public Type getType() throws MappingException {
return TypeFactory.manyToOne(
getReferencedEntityName(),
getReferencedPropertyName(),
isLazy(),
isUnwrapProxy(),
isEmbedded(),
isIgnoreNotFound());
}
/** WARNING: side-effecty */
private String renderScalarSelect() {
boolean isSubselect = superQuery != null;
StringBuffer buf = new StringBuffer(20);
if (scalarTypes.size() == 0) {
// ie. no select clause
int size = returnedTypes.size();
for (int k = 0; k < size; k++) {
scalarTypes.add(TypeFactory.manyToOne(persisters[k].getEntityName(), shallowQuery));
String[] idColumnNames = persisters[k].getIdentifierColumnNames();
for (int i = 0; i < idColumnNames.length; i++) {
buf.append(returnedTypes.get(k)).append('.').append(idColumnNames[i]);
if (!isSubselect) buf.append(" as ").append(NameGenerator.scalarName(k, i));
if (i != idColumnNames.length - 1 || k != size - 1) buf.append(", ");
}
}
} else {
// there _was_ a select clause
Iterator iter = scalarSelectTokens.iterator();
int c = 0;
boolean nolast = false; // real hacky...
int parenCount = 0; // used to count the nesting of parentheses
while (iter.hasNext()) {
Object next = iter.next();
if (next instanceof String) {
String token = (String) next;
if ("(".equals(token)) {
parenCount++;
} else if (")".equals(token)) {
parenCount--;
}
String lc = token.toLowerCase();
if (lc.equals(", ")) {
if (nolast) {
nolast = false;
} else {
if (!isSubselect && parenCount == 0) {
int x = c++;
buf.append(" as ").append(NameGenerator.scalarName(x, 0));
}
}
}
buf.append(token);
if (lc.equals("distinct") || lc.equals("all")) {
buf.append(' ');
}
} else {
nolast = true;
String[] tokens = (String[]) next;
for (int i = 0; i < tokens.length; i++) {
buf.append(tokens[i]);
if (!isSubselect) {
buf.append(" as ").append(NameGenerator.scalarName(c, i));
}
if (i != tokens.length - 1) buf.append(", ");
}
c++;
}
}
if (!isSubselect && !nolast) {
int x = c++;
buf.append(" as ").append(NameGenerator.scalarName(x, 0));
}
}
return buf.toString();
}
private void renderSQL() throws QueryException, MappingException {
final int rtsize;
if (returnedTypes.size() == 0 && scalarTypes.size() == 0) {
// ie no select clause in HQL
returnedTypes = fromTypes;
rtsize = returnedTypes.size();
} else {
rtsize = returnedTypes.size();
Iterator iter = entitiesToFetch.iterator();
while (iter.hasNext()) {
returnedTypes.add(iter.next());
}
}
int size = returnedTypes.size();
persisters = new Queryable[size];
names = new String[size];
owners = new int[size];
ownerAssociationTypes = new EntityType[size];
suffixes = new String[size];
includeInSelect = new boolean[size];
for (int i = 0; i < size; i++) {
String name = (String) returnedTypes.get(i);
// if ( !isName(name) ) throw new QueryException("unknown type: " + name);
persisters[i] = getEntityPersisterForName(name);
// TODO: cannot use generateSuffixes() - it handles the initial suffix differently.
suffixes[i] = (size == 1) ? "" : Integer.toString(i) + '_';
names[i] = name;
includeInSelect[i] = !entitiesToFetch.contains(name);
if (includeInSelect[i]) selectLength++;
if (name.equals(collectionOwnerName)) collectionOwnerColumn = i;
String oneToOneOwner = (String) oneToOneOwnerNames.get(name);
owners[i] = (oneToOneOwner == null) ? -1 : returnedTypes.indexOf(oneToOneOwner);
ownerAssociationTypes[i] = (EntityType) uniqueKeyOwnerReferences.get(name);
}
if (ArrayHelper.isAllNegative(owners)) owners = null;
String scalarSelect = renderScalarSelect(); // Must be done here because of side-effect! yuck...
int scalarSize = scalarTypes.size();
hasScalars = scalarTypes.size() != rtsize;
returnTypes = new Type[scalarSize];
for (int i = 0; i < scalarSize; i++) {
returnTypes[i] = (Type) scalarTypes.get(i);
}
QuerySelect sql = new QuerySelect(getFactory().getDialect());
sql.setDistinct(distinct);
if (!shallowQuery) {
renderIdentifierSelect(sql);
renderPropertiesSelect(sql);
}
if (collectionPersister != null) {
sql.addSelectFragmentString(collectionPersister.selectFragment(fetchName, "__"));
}
if (hasScalars || shallowQuery) sql.addSelectFragmentString(scalarSelect);
// TODO: for some dialects it would be appropriate to add the renderOrderByPropertiesSelect() to
// other select strings
mergeJoins(sql.getJoinFragment());
sql.setWhereTokens(whereTokens.iterator());
sql.setGroupByTokens(groupByTokens.iterator());
sql.setHavingTokens(havingTokens.iterator());
sql.setOrderByTokens(orderByTokens.iterator());
if (collectionPersister != null && collectionPersister.hasOrdering()) {
sql.addOrderBy(collectionPersister.getSQLOrderByString(fetchName));
}
scalarColumnNames = NameGenerator.generateColumnNames(returnTypes, getFactory());
// initialize the Set of queried identifier spaces (ie. tables)
Iterator iter = collections.values().iterator();
while (iter.hasNext()) {
CollectionPersister p = getCollectionPersister((String) iter.next());
addQuerySpaces(p.getCollectionSpaces());
}
iter = typeMap.keySet().iterator();
while (iter.hasNext()) {
Queryable p = getEntityPersisterForName((String) iter.next());
addQuerySpaces(p.getQuerySpaces());
}
sqlString = sql.toQueryString();
if (holderClass != null)
holderConstructor = ReflectHelper.getConstructor(holderClass, returnTypes);
if (hasScalars) {
actualReturnTypes = returnTypes;
} else {
actualReturnTypes = new Type[selectLength];
int j = 0;
for (int i = 0; i < persisters.length; i++) {
if (includeInSelect[i]) {
actualReturnTypes[j++] =
TypeFactory.manyToOne(persisters[i].getEntityName(), shallowQuery);
}
}
}
}