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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.openjpa.jdbc.meta;
import java.sql.SQLException;
import java.util.List;
import org.apache.openjpa.enhance.PersistenceCapable;
import org.apache.openjpa.enhance.Reflection;
import org.apache.openjpa.jdbc.identifier.DBIdentifier;
import org.apache.openjpa.jdbc.kernel.JDBCFetchConfiguration;
import org.apache.openjpa.jdbc.kernel.JDBCStore;
import org.apache.openjpa.jdbc.meta.strats.NoneFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.PrimitiveFieldStrategy;
import org.apache.openjpa.jdbc.schema.Column;
import org.apache.openjpa.jdbc.schema.ColumnIO;
import org.apache.openjpa.jdbc.schema.ForeignKey;
import org.apache.openjpa.jdbc.schema.Index;
import org.apache.openjpa.jdbc.schema.Table;
import org.apache.openjpa.jdbc.schema.Unique;
import org.apache.openjpa.jdbc.sql.Joins;
import org.apache.openjpa.jdbc.sql.Result;
import org.apache.openjpa.jdbc.sql.Row;
import org.apache.openjpa.jdbc.sql.RowManager;
import org.apache.openjpa.jdbc.sql.SQLBuffer;
import org.apache.openjpa.jdbc.sql.Select;
import org.apache.openjpa.jdbc.sql.SelectExecutor;
import org.apache.openjpa.kernel.FetchConfiguration;
import org.apache.openjpa.kernel.OpenJPAStateManager;
import org.apache.openjpa.kernel.StateManagerImpl;
import org.apache.openjpa.lib.log.Log;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.util.ApplicationIds;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.MetaDataException;
import org.apache.openjpa.util.ObjectId;
/**
* Specialization of metadata for relational databases.
*
* @author Abe White
*/
@SuppressWarnings("serial")
public class FieldMapping
extends FieldMetaData
implements ValueMapping, FieldStrategy {
private static final Localizer _loc = Localizer.forPackage
(FieldMapping.class);
private final ValueMapping _val;
private final ValueMapping _key;
private final ValueMapping _elem;
private final FieldMappingInfo _info;
private final JDBCColumnOrder _orderCol = new JDBCColumnOrder();
private FieldStrategy _strategy = null;
private ForeignKey _fk = null;
private ColumnIO _io = null;
private Unique _unq = null;
private Index _idx = null;
private boolean _outer = false;
private int _fetchMode = Integer.MAX_VALUE;
private Unique[] _joinTableUniques; // Unique constraints on JoinTable
private Boolean _bidirectionalJoinTableOwner = null;
private Boolean _bidirectionalJoinTableNonOwner = null;
private Boolean _bi_MTo1_JT = null;
private Boolean _uni_1ToM_FK = null;
private Boolean _uni_MTo1_JT = null;
private Boolean _uni_1To1_JT = null;
private Boolean _bi_1To1_JT = null;
private FieldMapping _bi_1ToM_JT_Field = null;
private FieldMapping _bi_MTo1_JT_Field = null;
private ForeignKey _bi_1ToM_Join_FK = null;
private ForeignKey _bi_1ToM_Elem_FK = null;
private boolean _hasMapsIdCols = false;
/**
* Constructor.
*/
public FieldMapping(String name, Class> type, ClassMapping owner) {
super(name, type, owner);
_info = owner.getMappingRepository().newMappingInfo(this);
_val = (ValueMapping) getValue();
_key = (ValueMapping) getKey();
_elem = (ValueMapping) getElement();
setUsesIntermediate(false);
setUsesImplData(Boolean.FALSE);
}
///////
// ORM
///////
/**
* Raw mapping data about field's join to parent table, as well as
* miscellaneous specialized columns like order column.
*/
public FieldMappingInfo getMappingInfo() {
return _info;
}
/**
* The strategy used to map this mapping.
*/
public FieldStrategy getStrategy() {
return _strategy;
}
/**
* The strategy used to map this mapping. The adapt
* parameter determines whether to adapt when mapping the strategy;
* use null if the strategy should not be mapped.
*/
public void setStrategy(FieldStrategy strategy, Boolean adapt) {
// set strategy first so we can access it during mapping
FieldStrategy orig = _strategy;
_strategy = strategy;
if (strategy != null) {
try {
strategy.setFieldMapping(this);
if (adapt != null)
strategy.map(adapt.booleanValue());
} catch (RuntimeException re) {
// reset strategy
_strategy = orig;
throw re;
}
// if set to unmapped, clear defined field cache in parent
if (!isMapped())
getDefiningMapping().clearDefinedFieldCache();
}
}
/**
* The mapping's primary table.
