oracle.toplink.essentials.internal.expressions.QueryKeyExpression Maven / Gradle / Ivy
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package oracle.toplink.essentials.internal.expressions;
import java.io.*;
import java.util.*;
import oracle.toplink.essentials.descriptors.FetchGroupManager;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.expressions.*;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.mappings.*;
import oracle.toplink.essentials.mappings.foundation.AbstractDirectMapping;
import oracle.toplink.essentials.queryframework.*;
import oracle.toplink.essentials.querykeys.*;
import oracle.toplink.essentials.internal.sessions.AbstractRecord;
import oracle.toplink.essentials.internal.sessions.UnitOfWorkImpl;
import oracle.toplink.essentials.internal.sessions.AbstractSession;
import oracle.toplink.essentials.descriptors.ClassDescriptor;
/**
* Represents expression on query keys or mappings.
* This includes direct, relationships query keys and mappings.
*/
public class QueryKeyExpression extends ObjectExpression {
/** The name of the query key. */
protected String name;
/** Cache the aliased field. Only applies to attributes. */
protected DatabaseField aliasedField;
/** Is this a query across a 1:many or many:many relationship. Does not apply to attributes. */
protected boolean shouldQueryToManyRelationship;
/** Cache the query key for performance. Store a boolean so we don't repeat the search if there isn't one. */
transient protected QueryKey queryKey;
protected boolean hasQueryKey;
/** Same for mappings. */
transient protected DatabaseMapping mapping;
protected boolean hasMapping;
public QueryKeyExpression() {
this.shouldQueryToManyRelationship = false;
this.hasQueryKey = true;
this.hasMapping = true;
}
public QueryKeyExpression(String aName, Expression base) {
super();
name = aName;
baseExpression = base;
shouldUseOuterJoin = false;
shouldQueryToManyRelationship = false;
hasQueryKey = true;
hasMapping = true;
}
/**
* INTERNAL:
* Return the expression to join the main table of this node to any auxiliary tables.
*/
public Expression additionalExpressionCriteria() {
if (getDescriptor() == null) {
return null;
}
Expression criteria = getDescriptor().getQueryManager().getAdditionalJoinExpression();
if (criteria != null) {
criteria = getBaseExpression().twist(criteria, this);
if (shouldUseOuterJoin() && getSession().getPlatform().shouldPrintOuterJoinInWhereClause()) {
criteria.convertToUseOuterJoin();
}
}
if(getSession().getPlatform().shouldPrintOuterJoinInWhereClause()) {
if(isUsingOuterJoinForMultitableInheritance()) {
Expression childrenCriteria = getDescriptor().getInheritancePolicy().getChildrenJoinExpression();
childrenCriteria = getBaseExpression().twist(childrenCriteria, this);
childrenCriteria.convertToUseOuterJoin();
if(criteria == null) {
criteria = childrenCriteria;
} else {
criteria = criteria.and(childrenCriteria);
}
}
}
return criteria;
}
/**
* INTERNAL:
* Used in case outer joins should be printed in FROM clause.
* Each of the additional tables mapped to expressions that joins it.
*/
public Map additionalExpressionCriteriaMap() {
if (getDescriptor() == null) {
return null;
}
HashMap tablesJoinExpressions = new HashMap();
Vector tables = getDescriptor().getTables();
// skip the main table - start with i=1
int tablesSize = tables.size();
if(shouldUseOuterJoin()) {
for( int i=1; i < tablesSize; i++) {
DatabaseTable table = (DatabaseTable)tables.elementAt(i);
Expression joinExpression = (Expression)getDescriptor().getQueryManager().getTablesJoinExpressions().get(table);
joinExpression = getBaseExpression().twist(joinExpression, this);
tablesJoinExpressions.put(table, joinExpression);
}
}
if(isUsingOuterJoinForMultitableInheritance()) {
List childrenTables = getDescriptor().getInheritancePolicy().getChildrenTables();
tablesSize = childrenTables.size();
for( int i=0; i < tablesSize; i++) {
DatabaseTable table = (DatabaseTable)childrenTables.get(i);
Expression joinExpression = (Expression)getDescriptor().getInheritancePolicy().getChildrenTablesJoinExpressions().get(table);
joinExpression = getBaseExpression().twist(joinExpression, this);
tablesJoinExpressions.put(table, joinExpression);
}
}
return tablesJoinExpressions;
}
/**
* INTERNAL:
* Find the alias for a given table
*/
public DatabaseTable aliasForTable(DatabaseTable table) {
if (isAttribute() || ((getMapping() != null) && (getMapping().isAggregateObjectMapping() || getMapping().isTransformationMapping()))) {
return ((DataExpression)getBaseExpression()).aliasForTable(table);
}
//"ref" and "structure" mappings, no table printed in the FROM clause, need to get the table alias form the parent table
if ((getMapping() != null) && (getMapping().isReferenceMapping() || getMapping().isStructureMapping())) {
DatabaseTable alias = getBaseExpression().aliasForTable((DatabaseTable)getMapping().getDescriptor().getTables().firstElement());
alias.setName(alias.getName() + "." + getMapping().getField().getName());
return alias;
}
return super.aliasForTable(table);
}
/**
* INTERNAL:
* Used for debug printing.
