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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.lang.reflect.Modifier;
import java.security.AccessController;
import java.security.PrivilegedActionException;
import java.sql.Types;
import java.util.Collection;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

import org.apache.openjpa.conf.OpenJPAConfiguration;
import org.apache.openjpa.jdbc.conf.JDBCConfiguration;
import org.apache.openjpa.jdbc.identifier.DBIdentifier;
import org.apache.openjpa.jdbc.meta.strats.BlobValueHandler;
import org.apache.openjpa.jdbc.meta.strats.ByteArrayValueHandler;
import org.apache.openjpa.jdbc.meta.strats.CharArrayStreamValueHandler;
import org.apache.openjpa.jdbc.meta.strats.CharArrayValueHandler;
import org.apache.openjpa.jdbc.meta.strats.ClassNameDiscriminatorStrategy;
import org.apache.openjpa.jdbc.meta.strats.ClobValueHandler;
import org.apache.openjpa.jdbc.meta.strats.ElementEmbedValueHandler;
import org.apache.openjpa.jdbc.meta.strats.EmbedFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.EmbeddedClassStrategy;
import org.apache.openjpa.jdbc.meta.strats.FlatClassStrategy;
import org.apache.openjpa.jdbc.meta.strats.FullClassStrategy;
import org.apache.openjpa.jdbc.meta.strats.HandlerCollectionTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.HandlerFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.HandlerHandlerMapTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.HandlerRelationMapTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.ImmutableValueHandler;
import org.apache.openjpa.jdbc.meta.strats.LobFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.MaxEmbeddedBlobFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.MaxEmbeddedByteArrayFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.MaxEmbeddedCharArrayFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.MaxEmbeddedClobFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.MultiColumnVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.
        NanoPrecisionTimestampVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.NoneClassStrategy;
import org.apache.openjpa.jdbc.meta.strats.NoneDiscriminatorStrategy;
import org.apache.openjpa.jdbc.meta.strats.NoneFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.NoneVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.NumberVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.ObjectIdClassStrategy;
import org.apache.openjpa.jdbc.meta.strats.ObjectIdValueHandler;
import org.apache.openjpa.jdbc.meta.strats.PrimitiveFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.
        RelationCollectionInverseKeyFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.RelationCollectionTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.RelationFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.RelationHandlerMapTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.RelationMapInverseKeyFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.RelationMapTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.
        RelationRelationMapTableFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.StateComparisonVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.StringFieldStrategy;
import org.apache.openjpa.jdbc.meta.strats.SubclassJoinDiscriminatorStrategy;
import org.apache.openjpa.jdbc.meta.strats.SuperclassDiscriminatorStrategy;
import org.apache.openjpa.jdbc.meta.strats.SuperclassVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.TimestampVersionStrategy;
import org.apache.openjpa.jdbc.meta.strats.UntypedPCValueHandler;
import org.apache.openjpa.jdbc.meta.strats.ValueMapDiscriminatorStrategy;
import org.apache.openjpa.jdbc.meta.strats.VerticalClassStrategy;
import org.apache.openjpa.jdbc.schema.Column;
import org.apache.openjpa.jdbc.schema.SchemaGroup;
import org.apache.openjpa.jdbc.sql.DBDictionary;
import org.apache.openjpa.jdbc.sql.JoinSyntaxes;
import org.apache.openjpa.lib.conf.Configurable;
import org.apache.openjpa.lib.conf.Configurations;
import org.apache.openjpa.lib.util.J2DoPrivHelper;
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.meta.MetaDataRepository;
import org.apache.openjpa.meta.Order;
import org.apache.openjpa.meta.SequenceMetaData;
import org.apache.openjpa.meta.ValueMetaData;
import org.apache.openjpa.util.MetaDataException;
import org.apache.openjpa.util.UserException;

/**
 * Repository of object/relational mapping information.
 *
 * @author Abe White
 */
public class MappingRepository extends MetaDataRepository {

    private static final Localizer _loc = Localizer.forPackage
        (MappingRepository.class);

    private transient DBDictionary _dict = null;
    private transient MappingDefaults _defaults = null;
    
    // object->queryresultmapping
    private Map _results = new HashMap(); 
    private SchemaGroup _schema = null;
    private StrategyInstaller _installer = null;

    /**
     * Default constructor.  Configure via 
     * {@link org.apache.openjpa.lib.conf.Configurable}.
     */
    public MappingRepository() {
        setValidate(VALIDATE_MAPPING, true);
    }

    /**
     * Convenient access to dictionary for mappings.
     */
    public DBDictionary getDBDictionary() {
        return _dict;
    }

    /**
     * Mapping defaults.
     */
    public MappingDefaults getMappingDefaults() {
        return _defaults;
    }

    /**
     * Mapping default.
     */
    public void setMappingDefaults(MappingDefaults defaults) {
        _defaults = defaults;
    }

    /**
     * Representation of the database schema.
     */
    public SchemaGroup getSchemaGroup() {
        if (_locking) {
            synchronized (this) {
                if (_schema == null)
                    _schema = ((JDBCConfiguration) getConfiguration()).getSchemaFactoryInstance().readSchema();
                return _schema;
            }
        } else {
            if (_schema == null)
                _schema = ((JDBCConfiguration) getConfiguration()).getSchemaFactoryInstance().readSchema();
            return _schema;
        }
    }

    /**
     * Representation of the database schema.
     */
    public void setSchemaGroup(SchemaGroup schema) {
        if (_locking) {
            synchronized (this) {
                _schema = schema;
            }
        } else {
            _schema = schema;
        }
    }

    /**
     * Installs mapping strategies on components.
     */
    public StrategyInstaller getStrategyInstaller() {
        if (_locking) {
            synchronized (this) {
                if (_installer == null)
                    _installer = new RuntimeStrategyInstaller(this);
                return _installer;
            }
        } else {
            if (_installer == null)
                _installer = new RuntimeStrategyInstaller(this);
            return _installer;
        }
    }

    /**
     * Installs mapping strategies on components.
     */
    public void setStrategyInstaller(StrategyInstaller installer) {
        if (_locking) {
            synchronized (this) {
                _installer = installer;
            }
        } else {
            _installer = installer;
        }
    }

    /**
     * Return the query result mapping for the given name.
     */
    public QueryResultMapping getQueryResultMapping(Class cls, String name, ClassLoader loader, boolean mustExist) {
        QueryResultMapping res = null;
        if (_locking) {
            synchronized (this) {
                res = getQueryResultMappingInternal(cls, name, loader);
            }
        } else {
            res = getQueryResultMappingInternal(cls, name, loader);
        }
        if (res == null && mustExist)
            throw new MetaDataException(_loc.get("no-query-res", cls, name));
        return res;
    }