*/
public Table getTable() {
if (_fk != null)
return _fk.getTable();
if (_val.getForeignKey() != null)
return _val.getForeignKey().getTable();
// if this is a map of bi-directional relation,
// the column of this field should be in the table
// of the entity that is the value of the map
if (_val.getDeclaredTypeCode() == JavaTypes.MAP) {
ClassMapping meta = _elem.getDeclaredTypeMapping();
if (meta != null)
return meta.getTable();
}
ValueMappingImpl vm = (ValueMappingImpl)getDefiningMapping().
getEmbeddingMetaData();
if (vm != null && vm.getValueMappedBy() != null) {
return vm.getFieldMapping().getElementMapping().
getDeclaredTypeMapping().getTable();
}
return getDefiningMapping().getTable();
}
/**
* I/O information on the join columns.
*/
public ColumnIO getJoinColumnIO() {
return (_io == null) ? ColumnIO.UNRESTRICTED : _io;
}
/**
* I/O information on the join columns.
*/
public void setJoinColumnIO(ColumnIO io) {
_io = io;
}
/**
* Foreign key linking the field table to the class' primary table.
*/
public ForeignKey getJoinForeignKey() {
return _fk;
}
/**
* Foreign key linking the field table to the class' primary table.
*/
public void setJoinForeignKey(ForeignKey fk) {
_fk = fk;
}
/**
* Unique constraint on join foreign key columns.
*/
public Unique getJoinUnique() {
return _unq;
}
/**
* Unique constraint on join foreign key columns.
*/
public void setJoinUnique(Unique unq) {
_unq = unq;
}
public Unique[] getJoinTableUniques() {
return _joinTableUniques;
}
public void setJoinTableUniques(Unique[] unqs) {
_joinTableUniques = unqs;
}
/**
* Index on join foreign key columns.
*/
public Index getJoinIndex() {
return _idx;
}
/**
* Index on join foreign key columns.
*/
public void setJoinIndex(Index idx) {
_idx = idx;
}
/**
* Whether to use an outer join from the class' primary table.
*/
public boolean isJoinOuter() {
return _outer;
}
/**
* Whether to use an outer join from the class' primary table.
*/
public void setJoinOuter(boolean outer) {
_outer = outer;
}
/**
* Field order column, if any.
*/
public Column getOrderColumn() {
return _orderCol.getColumn();
}
/**
* Field order column, if any.
*/
public void setOrderColumn(Column order) {
_orderCol.setColumn(order);
}
/**
* I/O information for order column.
*/
public ColumnIO getOrderColumnIO() {
return _orderCol.getColumnIO();
}
/**
* I/O information for order column.
*/
public void setOrderColumnIO(ColumnIO io) {
_orderCol.setColumnIO(io);
}
/**
* Increment the reference count of used schema components.
*/
public void refSchemaComponents() {
if (_fk != null) {
_fk.ref();
_fk.refColumns();
}
if (_orderCol.getColumn() != null)
_orderCol.getColumn().ref();
_val.refSchemaComponents();
_key.refSchemaComponents();
_elem.refSchemaComponents();
if (_joinTableUniques != null) {
for (Unique joinUnique : _joinTableUniques) {
for (Column col : joinUnique.getColumns()) {
col.ref();
}
}
}
}
/**
* Clear mapping information, including strategy.
*/
public void clearMapping() {
_strategy = null;
_fk = null;
_unq = null;
_idx = null;
_outer = false;
_orderCol.setColumn(null);
_val.clearMapping();
_key.clearMapping();
_elem.clearMapping();
_info.clear();
setResolve(MODE_MAPPING, false);
}
/**
* Update {@link MappingInfo} with our current mapping information.
