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/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* License: GNU Lesser General Public License (LGPL), version 2.1 or later.
* See the lgpl.txt file in the root directory or .
*/
package org.hibernate.hql.internal.ast.tree;
import org.hibernate.QueryException;
import org.hibernate.engine.internal.JoinSequence;
import org.hibernate.hql.internal.CollectionProperties;
import org.hibernate.hql.internal.antlr.SqlTokenTypes;
import org.hibernate.hql.internal.ast.util.ASTUtil;
import org.hibernate.hql.internal.ast.util.ColumnHelper;
import org.hibernate.internal.CoreLogging;
import org.hibernate.internal.CoreMessageLogger;
import org.hibernate.internal.log.DeprecationLogger;
import org.hibernate.internal.util.StringHelper;
import org.hibernate.loader.plan.spi.EntityQuerySpace;
import org.hibernate.persister.collection.QueryableCollection;
import org.hibernate.persister.entity.AbstractEntityPersister;
import org.hibernate.persister.entity.EntityPersister;
import org.hibernate.persister.entity.Queryable;
import org.hibernate.sql.JoinType;
import org.hibernate.type.CollectionType;
import org.hibernate.type.EntityType;
import org.hibernate.type.Type;
import antlr.SemanticException;
import antlr.collections.AST;
/**
* Represents a reference to a property or alias expression. This should duplicate the relevant behaviors in
* PathExpressionParser.
*
* @author Joshua Davis
*/
public class DotNode extends FromReferenceNode implements DisplayableNode, SelectExpression {
private static final CoreMessageLogger LOG = CoreLogging.messageLogger( DotNode.class );
///////////////////////////////////////////////////////////////////////////
// USED ONLY FOR REGRESSION TESTING!!!!
//
// todo : obviously get rid of all this junk ;)
///////////////////////////////////////////////////////////////////////////
public static boolean useThetaStyleImplicitJoins;
public static boolean regressionStyleJoinSuppression;
public interface IllegalCollectionDereferenceExceptionBuilder {
QueryException buildIllegalCollectionDereferenceException(
String collectionPropertyName,
FromReferenceNode lhs);
}
public static final IllegalCollectionDereferenceExceptionBuilder DEF_ILLEGAL_COLL_DEREF_EXCP_BUILDER = new IllegalCollectionDereferenceExceptionBuilder() {
public QueryException buildIllegalCollectionDereferenceException(String propertyName, FromReferenceNode lhs) {
String lhsPath = ASTUtil.getPathText( lhs );
return new QueryException( "illegal attempt to dereference collection [" + lhsPath + "] with element property reference [" + propertyName + "]" );
}
};
public static IllegalCollectionDereferenceExceptionBuilder ILLEGAL_COLL_DEREF_EXCP_BUILDER = DEF_ILLEGAL_COLL_DEREF_EXCP_BUILDER;
///////////////////////////////////////////////////////////////////////////
public static enum DereferenceType {
UNKNOWN,
ENTITY,
COMPONENT,
COLLECTION,
PRIMITIVE,
IDENTIFIER,
JAVA_CONSTANT
}
/**
* The identifier that is the name of the property.
*/
private String propertyName;
/**
* The full path, to the root alias of this dot node.
*/
private String path;
/**
* The unresolved property path relative to this dot node.
*/
private String propertyPath;
/**
* The column names that this resolves to.
*/
private String[] columns;
/**
* The type of join to create. Default is an inner join.
*/
private JoinType joinType = JoinType.INNER_JOIN;
/**
* Fetch join or not.
*/
private boolean fetch;
/**
* The type of dereference that hapened
*/
private DereferenceType dereferenceType = DereferenceType.UNKNOWN;
private FromElement impliedJoin;
/**
* Sets the join type for this '.' node structure.
*
* @param joinType The type of join to use.