    /**
     * Returned the query result mapping with the given name.
     */
    private QueryResultMapping getQueryResultMappingInternal(Class cls, String name, ClassLoader envLoader) {
        if (name == null)
            return null;

        // check cache
        Object key = getQueryResultKey(cls, name);
        QueryResultMapping res = (QueryResultMapping) _results.get(key);
        if (res != null)
            return res;

        // get metadata for class, which will find results in metadata file
        if (cls != null && getMetaData(cls, envLoader, false) != null) {
            res = (QueryResultMapping) _results.get(key);
            if (res != null)
                return res;
        }
        if ((getSourceMode() & MODE_QUERY) == 0)
            return null;

        if (cls == null)
            cls = getMetaDataFactory()
                    .getResultSetMappingScope(name, envLoader);
        // not in cache; load
        getMetaDataFactory().load(cls, MODE_META | MODE_MAPPING, envLoader);
        return (QueryResultMapping) _results.get(key);
    }

    /**
     * Return all cached query result mappings.
     */
    public QueryResultMapping[] getQueryResultMappings() {
        if (_locking) {
            synchronized (this) {
                Collection values = _results.values();
                return (QueryResultMapping[]) values.toArray(new QueryResultMapping[values.size()]);
            }
        } else {
            Collection values = _results.values();
            return (QueryResultMapping[]) values.toArray(new QueryResultMapping[values.size()]);
        }
    }

    /**
     * Return the cached query result mapping with the given name, or null if
     * none.
     */
    public QueryResultMapping getCachedQueryResultMapping(Class cls, String name) {
        if (_locking) {
            synchronized (this) {
                return (QueryResultMapping) _results.get(getQueryResultKey(cls, name));
            }
        } else {
            return (QueryResultMapping) _results.get(getQueryResultKey(cls, name));
        }
    }

    /**
     * Add a query result mapping.
     */
    public QueryResultMapping addQueryResultMapping(Class cls, String name) {
        if (_locking) {
            synchronized (this) {
                return addQueryResultMappingInternal(cls, name);
            }
        } else {
            return addQueryResultMappingInternal(cls, name);
        }
    }

    private QueryResultMapping addQueryResultMappingInternal(Class cls, String name) {
        QueryResultMapping res = new QueryResultMapping(name, this);
        res.setDefiningType(cls);
        _results.put(getQueryResultKey(res), res);
        return res;
    }

    /**
     * Remove a query result mapping.
     */
    public boolean removeQueryResultMapping(QueryResultMapping res) {
        if (_locking) {
            synchronized (this) {
                return _results.remove(getQueryResultKey(res)) != null;
            }
        } else {
            return _results.remove(getQueryResultKey(res)) != null;
        }
    }

    /**
     * Remove a query result mapping.
     */
    public boolean removeQueryResultMapping(Class cls, String name) {
        if (_locking) {
            synchronized (this) {
                if (name == null)
                    return false;
                return _results.remove(getQueryResultKey(cls, name)) != null;
            }
        } else {
            if (name == null)
                return false;
            return _results.remove(getQueryResultKey(cls, name)) != null;
        }
    }

    /**
     * Return a unique key for the given mapping.
     */
    private static Object getQueryResultKey(QueryResultMapping res) {
        if (res == null)
            return null;
        return getQueryResultKey(res.getDefiningType(), res.getName());
    }

    /**
     * Return a unique key for the given class / name. The class argument
     * can be null.
     */
    private static Object getQueryResultKey(Class cls, String name) {
        return getQueryKey(cls, name);
    }

    public ClassMapping getMapping(Class cls, ClassLoader envLoader,
        boolean mustExist) {
        return (ClassMapping) super.getMetaData(cls, envLoader, mustExist);
    }

    public ClassMapping[] getMappings() {
        return (ClassMapping[]) super.getMetaDatas();
    }

    public ClassMapping getMapping(Object oid, ClassLoader envLoader,
        boolean mustExist) {
        return (ClassMapping) super.getMetaData(oid, envLoader, mustExist);
    }

    public ClassMapping[] getImplementorMappings(Class cls,
        ClassLoader envLoader, boolean mustExist) {
        return (ClassMapping[]) super.getImplementorMetaDatas(cls, envLoader,
            mustExist);
    }

    public void clear() {
        if (_locking) {
            synchronized (this) {
                super.clear();
                _schema = null;
                _results.clear();
            }
        } else {
            super.clear();
            _schema = null;
            _results.clear();
        }
    }

    protected void prepareMapping(ClassMetaData meta) {
        // make sure superclass resolved first; resolving superclass may have
        // resolved this mapping
        ClassMapping mapping = (ClassMapping) meta;
        ClassMapping sup = mapping.getPCSuperclassMapping();
        if (sup != null && (mapping.getResolve() & MODE_MAPPING) != 0)
            return;
        
        // if this mapping is not for a managed interface, ensure that if 
        // we have an inheritance hierarchy there is a default strategy
        // applied to the root class
        if (!mapping.getDescribedType().isInterface() &&
            !mapping.isEmbeddedOnly()) {
            // if an inheritance strategy has not been set on this mapping
            // determine if needs one and if so, set it
            if (!hasInheritanceStrategy(mapping)) {
                ClassMapping baseMapping = findBaseClassMapping(mapping); 
                if (baseMapping != null)
                    setDefaultInheritanceStrategy(baseMapping);
            }            
        }

        // define superclass fields after mapping class, so we can tell whether
        // the class is mapped and needs to redefine abstract superclass fields
        getStrategyInstaller().installStrategy(mapping);
        mapping.defineSuperclassFields(mapping.getJoinablePCSuperclassMapping()
            == null);

        // resolve everything that doesn't involve relations to allow relation
        // mappings to use the others as joinables
        mapping.resolveNonRelationMappings();
    }

    protected ClassMetaData newClassMetaData(Class type) {
        return new ClassMapping(type, this);
    }

    protected ClassMetaData[] newClassMetaDataArray(int length) {
        return new ClassMapping[length];
    }

    protected FieldMetaData newFieldMetaData(String name, Class type,
        ClassMetaData owner) {
        return new FieldMapping(name, type, (ClassMapping) owner);
    }

    protected FieldMetaData[] newFieldMetaDataArray(int length) {
        return new FieldMapping[length];
    }

    protected ClassMetaData newEmbeddedClassMetaData(ValueMetaData owner) {
        return new ClassMapping(owner);
    }

    protected ValueMetaData newValueMetaData(FieldMetaData owner) {
        return new ValueMappingImpl((FieldMapping) owner);
    }

    protected SequenceMetaData newSequenceMetaData(String name) {
        return new SequenceMapping(name, this);
    }

    protected Order newValueOrder(FieldMetaData owner, boolean asc) {
        return new JDBCValueOrder((FieldMapping) owner, asc);
    }

    protected Order newRelatedFieldOrder(FieldMetaData owner,
        FieldMetaData rel, boolean asc) {
        return new JDBCRelatedFieldOrder((FieldMapping) owner,
            (FieldMapping) rel, asc);
    }

    protected Order[] newOrderArray(int size) {
        return new JDBCOrder[size];
    }