*/
public void syncMappingInfo() {
if (isVersion()) {
// we rely on the fact that the version will setup our mapping
// info correctly when it is synced
} else if (getMappedByMapping() != null) {
_info.clear();
_val.getValueInfo().clear();
_key.getValueInfo().clear();
_elem.getValueInfo().clear();
FieldMapping mapped = getMappedByMapping();
_info.syncStrategy(this);
if (_orderCol.getColumn() != null
&& mapped.getOrderColumn() == null)
_info.syncOrderColumn(this);
_val.getValueInfo().setUseClassCriteria
(_val.getUseClassCriteria());
_key.getValueInfo().setUseClassCriteria
(_key.getUseClassCriteria());
_elem.getValueInfo().setUseClassCriteria
(_elem.getUseClassCriteria());
} else {
_info.syncWith(this);
_val.syncMappingInfo();
_key.syncMappingInfo();
_elem.syncMappingInfo();
}
}
/**
* Returns true if field class does not use the "none" strategy (including
* if it has a null strategy, and therefore is probably in the process of
* being mapped).
*/
public boolean isMapped() {
return _strategy != NoneFieldStrategy.getInstance();
}
//////////////////////
// MetaData interface
//////////////////////
/**
* The eager fetch mode, as one of the eager constants in
* {@link JDBCFetchConfiguration}.
*/
public int getEagerFetchMode() {
if (_fetchMode == Integer.MAX_VALUE)
_fetchMode = FetchConfiguration.DEFAULT;
return _fetchMode;
}
/**
* The eager fetch mode, as one of the eager constants in
* {@link JDBCFetchConfiguration}.
*/
public void setEagerFetchMode(int mode) {
_fetchMode = mode;
}
/**
* Convenience method to perform cast from
* {@link FieldMetaData#getRepository}
*/
public MappingRepository getMappingRepository() {
return (MappingRepository) getRepository();
}
/**
* Convenience method to perform cast from
* {@link FieldMetaData#getDefiningMetaData}
*/
public ClassMapping getDefiningMapping() {
return (ClassMapping) getDefiningMetaData();
}
/**
* Convenience method to perform cast from
* {@link FieldMetaData#getDeclaringMetaData}
*/
public ClassMapping getDeclaringMapping() {
return (ClassMapping) getDeclaringMetaData();
}
/**
* Convenience method to perform cast from {@link FieldMetaData#getKey}
*/
public ValueMapping getKeyMapping() {
return _key;
}
/**
* Convenience method to perform cast from {@link FieldMetaData#getElement}
*/
public ValueMapping getElementMapping() {
return _elem;
}
/**
* Convenience method to perform cast from {@link FieldMetaData#getValue}
*/
public ValueMapping getValueMapping() {
return (ValueMapping) getValue();
}
/**
* Convenience method to perform cast from
* {@link FieldMetaData#getMappedByMetaData}
*/
public FieldMapping getMappedByMapping() {
return (FieldMapping) getMappedByMetaData();
}
/**
* Convenience method to perform cast from
* {@link FieldMetaData#getInverseMetaDatas}
*/
public FieldMapping[] getInverseMappings() {
return (FieldMapping[]) getInverseMetaDatas();
}
public boolean resolve(int mode) {
int cur = getResolve();
if (super.resolve(mode))
return true;
if ((mode & MODE_MAPPING) != 0 && (cur & MODE_MAPPING) == 0)
resolveMapping();
if ((mode & MODE_MAPPING_INIT) != 0 && (cur & MODE_MAPPING_INIT) == 0)
initializeMapping();
return false;
}
/**
* Resolve the mapping information for this field.
*/
private void resolveMapping() {
MappingRepository repos = getMappingRepository();
if (repos.getMappingDefaults().defaultMissingInfo()) {
// copy embedded template mapping info
ClassMapping cls = getDefiningMapping();
if (cls.getEmbeddingMapping() != null) {
ClassMapping orig = repos.getMapping(cls.getDescribedType(),
cls.getEnvClassLoader(), true);
FieldMapping tmplate = orig.getFieldMapping(getName());
if (tmplate != null)
copyMappingInfo(tmplate);
}
// copy superclass field info
else if (cls.isMapped() && cls.getPCSuperclass() != null
&& cls.getDescribedType() != getDeclaringType()) {
FieldMapping sup = cls.getPCSuperclassMapping().
