/** Helper method to represent an Attribute as a single-element vector. */
private int[] toValueIndexArray(Attribute attribute) {
TIntArrayList out = new TIntArrayList();
for (String value : values) {
int valueIndex = attribute.indexOfValue(value);
if (valueIndex < 0)
throw new NoSuchElementException(
"no such value: '" + value + "' in attribute '" + attribute.toString() + "'");
out.add(valueIndex);
}
return out.toNativeArray();
}
/**
* Constructs an instance suitable for passing to the model for scoring
*
* @param incoming the incoming instance
* @return an instance with values mapped to be consistent with what the model is expecting
*/
protected Instance mapIncomingFieldsToModelFields(Instance incoming) {
Instances modelHeader = m_model.getHeader();
double[] vals = new double[modelHeader.numAttributes()];
for (int i = 0; i < modelHeader.numAttributes(); i++) {
if (m_attributeMap[i] < 0) {
// missing or type mismatch
vals[i] = Utils.missingValue();
continue;
}
Attribute modelAtt = modelHeader.attribute(i);
Attribute incomingAtt = incoming.dataset().attribute(m_attributeMap[i]);
if (incoming.isMissing(incomingAtt.index())) {
vals[i] = Utils.missingValue();
continue;
}
if (modelAtt.isNumeric()) {
vals[i] = incoming.value(m_attributeMap[i]);
} else if (modelAtt.isNominal()) {
String incomingVal = incoming.stringValue(m_attributeMap[i]);
int modelIndex = modelAtt.indexOfValue(incomingVal);
if (modelIndex < 0) {
vals[i] = Utils.missingValue();
} else {
vals[i] = modelIndex;
}
} else if (modelAtt.isString()) {
vals[i] = 0;
modelAtt.setStringValue(incoming.stringValue(m_attributeMap[i]));
}
}
if (modelHeader.classIndex() >= 0) {
// set class to missing value
vals[modelHeader.classIndex()] = Utils.missingValue();
}
Instance newInst = null;
if (incoming instanceof SparseInstance) {
newInst = new SparseInstance(incoming.weight(), vals);
} else {
newInst = new DenseInstance(incoming.weight(), vals);
}
newInst.setDataset(modelHeader);
return newInst;
}
/**
* Input an instance for filtering. The instance is processed and made available for output
* immediately.
*
* @param instance the input instance.
* @return true if the filtered instance may now be collected with output().
* @throws IllegalStateException if no input structure has been defined.
*/
public boolean input(Instance instance) {
if (getInputFormat() == null) {
throw new IllegalStateException("No input instance format defined");
}
if (m_NewBatch) {
resetQueue();
m_NewBatch = false;
}
if (isOutputFormatDefined()) {
Instance newInstance = (Instance) instance.copy();
// make sure that we get the right indexes set for the converted
// string attributes when operating on a second batch of instances
for (int i = 0; i < newInstance.numAttributes(); i++) {
if (newInstance.attribute(i).isString()
&& !newInstance.isMissing(i)
&& m_AttIndices.isInRange(i)) {
Attribute outAtt = getOutputFormat().attribute(newInstance.attribute(i).name());
String inVal = newInstance.stringValue(i);
int outIndex = outAtt.indexOfValue(inVal);
if (outIndex < 0) {
newInstance.setMissing(i);
} else {
newInstance.setValue(i, outIndex);
}
}
}
push(newInstance);
return true;
}
bufferInput(instance);
return false;
}
@Override
public void init(Instances structure, Environment env) {
super.init(structure, env);
m_resolvedLhsName = m_lhsAttributeName;
m_resolvedRhsOperand = m_rhsOperand;
try {
m_resolvedLhsName = m_env.substitute(m_resolvedLhsName);
m_resolvedRhsOperand = m_env.substitute(m_resolvedRhsOperand);
} catch (Exception ex) {
}
Attribute lhs = null;
// try as an index or "special" label first
if (m_resolvedLhsName.toLowerCase().startsWith("/first")) {
lhs = structure.attribute(0);
} else if (m_resolvedLhsName.toLowerCase().startsWith("/last")) {
lhs = structure.attribute(structure.numAttributes() - 1);
} else {
// try as an index
try {
int indx = Integer.parseInt(m_resolvedLhsName);
indx--;
lhs = structure.attribute(indx);
} catch (NumberFormatException ex) {
}
}
if (lhs == null) {
lhs = structure.attribute(m_resolvedLhsName);
}
if (lhs == null) {
throw new IllegalArgumentException(
"Data does not contain attribute " + "\"" + m_resolvedLhsName + "\"");
}
m_lhsAttIndex = lhs.index();
if (m_rhsIsAttribute) {
Attribute rhs = null;
// try as an index or "special" label first
if (m_resolvedRhsOperand.toLowerCase().equals("/first")) {
rhs = structure.attribute(0);
} else if (m_resolvedRhsOperand.toLowerCase().equals("/last")) {
rhs = structure.attribute(structure.numAttributes() - 1);
} else {
// try as an index
try {
int indx = Integer.parseInt(m_resolvedRhsOperand);