    /**
     * Create version metadata for the given class.
     */
    protected Version newVersion(ClassMapping cls) {
        return new Version(cls);
    }

    /**
     * Create discriminator metadata for the given class.
     */
    protected Discriminator newDiscriminator(ClassMapping cls) {
        return new Discriminator(cls);
    }

    /**
     * Create raw mapping info for the given instance.
     */
    protected ClassMappingInfo newMappingInfo(ClassMapping cls) {
        ClassMappingInfo info = new ClassMappingInfo();
        info.setClassName(cls.getDescribedType().getName());
        return info;
    }

    /**
     * Create raw mapping info for the given instance.
     */
    protected FieldMappingInfo newMappingInfo(FieldMapping fm) {
        return new FieldMappingInfo();
    }

    /**
     * Create raw mapping info for the given instance.
     */
    protected ValueMappingInfo newMappingInfo(ValueMapping vm) {
        return new ValueMappingInfo();
    }

    /**
     * Create raw mapping info for the given instance.
     */
    protected VersionMappingInfo newMappingInfo(Version version) {
        return new VersionMappingInfo();
    }

    /**
     * Create raw mapping info for the given instance.
     */
    protected DiscriminatorMappingInfo newMappingInfo(Discriminator disc) {
        return new DiscriminatorMappingInfo();
    }

    /**
     * Instantiate the given class' named strategy, or return null if no
     * named strategy.
     */
    protected ClassStrategy namedStrategy(ClassMapping cls) {
        String name = cls.getMappingInfo().getStrategy();
        return instantiateClassStrategy(name, cls);
    }

    /**
     * Return the strategy for the given name.
     */
    protected ClassStrategy instantiateClassStrategy(String name,
        ClassMapping cls) {
        if (name == null)
            return null;
        if (NoneClassStrategy.ALIAS.equals(name))
            return NoneClassStrategy.getInstance();

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        Class strat = null;

        // base and vertical strategies use same alias; differentiate on join
        if (FullClassStrategy.ALIAS.equals(name))
            strat = FullClassStrategy.class;
        else if (FlatClassStrategy.ALIAS.equals(name))
            strat = FlatClassStrategy.class;
        else if (VerticalClassStrategy.ALIAS.equals(name))
            strat = VerticalClassStrategy.class;
        try {
            if (strat == null)
                strat = JavaTypes.classForName(name, cls,
                    AccessController.doPrivileged(
                        J2DoPrivHelper.getClassLoaderAction(
                            ClassStrategy.class)), false);
            ClassStrategy strategy = 
                (ClassStrategy) AccessController.doPrivileged(
                    J2DoPrivHelper.newInstanceAction(strat));
            Configurations.configureInstance(strategy, getConfiguration(),
                props);
            return strategy;
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-cls-strategy",
                cls, name), e);
        }
    }

    /**
     * Instantiate the given field's named strategy, or return null if no
     * named strategy.
     */
    protected FieldStrategy namedStrategy(FieldMapping field,
        boolean installHandlers) {
        String name = field.getMappingInfo().getStrategy();
        if (name == null)
            return null;

        if (NoneFieldStrategy.ALIAS.equals(name))
            return NoneFieldStrategy.getInstance();

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        try {
            Class c = JavaTypes.classForName(name, field,
                AccessController.doPrivileged(
                    J2DoPrivHelper.getClassLoaderAction(FieldStrategy.class)), false);
            if (FieldStrategy.class.isAssignableFrom(c)) {
                FieldStrategy strat = (FieldStrategy)
                    AccessController.doPrivileged(
                        J2DoPrivHelper.newInstanceAction(c));
                Configurations.configureInstance(strat, getConfiguration(),
                    props);
                return strat;
            }

            // must be named handler
            if (installHandlers) {
                ValueHandler vh = (ValueHandler) AccessController.doPrivileged(
                    J2DoPrivHelper.newInstanceAction(c));
                Configurations.configureInstance(vh, getConfiguration(),
                    props);
                field.setHandler(vh);
            }
            return new HandlerFieldStrategy();
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-field-strategy",
                field, name), e);
        }
    }

    /**
     * Instantiate the given discriminator's named strategy, or return null
     * if no named strategy.
     */
    protected DiscriminatorStrategy namedStrategy(Discriminator discrim) {
        String name = discrim.getMappingInfo().getStrategy();
        if (name == null)
            return null;

        // if there is a named strategy present, discard it if it matches
        // the base strategy, so that we won't create an independent instance
        ClassMapping cls = discrim.getClassMapping();
        while (cls.getJoinablePCSuperclassMapping() != null)
            cls = cls.getJoinablePCSuperclassMapping();
        Discriminator base = cls.getDiscriminator();
        if (base != discrim && base.getStrategy() != null
            && name.equals(base.getStrategy().getAlias()))
            return null;

        return instantiateDiscriminatorStrategy(name, discrim);
    }

    /**
     * Instantiate the given discriminator strategy.
     */
    protected DiscriminatorStrategy instantiateDiscriminatorStrategy
        (String name, Discriminator discrim) {
        if (NoneDiscriminatorStrategy.ALIAS.equals(name))
            return NoneDiscriminatorStrategy.getInstance();

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        Class strat = null;

        if (ClassNameDiscriminatorStrategy.ALIAS.equals(name))
            strat = ClassNameDiscriminatorStrategy.class;
        else if (ValueMapDiscriminatorStrategy.ALIAS.equals(name))
            strat = ValueMapDiscriminatorStrategy.class;
        else if (SubclassJoinDiscriminatorStrategy.ALIAS.equals(name))
            strat = SubclassJoinDiscriminatorStrategy.class;

        try {
            if (strat == null)
                strat = JavaTypes.classForName(name,
                    discrim.getClassMapping(),
                    AccessController.doPrivileged(
                        J2DoPrivHelper.getClassLoaderAction(
                            DiscriminatorStrategy.class)), false);
            DiscriminatorStrategy strategy = (DiscriminatorStrategy)
                AccessController.doPrivileged(
                    J2DoPrivHelper.newInstanceAction(strat));
            Configurations.configureInstance(strategy, getConfiguration(),
                props);
            return strategy;
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-discrim-strategy",
                discrim.getClassMapping(), name), e);
        }
    }

    /**
     * Instantiate the given version's named strategy, or return null
     * if no named strategy.
     */
    protected VersionStrategy namedStrategy(Version version) {
        String name = version.getMappingInfo().getStrategy();
        if (name == null)
            return null;