*/
public String descriptionOfNodeType() {
return "Query Key";
}
/**
* INTERNAL:
*/
public void doQueryToManyRelationship() {
shouldQueryToManyRelationship = true;
}
/**
* INTERNAL:
* Return the field appropriately aliased
*/
public DatabaseField getAliasedField() {
if (aliasedField == null) {
initializeAliasedField();
}
return aliasedField;
}
/**
* Return the alias for our table
*/
protected DatabaseTable getAliasedTable() {
DataExpression base = (DataExpression)getBaseExpression();
DatabaseTable alias = base.aliasForTable(getField().getTable());
if (alias == null) {
return getField().getTable();
} else {
return alias;
}
}
/**
* INTERNAL:
* Return the descriptor which contains this query key.
*/
public ClassDescriptor getContainingDescriptor() {
return ((DataExpression)getBaseExpression()).getDescriptor();
}
/**
* INTERNAL:
*/
public DatabaseField getField() {
if (!isAttribute()) {
return null;
}
return getContainingDescriptor().getObjectBuilder().getFieldForQueryKeyName(getName());
}
/**
* INTERNAL:
* Return all the fields
*/
public Vector getFields() {
if (isAttribute()) {
Vector result = new Vector(1);
DatabaseField field = getField();
if (field != null) {
result.addElement(field);
}
return result;
} else if ((getMapping() != null) && getMapping().isTransformationMapping()) {
return getMapping().getFields();
} else {
if(isUsingOuterJoinForMultitableInheritance()) {
return getDescriptor().getAllFields();
} else {
return super.getFields();
}
}
}
/**
* INTERNAL:
* Transform the object-level value into a database-level value
*/
public Object getFieldValue(Object objectValue) {
DatabaseMapping mapping = getMapping();
Object fieldValue = objectValue;
if ((mapping != null) && (mapping.isDirectToFieldMapping())) {
// CR#3623207, check for IN Vector here not in mapping.
if (objectValue instanceof Vector) {
// This can actually be a vector for IN within expressions... however it would be better for expressions to handle this.