indx--;
rhs = structure.attribute(indx);
} catch (NumberFormatException ex) {
}
}
if (rhs == null) {
rhs = structure.attribute(m_resolvedRhsOperand);
}
if (rhs == null) {
throw new IllegalArgumentException(
"Data does not contain attribute " + "\"" + m_resolvedRhsOperand + "\"");
}
m_rhsAttIndex = rhs.index();
} else if (m_operator != ExpressionType.CONTAINS
&& m_operator != ExpressionType.STARTSWITH
&& m_operator != ExpressionType.ENDSWITH
&& m_operator != ExpressionType.REGEX
&& m_operator != ExpressionType.ISMISSING) {
// make sure the operand is parseable as a number (unless missing has
// been specified - equals only)
if (lhs.isNominal()) {
m_numericOperand = lhs.indexOfValue(m_resolvedRhsOperand);
if (m_numericOperand < 0) {
throw new IllegalArgumentException(
"Unknown nominal value '"
+ m_resolvedRhsOperand
+ "' for attribute '"
+ lhs.name()
+ "'");
}
} else {
try {
m_numericOperand = Double.parseDouble(m_resolvedRhsOperand);
} catch (NumberFormatException e) {
throw new IllegalArgumentException(
"\"" + m_resolvedRhsOperand + "\" is not parseable as a number!");
}
}
}
if (m_operator == ExpressionType.REGEX) {
m_regexPattern = Pattern.compile(m_resolvedRhsOperand);
}
}
public MappingInfo(Instances dataSet, MiningSchema miningSchema, Logger log) throws Exception {
m_log = log;
// miningSchema.convertStringAttsToNominal();
Instances fieldsI = miningSchema.getMiningSchemaAsInstances();
m_fieldsMap = new int[fieldsI.numAttributes()];
m_nominalValueMaps = new int[fieldsI.numAttributes()][];
for (int i = 0; i < fieldsI.numAttributes(); i++) {
String schemaAttName = fieldsI.attribute(i).name();
boolean found = false;
for (int j = 0; j < dataSet.numAttributes(); j++) {
if (dataSet.attribute(j).name().equals(schemaAttName)) {
Attribute miningSchemaAtt = fieldsI.attribute(i);
Attribute incomingAtt = dataSet.attribute(j);
// check type match
if (miningSchemaAtt.type() != incomingAtt.type()) {
throw new Exception(
"[MappingInfo] type mismatch for field "
+ schemaAttName
+ ". Mining schema type "
+ miningSchemaAtt.toString()
+ ". Incoming type "
+ incomingAtt.toString()
+ ".");
}
// check nominal values (number, names...)
if (miningSchemaAtt.numValues() != incomingAtt.numValues()) {
String warningString =
"[MappingInfo] WARNING: incoming nominal attribute "
+ incomingAtt.name()
+ " does not have the same "
+ "number of values as the corresponding mining "
+ "schema attribute.";
if (m_log != null) {
m_log.logMessage(warningString);
} else {
System.err.println(warningString);
}
}
if (miningSchemaAtt.isNominal() || miningSchemaAtt.isString()) {
int[] valuesMap = new int[incomingAtt.numValues()];
for (int k = 0; k < incomingAtt.numValues(); k++) {
String incomingNomVal = incomingAtt.value(k);
int indexInSchema = miningSchemaAtt.indexOfValue(incomingNomVal);
if (indexInSchema < 0) {
String warningString =
"[MappingInfo] WARNING: incoming nominal attribute "
+ incomingAtt.name()
+ " has value "
+ incomingNomVal
+ " that doesn't occur in the mining schema.";
if (m_log != null) {
m_log.logMessage(warningString);
} else {
System.err.println(warningString);
}
valuesMap[k] = UNKNOWN_NOMINAL_VALUE;
} else {
valuesMap[k] = indexInSchema;
}
}
m_nominalValueMaps[i] = valuesMap;
}
/*if (miningSchemaAtt.isNominal()) {
for (int k = 0; k < miningSchemaAtt.numValues(); k++) {
if (!miningSchemaAtt.value(k).equals(incomingAtt.value(k))) {
throw new Exception("[PMMLUtils] value " + k + " (" +
miningSchemaAtt.value(k) + ") does not match " +
"incoming value (" + incomingAtt.value(k) +
") for attribute " + miningSchemaAtt.name() +
".");
}
}
}*/
found = true;
m_fieldsMap[i] = j;
}
}
if (!found) {
throw new Exception(
"[MappingInfo] Unable to find a match for mining schema "
+ "attribute "
+ schemaAttName
+ " in the "
+ "incoming instances!");
}
}
// check class attribute (if set)
if (fieldsI.classIndex() >= 0) {
if (dataSet.classIndex() < 0) {
// first see if we can find a matching class
String className = fieldsI.classAttribute().name();
Attribute classMatch = dataSet.attribute(className);
if (classMatch == null) {
throw new Exception(
"[MappingInfo] Can't find match for target field "
+ className
+ "in incoming instances!");
}
dataSet.setClass(classMatch);
} else if (!fieldsI.classAttribute().name().equals(dataSet.classAttribute().name())) {
throw new Exception(
"[MappingInfo] class attribute in mining schema does not match "
+ "class attribute in incoming instances!");
}
}
// Set up the textual description of the mapping
fieldsMappingString(fieldsI, dataSet);
}