        // if there is a named strategy present, discard it if it matches
        // the base strategy, so that we won't create an independent instance
        ClassMapping cls = version.getClassMapping();
        while (cls.getJoinablePCSuperclassMapping() != null)
            cls = cls.getJoinablePCSuperclassMapping();
        Version base = cls.getVersion();
        if (base != version && base.getStrategy() != null
            && name.equals(base.getStrategy().getAlias()))
            return null;

        return instantiateVersionStrategy(name, version);
    }

    /**
     * Instantiate the given version strategy.
     */
    protected VersionStrategy instantiateVersionStrategy(String name,
        Version version) {
        if (NoneVersionStrategy.ALIAS.equals(name))
            return NoneVersionStrategy.getInstance();

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        Class strat = null;

        if (NumberVersionStrategy.ALIAS.equals(name))
            strat = NumberVersionStrategy.class;
        else if (MultiColumnVersionStrategy.ALIAS.equals(name))
        	strat = MultiColumnVersionStrategy.class;
        else if (TimestampVersionStrategy.ALIAS.equals(name))
            strat = TimestampVersionStrategy.class;
        else if (NanoPrecisionTimestampVersionStrategy.ALIAS.equals(name))
            strat = NanoPrecisionTimestampVersionStrategy.class;
        else if (StateComparisonVersionStrategy.ALIAS.equals(name))
            strat = StateComparisonVersionStrategy.class;

        try {
            if (strat == null)
                strat = JavaTypes.classForName(name,
                    version.getClassMapping(),
                    AccessController.doPrivileged(
                        J2DoPrivHelper.getClassLoaderAction(
                            VersionStrategy.class)), false);
        } catch (Exception e) {
            throw new MetaDataException(_loc.get("bad-version-strategy",
                version.getClassMapping(), name), e);
        }

        return instantiateVersionStrategy(strat, version, props);
    }

    /**
     * Instantiate the given version strategy.
     */
    protected VersionStrategy instantiateVersionStrategy(Class strat,
        Version version, String props) {
        try {
            VersionStrategy strategy = (VersionStrategy)
                AccessController.doPrivileged(
                    J2DoPrivHelper.newInstanceAction(strat));
            Configurations.configureInstance(strategy, getConfiguration(),
                props);
            return strategy;
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-version-strategy",
                version.getClassMapping(), strat + ""), e);
        }
    }

    /**
     * Determine the default strategy to use for the given class. Does
     * not take into account the current strategy, if any.
     */
    protected ClassStrategy defaultStrategy(ClassMapping cls) {
        return defaultStrategy(cls, getStrategyInstaller().isAdapting());
    }

    /**
     * Determine the default strategy to use for the given class. Does
     * not take into account the current strategy, if any.
     */
    protected ClassStrategy defaultStrategy(ClassMapping cls,
        boolean adapting) {
        ValueMapping embed = cls.getEmbeddingMapping();
        if (embed != null) {
            // superclass of embedded class isn't mapped
            if (embed.getType() != cls.getDescribedType()
                || embed.getFieldMapping().getStrategy()
                == NoneFieldStrategy.getInstance())
                return NoneClassStrategy.getInstance();
            if (embed.getTypeCode() == JavaTypes.OID)
                return new ObjectIdClassStrategy();
            return new EmbeddedClassStrategy();
        }
        if (cls.isEmbeddedOnly())
            return NoneClassStrategy.getInstance();

        Object strat = _defaults.getStrategy(cls, adapting);
        if (strat instanceof String)
            return instantiateClassStrategy((String) strat, cls);
        if (strat != null)
            return (ClassStrategy) strat;
        
        // see if there is a declared hierarchy strategy
        ClassStrategy hstrat = null;
        for (ClassMapping base = cls; base != null && hstrat == null;) {
            hstrat = instantiateClassStrategy(base.getMappingInfo().
                getHierarchyStrategy(), cls);
            base = base.getMappedPCSuperclassMapping();
        }

        // the full strategy as applied to a hierarchy is a
        // table-per-concrete-class strategy, so don't map abstract types
        if (hstrat instanceof FullClassStrategy
            && !cls.isManagedInterface()
            && Modifier.isAbstract(cls.getDescribedType().getModifiers()))
            return NoneClassStrategy.getInstance();
        
        ClassMapping sup = cls.getMappedPCSuperclassMapping();
        if (sup == null)
            return new FullClassStrategy();
        if (hstrat != null)
            return hstrat;
        return new FlatClassStrategy();
    }

    /**
     * Determine the default strategy to use for the given field. Does
     * not take into account the named or current strategy, if any. If a
     * non-null strategy is returned, this method may as a side effect install
     * value handlers on the field's value mappings.
     */
    protected FieldStrategy defaultStrategy(FieldMapping field,
        boolean installHandlers) {
        return defaultStrategy(field, installHandlers,
            getStrategyInstaller().isAdapting());
    }

    /**
     * Determine the default strategy to use for the given field. Does
     * not take into account the named or current strategy, if any. If a
     * non-null strategy is returned, this method may as a side effect install
     * value handlers on the field's value mappings.
     */
    protected FieldStrategy defaultStrategy(FieldMapping field,
        boolean installHandlers, boolean adapting) {
        // not persistent?
        if (field.getManagement() != FieldMetaData.MANAGE_PERSISTENT
            || field.isVersion())
            return NoneFieldStrategy.getInstance();
        if (field.getDefiningMapping().getStrategy() ==
            NoneClassStrategy.getInstance())
            return NoneFieldStrategy.getInstance();

        // check for named handler first
        ValueHandler handler = namedHandler(field);
        if (handler != null) {
            if (installHandlers)
                field.setHandler(handler);
            return new HandlerFieldStrategy();
        }

        if (field.isSerialized()) {
            if (_dict.maxEmbeddedBlobSize != -1) {
                handler = defaultHandler(field, adapting);
                if (handler != null) {
                    if (installHandlers)
                        field.setHandler(handler);
                }
                return new MaxEmbeddedBlobFieldStrategy();
            }
        } else {
            // check for mapped strategy
            Object strat = mappedStrategy(field, field.getType(), adapting);
            if (strat instanceof FieldStrategy)
                return (FieldStrategy) strat;
            if (strat != null) {
                if (installHandlers)
                    field.setHandler((ValueHandler) strat);
                return new HandlerFieldStrategy();
            }
        }