Vector values = (Vector)objectValue;
Vector fieldValues = new Vector(values.size());
for (int index = 0; index < values.size(); index++) {
fieldValues.addElement(getFieldValue(values.get(index)));
}
fieldValue = fieldValues;
} else {
fieldValue = ((AbstractDirectMapping)mapping).getFieldValue(objectValue, getSession());
}
}
return fieldValue;
}
public DatabaseMapping getMapping() {
if (!hasMapping) {
return null;
}
if (mapping == null) {
mapping = super.getMapping();
if (mapping == null) {
hasMapping = false;
}
}
return mapping;
}
public DatabaseMapping getMappingFromQueryKey() {
QueryKey queryKey = getQueryKeyOrNull();
if ((queryKey == null) || (!(queryKey instanceof DirectQueryKey))) {
throw QueryException.cannotConformExpression();
}
mapping = queryKey.getDescriptor().getObjectBuilder().getMappingForField(((DirectQueryKey)queryKey).getField());
if (mapping == null) {
throw QueryException.cannotConformExpression();
}
return mapping;
}
public String getName() {
return name;
}
/**
* INTERNAL:
*/
public Vector getOwnedTables() {
if ((getMapping() != null) && (getMapping().isReferenceMapping() || getMapping().isStructureMapping())) {
return null;
}
return super.getOwnedTables();
}
public QueryKey getQueryKeyOrNull() {
if (!hasQueryKey) {
return null;
}
// Oct 19, 2000 JED
// Added try/catch. This was throwing a NPE in the following case
// expresssionBuilder.get("firstName").get("bob")
//moved by Gordon Yorke to cover validate and normalize
if (getContainingDescriptor() == null) {
throw QueryException.invalidQueryKeyInExpression(getName());
}
if (queryKey == null) {
queryKey = getContainingDescriptor().getQueryKeyNamed(getName());
if (queryKey == null) {
hasQueryKey = false;
}
}
return queryKey;
}
/**
* INTERNAL:
* Alias the database field for our current environment
*/
protected void initializeAliasedField() {
DatabaseField tempField = (DatabaseField)getField().clone();
DatabaseTable aliasedTable = getAliasedTable();
// Put in a special check here so that if the aliasing does nothing we don't cache the
// result because it's invalid. This saves us from caching premature data if e.g. debugging
// causes us to print too early"
// if (aliasedTable.equals(getField().getTable())) {
// return;
// } else {
aliasedField = tempField;
aliasedField.setTable(aliasedTable);
// }
}
/**
* INTERNAL:
*/
public boolean isAttribute() {
if (getSession() == null) {// We can't tell, so say no
return false;
}
try {
QueryKey queryKey = getQueryKeyOrNull();
if (queryKey != null) {
return queryKey.isDirectQueryKey();
}
DatabaseMapping mapping = getMapping();
if (mapping != null) {
if (mapping.isVariableOneToOneMapping()) {
throw QueryException.cannotQueryAcrossAVariableOneToOneMapping(mapping, mapping.getDescriptor());
} else {
return mapping.isDirectToFieldMapping();
}
}
} catch (QueryException e) {
throw e;//re-throw the query exception arisen from the query on varibale 1:1 mapping
}
return false;
}
public boolean isQueryKeyExpression() {
return true;
}
/*
* INTERNAL:
* If this query key respresents a foreign reference answer the
* base expression -> foreign reference join criteria.
*/
public Expression mappingCriteria() {
Expression selectionCriteria;
// First look for a query key, then a mapping
if (getQueryKeyOrNull() == null) {
if ((getMapping() == null) || (!getMapping().isForeignReferenceMapping())) {
return null;
} else {
// The join criteria is now twisted by the mappings.
selectionCriteria = ((ForeignReferenceMapping)getMapping()).getJoinCriteria(this);
}
} else {
if (!getQueryKeyOrNull().isForeignReferenceQueryKey()) {
return null;
} else {
selectionCriteria = ((ForeignReferenceQueryKey)getQueryKeyOrNull()).getJoinCriteria();
selectionCriteria = getBaseExpression().twist(selectionCriteria, this);
}
}
if (shouldUseOuterJoin() && getSession().getPlatform().shouldPrintOuterJoinInWhereClause()) {
selectionCriteria = selectionCriteria.convertToUseOuterJoin();
}
return selectionCriteria;
}
/**
* INTERNAL:
* Normalize the expression into a printable structure.
* Any joins must be added to form a new root.
*/
public Expression normalize(ExpressionNormalizer normalizer) {
return normalize(normalizer, null);
}
/**
* INTERNAL:
* For CR#2456 if this is part of an objExp.equal(objExp), do not need to add
* additional expressions to normalizer both times, and the foreign key join
* replaces the equal expression.