getFieldMapping(getName());
if (sup != null)
copyMappingInfo(sup);
}
}
if (_strategy == null) {
if (isVersion())
_strategy = NoneFieldStrategy.getInstance();
else
repos.getStrategyInstaller().installStrategy(this);
}
Log log = getRepository().getLog();
if (log.isTraceEnabled())
log.trace(_loc.get("field-strategy", getName(),
_strategy.getAlias()));
// mark mapped columns
if (_orderCol.getColumn() != null) {
if (getOrderColumnIO().isInsertable(0, false))
_orderCol.getColumn().setFlag(Column.FLAG_DIRECT_INSERT, true);
if (getOrderColumnIO().isUpdatable(0, false))
_orderCol.getColumn().setFlag(Column.FLAG_DIRECT_UPDATE, true);
}
if (_fk != null) {
Column[] cols = _fk.getColumns();
ColumnIO io = getJoinColumnIO();
for (int i = 0; i < cols.length; i++) {
if (io.isInsertable(i, false))
cols[i].setFlag(Column.FLAG_FK_INSERT, true);
if (io.isUpdatable(i, false))
cols[i].setFlag(Column.FLAG_FK_UPDATE, true);
}
}
_val.resolve(MODE_MAPPING);
_key.resolve(MODE_MAPPING);
_elem.resolve(MODE_MAPPING);
}
/**
* Copy mapping info from the given instance to this one.
*/
public void copyMappingInfo(FieldMapping fm) {
setMappedBy(fm.getMappedBy());
_info.copy(fm.getMappingInfo());
_val.copyMappingInfo(fm.getValueMapping());
_key.copyMappingInfo(fm.getKeyMapping());
_elem.copyMappingInfo(fm.getElementMapping());
}
/**
* Prepare mapping for runtime use.
*/
private void initializeMapping() {
_val.resolve(MODE_MAPPING_INIT);
_key.resolve(MODE_MAPPING_INIT);
_elem.resolve(MODE_MAPPING_INIT);
if (_strategy != null)
_strategy.initialize();
}
public void copy(FieldMetaData fmd) {
super.copy(fmd);
if (_fetchMode == Integer.MAX_VALUE)
_fetchMode = ((FieldMapping) fmd).getEagerFetchMode();
}
protected boolean validateDataStoreExtensionPrefix(String prefix) {
return "jdbc-".equals(prefix);
}
////////////////////////////////
// FieldStrategy implementation
////////////////////////////////
public String getAlias() {
return assertStrategy().getAlias();
}
public void map(boolean adapt) {
assertStrategy().map(adapt);
}
/**
* Map this field to its table, optionally requiring that it be
* in another table. Utility method for use by mapping strategies.
*/
public void mapJoin(boolean adapt, boolean joinRequired) {
Table table = _info.getTable(this, joinRequired, adapt);
if(table != null && table.equals(getDefiningMapping().getTable())) {
// Don't create a join if the field's table is the same as the
// class's table.
table = null;
}
ForeignKey join = null;
if (table != null)
join = _info.getJoin(this, table, adapt);
if (join == null && joinRequired)
throw new MetaDataException(_loc.get("join-required", this));
if (join == null) {
_info.assertNoJoin(this, true);
_info.assertNoForeignKey(this, !adapt);
_info.assertNoUnique(this, !adapt);
_info.assertNoIndex(this, !adapt);
} else {
_fk = join;
_io = _info.getColumnIO();
_outer = _info.isJoinOuter();
_unq = _info.getJoinUnique(this, false, adapt);
_joinTableUniques = _info.getJoinTableUniques(this, false, adapt);
_idx = _info.getJoinIndex(this, adapt);
table.setAssociation();
}
}
/**
* Maps the primary key on the secondary table for this field, if the
* user's defaults create one. This must be called after
* this field is mapped so that it's table has its columns set.
*/
public void mapPrimaryKey(boolean adapt) {
if (adapt && _fk != null && _fk.getTable().getPrimaryKey() == null)
getMappingRepository().getMappingDefaults().
installPrimaryKey(this, _fk.getTable());
}
public void initialize() {
assertStrategy().initialize();
}
public void insert(OpenJPAStateManager sm, JDBCStore store, RowManager rm)
throws SQLException {
setPKValueFromMappedByIdField(sm);
assertStrategy().insert(sm, store, rm);
}
private void setPKValueFromMappedByIdField(OpenJPAStateManager sm) {
if (sm instanceof StateManagerImpl) {
List mappedByIdFields = ((StateManagerImpl)sm).
getMappedByIdFields();
if (mappedByIdFields == null)
return;
if (!mappedByIdFields.contains(this))
return;
if (!isMappedById())
return;
PersistenceCapable pc = (PersistenceCapable)sm.