        // check for known field strategies
        if (!field.isSerialized() && (field.getType() == byte[].class
            || field.getType() == Byte[].class)) {
            if (_dict.maxEmbeddedBlobSize != -1) {
                handler = defaultHandler(field, adapting);
                if (handler != null) {
                    if (installHandlers)
                        field.setHandler(handler);
                }
                return new MaxEmbeddedByteArrayFieldStrategy();
            }
        } else if (!field.isSerialized()
            && (field.getType() == char[].class
            || field.getType() == Character[].class)) {
            if (_dict.maxEmbeddedClobSize != -1 && isClob(field, false)) {
                handler = defaultHandler(field, adapting);
                if (handler != null) {
                    if (installHandlers)
                        field.setHandler(handler);
                }
                return new MaxEmbeddedCharArrayFieldStrategy();
            }
        } else if (!field.isSerialized()) {
            FieldStrategy strat = defaultTypeStrategy(field, installHandlers,
                adapting);
            if (strat != null) {
                handler = defaultHandler(field, adapting);
                if (handler != null) {
                    if (installHandlers)
                        field.setHandler(handler);
                }
                return strat;
            }
        }

        // check for default handler
        handler = defaultHandler(field, adapting);
        if (handler != null) {
            if (installHandlers)
                field.setHandler(handler);
            return new HandlerFieldStrategy();
        }

        // default to blob
        if (installHandlers) {
            if (getLog().isWarnEnabled())
                getLog().warn(_loc.get("no-field-strategy", field));
            field.setSerialized(true);
        }
        if (_dict.maxEmbeddedBlobSize == -1) {
            if (installHandlers)
                field.setHandler(BlobValueHandler.getInstance());
            return new HandlerFieldStrategy();
        }
        return new MaxEmbeddedBlobFieldStrategy();
    }

    /**
     * Return the built-in strategy for the field's type, or null if none.
     */
    protected FieldStrategy defaultTypeStrategy(FieldMapping field,
        boolean installHandlers, boolean adapting) {
        switch (field.getTypeCode()) {
            case JavaTypes.BOOLEAN:
            case JavaTypes.BYTE:
            case JavaTypes.CHAR:
            case JavaTypes.DOUBLE:
            case JavaTypes.FLOAT:
            case JavaTypes.INT:
            case JavaTypes.LONG:
            case JavaTypes.SHORT:
                return new PrimitiveFieldStrategy();
            case JavaTypes.STRING:
                if (!isClob(field, false))
                    return new StringFieldStrategy();
                if (_dict.maxEmbeddedClobSize != -1)
                    return new MaxEmbeddedClobFieldStrategy();
                break;
            case JavaTypes.PC:
                if (field.isEmbeddedPC())
                    return new EmbedFieldStrategy();
                if (field.getTypeMapping().isMapped()
                    || !useUntypedPCHandler(field))
                    return new RelationFieldStrategy();
                break;
            case JavaTypes.ARRAY:
            case JavaTypes.COLLECTION:
                ValueMapping elem = field.getElementMapping();
                ValueHandler ehandler = namedHandler(elem);
                if (ehandler == null)
                    ehandler = defaultHandler(elem);
                if (ehandler != null)
                    return handlerCollectionStrategy(field, ehandler, 
                        installHandlers);
                if (elem.getTypeCode() == JavaTypes.PC
                    && !elem.isSerialized() && !elem.isEmbeddedPC()) {
                    if (useInverseKeyMapping(field))
                        return new RelationCollectionInverseKeyFieldStrategy();
                    return new RelationCollectionTableFieldStrategy();
                }
                break;
            case JavaTypes.MAP:
                ValueMapping key = field.getKeyMapping();
                ValueHandler khandler = namedHandler(key);
                if (khandler == null)
                    khandler = defaultHandler(key);
                ValueMapping val = field.getElementMapping();
                ValueHandler vhandler = namedHandler(val);
                if (vhandler == null)
                    vhandler = defaultHandler(val);
                boolean krel = khandler == null 
                    && key.getTypeCode() == JavaTypes.PC
                    && !key.isSerialized() && !key.isEmbeddedPC();
                boolean vrel = vhandler == null 
                    && val.getTypeCode() == JavaTypes.PC
                    && !val.isSerialized() && !val.isEmbeddedPC();
                if (vrel && key.getValueMappedBy() != null) {
                    if (useInverseKeyMapping(field))
                        return new RelationMapInverseKeyFieldStrategy();
                    return new RelationMapTableFieldStrategy();
                }
                //TODO: in JPA 2.0 if MapKeyClass type is not specified
                // an exception is thrown. In OpenJpa 1.x, the map will
                // be serialized to a blob (the null value returned by
                // this method will lead to a strategy to serialize
                // the map).
                if (!krel && khandler == null)
                    break;
                if (!vrel && vhandler == null)
                    break;
                return handlerMapStrategy(field, khandler, vhandler, krel,
                    vrel, installHandlers);
            case JavaTypes.INPUT_STREAM:
            case JavaTypes.INPUT_READER:
                return new LobFieldStrategy();
        }
        return null;
    }

    /**
     * Return the collection strategy for the given element handler, or null
     * if none.
     */
    protected FieldStrategy handlerCollectionStrategy(FieldMapping field, 
        ValueHandler ehandler, boolean installHandlers) {
        // TODO: JPA 2.0 should ignore this flag and not to serialize
        if (getConfiguration().getCompatibilityInstance()
            .getStoreMapCollectionInEntityAsBlob())
            return null;
        if (installHandlers)
            field.getElementMapping().setHandler(ehandler);
        return new HandlerCollectionTableFieldStrategy();
    }

    /**
     * Return the map strategy for the given key and value handlers / relations,
     * or null if none.
     */
    protected FieldStrategy handlerMapStrategy(FieldMapping field, 
        ValueHandler khandler, ValueHandler vhandler, boolean krel, 
        boolean vrel,  boolean installHandlers) {
        // TODO: JPA 2.0 should ignore this flag and not to serialize
        if (getConfiguration().getCompatibilityInstance()
            .getStoreMapCollectionInEntityAsBlob())
            return null;
        if (installHandlers) {
            field.getKeyMapping().setHandler(khandler);
            field.getElementMapping().setHandler(vhandler);
        }
        if (!krel && !vrel)
            return new HandlerHandlerMapTableFieldStrategy();
        if (!krel && vrel)
            return new HandlerRelationMapTableFieldStrategy();
        if (krel && !vrel)
            return new RelationHandlerMapTableFieldStrategy();
        return new RelationRelationMapTableFieldStrategy();
    }

    /**
     * Use hints in mapping data to figure out whether the given relation
     * field should use an inverse foreign key or an association table mapping.
     */
    private boolean useInverseKeyMapping(FieldMapping field) {
        FieldMapping mapped = field.getMappedByMapping();
        if (mapped != null) {
            //bi-/M-1/JoinTable ==> join table strategy
            if (isBiMTo1JT(field)) 
                return false;
            if (mapped.getTypeCode() == JavaTypes.PC || mapped.getTypeCode() == JavaTypes.PC_UNTYPED)
                return true;
            if (mapped.getElement().getTypeCode() == JavaTypes.PC)
                return false;
            throw new MetaDataException(_loc.get("bad-mapped-by", field,
                mapped));
        }