*/
public Expression normalize(ExpressionNormalizer normalizer, Vector foreignKeyJoinPointer) {
if (hasBeenNormalized()) {
return this;
}
super.normalize(normalizer);
setHasBeenNormalized(true);
if ((getMapping() != null) && getMapping().isDirectToXMLTypeMapping()) {
normalizer.getStatement().setRequiresAliases(true);
}
// Check if any joins need to be added.
if (isAttribute()) {
return this;
}
// If the mapping is 'ref' or 'structure', no join needed.
if ((getMapping() != null) && (getMapping().isReferenceMapping() || getMapping().isStructureMapping())) {
normalizer.getStatement().setRequiresAliases(true);
return this;
}
// Compute if a distinct is required during normalization.
if (shouldQueryToManyRelationship() && (!normalizer.getStatement().isDistinctComputed()) && (!normalizer.getStatement().isAggregateSelect())) {
normalizer.getStatement().useDistinct();
}
// Turn off DISTINCT if nestedTableMapping is used (not supported by Oracle 8.1.5).
if ((getMapping() != null) && getMapping().isNestedTableMapping()) {
// There are two types of nested tables, one used by clients, one used by mappings, do nothing in the mapping case.
if (!shouldQueryToManyRelationship()) {
return this;
}
normalizer.getStatement().dontUseDistinct();
}
Expression mappingExpression = mappingCriteria();
if (mappingExpression != null) {
mappingExpression = mappingExpression.normalize(normalizer);
}
if (mappingExpression != null) {
// If the join was an outer join we must not add the join criteria to the where clause,
// if the platform prints the join in the from clause.
if (shouldUseOuterJoin() && (getSession().getPlatform().isInformixOuterJoin())) {
normalizer.getStatement().getOuterJoinExpressions().addElement(this);
normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(mappingExpression);
normalizer.addAdditionalExpression(mappingExpression.and(additionalExpressionCriteria()));
return this;
} else if ((shouldUseOuterJoin() || isUsingOuterJoinForMultitableInheritance()) && (!getSession().getPlatform().shouldPrintOuterJoinInWhereClause())) {
if(shouldUseOuterJoin()) {
normalizer.getStatement().getOuterJoinExpressions().addElement(this);
normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(mappingExpression);
normalizer.getStatement().getOuterJoinedAdditionalJoinCriteria().addElement(additionalExpressionCriteriaMap());
normalizer.getStatement().getDescriptorsForMultitableInheritanceOnly().add(null);
return this;
} else {
if (isUsingOuterJoinForMultitableInheritance()) {
normalizer.getStatement().getOuterJoinExpressions().addElement(null);
normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(null);
normalizer.getStatement().getOuterJoinedAdditionalJoinCriteria().addElement(additionalExpressionCriteriaMap());
normalizer.getStatement().getDescriptorsForMultitableInheritanceOnly().add(getMapping().getReferenceDescriptor());
// fall through to the main case
}
}
}
// This must be added even if outer. Actually it should be converted to use a right outer join, but that gets complex
// so we do not support this current which is a limitation in some cases.
if (foreignKeyJoinPointer != null) {
// If this expression is right side of an objExp.equal(objExp), one
// need not add additionalExpressionCriteria twice.
// Also the join will replace the original objExp.equal(objExp).
// For CR#2456.
foreignKeyJoinPointer.add(mappingExpression);
} else {
normalizer.addAdditionalExpression(mappingExpression.and(additionalExpressionCriteria()));
}
}
// For bug 2900974 special code for DirectCollectionMappings moved to printSQL.
return this;
}
/**
* INTERNAL:
* Print SQL onto the stream, using the ExpressionPrinter for context
*/
public void printSQL(ExpressionSQLPrinter printer) {
if (isAttribute()) {
printer.printField(getAliasedField());
}
// If the mapping is a direct collection then this falls into a gray area.
// It must be treated as an attribute at this moment for it has a direct field.
// However it is not an attribute in the sense that it also represents a foreign
// reference and a mapping criteria has been added.
// For bug 2900974 these are now handled as non-attributes during normalize but
// as attributes when printing SQL.
//
if ((getMapping() != null) && getMapping().isDirectCollectionMapping()) {
DirectCollectionMapping directCollectionMapping = (DirectCollectionMapping)getMapping();
// The aliased table comes for free as it was a required part of the join criteria.