*
* @see org.hibernate.sql.JoinFragment
*/
public void setJoinType(JoinType joinType) {
this.joinType = joinType;
}
private String[] getColumns() throws QueryException {
if ( columns == null ) {
// Use the table fromElement and the property name to get the array of column names.
String tableAlias = getLhs().getFromElement().getTableAlias();
columns = getFromElement().toColumns( tableAlias, propertyPath, false );
}
return columns;
}
@Override
public String getDisplayText() {
StringBuilder buf = new StringBuilder();
FromElement fromElement = getFromElement();
buf.append( "{propertyName=" ).append( propertyName );
buf.append( ",dereferenceType=" ).append( dereferenceType.name() );
buf.append( ",getPropertyPath=" ).append( propertyPath );
buf.append( ",path=" ).append( getPath() );
if ( fromElement != null ) {
buf.append( ",tableAlias=" ).append( fromElement.getTableAlias() );
buf.append( ",className=" ).append( fromElement.getClassName() );
buf.append( ",classAlias=" ).append( fromElement.getClassAlias() );
}
else {
buf.append( ",no from element" );
}
buf.append( '}' );
return buf.toString();
}
/**
* Resolves the left hand side of the DOT.
*
* @throws SemanticException
*/
@Override
public void resolveFirstChild() throws SemanticException {
FromReferenceNode lhs = (FromReferenceNode) getFirstChild();
SqlNode property = (SqlNode) lhs.getNextSibling();
// Set the attributes of the property reference expression.
String propName = property.getText();
propertyName = propName;
// If the uresolved property path isn't set yet, just use the property name.
if ( propertyPath == null ) {
propertyPath = propName;
}
// Resolve the LHS fully, generate implicit joins. Pass in the property name so that the resolver can
// discover foreign key (id) properties.
lhs.resolve( true, true, null, this );
setFromElement( lhs.getFromElement() ); // The 'from element' that the property is in.
checkSubclassOrSuperclassPropertyReference( lhs, propName );
}
@Override
public void resolveInFunctionCall(boolean generateJoin, boolean implicitJoin) throws SemanticException {
if ( isResolved() ) {
return;
}
Type propertyType = prepareLhs(); // Prepare the left hand side and get the data type.
if ( propertyType != null && propertyType.isCollectionType() ) {
resolveIndex( null );
}
else {
resolveFirstChild();
super.resolve( generateJoin, implicitJoin );
}
}
public void resolveIndex(AST parent) throws SemanticException {
if ( isResolved() ) {
return;
}
Type propertyType = prepareLhs(); // Prepare the left hand side and get the data type.
dereferenceCollection( (CollectionType) propertyType, true, true, null, parent );
}
public void resolve(boolean generateJoin, boolean implicitJoin, String classAlias, AST parent, AST parentPredicate)
throws SemanticException {
// If this dot has already been resolved, stop now.
if ( isResolved() ) {
return;
}
Type propertyType = prepareLhs(); // Prepare the left hand side and get the data type.
if ( parent == null && AbstractEntityPersister.ENTITY_CLASS.equals( propertyName ) ) {
DeprecationLogger.DEPRECATION_LOGGER.logDeprecationOfClassEntityTypeSelector( getLhs().getPath() );
}
// If there is no data type for this node, and we're at the end of the path (top most dot node), then
// this might be a Java constant.
if ( propertyType == null ) {
if ( parent == null ) {
getWalker().getLiteralProcessor().lookupConstant( this );
}
// If the propertyType is null and there isn't a parent, just
// stop now... there was a problem resolving the node anyway.
return;
}
if ( propertyType.isComponentType() ) {
// The property is a component...
checkLhsIsNotCollection();
dereferenceComponent( parent );
initText();
}
else if ( propertyType.isEntityType() ) {
// The property is another class..
checkLhsIsNotCollection();
dereferenceEntity( (EntityType) propertyType, implicitJoin, classAlias, generateJoin, parent, parentPredicate );
initText();
}
else if ( propertyType.isCollectionType() ) {
// The property is a collection...