fetchObject(getIndex());
if (pc == null)
return;
StateManagerImpl pkSm = (StateManagerImpl)pc.
pcGetStateManager();
Object pkVal = getPKValue(pkSm);
if (pkVal == null)
return;
setPKValue((StateManagerImpl)sm, pkVal);
sm.setObjectId(
ApplicationIds.create(sm.getPersistenceCapable(),
sm.getMetaData()));
}
}
private Object getPKValue(StateManagerImpl pkSm) {
ClassMetaData pkMeta = pkSm.getMetaData();
FieldMetaData[] fmds = pkMeta.getPrimaryKeyFields();
// MappedById is for single value primary key or embeddable id
if (fmds.length == 0)
return null;
else
return ApplicationIds.getKey(pkSm.getObjectId(), pkMeta);
}
private void setPKValue(StateManagerImpl sm, Object pkVal) {
ClassMetaData meta = sm.getMetaData();
FieldMetaData[] fmds = meta.getPrimaryKeyFields();
if (fmds.length == 0)
return;
Strategy strat = ((FieldMapping)fmds[0]).getStrategy();
// single value primary key
if (strat instanceof PrimitiveFieldStrategy)
((PrimitiveFieldStrategy)strat).setAutoAssignedValue(sm, null, null,
pkVal);
else {
//composite key
String mappedByIdFieldName = getMappedByIdValue();
if (mappedByIdFieldName != null &&
mappedByIdFieldName.length() > 0) {
//The name of the attribute within the composite key to which
//the relationship attribute corresponds.
Object target = ((ObjectId)sm.getObjectId()).getId();
if (target == null)
return;
setMappedByIdValue(target, pkVal, mappedByIdFieldName);
pkVal = target;
}
sm.storeObjectField(fmds[0].getIndex(), pkVal);
}
}
public void setMappedByIdValue(Object target,
Object val, String mappedByIdFieldName) {
Reflection.set(target,
Reflection.findField(target.getClass(), mappedByIdFieldName, true),
val);
}
public void update(OpenJPAStateManager sm, JDBCStore store, RowManager rm)
throws SQLException {
assertStrategy().update(sm, store, rm);
}
public void delete(OpenJPAStateManager sm, JDBCStore store, RowManager rm)
throws SQLException {
assertStrategy().delete(sm, store, rm);
}
/**
* Delete the row for this object if the reference foreign key exists.
* Utility method for use by mapping strategies.
*/
public void deleteRow(OpenJPAStateManager sm, JDBCStore store,
RowManager rm)
throws SQLException {
if (_fk != null) {
Row row = rm.getRow(getTable(), Row.ACTION_DELETE, sm, true);
row.whereForeignKey(_fk, sm);
}
}
/**
* Return the row to use for this field. This method is meant only for
* single-value fields that might reside in a table that is joined to
* the primary table through the join foreign key. It is not
* meant for multi-valued fields like collections and maps. The method
* checks whether we're using an outer join and if so it deletes the
* field's previous value, then if the field is non-null returns an insert
* row for the new value. The join foreign key will already be set on
* the returned row; mapping strategies just need to set their own values.
* Utility method for use by mapping strategies.
*/
public Row getRow(OpenJPAStateManager sm, JDBCStore store, RowManager rm,
int action)
throws SQLException {
Row row = null;
boolean newOuterRow = false;
if (_fk != null && _outer && action != Row.ACTION_DELETE) {
// if updating with outer join, delete old value first, then insert;
// we can't just update b/c the row might not exist
if (action == Row.ACTION_UPDATE) {
// maybe some other field already is updating?
row = rm.getRow(getTable(), Row.ACTION_UPDATE, sm, false);
if (row == null) {
Row del = rm.getRow(getTable(), Row.ACTION_DELETE, sm,
true);
del.whereForeignKey(_fk, sm);
}
} else
row = rm.getRow(getTable(), Row.ACTION_INSERT, sm, false);
// only update/insert if the row exists already or the value is
// not null/default
if (row == null && !isNullValue(sm)) {
row = rm.getRow(getTable(), Row.ACTION_INSERT, sm, true);
newOuterRow = true;
}
} else
row = rm.getRow(getTable(), action, sm, true);
// setup fk
if (row != null && _fk != null) {
if (row.getAction() == Row.ACTION_INSERT)
row.setForeignKey(_fk, _io, sm);
else
row.whereForeignKey(_fk, sm);
// if this is a new outer joined row, mark it invalid until
// some mapping actually sets information on it
if (newOuterRow)
row.setValid(false);
}
return row;
}
/**
* Return true if this field is null/default in the given instance.
