private String[] parseDerefParts(Element fieldEl, String valueExpr) throws IndexerConfException {
//
// Split, normalize, validate the input
//
String[] derefParts = valueExpr.split(Pattern.quote("=>"));
for (int i = 0; i < derefParts.length; i++) {
String trimmed = derefParts[i].trim();
if (trimmed.length() == 0) {
throw new IndexerConfException(
"Invalid dereference expression '"
+ valueExpr
+ "' at "
+ LocationAttributes.getLocationString(fieldEl));
}
derefParts[i] = trimmed;
}
if (derefParts.length < 2) {
throw new IndexerConfException(
"Invalid dereference expression '"
+ valueExpr
+ "' at "
+ LocationAttributes.getLocationString(fieldEl));
}
return derefParts;
}
private Value buildValue(Element fieldEl) throws Exception {
String valueExpr = DocumentHelper.getAttribute(fieldEl, "value", true);
Value value;
boolean extractContent = DocumentHelper.getBooleanAttribute(fieldEl, "extractContent", false);
String formatter = DocumentHelper.getAttribute(fieldEl, "formatter", false);
if (formatter != null && !conf.getFormatters().hasFormatter(formatter)) {
throw new IndexerConfException(
"Formatter does not exist: "
+ formatter
+ " at "
+ LocationAttributes.getLocationString(fieldEl));
}
//
// An index field can basically map to two kinds of values:
// * plain field values
// * dereference expressions (following links to some other record and then taking a field
// value from it)
//
// A dereference expression is specified as "somelink=>somelink=>somefield"
if (valueExpr.contains("=>")) {
//
// A dereference field
//
value = buildDerefValue(fieldEl, valueExpr, extractContent, formatter);
} else {
//
// A plain field
//
value = new FieldValue(getFieldType(valueExpr, fieldEl), extractContent, formatter);
}
if (extractContent
&& !value
.getTargetFieldType()
.getValueType()
.getDeepestValueType()
.getBaseName()
.equals("BLOB")) {
throw new IndexerConfException(
"extractContent is used for a non-blob value at "
+ LocationAttributes.getLocation(fieldEl));
}
return value;
}
private FieldType constructDerefFieldType(Element fieldEl, String valueExpr, String[] derefParts)
throws IndexerConfException, InterruptedException, RepositoryException {
//
// Last element in the list should be a field
//
QName targetFieldName;
try {
targetFieldName = parseQName(derefParts[derefParts.length - 1], fieldEl);
} catch (IndexerConfException e) {
throw new IndexerConfException(
"Dereference expression does not end on a valid field name. "
+ "Expression: '"
+ valueExpr
+ "' at "
+ LocationAttributes.getLocationString(fieldEl),
e);
}
return getFieldType(targetFieldName);
}
private void buildDynamicFields() throws Exception {
List<Element> fields = DYNAMIC_INDEX_FIELDS.get().evalAsNativeElementList(doc);
for (Element fieldEl : fields) {
String matchNamespaceAttr = DocumentHelper.getAttribute(fieldEl, "matchNamespace", false);
String matchNameAttr = DocumentHelper.getAttribute(fieldEl, "matchName", false);
String matchTypeAttr = DocumentHelper.getAttribute(fieldEl, "matchType", false);
String matchScopeAttr = DocumentHelper.getAttribute(fieldEl, "matchScope", false);
String nameAttr = DocumentHelper.getAttribute(fieldEl, "name", true);
WildcardPattern matchNamespace = null;
if (matchNamespaceAttr != null) {
// If the matchNamespace attr does not contain a wildcard expression, and its value
// happens to be an existing namespace prefix, than substitute the prefix for the full URI.
if (!WildcardPattern.isWildcardExpression(matchNamespaceAttr)) {
String uri = fieldEl.lookupNamespaceURI(matchNamespaceAttr);
if (uri != null) matchNamespaceAttr = uri;
}
matchNamespace = new WildcardPattern(matchNamespaceAttr);
}
WildcardPattern matchName = null;
if (matchNameAttr != null) {
matchName = new WildcardPattern(matchNameAttr);
}
TypePattern matchTypes = null;
if (matchTypeAttr != null) {
matchTypes = new TypePattern(matchTypeAttr);
}
Set<Scope> matchScopes = null;
if (matchScopeAttr != null) {
matchScopes = EnumSet.noneOf(Scope.class);
for (String scope : COMMA_SPLITTER.split(matchScopeAttr)) {
matchScopes.add(Scope.valueOf(scope));
}
if (matchScopes.isEmpty()) {
matchScopes = null;
}
}
// Be gentle to users of Lily 1.0 and warn them about attributes that are not supported
// anymore
if (DocumentHelper.getAttribute(fieldEl, "matchMultiValue", false) != null) {
log.warn(
"The attribute matchMultiValue on dynamicField is not supported anymore, it will be ignored.");
}
if (DocumentHelper.getAttribute(fieldEl, "matchHierarchical", false) != null) {
log.warn(
"The attribute matchHierarchical on dynamicField is not supported anymore, it will be ignored.");
}
Set<String> variables = new HashSet<String>();
variables.add("namespace");
variables.add("name");
variables.add("type");
variables.add("baseType");
variables.add("nestedType");
variables.add("nestedBaseType");
variables.add("deepestNestedBaseType");
if (matchName != null && matchName.hasWildcard()) variables.add("nameMatch");
if (matchNamespace != null && matchNamespace.hasWildcard()) variables.add("namespaceMatch");
Set<String> booleanVariables = new HashSet<String>();
booleanVariables.add("list");
booleanVariables.add("multiValue");
NameTemplate name = new NameTemplate(nameAttr, variables, booleanVariables);
boolean extractContent = DocumentHelper.getBooleanAttribute(fieldEl, "extractContent", false);
String formatter = DocumentHelper.getAttribute(fieldEl, "formatter", false);
if (formatter != null && !conf.getFormatters().hasFormatter(formatter)) {
throw new IndexerConfException(
"Formatter does not exist: "
+ formatter
+ " at "
+ LocationAttributes.getLocationString(fieldEl));
}
boolean continue_ = DocumentHelper.getBooleanAttribute(fieldEl, "continue", false);
DynamicIndexField field =
new DynamicIndexField(
matchNamespace,
matchName,
matchTypes,
matchScopes,
name,
extractContent,
continue_,
formatter);
conf.addDynamicIndexField(field);
}
}