checkLhsIsNotCollection();
dereferenceCollection( (CollectionType) propertyType, implicitJoin, false, classAlias, parent );
}
else {
// Otherwise, this is a primitive type.
if ( !CollectionProperties.isAnyCollectionProperty( propertyName ) ) {
checkLhsIsNotCollection();
}
dereferenceType = DereferenceType.PRIMITIVE;
initText();
}
setResolved();
}
private void initText() {
String[] cols = getColumns();
String text = String.join( ", ", cols );
boolean countDistinct = getWalker().isInCountDistinct()
&& getWalker().getSessionFactoryHelper().getFactory().getDialect().requiresParensForTupleDistinctCounts();
if ( cols.length > 1 &&
( getWalker().isComparativeExpressionClause() || countDistinct ) ) {
text = "(" + text + ")";
}
setText( text );
}
private Type prepareLhs() throws SemanticException {
FromReferenceNode lhs = getLhs();
lhs.prepareForDot( propertyName );
return getDataType();
}
private void dereferenceCollection(
CollectionType collectionType,
boolean implicitJoin,
boolean indexed,
String classAlias,
AST parent)
throws SemanticException {
dereferenceType = DereferenceType.COLLECTION;
String role = collectionType.getRole();
//foo.bars.size (also handles deprecated stuff like foo.bars.maxelement for backwardness)
boolean isSizeProperty = getNextSibling() != null &&
CollectionProperties.isAnyCollectionProperty( getNextSibling().getText() );
if ( isSizeProperty ) {
indexed = true; //yuck!
}
QueryableCollection queryableCollection = getSessionFactoryHelper().requireQueryableCollection( role );
String propName = getPath();
FromClause currentFromClause = getWalker().getCurrentFromClause();
// If the lhs of the join is a "component join", we need to go back to the
// first non-component-join as the origin to properly link aliases and
// join columns
FromElement lhsFromElement = getLhs().getFromElement();
while ( lhsFromElement != null && ComponentJoin.class.isInstance( lhsFromElement ) ) {
lhsFromElement = lhsFromElement.getOrigin();
}
if ( lhsFromElement == null ) {
throw new QueryException( "Unable to locate appropriate lhs" );
}
// determine whether we should use the table name or table alias to qualify the column names...
// we need to use the table-name when:
// 1) the top-level statement is not a SELECT
// 2) the LHS FromElement is *the* FromElement from the top-level statement
//
// there is a caveat here.. if the update/delete statement are "multi-table" we should continue to use
// the alias also, even if the FromElement is the root one...
//
// in all other cases, we should use the table alias
if ( getWalker().getStatementType() != SqlTokenTypes.SELECT ) {
if ( isFromElementUpdateOrDeleteRoot( lhsFromElement ) ) {
// at this point we know we have the 2 conditions above,
// lets see if we have the mentioned "multi-table" caveat...
boolean useAlias = false;
if ( getWalker().getStatementType() != SqlTokenTypes.INSERT ) {
final Queryable persister = lhsFromElement.getQueryable();
if ( persister.isMultiTable() ) {
useAlias = true;
}
}
if ( !useAlias ) {
final String lhsTableName = lhsFromElement.getQueryable().getTableName();
columns = getFromElement().toColumns( lhsTableName, propertyPath, false, true );
}
}
}
// We do not look for an existing join on the same path, because
// it makes sense to join twice on the same collection role
FromElementFactory factory = new FromElementFactory(
currentFromClause,
lhsFromElement,
propName,
classAlias,
getColumns(),
implicitJoin
);
FromElement elem = factory.createCollection( queryableCollection, role, joinType, fetch, indexed );
LOG.debugf( "dereferenceCollection() : Created new FROM element for %s : %s", propName, elem );
setImpliedJoin( elem );
setFromElement( elem ); // This 'dot' expression now refers to the resulting from element.
if ( isSizeProperty ) {
elem.setText( "" );
elem.setUseWhereFragment( false );
}
if ( !implicitJoin ) {
EntityPersister entityPersister = elem.getEntityPersister();
if ( entityPersister != null ) {
getWalker().addQuerySpaces( entityPersister.getQuerySpaces() );
}
}
getWalker().addQuerySpaces( queryableCollection.getCollectionSpaces() ); // Always add the collection's query spaces.