*/
private boolean isNullValue(OpenJPAStateManager sm) {
switch (getTypeCode()) {
case JavaTypes.BOOLEAN:
return !sm.fetchBoolean(getIndex());
case JavaTypes.BYTE:
return sm.fetchByte(getIndex()) == 0;
case JavaTypes.CHAR:
return sm.fetchChar(getIndex()) == 0;
case JavaTypes.DOUBLE:
return sm.fetchDouble(getIndex()) == 0;
case JavaTypes.FLOAT:
return sm.fetchFloat(getIndex()) == 0;
case JavaTypes.INT:
return sm.fetchInt(getIndex()) == 0;
case JavaTypes.LONG:
return sm.fetchLong(getIndex()) == 0;
case JavaTypes.SHORT:
return sm.fetchShort(getIndex()) == 0;
case JavaTypes.STRING:
return sm.fetchString(getIndex()) == null;
default:
return sm.fetchObject(getIndex()) == null;
}
}
public Boolean isCustomInsert(OpenJPAStateManager sm, JDBCStore store) {
return assertStrategy().isCustomInsert(sm, store);
}
public Boolean isCustomUpdate(OpenJPAStateManager sm, JDBCStore store) {
return assertStrategy().isCustomUpdate(sm, store);
}
public Boolean isCustomDelete(OpenJPAStateManager sm, JDBCStore store) {
return assertStrategy().isCustomDelete(sm, store);
}
public void customInsert(OpenJPAStateManager sm, JDBCStore store)
throws SQLException {
assertStrategy().customInsert(sm, store);
}
public void customUpdate(OpenJPAStateManager sm, JDBCStore store)
throws SQLException {
assertStrategy().customUpdate(sm, store);
}
public void customDelete(OpenJPAStateManager sm, JDBCStore store)
throws SQLException {
assertStrategy().customDelete(sm, store);
}
public void setFieldMapping(FieldMapping owner) {
assertStrategy().setFieldMapping(owner);
}
public int supportsSelect(Select sel, int type, OpenJPAStateManager sm,
JDBCStore store, JDBCFetchConfiguration fetch) {
return assertStrategy().supportsSelect(sel, type, sm, store, fetch);
}
public void selectEagerParallel(SelectExecutor sel, OpenJPAStateManager sm,
JDBCStore store, JDBCFetchConfiguration fetch, int eagerMode) {
assertStrategy().selectEagerParallel(sel, sm, store, fetch, eagerMode);
}
public void selectEagerJoin(Select sel, OpenJPAStateManager sm,
JDBCStore store, JDBCFetchConfiguration fetch, int eagerMode) {
assertStrategy().selectEagerJoin(sel, sm, store, fetch, eagerMode);
}
public boolean isEagerSelectToMany() {
return assertStrategy().isEagerSelectToMany();
}
public int select(Select sel, OpenJPAStateManager sm, JDBCStore store,
JDBCFetchConfiguration fetch, int eagerMode) {
return assertStrategy().select(sel, sm, store, fetch, eagerMode);
}
/**
* Return any joins needed to get from the primary table to this table.
*/
public Joins join(Select sel) {
if (_fk == null)
return null;
Joins joins = sel.newJoins();
if (_outer)
return joins.outerJoin(_fk, true, false);
return joins.join(_fk, true, false);
}
/**
* Add a wherePrimaryKey or whereForeignKey
* condition to the given select, depending on whether we have a join
* foreign key.
*/
public void wherePrimaryKey(Select sel, OpenJPAStateManager sm,
JDBCStore store) {
if (_fk != null)
sel.whereForeignKey(_fk, sm.getObjectId(), getDefiningMapping(),
store);
else
sel.wherePrimaryKey(sm.getObjectId(), getDefiningMapping(),
store);
}
/**
* Add ordering to the given select for all non-relation order values,
* including the synthetic order column, if any.
*
* @param elem the related type we're fetching, or null
* @param joins the joins to this field's table
*/
public void orderLocal(Select sel, ClassMapping elem, Joins joins) {
_orderCol.order(sel, elem, joins);
JDBCOrder[] orders = (JDBCOrder[]) getOrders();
for (int i = 0; i < orders.length; i++)
if (!orders[i].isInRelation())
orders[i].order(sel, elem, joins);
}
/**
* Add ordering to the given select for all relation-based values.
