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Copyright (c) 2005 Andy Jefferson and others. All rights reserved.
Licensed 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,
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package org.datanucleus.store.rdbms.table;

import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.Map;

import org.datanucleus.ClassLoaderResolver;
import org.datanucleus.exceptions.NucleusException;
import org.datanucleus.exceptions.NucleusUserException;
import org.datanucleus.identity.DatastoreId;
import org.datanucleus.metadata.AbstractClassMetaData;
import org.datanucleus.metadata.AbstractMemberMetaData;
import org.datanucleus.metadata.ColumnMetaData;
import org.datanucleus.metadata.ColumnMetaDataContainer;
import org.datanucleus.metadata.DiscriminatorMetaData;
import org.datanucleus.metadata.FieldRole;
import org.datanucleus.metadata.ValueGenerationStrategy;
import org.datanucleus.metadata.IdentityType;
import org.datanucleus.metadata.VersionMetaData;
import org.datanucleus.store.rdbms.adapter.DatastoreAdapter;
import org.datanucleus.store.rdbms.identifier.DatastoreIdentifier;
import org.datanucleus.store.rdbms.identifier.IdentifierType;
import org.datanucleus.store.rdbms.mapping.MappingConsumer;
import org.datanucleus.store.rdbms.mapping.MappingType;
import org.datanucleus.store.rdbms.mapping.java.JavaTypeMapping;
import org.datanucleus.store.rdbms.mapping.java.DatastoreIdMapping;
import org.datanucleus.store.rdbms.mapping.java.PersistableMapping;
import org.datanucleus.store.schema.table.SurrogateColumnType;
import org.datanucleus.store.rdbms.RDBMSStoreManager;
import org.datanucleus.util.Localiser;
import org.datanucleus.util.NucleusLogger;
import org.datanucleus.util.StringUtils;

/**
 * Abstract representation of a table for a class.
 * Abstracts out the common parts of a primary ClassTable and a SecondaryClassTable.
 * 
 * 

Mappings

* A Table is built from a series of field mappings. Each Java class has a series of fields and each of these has an associated JavaTypeMapping. * Each JavaTypeMapping has related ColumnMapping(s). These are used in mapping the Java class to the table, and are used when populating the table, * and when retrieving data from the table back to the object. There are several categories of mappings in this class *
    *
  • memberMappingsMap - the set of mappings relating to the fields in the class. The mappings are keyed by the FieldMetaData of the field. Any embedded field * will have a single mapping here of type EmbeddedPCMapping, with a set of datastore mappings attached.
  • *
  • datastoreIdMapping - the Identity mapping when using "datastore identity"
  • *
  • pkMappings - the mappings for the primary key column(s).
  • *
  • discriminatorMapping - mapping for any discriminator column. This is only used where classes share this table and some of them use "superclass-table" strategy
  • *
  • versionMapping - mapping for any versioning column
  • *
*/ public abstract class AbstractClassTable extends TableImpl { /** Mappings for members mapped to this table, keyed by the metadata for the member. */ protected Map memberMappingsMap = new LinkedHashMap<>(); /** Mappings for application identity (optional). */ protected JavaTypeMapping[] pkMappings; /** Mapping for the overall "identity" of the table. */ protected JavaTypeMapping idMapping; /** Mapping for any datastore identity. */ protected JavaTypeMapping datastoreIdMapping; /** Mapping for any version/timestamp column. */ protected JavaTypeMapping versionMapping; /** Mapping for any discriminator column. */ protected JavaTypeMapping discriminatorMapping; /** Mapping for any multi-tenancy column. */ protected JavaTypeMapping multitenancyMapping; /** Mapping for any soft-delete column. */ protected JavaTypeMapping softDeleteMapping; /** MetaData for versioning of objects stored in this table. */ protected VersionMetaData versionMetaData; /** MetaData for discriminator for objects stored in this table. */ protected DiscriminatorMetaData discriminatorMetaData; /** Highest absolute field/property number managed by this table */ protected int highestMemberNumber = 0; /** * Constructor. * @param