}
private void dereferenceEntity(
EntityType entityType,
boolean implicitJoin,
String classAlias,
boolean generateJoin,
AST parent,
AST parentPredicate) throws SemanticException {
checkForCorrelatedSubquery( "dereferenceEntity" );
// three general cases we check here as to whether to render a physical SQL join:
// 1) is our parent a DotNode as well? If so, our property reference is
// being further de-referenced...
// 2) is this a DML statement
// 3) we were asked to generate any needed joins (generateJoins==true) *OR*
// we are currently processing a select or from clause
// (an additional check is the regressionStyleJoinSuppression check solely intended for the test suite)
//
// The regressionStyleJoinSuppression is an additional check
// intended solely for use within the test suite. This forces the
// implicit join resolution to behave more like the classic parser.
// The underlying issue is that classic translator is simply wrong
// about its decisions on whether or not to render an implicit join
// into a physical SQL join in a lot of cases. The piece it generally
// tends to miss is that INNER joins effect the results by further
// restricting the data set! A particular manifestation of this is
// the fact that the classic translator will skip the physical join
// for ToOne implicit joins *if the query is shallow*; the result
// being that Query.list() and Query.iterate() could return
// different number of results!
DotNode parentAsDotNode = null;
String property = propertyName;
final boolean joinIsNeeded;
if ( isDotNode( parent ) ) {
// our parent is another dot node, meaning we are being further dereferenced.
// thus we need to generate a join unless the parent refers to the associated
// entity's PK (because 'our' table would know the FK).
parentAsDotNode = (DotNode) parent;
property = parentAsDotNode.propertyName;
joinIsNeeded = generateJoin && !isReferenceToPrimaryKey( parentAsDotNode.propertyName, entityType );
}
else if ( !getWalker().isSelectStatement() ) {
// in non-select queries, the only time we should need to join is if we are in a subquery from clause
joinIsNeeded = getWalker().getCurrentStatementType() == SqlTokenTypes.SELECT && getWalker().isInFrom();
}
else if ( regressionStyleJoinSuppression ) {
// this is the regression style determination which matches the logic of the classic translator
joinIsNeeded = generateJoin && ( !getWalker().isInSelect() || !getWalker().isShallowQuery() );
}
else if ( parentPredicate != null ) {
// Never generate a join when we compare entities directly
joinIsNeeded = generateJoin;
}
else {
joinIsNeeded = generateJoin || ( getWalker().isInSelect() || getWalker().isInFrom() );
}
if ( joinIsNeeded ) {
dereferenceEntityJoin( classAlias, entityType, implicitJoin, parent );
}
else {
dereferenceEntityIdentifier( property, parentAsDotNode );
}
}
private boolean isDotNode(AST n) {
return n != null && n.getType() == SqlTokenTypes.DOT;
}
private void dereferenceEntityJoin(String classAlias, EntityType propertyType, boolean impliedJoin, AST parent)
throws SemanticException {
dereferenceType = DereferenceType.ENTITY;
if ( LOG.isDebugEnabled() ) {
LOG.debugf(
"dereferenceEntityJoin() : generating join for %s in %s (%s) parent = %s",
propertyName,
getFromElement().getClassName(),
classAlias == null ? "" : classAlias,
ASTUtil.getDebugString( parent )
);
}
// Create a new FROM node for the referenced class.