*
* @param elem the related type we're fetching
* @param joins the joins across the relation
*/
public void orderRelation(Select sel, ClassMapping elem, Joins joins) {
JDBCOrder[] orders = (JDBCOrder[]) getOrders();
for (int i = 0; i < orders.length; i++)
if (orders[i].isInRelation())
orders[i].order(sel, elem, joins);
}
public Object loadEagerParallel(OpenJPAStateManager sm, JDBCStore store,
JDBCFetchConfiguration fetch, Object res)
throws SQLException {
return assertStrategy().loadEagerParallel(sm, store, fetch, res);
}
public void loadEagerJoin(OpenJPAStateManager sm, JDBCStore store,
JDBCFetchConfiguration fetch, Result res)
throws SQLException {
assertStrategy().loadEagerJoin(sm, store, fetch, res);
}
public void load(OpenJPAStateManager sm, JDBCStore store,
JDBCFetchConfiguration fetch, Result res)
throws SQLException {
assertStrategy().load(sm, store, fetch, res);
}
public void load(OpenJPAStateManager sm, JDBCStore store,
JDBCFetchConfiguration fetch)
throws SQLException {
assertStrategy().load(sm, store, fetch);
}
public Object toDataStoreValue(Object val, JDBCStore store) {
return assertStrategy().toDataStoreValue(val, store);
}
public Object toKeyDataStoreValue(Object val, JDBCStore store) {
return assertStrategy().toKeyDataStoreValue(val, store);
}
public void appendIsEmpty(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendIsEmpty(sql, sel, joins);
}
public void appendIsNotEmpty(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendIsNotEmpty(sql, sel, joins);
}
public void appendIsNull(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendIsNull(sql, sel, joins);
}
public void appendIsNotNull(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendIsNotNull(sql, sel, joins);
}
public void appendSize(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendSize(sql, sel, joins);
}
public void appendIndex(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendIndex(sql, sel, joins);
}
public void appendType(SQLBuffer sql, Select sel, Joins joins) {
assertStrategy().appendType(sql, sel, joins);
}
public Joins join(Joins joins, boolean forceOuter) {
return assertStrategy().join(joins, forceOuter);
}
public Joins joinKey(Joins joins, boolean forceOuter) {
return assertStrategy().joinKey(joins, forceOuter);
}
public Joins joinRelation(Joins joins, boolean forceOuter,
boolean traverse) {
return assertStrategy().joinRelation(joins, forceOuter, traverse);
}
public Joins joinKeyRelation(Joins joins, boolean forceOuter,
boolean traverse) {
return assertStrategy().joinKeyRelation(joins, forceOuter, traverse);
}
/**
* Joins from the owning class' table to the table where this field lies
* using the join foreign key. Utility method for use by mapping strategies.
*/
public Joins join(Joins joins, boolean forceOuter, boolean toMany) {
if (_fk == null)
return joins;
if (_outer || forceOuter)
return joins.outerJoin(_fk, true, toMany);
return joins.join(_fk, true, toMany);
}
public Object loadProjection(JDBCStore store, JDBCFetchConfiguration fetch,
Result res, Joins joins)
throws SQLException {
// OPENJPA-662: Version fields have NoneFieldStrategy -- hence they
// need special treatment
if (isVersion()) {
return getDefiningMapping().getVersion().load(null, store, res, joins);
}
return assertStrategy().loadProjection(store, fetch, res, joins);
}
public Object loadKeyProjection(JDBCStore store,
JDBCFetchConfiguration fetch, Result res, Joins joins)
throws SQLException {
return assertStrategy()
.loadKeyProjection(store, fetch, res, joins);
}
public boolean isVersionable() {
return assertStrategy().isVersionable();
}
public void where(OpenJPAStateManager sm, JDBCStore store, RowManager rm,
Object prevValue)
throws SQLException {
assertStrategy().where(sm, store, rm, prevValue);
}
private FieldStrategy assertStrategy() {
if (_strategy == null)
throw new InternalException();
return _strategy;
}
///////////////////////////////
// ValueMapping implementation
///////////////////////////////
public ValueMappingInfo getValueInfo() {
return _val.getValueInfo();
}
public ValueHandler getHandler() {
return _val.getHandler();
}
public void setHandler(ValueHandler handler) {
_val.setHandler(handler);
}
public FieldMapping getFieldMapping() {
return this;
}
public ClassMapping getTypeMapping() {
return _val.getTypeMapping();
}
public ClassMapping getDeclaredTypeMapping() {
return _val.getDeclaredTypeMapping();
}
public ClassMapping getEmbeddedMapping() {
return _val.getEmbeddedMapping();
}
public FieldMapping getValueMappedByMapping() {
return _val.getValueMappedByMapping();
}
public Column[] getColumns() {
// pcl: 6 July 2007: this seems a bit hacky, but if the mapping is a
// version, it will have a NoneFieldMapping (since the version strategy
// for the class takes care of it's mapping), and NoneFieldStrategies
// do not have columns.