        // without a mapped-by, we have to look for clues as to the mapping.
        // we assume that anything with element foreign key columns but no join
        // columns or table uses an inverse foreign key, and anything else uses
        // an association table
        FieldMappingInfo info = field.getMappingInfo();
        ValueMapping elem = field.getElementMapping();
        boolean useInverseKeyMapping = DBIdentifier.isNull(info.getTableIdentifier()) && info.getColumns().isEmpty()
            && !elem.getValueInfo().getColumns().isEmpty();
        
        // JPA 2.0: non-default mapping: uni-/1-M/JoinColumn ==> foreign key strategy
        if (isUni1ToMFK(field)) {
            return true;
        }
        return useInverseKeyMapping;
    }
        
    public boolean isNonDefaultMappingAllowed() {
        OpenJPAConfiguration conf = getConfiguration();
        return getMetaDataFactory().getDefaults().isNonDefaultMappingAllowed(conf);
    }
    
    public boolean isUniMTo1JT(FieldMapping field) {
        if (isNonDefaultMappingAllowed() && 
            field.getAssociationType() == FieldMetaData.MANY_TO_ONE &&
            hasJoinTable(field) && 
            !isBidirectional(field))  {
            List cols = field.getElementMapping().getValueInfo().getColumns();
            if (cols != null && cols.size() > 0) {
                field.getValueMapping().getValueInfo().setColumns(cols);
            }
            return true;
        }
        return false;
    }

    public boolean isUni1To1JT(FieldMapping field) {
        if (isNonDefaultMappingAllowed() && 
            field.getAssociationType() == FieldMetaData.ONE_TO_ONE && 
            hasJoinTable(field) && 
            !isBidirectional(field)) {
            List cols = field.getElementMapping().getValueInfo().getColumns();
            if (cols != null && cols.size() > 0) {
                field.getValueMapping().getValueInfo().setColumns(cols);
            }
            return true;
        }
        return false;
    }

    public boolean isBi1To1JT(FieldMapping field) {
        if (isNonDefaultMappingAllowed() && 
            field.getAssociationType() == FieldMetaData.ONE_TO_ONE && 
            hasJoinTable(field) && 
            isBidirectional(field)) {
            List cols = field.getElementMapping().getValueInfo().getColumns();
            if (cols != null && cols.size() > 0) {
                field.getValueMapping().getValueInfo().setColumns(cols);
            }
            return true;
        }
        return false;
    }
    
    public boolean isUni1ToMFK(FieldMapping field) {
        if (isNonDefaultMappingAllowed() && 
            field.getAssociationType() == FieldMetaData.ONE_TO_MANY &&
            hasJoinColumn(field) &&
            !isBidirectional(field)) {
            field.getElementMapping().getValueInfo().setColumns(field.getValueInfo().getColumns());
            return true;
        }
        return false;
    }
    
    public boolean isBiMTo1JT(FieldMapping field) {
        FieldMapping mapped = field.getMappedByMapping();
        if (isNonDefaultMappingAllowed()) {
            if (field.getAssociationType() == FieldMetaData.ONE_TO_MANY ) {
                if (mapped != null && hasJoinTable(mapped))
                    return true;
            } else if (field.getAssociationType() == FieldMetaData.MANY_TO_ONE) {
                if (getBi_1ToM_JoinTableField(field) != null)
                    return true;
            }
        }
        return false;
    }

    // return the inverse field of bidirectional many to one
    // relation using join table strategy
    public FieldMapping getBi_1ToM_JoinTableField(FieldMapping field) {
        if (isNonDefaultMappingAllowed()) {
            if (field.getAssociationType() == FieldMetaData.ONE_TO_MANY) {
                FieldMapping mappedBy = field.getMappedByMapping();
                if (mappedBy != null && hasJoinTable(mappedBy))
                    return field;
            } else if (field.getAssociationType() == FieldMetaData.MANY_TO_ONE) {
                if (!hasJoinTable(field))
                    return null;
                ClassMapping inverse = field.getValueMapping().getTypeMapping();
                FieldMapping[] fmds = inverse.getFieldMappings();
                for (int i = 0; i < fmds.length; i++) {
                    if (field == fmds[i].getMappedByMapping()) 
                        return fmds[i];
                }
            }
        }
        return null;
    }

    // return the owning field of bidirectional one to many
    // relation using join table strategy
    public FieldMapping getBi_MTo1_JoinTableField(FieldMapping field) {
        if (isNonDefaultMappingAllowed()) {
            if (field.getAssociationType() == FieldMetaData.MANY_TO_ONE) {
                if (!hasJoinTable(field))
                    return null;
                if (isBidirectional(field))
                    return field;
             } else if (field.getAssociationType() == FieldMetaData.ONE_TO_MANY) {
                FieldMapping mappedBy = field.getMappedByMapping();
                if (mappedBy != null && hasJoinTable(mappedBy))
                    return mappedBy;
            }
        }
        return null;
    }
    
    public boolean hasJoinColumn(FieldMapping field) {
        boolean hasJoinColumn = (field.getValueInfo().getColumns().size() > 0 ? true : false);
        return hasJoinColumn;
    }
    
    public boolean hasJoinTable(FieldMapping field) {
        boolean hasJoinTable = !DBIdentifier.isNull(field.getMappingInfo().getTableIdentifier()) ? true : false;
        return hasJoinTable;
    }

    public boolean isBidirectional(FieldMapping field) {
        if (field.getMappedByMapping() != null) return true;
        int assoType = field.getAssociationType();
        if (assoType == FieldMetaData.ONE_TO_ONE || 
            assoType == FieldMetaData.MANY_TO_ONE) {
            ClassMapping inverse = field.getValueMapping().getTypeMapping();
            FieldMapping[] fmds = inverse.getFieldMappings();
            for (int i = 0; i < fmds.length; i++) {
                if (field == fmds[i].getMappedByMapping()) 
                    return true;
            }
        }
        return false;
    }
    
    /**
     * Check the given value against mapped strategies.
     */
    private Object mappedStrategy(ValueMapping val, Class type,
        boolean adapting) {
        if (type == null || type == Object.class)
            return null;

        Object strat = _defaults.getStrategy(val, type, adapting);

        // recurse on superclass so that, for example, a registered handler
        // for java.lang.Enum will work on all enums
        if (strat == null)
            return mappedStrategy(val, type.getSuperclass(), adapting);
        if (!(strat instanceof String))
            return strat;

        String name = (String) strat;
        if (NoneFieldStrategy.ALIAS.equals(name))
            return NoneFieldStrategy.getInstance();