String associatedEntityName = propertyType.getAssociatedEntityName();
String tableAlias = getAliasGenerator().createName( associatedEntityName );
String[] joinColumns = getColumns();
String joinPath = getPath();
if ( impliedJoin && getWalker().isInFrom() ) {
joinType = getWalker().getImpliedJoinType();
}
FromClause currentFromClause = getWalker().getCurrentFromClause();
FromElement elem = currentFromClause.findJoinByPath( joinPath );
///////////////////////////////////////////////////////////////////////////////
//
// This is the piece which recognizes the condition where an implicit join path
// resolved earlier in a correlated subquery is now being referenced in the
// outer query. For 3.0final, we just let this generate a second join (which
// is exactly how the old parser handles this). Eventually we need to add this
// logic back in and complete the logic in FromClause.promoteJoin; however,
// FromClause.promoteJoin has its own difficulties (see the comments in
// FromClause.promoteJoin).
//
// if ( elem == null ) {
// // see if this joinPath has been used in a "child" FromClause, and if so
// // promote that element to the outer query
// FromClause currentNodeOwner = getFromElement().getFromClause();
// FromClause currentJoinOwner = currentNodeOwner.locateChildFromClauseWithJoinByPath( joinPath );
// if ( currentJoinOwner != null && currentNodeOwner != currentJoinOwner ) {
// elem = currentJoinOwner.findJoinByPathLocal( joinPath );
// if ( elem != null ) {
// currentFromClause.promoteJoin( elem );
// // EARLY EXIT!!!
// return;
// }
// }
// }
//
///////////////////////////////////////////////////////////////////////////////
boolean found = elem != null;
// even though we might find a pre-existing element by join path, we may not be able to reuse it...
boolean useFoundFromElement = found && canReuse( classAlias, elem );
if ( !useFoundFromElement ) {
// If the lhs of the join is a "component join", we need to go back to the
// first non-component-join as the origin to properly link aliases and
// join columns
FromElement lhsFromElement = getLhs().getFromElement();
while ( lhsFromElement != null && ComponentJoin.class.isInstance( lhsFromElement ) ) {
lhsFromElement = lhsFromElement.getOrigin();
}
if ( lhsFromElement == null ) {
throw new QueryException( "Unable to locate appropriate lhs" );
}
String role = lhsFromElement.getClassName() + "." + propertyName;
JoinSequence joinSequence;
if ( joinColumns.length == 0 && lhsFromElement instanceof EntityQuerySpace ) {
// When no columns are available, this is a special join that involves multiple subtypes
String lhsTableAlias = getLhs().getFromElement().getTableAlias();
AbstractEntityPersister persister = (AbstractEntityPersister) lhsFromElement.getEntityPersister();
String[][] polyJoinColumns = persister.getPolymorphicJoinColumns(lhsTableAlias, propertyPath);
// Special join sequence that uses the poly join columns
joinSequence = getSessionFactoryHelper()
.createJoinSequence( impliedJoin, propertyType, tableAlias, joinType, polyJoinColumns );
}
else {
// If this is an implied join in a from element, then use the implied join type which is part of the
// tree parser's state (set by the grammar actions).
joinSequence = getSessionFactoryHelper()
.createJoinSequence( impliedJoin, propertyType, tableAlias, joinType, joinColumns );
}
FromElementFactory factory = new FromElementFactory(
currentFromClause,
lhsFromElement,
joinPath,
classAlias,
joinColumns,
impliedJoin
);
elem = factory.createEntityJoin(
associatedEntityName,
tableAlias,
joinSequence,
fetch,
getWalker().isInFrom(),
propertyType,
role,
joinPath
);
}
else {
// NOTE : addDuplicateAlias() already performs nullness checks on the alias.
currentFromClause.addDuplicateAlias( classAlias, elem );
}
setImpliedJoin( elem );
getWalker().addQuerySpaces( elem.getEntityPersister().getQuerySpaces() );
setFromElement( elem ); // This 'dot' expression now refers to the resulting from element.
