/** * Signifies that this batch of input to the filter is finished. If the filter * requires all instances prior to filtering, output() may now be called to * retrieve the filtered instances. * * @return true if there are instances pending output. * @throws IllegalStateException if no input structure has been defined. */ @Override public boolean batchFinished() { if (getInputFormat() == null) { throw new IllegalStateException("No input instance format defined"); } if (!isOutputFormatDefined()) { setOutputFormat(); // Convert pending input instances for (int i = 0; i < getInputFormat().numInstances(); i++) { push((Instance) getInputFormat().instance(i).copy(), false); // No need to copy } } flushInput(); m_NewBatch = true; return (numPendingOutput() != 0); }
/** * Signifies that this batch of input to the filter is finished. If the filter * requires all instances prior to filtering, output() may now be called to * retrieve the filtered instances. * * @return true if there are instances pending output. * @throws IllegalStateException if no input structure has been defined. */ @Override public boolean batchFinished() { if (getInputFormat() == null) { throw new IllegalStateException("No input instance format defined"); } if (!isOutputFormatDefined()) { setOutputFormat(); // Convert pending input instances for (int i = 0; i < getInputFormat().numInstances(); i++) { push((Instance) getInputFormat().instance(i).copy(), false); // No need to copy } } flushInput(); m_NewBatch = true; return (numPendingOutput() != 0); }
/** * Set the output format. Takes the current average class values and * m_InputFormat and calls setOutputFormat(Instances) appropriately. */ private void setOutputFormat() { Instances newData; ArrayList<Attribute> newAtts = new ArrayList<Attribute>(getInputFormat() .numAttributes()); for (int j = 0; j < getInputFormat().numAttributes(); j++) { Attribute att = getInputFormat().attribute(j); if (!att.isNominal() || !m_AttIndex.isInRange(j)) { newAtts.add(att); } else { Attribute newAtt = new Attribute(att.name(), (ArrayList<String>) null); newAtt.setWeight(getInputFormat().attribute(j).weight()); newAtts.add(newAtt); } } // Construct new header newData = new Instances(getInputFormat().relationName(), newAtts, 0); newData.setClassIndex(getInputFormat().classIndex()); setOutputFormat(newData); }
/** * Set the output format. Takes the current average class values and * m_InputFormat and calls setOutputFormat(Instances) appropriately. */ private void setOutputFormat() { Instances newData; ArrayList<Attribute> newAtts = new ArrayList<Attribute>(getInputFormat() .numAttributes()); for (int j = 0; j < getInputFormat().numAttributes(); j++) { Attribute att = getInputFormat().attribute(j); if (!att.isNominal() || !m_AttIndex.isInRange(j)) { newAtts.add(att); } else { Attribute newAtt = new Attribute(att.name(), (ArrayList<String>) null); newAtt.setWeight(getInputFormat().attribute(j).weight()); newAtts.add(newAtt); } } // Construct new header newData = new Instances(getInputFormat().relationName(), newAtts, 0); newData.setClassIndex(getInputFormat().classIndex()); setOutputFormat(newData); }