TableExpression table = (TableExpression)getTable(directCollectionMapping.getReferenceTable());
DatabaseTable aliasedTable = table.aliasForTable(table.getTable());
DatabaseField aliasedField = (DatabaseField)directCollectionMapping.getDirectField().clone();
aliasedField.setTable(aliasedTable);
printer.printField(aliasedField);
}
}
/**
* INTERNAL:
* Print java for project class generation
*/
public void printJava(ExpressionJavaPrinter printer) {
getBaseExpression().printJava(printer);
if (!shouldUseOuterJoin()) {
if (!shouldQueryToManyRelationship()) {
printer.printString(".get(");
} else {
printer.printString(".anyOf(");
}
} else {
if (!shouldQueryToManyRelationship()) {
printer.printString(".getAllowingNull(");
} else {
printer.printString(".anyOfAllowingNone(");
}
}
printer.printString("\"" + getName() + "\")");
}
/**
* INTERNAL:
* This expression is built on a different base than the one we want. Rebuild it and
* return the root of the new tree
*/
public Expression rebuildOn(Expression newBase) {
Expression newLocalBase = getBaseExpression().rebuildOn(newBase);
QueryKeyExpression result = null;
// For bug 3096634 rebuild outer joins correctly from the start.
if (shouldUseOuterJoin) {
result = (QueryKeyExpression)newLocalBase.getAllowingNull(getName());
} else {
result = (QueryKeyExpression)newLocalBase.get(getName());
}
if (shouldQueryToManyRelationship) {
result.doQueryToManyRelationship();
}
return result;
}
/**
* INTERNAL:
* A special version of rebuildOn where the newBase need not be a new
* ExpressionBuilder but any expression.
*
* For nested joined attributes, the joined attribute query must have
* its joined attributes rebuilt relative to it.
*/
public Expression rebuildOn(Expression oldBase, Expression newBase) {
if (this == oldBase) {
return newBase;
}
Expression newLocalBase = ((QueryKeyExpression)getBaseExpression()).rebuildOn(oldBase, newBase);
QueryKeyExpression result = null;
// For bug 3096634 rebuild outer joins correctly from the start.
if (shouldUseOuterJoin) {
result = (QueryKeyExpression)newLocalBase.getAllowingNull(getName());
} else {
result = (QueryKeyExpression)newLocalBase.get(getName());
}
if (shouldQueryToManyRelationship) {
result.doQueryToManyRelationship();
}
result.setSelectIfOrderedBy(selectIfOrderedBy());
return result;
}
/**
* Reset cached information here so that we can be sure we're accurate.
*/
protected void resetCache() {
hasMapping = true;
mapping = null;
hasQueryKey = true;
queryKey = null;
}
public boolean shouldQueryToManyRelationship() {
return shouldQueryToManyRelationship;
}
/**
* INTERNAL:
* Rebuild myself against the base, with the values of parameters supplied by the context
* expression. This is used for transforming a standalone expression (e.g. the join criteria of a mapping)
* into part of some larger expression. You normally would not call this directly, instead calling twist
* See the comment there for more details"
*/
public Expression twistedForBaseAndContext(Expression newBase, Expression context) {
Expression twistedBase = getBaseExpression().twistedForBaseAndContext(newBase, context);
QueryKeyExpression result = (QueryKeyExpression)twistedBase.get(getName());
if (shouldUseOuterJoin) {
result.doUseOuterJoin();
}
if (shouldQueryToManyRelationship) {
result.doQueryToManyRelationship();
}
return result;
}
/**
* Do any required validation for this node. Throw an exception if it's incorrect.
*/
public void validateNode() {
if ((getQueryKeyOrNull() == null) && (getMapping() == null)) {
throw QueryException.invalidQueryKeyInExpression(getName());
}
QueryKey queryKey = getQueryKeyOrNull();
DatabaseMapping mapping = getMapping();
Object theOneThatsNotNull = null;
if (queryKey != null) {
theOneThatsNotNull = queryKey;
}
if (mapping != null) {
theOneThatsNotNull = mapping;
}
boolean qkIsToMany = false;
if (queryKey != null) {
qkIsToMany = queryKey.isManyToManyQueryKey() || queryKey.isOneToManyQueryKey();
}
if (mapping != null) {
// Bug 2847621 - Add Aggregate Collection to the list of valid items for outer join.