//
// rgc : 2 March 2011 : Still hacky. If the version field is in a mapped super class we need to look
// at the defining metadata to find the correct Version. Not sure why the version for the declaring metadata
// is different than the defining metadata.
if (isVersion()){
ClassMapping cm = (ClassMapping)((FieldMetaData)this).getDefiningMetaData();
return cm.getVersion().getColumns();
}else
return _val.getColumns();
}
public void setColumns(Column[] cols) {
_val.setColumns(cols);
}
public ColumnIO getColumnIO() {
return _val.getColumnIO();
}
public void setColumnIO(ColumnIO io) {
_val.setColumnIO(io);
}
public ForeignKey getForeignKey() {
return _val.getForeignKey();
}
public ForeignKey getForeignKey(ClassMapping target) {
return _val.getForeignKey(target);
}
public void setForeignKey(ForeignKey fk) {
_val.setForeignKey(fk);
}
public int getJoinDirection() {
return _val.getJoinDirection();
}
public void setJoinDirection(int direction) {
_val.setJoinDirection(direction);
}
public void setForeignKey(Row row, OpenJPAStateManager sm)
throws SQLException {
_val.setForeignKey(row, sm);
}
public void setForeignKey(Row row, OpenJPAStateManager sm, int targetNumber)
throws SQLException {
_val.setForeignKey(row, sm, targetNumber);
}
public void whereForeignKey(Row row, OpenJPAStateManager sm)
throws SQLException {
_val.whereForeignKey(row, sm);
}
public ClassMapping[] getIndependentTypeMappings() {
return _val.getIndependentTypeMappings();
}
public int getSelectSubclasses() {
return _val.getSelectSubclasses();
}
public Unique getValueUnique() {
return _val.getValueUnique();
}
public void setValueUnique(Unique unq) {
_val.setValueUnique(unq);
}
public Index getValueIndex() {
return _val.getValueIndex();
}
public void setValueIndex(Index idx) {
_val.setValueIndex(idx);
}
public boolean getUseClassCriteria() {
return _val.getUseClassCriteria();
}
public void setUseClassCriteria(boolean criteria) {
_val.setUseClassCriteria(criteria);
}
public int getPolymorphic() {
return _val.getPolymorphic();
}
public void setPolymorphic(int poly) {
_val.setPolymorphic(poly);
}
/**
* @deprecated
*/
public void mapConstraints(String name, boolean adapt) {
_val.mapConstraints(name, adapt);
}
public void mapConstraints(DBIdentifier name, boolean adapt) {
_val.mapConstraints(name, adapt);
}
public void copyMappingInfo(ValueMapping vm) {
_val.copyMappingInfo(vm);
}
/**
* Affirms if this field is the owning side of a bidirectional relation
* with a join table. Evaluated only once and the result cached for
* subsequent call. Hence must be called after resolution.
*/
public boolean isBidirectionalJoinTableMappingOwner() {
if (_bidirectionalJoinTableOwner != null)
return _bidirectionalJoinTableOwner.booleanValue();
_bidirectionalJoinTableOwner = false;
ForeignKey fk = getForeignKey();
if (fk != null)
return false;
ForeignKey jfk = getJoinForeignKey();
if (jfk == null)
return false;
FieldMapping mappedBy = getValueMappedByMapping();
if (mappedBy != null)
return false;
ValueMapping elem = getElementMapping();
if (elem == null)
return false;
ClassMapping relType = elem.getDeclaredTypeMapping();
if (relType == null)
return false;
FieldMapping[] relFmds = relType.getFieldMappings();
for (int i=0; i