}
private boolean canReuse(String classAlias, FromElement fromElement) {
// if the from-clauses are the same, we can be a little more aggressive in terms of what we reuse
if ( fromElement.getFromClause() == getWalker().getCurrentFromClause() &&
areSame( classAlias, fromElement.getClassAlias() )) {
return true;
}
// otherwise (subquery case) dont reuse the fromElement if we are processing the from-clause of the subquery
return getWalker().getCurrentClauseType() != SqlTokenTypes.FROM;
}
private boolean areSame(String alias1, String alias2) {
// again, null != null here
return !StringHelper.isEmpty( alias1 ) && !StringHelper.isEmpty( alias2 ) && alias1.equals( alias2 );
}
private void setImpliedJoin(FromElement elem) {
this.impliedJoin = elem;
if ( getFirstChild().getType() == SqlTokenTypes.DOT ) {
DotNode dotLhs = (DotNode) getFirstChild();
if ( dotLhs.getImpliedJoin() != null ) {
this.impliedJoin = dotLhs.getImpliedJoin();
}
}
}
@Override
public FromElement getImpliedJoin() {
return impliedJoin;
}
/**
* Is the given property name a reference to the primary key of the associated
* entity construed by the given entity type?
*
* For example, consider a fragment like order.customer.id
* (where order is a from-element alias). Here, we'd have:
* propertyName = "id" AND
* owningType = ManyToOneType(Customer)
* and are being asked to determine whether "customer.id" is a reference
* to customer's PK...
*
* @param propertyName The name of the property to check.
* @param owningType The type represeting the entity "owning" the property
*
* @return True if propertyName references the entity's (owningType->associatedEntity)
* primary key; false otherwise.
*/
private boolean isReferenceToPrimaryKey(String propertyName, EntityType owningType) {
EntityPersister persister = getSessionFactoryHelper()
.getFactory()
.getEntityPersister( owningType.getAssociatedEntityName() );
if ( persister.getEntityMetamodel().hasNonIdentifierPropertyNamedId() ) {
// only the identifier property field name can be a reference to the associated entity's PK...
return propertyName.equals( persister.getIdentifierPropertyName() ) && owningType.isReferenceToPrimaryKey();
}
// here, we have two possibilities:
// 1) the property-name matches the explicitly identifier property name
// 2) the property-name matches the implicit 'id' property name
// the referenced node text is the special 'id'
if ( EntityPersister.ENTITY_ID.equals( propertyName ) ) {
return owningType.isReferenceToPrimaryKey();
}
String keyPropertyName = getSessionFactoryHelper().getIdentifierOrUniqueKeyPropertyName( owningType );
return keyPropertyName != null && keyPropertyName.equals( propertyName ) && owningType.isReferenceToPrimaryKey();
}
private void checkForCorrelatedSubquery(String methodName) {
if ( isCorrelatedSubselect() ) {
LOG.debugf( "%s() : correlated subquery", methodName );
}
}
private boolean isCorrelatedSubselect() {
return getWalker().isSubQuery() &&
getFromElement().getFromClause() != getWalker().getCurrentFromClause();
}
private void checkLhsIsNotCollection() throws SemanticException {
if ( getLhs().getDataType() != null && getLhs().getDataType().isCollectionType() ) {
throw ILLEGAL_COLL_DEREF_EXCP_BUILDER.buildIllegalCollectionDereferenceException( propertyName, getLhs() );
}
}
private void dereferenceComponent(AST parent) {
dereferenceType = DereferenceType.COMPONENT;
setPropertyNameAndPath( parent );
}
private void dereferenceEntityIdentifier(String propertyName, DotNode dotParent) {
// special shortcut for id properties, skip the join!
// this must only occur at the _end_ of a path expression
if ( LOG.isDebugEnabled() ) {
LOG.debugf(
"dereferenceShortcut() : property %s in %s does not require a join.",
propertyName,
getFromElement().getClassName()
);
}
initText();
setPropertyNameAndPath( dotParent ); // Set the unresolved path in this node and the parent.