if (shouldUseOuterJoin && (!(mapping.isOneToOneMapping() || mapping.isOneToManyMapping() || mapping.isManyToManyMapping() || mapping.isAggregateCollectionMapping() || mapping.isDirectCollectionMapping()))) {
throw QueryException.outerJoinIsOnlyValidForOneToOneMappings(getMapping());
}
qkIsToMany = mapping.isCollectionMapping();
}
if ((!shouldQueryToManyRelationship()) && qkIsToMany && (!mapping.isNestedTableMapping())) {
throw QueryException.invalidUseOfToManyQueryKeyInExpression(theOneThatsNotNull);
}
if (shouldQueryToManyRelationship() && !qkIsToMany) {
throw QueryException.invalidUseOfAnyOfInExpression(theOneThatsNotNull);
}
}
/**
* INTERNAL:
* Return the value for in memory comparison.
* This is only valid for valueable expressions.
*/
public Object valueFromObject(Object object, AbstractSession session, AbstractRecord translationRow, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean isObjectUnregistered) {
// The expression may be across a relationship, in which case it must be traversed.
if ((getBuilder() != getBaseExpression()) && getBaseExpression().isQueryKeyExpression()) {
object = getBaseExpression().valueFromObject(object, session, translationRow, valueHolderPolicy, isObjectUnregistered);
// toDo: Null means the join filters out the row, returning null is not correct if an inner join,
// outer/inner joins need to be fixed to filter correctly.
if (object == null) {
return null;
}
// If from an anyof the object will be a collection of values,
// A new vector must union the object values and the values extracted from it.
if (object instanceof Vector) {
Vector comparisonVector = new Vector(((Vector)object).size() + 2);
for (Enumeration valuesToIterate = (Enumeration)((Vector)object).elements();
valuesToIterate.hasMoreElements();) {
Object vectorObject = (Object)valuesToIterate.nextElement();
if (vectorObject == null) {
comparisonVector.addElement(vectorObject);
} else {
Object valueOrValues = valuesFromCollection(vectorObject, session, valueHolderPolicy, isObjectUnregistered);
// If a collection of values were extracted union them.
if (valueOrValues instanceof Vector) {
for (Enumeration nestedValuesToIterate = (Enumeration)((Vector)valueOrValues).elements();
nestedValuesToIterate.hasMoreElements();) {
comparisonVector.addElement(nestedValuesToIterate.nextElement());
}
} else {
comparisonVector.addElement(valueOrValues);
}
}
}
return comparisonVector;
}
}
return valuesFromCollection(object, session, valueHolderPolicy, isObjectUnregistered);
}
/**
* INTERNAL
* This method iterates through a collection and gets the values from the objects to conform in an in-memory query.
* Creation date: (1/19/01 1:18:27 PM)
*/
public Object valuesFromCollection(Object object, AbstractSession session, InMemoryQueryIndirectionPolicy valueHolderPolicy, boolean isObjectUnregistered) {
// in case the mapping is null - this can happen if a query key is being used
// In this case, check for the query key and find it's mapping.
boolean readMappingFromQueryKey = false;
if (getMapping() == null) {
getMappingFromQueryKey();
readMappingFromQueryKey = true;
}
// For bug 2780817 get the mapping directly from the object. In EJB 2.0
// inheritance, each child must override mappings defined in an abstract
// class with its own.
DatabaseMapping mapping = this.mapping;
if (mapping.getDescriptor().hasInheritance() && (mapping.getDescriptor().getJavaClass() != object.getClass())) {
mapping = session.getDescriptor(object.getClass()).getObjectBuilder().getMappingForAttributeName(getName());
}
//fetch group support
if (mapping.getDescriptor().hasFetchGroupManager()) {
FetchGroupManager fetchGroupMgr = mapping.getDescriptor().getFetchGroupManager();
if (fetchGroupMgr.isPartialObject(object) && (!fetchGroupMgr.isAttributeFetched(object, mapping.getAttributeName()))) {
//the conforming attribute is not fetched, simply throw exception
throw QueryException.cannotConformUnfetchedAttribute(mapping.getAttributeName());
}
}
if (mapping.isForeignReferenceMapping()) {
//CR 3677 integration of a ValueHolderPolicy
Object valueFromMapping = mapping.getAttributeValueFromObject(object);
if (!((ForeignReferenceMapping)mapping).getIndirectionPolicy().objectIsInstantiated(valueFromMapping)) {
if (!valueHolderPolicy.shouldTriggerIndirection()) {
//If the client wishes us to trigger the indirection then we should do so,
//Other wise throw the exception
throw QueryException.mustInstantiateValueholders();// you should instantiate the valueholder for this to work
}
// maybe we should throw this exception from the start, to save time
}
Object valueToIterate = mapping.getRealAttributeValueFromObject(object, session);
UnitOfWorkImpl uow = isObjectUnregistered ? (UnitOfWorkImpl)session : null;
// First check that object in fact is unregistered.