tableName Name of the table * @param storeMgr Store Manager that is managing this instance */ public AbstractClassTable(DatastoreIdentifier tableName, RDBMSStoreManager storeMgr) { super(tableName, storeMgr); } /** * Convenience method to return the primary table. * @return The primary table for this table */ public Table getPrimaryTable() { return this; } /** * Method to initialise the table primary key field(s). * @param clr The ClassLoaderResolver **/ protected abstract void initializePK(ClassLoaderResolver clr); /** * Convenience method for whether the (fully-specified) member is managed by this table * @param memberName Fully qualified name of the field/property * @return Whether it is managed */ public boolean managesMember(String memberName) { if (memberName == null) { return false; } return (getMappingForMemberName(memberName) != null); } /** * Accessor for the JavaTypeMapping that is handling the member of the specified name. * Returns the first one that matches. * @param memberName Name of the field/property * @return The java type mapping */ protected JavaTypeMapping getMappingForMemberName(String memberName) { Iterator> memberMapEntryIter = memberMappingsMap.entrySet().iterator(); while (memberMapEntryIter.hasNext()) { Map.Entry memberMapEntry = memberMapEntryIter.next(); AbstractMemberMetaData mmd = memberMapEntry.getKey(); if (mmd.getFullFieldName().equals(memberName)) { return memberMapEntry.getValue(); } } return null; } /** * Convenience method to return if this table manages the columns for the supplied mapping. * @param mapping The mapping * @return Whether the mapping is managed in this table */ public boolean managesMapping(JavaTypeMapping mapping) { if (memberMappingsMap.values().contains(mapping)) { return true; } else if (mapping == discriminatorMapping) { return true; } else if (mapping == versionMapping) { return true; } else if (mapping == datastoreIdMapping) { return true; } else if (mapping == idMapping) { return true; } else if (mapping == multitenancyMapping) { return true; } return false; } /** * Utility to create the application identity columns and mapping. * Uses the id mapping of the specified class table and copies the mappings * and columns, whilst retaining the passed preferences for column namings. * This is used to copy the PK mappings of a superclass table so we have the same PK. * @param columnContainer The container of column MetaData with any namings * @param refTable The table that we use as reference * @param clr The ClassLoaderResolver * @param cmd The ClassMetaData */ final void addApplicationIdUsingClassTableId(ColumnMetaDataContainer columnContainer, DatastoreClass refTable, ClassLoaderResolver clr, AbstractClassMetaData cmd) { ColumnMetaData[] userdefinedCols = null; int nextUserdefinedCol = 0; if (columnContainer != null) { userdefinedCols = columnContainer.getColumnMetaData(); } pkMappings = new JavaTypeMapping[cmd.getPKMemberPositions().length]; for (int i=0; i highestMemberNumber) { highestMemberNumber = absoluteFieldNumber; } } } /** * Utility to create the datastore identity column and mapping. * This is used in 2 modes. The first is where we have a (primary) class table * and we aren't creating the OID mapping as a FK to another class. The second * is where we have a (secondary) class table and we are creating the OID mapping * as a FK to the primary class. In the second case the refTable will be specified. * @param columnMetaData The column MetaData for the datastore id * @param refTable Table used as a reference (if any) * @param cmd The MetaData for the class */ void addDatastoreId(ColumnMetaData columnMetaData, DatastoreClass refTable, AbstractClassMetaData cmd) { // Create the mapping, setting its table datastoreIdMapping = new DatastoreIdMapping(); datastoreIdMapping.setTable(this); datastoreIdMapping.initialize(storeMgr, cmd.getFullClassName()); // Create a ColumnMetaData in the container if none is defined ColumnMetaData colmd = null; if (columnMetaData == null) { colmd = new ColumnMetaData(); } else { colmd = columnMetaData; } if (colmd.getName() == null) { // Provide default column naming if none is defined if (refTable != null) { colmd.setName(storeMgr.getIdentifierFactory().newColumnIdentifier(refTable.getIdentifier().getName(), this.storeMgr.getNucleusContext().getTypeManager().isDefaultEmbeddedType(DatastoreId.class), FieldRole.ROLE_OWNER, false).getName()); } else { colmd.setName(storeMgr.getIdentifierFactory().newColumnIdentifier(identifier.getName(), this.storeMgr.getNucleusContext().getTypeManager().isDefaultEmbeddedType(DatastoreId.class), FieldRole.ROLE_NONE, false).getName()); } } // Add the datastore identity column as the PK Column idColumn = addColumn(DatastoreId.class.getName(), storeMgr.getIdentifierFactory().newIdentifier(IdentifierType.COLUMN, colmd.getName()), datastoreIdMapping, colmd); idColumn.setPrimaryKey(); // Set the identity column type based on the IdentityStrategy String strategyName = cmd.getIdentityMetaData().getValueStrategy().toString(); if (cmd.getIdentityMetaData().getValueStrategy().equals(ValueGenerationStrategy.CUSTOM)) { strategyName = cmd.getIdentityMetaData().getValueStrategy().getCustomName(); } if (strategyName != null && ValueGenerationStrategy.NATIVE.toString().equals(strategyName)) { strategyName = storeMgr.getValueGenerationStrategyForNative(cmd, -1); } // Check the value generator type being stored Class valueGeneratedType = Long.class; if (strategyName != null && ValueGenerationStrategy.IDENTITY.toString().equals(strategyName)) { valueGeneratedType = dba.getIdentityJavaTypeForType(valueGeneratedType); if (valueGeneratedType != Long.class) { NucleusLogger.DATASTORE_SCHEMA.debug("Class " + cmd.getFullClassName() + " uses IDENTITY strategy and rather than using BIGINT " + " for the column type, using " + valueGeneratedType.getName() + " since the datastore requires that"); } } else { // Get the type that will be generated by the chosen ValueGeneration strategy valueGeneratedType = storeMgr.getValueGenerationManager().getTypeForValueGeneratorForMember(strategyName, storeMgr.getValueGenerationManager().getMemberKey(cmd, -1)); } storeMgr.getMappingManager().createColumnMapping(datastoreIdMapping, idColumn, valueGeneratedType.getName()); logMapping("DATASTORE_ID", datastoreIdMapping); // Handle any auto-increment requirement if (isObjectIdDatastoreAttributed()) { if (this instanceof DatastoreClass && ((DatastoreClass)this).isBaseDatastoreClass()) { // Only the base class can be autoincremented idColumn.setIdentity(true); } } // Check if auto-increment and that it is supported by this RDBMS if (idColumn.isIdentity() && !dba.supportsOption(DatastoreAdapter.IDENTITY_COLUMNS)) { throw new NucleusException(Localiser.msg("057020", cmd.getFullClassName(), "datastore-identity")).setFatal(); } } /** * Utility to add the mapping for a field/property to the managed list. * @param fieldMapping The mapping for the field/property */ protected void addMemberMapping(JavaTypeMapping fieldMapping) { AbstractMemberMetaData mmd = fieldMapping.getMemberMetaData(); logMapping(mmd.getFullFieldName(), fieldMapping); memberMappingsMap.put(mmd, fieldMapping); // Update highest field number if this is higher int absoluteFieldNumber = mmd.getAbsoluteFieldNumber(); if (absoluteFieldNumber > highestMemberNumber) { highestMemberNumber = absoluteFieldNumber; } } /** * Accessor for the identity-type. * @return identity-type tag value */ public abstract IdentityType getIdentityType(); /** * Accessor for whether the table has its identity attributed * by the datastore (e.g using autoincrement) * @return Whether it is datastore attributed */ public abstract boolean isObjectIdDatastoreAttributed(); // -------------------------- Mapping Accessors -------------------------------- /* (non-Javadoc) * @see org.datanucleus.store.schema.table.Table#getSurrogateColumn(org.datanucleus.store.schema.table.SurrogateColumnType) */ @Override public Column getSurrogateColumn(SurrogateColumnType colType) { assertIsInitialized(); if (colType == SurrogateColumnType.DATASTORE_ID) { return datastoreIdMapping != null ? datastoreIdMapping.getColumnMapping(0).getColumn() : null; } else if (colType == SurrogateColumnType.DISCRIMINATOR) { return discriminatorMapping != null ? discriminatorMapping.getColumnMapping(0).getColumn() : null; } else if (colType == SurrogateColumnType.MULTITENANCY) { return multitenancyMapping != null ? multitenancyMapping.getColumnMapping(0).getColumn() : null; } else if (colType == SurrogateColumnType.VERSION) { return versionMapping != null ? versionMapping.getColumnMapping(0).getColumn() : null; } else if (colType == SurrogateColumnType.SOFTDELETE) { return softDeleteMapping != null ? softDeleteMapping.getColumnMapping(0).getColumn() : null; } // TODO Support other column types return null; } /* (non-Javadoc) * @see org.datanucleus.store.rdbms.table.Table#getSurrogateMapping(org.datanucleus.store.schema.table.SurrogateColumnType, boolean) */ @Override public JavaTypeMapping getSurrogateMapping(SurrogateColumnType colType, boolean allowSuperclasses) { assertIsInitialized(); if (colType == SurrogateColumnType.DISCRIMINATOR) { return discriminatorMapping; } else if (colType == SurrogateColumnType.MULTITENANCY) { return multitenancyMapping; } else if (colType == SurrogateColumnType.VERSION) { return versionMapping; } else if (colType == SurrogateColumnType.DATASTORE_ID) { return datastoreIdMapping; } else if (colType == SurrogateColumnType.SOFTDELETE) { return softDeleteMapping; } return super.getSurrogateMapping(colType, allowSuperclasses); } /** * Provide the mappings to the consumer for all primary-key fields mapped to * this table (for application identity). * @param consumer Consumer for the mappings */ public abstract void providePrimaryKeyMappings(MappingConsumer consumer); /** * Provide the mappings to the consumer for all non primary-key fields * mapped to this table. * @param consumer Consumer for the mappings */ final public void provideNonPrimaryKeyMappings(MappingConsumer consumer) { consumer.preConsumeMapping(highestMemberNumber + 1); Iterator> memberMapEntryIter = memberMappingsMap.entrySet().iterator(); while (memberMapEntryIter.hasNext()) { Map.Entry memberMapEntry = memberMapEntryIter.next(); AbstractMemberMetaData mmd = memberMapEntry.getKey(); JavaTypeMapping memberMapping = memberMapEntry.getValue(); if (memberMapping != null) { if (!mmd.isPrimaryKey()) { consumer.consumeMapping(memberMapping, mmd); } } } } /** * Provide the mappings to the consumer for all specified members. * @param consumer Consumer for the mappings * @param mmds MetaData for the members to provide mappings for * @param includeSecondaryTables Whether to provide members in secondary tables */ public void provideMappingsForMembers(MappingConsumer consumer, AbstractMemberMetaData[] mmds, boolean includeSecondaryTables) { consumer.preConsumeMapping(highestMemberNumber + 1); for (int i = 0; i < mmds.length; i++) { JavaTypeMapping fieldMapping = memberMappingsMap.get(mmds[i]); if (fieldMapping != null) { if (!mmds[i].isPrimaryKey()) { consumer.consumeMapping(fieldMapping, mmds[i]); } } } } /** * Accessor for a mapping for a surrogate column (if present). * @param colType The type of the surrogate column * @param consumer Consumer for the mappings **/ final public void provideSurrogateMapping(SurrogateColumnType colType, MappingConsumer consumer) { consumer.preConsumeMapping(highestMemberNumber + 1); if (colType == SurrogateColumnType.DATASTORE_ID) { if (getIdentityType() == IdentityType.DATASTORE) { consumer.consumeMapping(datastoreIdMapping, MappingType.DATASTORE_ID); } } else if (colType == SurrogateColumnType.DISCRIMINATOR) { JavaTypeMapping discrimMapping = getSurrogateMapping(SurrogateColumnType.DISCRIMINATOR, false); if (discrimMapping != null) { consumer.consumeMapping(discrimMapping, MappingType.DISCRIMINATOR); } } else if (colType == SurrogateColumnType.MULTITENANCY) { if (multitenancyMapping != null) { consumer.consumeMapping(multitenancyMapping, MappingType.MULTITENANCY); } } else if (colType == SurrogateColumnType.VERSION) { JavaTypeMapping versionMapping = getSurrogateMapping(SurrogateColumnType.VERSION, false); if (versionMapping != null) { consumer.consumeMapping(versionMapping, MappingType.VERSION); } } else if (colType == SurrogateColumnType.SOFTDELETE) { if (softDeleteMapping != null) { consumer.consumeMapping(softDeleteMapping, MappingType.SOFTDELETE); } } else { // TODO Support other types } } }




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