// Set the text for the parent.
if ( dotParent != null ) {
dotParent.dereferenceType = DereferenceType.IDENTIFIER;
dotParent.setText( getText() );
dotParent.columns = getColumns();
}
}
private void setPropertyNameAndPath(AST parent) {
if ( isDotNode( parent ) ) {
DotNode dotNode = (DotNode) parent;
AST lhs = dotNode.getFirstChild();
AST rhs = lhs.getNextSibling();
propertyName = rhs.getText();
propertyPath = propertyPath + "." + propertyName; // Append the new property name onto the unresolved path.
dotNode.propertyPath = propertyPath;
LOG.debugf( "Unresolved property path is now '%s'", dotNode.propertyPath );
}
else {
LOG.debugf( "Terminal getPropertyPath = [%s]", propertyPath );
}
}
@Override
public Type getDataType() {
if ( super.getDataType() == null ) {
FromElement fromElement = getLhs().getFromElement();
if ( fromElement == null ) {
return null;
}
// If the lhs is a collection, use CollectionPropertyMapping
Type propertyType = fromElement.getPropertyType( propertyName, propertyPath );
LOG.debugf( "getDataType() : %s -> %s", propertyPath, propertyType );
super.setDataType( propertyType );
}
return super.getDataType();
}
public void setPropertyPath(String propertyPath) {
this.propertyPath = propertyPath;
}
public String getPropertyPath() {
return propertyPath;
}
public FromReferenceNode getLhs() {
FromReferenceNode lhs = ( (FromReferenceNode) getFirstChild() );
if ( lhs == null ) {
throw new IllegalStateException( "DOT node with no left-hand-side!" );
}
return lhs;
}
/**
* Returns the full path of the node.
*
* @return the full path of the node.
*/
@Override
public String getPath() {
if ( path == null ) {
FromReferenceNode lhs = getLhs();
if ( lhs == null ) {
path = getText();
}
else {
SqlNode rhs = (SqlNode) lhs.getNextSibling();
path = lhs.getPath() + "." + rhs.getOriginalText();
}
}
return path;
}
public void setFetch(boolean fetch) {
this.fetch = fetch;
}
public void setScalarColumnText(int i) throws SemanticException {
String[] sqlColumns = getColumns();
ColumnHelper.generateScalarColumns( this, sqlColumns, i );
}
/**
* Special method to resolve expressions in the SELECT list.
*
* @throws SemanticException if this cannot be resolved.
*/
public void resolveSelectExpression() throws SemanticException {
if ( getWalker().isShallowQuery() || getWalker().getCurrentFromClause().isSubQuery() ) {
resolve( false, true );
}
else {
resolve( true, false );
Type type = getDataType();
if ( type.isEntityType() ) {
FromElement fromElement = getFromElement();
fromElement.setIncludeSubclasses( true ); // Tell the destination fromElement to 'includeSubclasses'.
if ( useThetaStyleImplicitJoins ) {
fromElement.getJoinSequence().setUseThetaStyle( true ); // Use theta style (for regression)
// Move the node up, after the origin node.
FromElement origin = fromElement.getOrigin();
if ( origin != null ) {
ASTUtil.makeSiblingOfParent( origin, fromElement );
}
}
}
}
FromReferenceNode lhs = getLhs();
while ( lhs != null ) {
checkSubclassOrSuperclassPropertyReference( lhs, lhs.getNextSibling().getText() );
lhs = (FromReferenceNode) lhs.getFirstChild();
}
}
public void setResolvedConstant(String text) {
path = text;
dereferenceType = DereferenceType.JAVA_CONSTANT;
setResolved(); // Don't resolve the node again.
}
private boolean checkSubclassOrSuperclassPropertyReference(FromReferenceNode lhs, String propertyName) {
if ( lhs != null && !( lhs instanceof IndexNode ) ) {
final FromElement source = lhs.getFromElement();
if ( source != null ) {
source.handlePropertyBeingDereferenced( lhs.getDataType(), propertyName );
}
}
return false;
}
}