEquals(m_Instances.numAttributes(), result.numAttributes()); assertTrue(result.numInstances() > 0); for (int i = 0; i < result.numInstances(); i++) { assertTrue("Should select only instances with missing values", result.instance(i).isMissing(4)); } }