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        try {
            Class c = JavaTypes.classForName(name, val,
                AccessController.doPrivileged(
                    J2DoPrivHelper.getClassLoaderAction(FieldStrategy.class)),false);
            Object o = AccessController.doPrivileged(
                J2DoPrivHelper.newInstanceAction(c));
            Configurations.configureInstance(o, getConfiguration(), props);
            return o;
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-mapped-strategy",
                val, name), e);
        }
    }

    /**
     * Instantiate the given value's named handler, or return null if no
     * named handler.
     */
    protected ValueHandler namedHandler(ValueMapping val) {
        String name = val.getValueInfo().getStrategy();
        if (name == null)
            return null;

        String props = Configurations.getProperties(name);
        name = Configurations.getClassName(name);
        try {
            Class c = JavaTypes.classForName(name, val,
                AccessController.doPrivileged(
                    J2DoPrivHelper.getClassLoaderAction(ValueHandler.class)),false);
            if (ValueHandler.class.isAssignableFrom(c)) {
                ValueHandler vh = (ValueHandler) AccessController.doPrivileged(
                    J2DoPrivHelper.newInstanceAction(c));
                Configurations.configureInstance(vh, getConfiguration(),
                    props);
                return vh;
            }
            return null; // named field strategy
        } catch (Exception e) {
            if (e instanceof PrivilegedActionException)
                e = ((PrivilegedActionException) e).getException();
            throw new MetaDataException(_loc.get("bad-value-handler",
                val, name), e);
        }
    }
    
    /**
     * Determine the default handler to use for the given value. Does
     * not take into account the named handler, if any.
     */
    protected ValueHandler defaultHandler(ValueMapping val) {
        return defaultHandler(val, getStrategyInstaller().isAdapting());
    }

    /**
     * Determine the default handler to use for the given value. Does
     * not take into account the named handler, if any.
     */
    protected ValueHandler defaultHandler(ValueMapping val, boolean adapting) {
        if (val.isSerialized()) {
            if (_dict.maxEmbeddedBlobSize != -1)
                warnMaxEmbedded(val, _dict.maxEmbeddedBlobSize);
            return BlobValueHandler.getInstance();
        }

        Object handler = mappedStrategy(val, val.getType(), adapting);
        if (handler instanceof ValueHandler)
            return (ValueHandler) handler;

        if (val.getType() == byte[].class 
            || val.getType() == Byte[].class) {
            if (_dict.maxEmbeddedBlobSize != -1)
                warnMaxEmbedded(val, _dict.maxEmbeddedBlobSize);
            return ByteArrayValueHandler.getInstance();
        }
        if (val.getType() == char[].class
            || val.getType() == Character[].class) {
            if (isClob(val, true))
                return CharArrayStreamValueHandler.getInstance();
            return CharArrayValueHandler.getInstance();
        }

        switch (val.getTypeCode()) {
            case JavaTypes.BOOLEAN:
            case JavaTypes.BYTE:
            case JavaTypes.CHAR:
            case JavaTypes.DOUBLE:
            case JavaTypes.FLOAT:
            case JavaTypes.INT:
            case JavaTypes.LONG:
            case JavaTypes.SHORT:
            case JavaTypes.BOOLEAN_OBJ:
            case JavaTypes.BYTE_OBJ:
            case JavaTypes.CHAR_OBJ:
            case JavaTypes.DOUBLE_OBJ:
            case JavaTypes.FLOAT_OBJ:
            case JavaTypes.INT_OBJ:
            case JavaTypes.LONG_OBJ:
            case JavaTypes.SHORT_OBJ:
            case JavaTypes.BIGINTEGER:
            case JavaTypes.BIGDECIMAL:
            case JavaTypes.NUMBER:
            case JavaTypes.DATE:
            case JavaTypes.CALENDAR:
            case JavaTypes.LOCALE:
                return ImmutableValueHandler.getInstance();
            case JavaTypes.STRING:
                if (isClob(val, true))
                    return ClobValueHandler.getInstance();
                return ImmutableValueHandler.getInstance();
            case JavaTypes.PC:
                if (!val.getTypeMapping().isMapped()
                    && useUntypedPCHandler(val)) 
                    return UntypedPCValueHandler.getInstance();
                break;
            case JavaTypes.PC_UNTYPED:
                return UntypedPCValueHandler.getInstance();
            case JavaTypes.OID:
                return new ObjectIdValueHandler();
        }
        if (!getConfiguration().getCompatibilityInstance()
            .getStoreMapCollectionInEntityAsBlob()
            && val.isEmbeddedPC())
            return new ElementEmbedValueHandler();
        return null;
    }

    /**
     * Return true if we should use the generic untyped PC handler for the
     * given unmapped relation.
     */
    private boolean useUntypedPCHandler(ValueMapping val) {
        ClassMapping rel = val.getTypeMapping();
        return rel.getIdentityType() == ClassMapping.ID_UNKNOWN
            || (rel.getIdentityType() == ClassMapping.ID_APPLICATION
            && (rel.getPrimaryKeyFields().length == 0
            || (!rel.isOpenJPAIdentity() && Modifier.isAbstract
            (rel.getObjectIdType().getModifiers()))));
    }

    /**
     * Checks for hints as to whether the given column is a CLOB.
     */
    private boolean isClob(ValueMapping val, boolean warn) {
        List cols = val.getValueInfo().getColumns();
        if (cols.size() != 1)
            return false;

        Column col = (Column) cols.get(0);
        if (col.getSize() != -1 && col.getType() != Types.CLOB)
            return false;

        if (_dict.getPreferredType(Types.CLOB) != Types.CLOB)
            return false;

        if (warn && _dict.maxEmbeddedClobSize != -1)
            warnMaxEmbedded(val, _dict.maxEmbeddedClobSize);
        return true;
    }

    /**
     * Warn that the given value is being mapped to a handler that will not
     * be able to store large lobs.
     */
    private void warnMaxEmbedded(ValueMapping val, int size) {
        if (getLog().isWarnEnabled())
            getLog().warn(_loc.get("max-embed-lob", val,
                String.valueOf(size)));
    }

    /**
     * Determine the default strategy to use for the given discriminator.
     * Does not take into account the current strategy, if any.
     */
    protected DiscriminatorStrategy defaultStrategy(Discriminator discrim) {
        return defaultStrategy(discrim, getStrategyInstaller().isAdapting());
    }

    /**
     * Determine the default strategy to use for the given discriminator.
     * Does not take into account the current strategy, if any.
     */
    protected DiscriminatorStrategy defaultStrategy(Discriminator discrim,
        boolean adapting) {
        ClassMapping cls = discrim.getClassMapping();
        if (cls.getEmbeddingMetaData() != null)
            return NoneDiscriminatorStrategy.getInstance();
        if (cls.getJoinablePCSuperclassMapping() == null
            && (cls.getStrategy() == NoneClassStrategy.getInstance()
            || Modifier.isFinal(discrim.getClassMapping().getDescribedType().
            getModifiers())))
            return NoneDiscriminatorStrategy.getInstance();