// toDo: ?? Why is this commented out? Why are we supporting the unregistered thing at all?
// Does not seem to be any public API for this, nor every used internally?
//if (isObjectUnregistered) {
// isObjectUnregistered = !uow.getCloneMapping().containsKey(object);
//}
if (mapping.isCollectionMapping() && (valueToIterate != null)) {
// For bug 2766379 must use the correct version of vectorFor to
// unwrap the result same time.
valueToIterate = mapping.getContainerPolicy().vectorFor(valueToIterate, session);
// toDo: If the value is empty, need to support correct inner/outer join filtering symantics.
// For CR 2612601, try to partially replace the result with already
// registered objects.
if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
Vector objectValues = (Vector)valueToIterate;
for (int i = 0; i < objectValues.size(); i++) {
Object original = objectValues.elementAt(i);
Object clone = uow.getIdentityMapAccessorInstance().getIdentityMapManager().getFromIdentityMap(original);
if (clone != null) {
objectValues.setElementAt(clone, i);
}
}
}
// For CR 2612601, conforming without registering, a query could be
// bob.get("address").get("city").equal("Ottawa"); where the address
// has been registered and modified in the UOW, but bob has not. Thus
// even though bob does not point to the modified address now, it will
// as soon as it is registered, so should point to it here.
} else if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
Object clone = uow.getIdentityMapAccessorInstance().getIdentityMapManager().getFromIdentityMap(valueToIterate);
if (clone != null) {
valueToIterate = clone;
}
}
return valueToIterate;
} else if (mapping.isDirectToFieldMapping()) {
return ((AbstractDirectMapping)mapping).valueFromObject(object, mapping.getField(), session);
} else if (mapping.isAggregateMapping()) {
Object aggregateValue = ((AggregateMapping)mapping).getAttributeValueFromObject(object);
;
// Bug 3995468 - if this query key is to a mapping in an aggregate object, get the object from actual mapping rather than the aggregate mapping
while (readMappingFromQueryKey && mapping.isAggregateObjectMapping() && !((AggregateObjectMapping)mapping).getReferenceClass().equals(queryKey.getDescriptor().getJavaClass())) {
mapping = mapping.getReferenceDescriptor().getObjectBuilder().getMappingForField(((DirectQueryKey)queryKey).getField());
aggregateValue = mapping.getRealAttributeValueFromObject(aggregateValue, session);
}
return aggregateValue;
} else {
throw QueryException.cannotConformExpression();
}
}
/**
* INTERNAL:
* Used to print a debug form of the expression tree.
*/
public void writeDescriptionOn(BufferedWriter writer) throws IOException {
writer.write(getName());
writer.write(tableAliasesDescription());
}
/**
* INTERNAL:
* Indicates that RelationExpression.normalize method shouldn't attempt
* optimize normalization by not normalizing this.
*/
public boolean isNormalizationRequired() {
return shouldQueryToManyRelationship() ||
// For bug 2718460, some QueryKeyExpressions have a query key but no mapping.
// An example is the "back-ref" query key for batch reads. Must not
// attempt the optimization for these.
getMapping() == null ||
// For bug 5234283: WRONG =* SQL FOR LEFT JOIN ON DERBY AND DB2 PLATFORMS
// Caused by QueryKeyExpression never been normilized.
// The condition should be kept in sync with condtions in normalize method
// that trigger adding to normalizer.getStatement().getOuterJoin...
((shouldUseOuterJoin() || isUsingOuterJoinForMultitableInheritance()) && !getSession().getPlatform().shouldPrintOuterJoinInWhereClause()) ||
(shouldUseOuterJoin() && getSession().getPlatform().isInformixOuterJoin());
}
}