        Object strat = _defaults.getStrategy(discrim, adapting);
        if (strat instanceof String)
            return instantiateDiscriminatorStrategy((String) strat, discrim);
        if (strat != null)
            return (DiscriminatorStrategy) strat;

        if (cls.getJoinablePCSuperclassMapping() != null)
            return new SuperclassDiscriminatorStrategy();
        if (discrim.getMappingInfo().getValue() != null)
            return new ValueMapDiscriminatorStrategy();
        if (cls.getMappedPCSuperclassMapping() != null)
            return NoneDiscriminatorStrategy.getInstance();
        if (adapting || _defaults.defaultMissingInfo())
            return new ClassNameDiscriminatorStrategy();
        DBDictionary dict = ((JDBCConfiguration) getConfiguration()).
            getDBDictionaryInstance();
        if (dict.joinSyntax == JoinSyntaxes.SYNTAX_TRADITIONAL)
            return NoneDiscriminatorStrategy.getInstance();
        return new SubclassJoinDiscriminatorStrategy();
    }

    /**
     * Determine the default strategy to use for the given version.
     * Does not take into account the current strategy, if any.
     */
    protected VersionStrategy defaultStrategy(Version version) {
        return defaultStrategy(version, getStrategyInstaller().isAdapting());
    }

    /**
     * Determine the default strategy to use for the given version.
     * Does not take into account the current strategy, if any.
     */
    protected VersionStrategy defaultStrategy(Version version,
        boolean adapting) {
        ClassMapping cls = version.getClassMapping();
        if (cls.getEmbeddingMetaData() != null)
            return NoneVersionStrategy.getInstance();
        if (cls.getJoinablePCSuperclassMapping() == null
            && cls.getStrategy() == NoneClassStrategy.getInstance())
            return NoneVersionStrategy.getInstance();

        Object strat = _defaults.getStrategy(version, adapting);
        if (strat instanceof String)
            return instantiateVersionStrategy((String) strat, version);
        if (strat != null)
            return (VersionStrategy) strat;

        if (cls.getJoinablePCSuperclassMapping() != null)
            return new SuperclassVersionStrategy();

        FieldMapping vfield = version.getClassMapping().
            getVersionFieldMapping();
        if (vfield != null)
            return defaultStrategy(version, vfield);
        if (adapting || _defaults.defaultMissingInfo())
            return new NumberVersionStrategy();
        return NoneVersionStrategy.getInstance();
    }

    /**
     * Return the default version strategy, given a version field.
     */
    protected VersionStrategy defaultStrategy(Version vers,
        FieldMapping vfield) {
        switch (vfield.getTypeCode()) {
            case JavaTypes.DATE:
            case JavaTypes.CALENDAR:
                return new NanoPrecisionTimestampVersionStrategy();
            case JavaTypes.BYTE:
            case JavaTypes.INT:
            case JavaTypes.LONG:
            case JavaTypes.SHORT:
            case JavaTypes.BYTE_OBJ:
            case JavaTypes.INT_OBJ:
            case JavaTypes.LONG_OBJ:
            case JavaTypes.SHORT_OBJ:
            case JavaTypes.NUMBER:
                return new NumberVersionStrategy();
            default:
                throw new UserException(_loc.get("version-type-unsupported", vfield, vfield.getDeclaredType()));
        }
    }
    
    public void endConfiguration() {
        super.endConfiguration();

        JDBCConfiguration conf = (JDBCConfiguration) getConfiguration();
        _dict = conf.getDBDictionaryInstance();
        if (_defaults == null)
            _defaults = conf.getMappingDefaultsInstance();
        if (_schema != null && _schema instanceof Configurable) {
            ((Configurable) _schema).setConfiguration(conf);
            ((Configurable) _schema).startConfiguration();
            ((Configurable) _schema).endConfiguration();
        }            
    }
    
    /**
     * Finds the base class mapping for the specified mapping.  Loads all
     * persistent types if necessary, since all persistent subclasses of this
     * mapping may not have been resolved before this method is called.
     */
    protected ClassMapping findBaseClassMapping(ClassMapping mapping) {        
        ClassMapping baseMapping = null;
        ClassMapping sup = mapping.getPCSuperclassMapping();
        if (sup == null) {
            // no superclass metadata was provided.  check to see if this class
            // has any persistent subclasses.
            if (mapping.getPCSubclasses().length > 0)
                baseMapping = mapping;
            else {
                // persistent subclasses may not have been resolved yet.  
                // run through the persistent types to see if any of them 
                // or their superclass is a subclass of this class.
                Collection> classes = loadPersistentTypes(false, 
                        mapping.getEnvClassLoader());
                Class cls;
                for (Iterator> itr = classes.iterator(); itr.hasNext();) {
                    cls = itr.next();
                    Class supcl = cls.getSuperclass();
                    while (supcl != null && 
                           !supcl.getClass().equals(java.lang.Object.class)) {
                        if (!supcl.isInterface() &&
                            supcl.equals(mapping.getDescribedType())) {
                            baseMapping = mapping;    
                            break;
                        }
                        supcl = supcl.getSuperclass();
                    }
                    if (baseMapping != null) break;
                }
            }
        } else if (!sup.getDescribedType().isInterface()) {
            // if the superclass is not a managed interface, find the root
            // superclass and get its mapping info
            ClassMapping supcm = sup;
            while (supcm != null && 
                    !supcm.getDescribedType().isInterface() &&
                    !supcm.isEmbeddedOnly()) {
                ClassMapping supcm2 = supcm.getPCSuperclassMapping();
                if (supcm2 == null)
                    baseMapping = supcm;
                supcm = supcm2;
            }
        }
        return baseMapping;
    }
   
    /**
     * If an inheritance strategy has not been set on this mapping, set it
     * to the default (flat).  This method should be called before strategies
     * are created for the specified mapping.
     */
    protected void setDefaultInheritanceStrategy(ClassMapping mapping) {
        ClassMappingInfo info = mapping.getMappingInfo();
        if (info != null && info.getHierarchyStrategy() == null)
            info.setHierarchyStrategy(FlatClassStrategy.ALIAS);        
    } 
    
    /**
     * Determines whether an inhertance strategy has been set on the
     * specified mapping.
     */
    protected boolean hasInheritanceStrategy(ClassMapping mapping) {
        ClassMappingInfo info = mapping.getMappingInfo();
        if (info != null && info.getHierarchyStrategy() != null)
            return true;
        return false;        
    }
}




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