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/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* Copyright (c) 2010, Red Hat Inc. or third-party contributors as
* indicated by the @author tags or express copyright attribution
* statements applied by the authors. All third-party contributions are
* distributed under license by Red Hat Inc.
*
* This copyrighted material is made available to anyone wishing to use, modify,
* copy, or redistribute it subject to the terms and conditions of the GNU
* Lesser General Public License, as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License
* for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this distribution; if not, write to:
* Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor
* Boston, MA 02110-1301 USA
*/
package org.hibernate.type;
import java.io.Serializable;
import java.util.Map;
import org.hibernate.bytecode.instrumentation.spi.LazyPropertyInitializer;
import org.hibernate.engine.spi.SessionImplementor;
import org.hibernate.property.BackrefPropertyAccessor;
import org.hibernate.tuple.NonIdentifierAttribute;
/**
* Collection of convenience methods relating to operations across arrays of types...
*
* @author Steve Ebersole
*/
public class TypeHelper {
/**
* Disallow instantiation
*/
private TypeHelper() {
}
/**
* Deep copy a series of values from one array to another...
*
* @param values The values to copy (the source)
* @param types The value types
* @param copy an array indicating which values to include in the copy
* @param target The array into which to copy the values
* @param session The originating session
*/
public static void deepCopy(
final Object[] values,
final Type[] types,
final boolean[] copy,
final Object[] target,
final SessionImplementor session) {
for ( int i = 0; i < types.length; i++ ) {
if ( copy[i] ) {
if ( values[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY
|| values[i] == BackrefPropertyAccessor.UNKNOWN ) {
target[i] = values[i];
}
else {
target[i] = types[i].deepCopy( values[i], session
.getFactory() );
}
}
}
}
/**
* Apply the {@link Type#beforeAssemble} operation across a series of values.
*
* @param row The values
* @param types The value types
* @param session The originating session
*/
public static void beforeAssemble(
final Serializable[] row,
final Type[] types,
final SessionImplementor session) {
for ( int i = 0; i < types.length; i++ ) {
if ( row[i] != LazyPropertyInitializer.UNFETCHED_PROPERTY
&& row[i] != BackrefPropertyAccessor.UNKNOWN ) {
types[i].beforeAssemble( row[i], session );
}
}
}
/**
* Apply the {@link Type#assemble} operation across a series of values.
*
* @param row The values
* @param types The value types
* @param session The originating session
* @param owner The entity "owning" the values
* @return The assembled state
*/
public static Object[] assemble(
final Serializable[] row,
final Type[] types,
final SessionImplementor session,
final Object owner) {
Object[] assembled = new Object[row.length];
for ( int i = 0; i < types.length; i++ ) {
if ( row[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY || row[i] == BackrefPropertyAccessor.UNKNOWN ) {
assembled[i] = row[i];
}
else {
assembled[i] = types[i].assemble( row[i], session, owner );
}
}
return assembled;
}
/**
* Apply the {@link Type#disassemble} operation across a series of values.
*
* @param row The values
* @param types The value types
* @param nonCacheable An array indicating which values to include in the disassembled state
* @param session The originating session
* @param owner The entity "owning" the values
*
* @return The disassembled state
*/
public static Serializable[] disassemble(
final Object[] row,
final Type[] types,
final boolean[] nonCacheable,
final SessionImplementor session,
final Object owner) {
Serializable[] disassembled = new Serializable[row.length];
for ( int i = 0; i < row.length; i++ ) {
if ( nonCacheable!=null && nonCacheable[i] ) {
disassembled[i] = LazyPropertyInitializer.UNFETCHED_PROPERTY;
}
else if ( row[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY || row[i] == BackrefPropertyAccessor.UNKNOWN ) {
disassembled[i] = (Serializable) row[i];
}
else {
disassembled[i] = types[i].disassemble( row[i], session, owner );
}
}
return disassembled;
}
/**
* Apply the {@link Type#replace} operation across a series of values.
*
* @param original The source of the state
* @param target The target into which to replace the source values.
* @param types The value types
* @param session The originating session
* @param owner The entity "owning" the values
* @param copyCache A map representing a cache of already replaced state
*
* @return The replaced state
*/
public static Object[] replace(
final Object[] original,
final Object[] target,
final Type[] types,
final SessionImplementor session,
final Object owner,
final Map copyCache) {
Object[] copied = new Object[original.length];
for ( int i = 0; i < types.length; i++ ) {
if ( original[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY
|| original[i] == BackrefPropertyAccessor.UNKNOWN ) {
copied[i] = target[i];
}
else {
copied[i] = types[i].replace( original[i], target[i], session, owner, copyCache );
}
}
return copied;
}
/**
* Apply the {@link Type#replace} operation across a series of values.
*
* @param original The source of the state
* @param target The target into which to replace the source values.
* @param types The value types
* @param session The originating session
* @param owner The entity "owning" the values
* @param copyCache A map representing a cache of already replaced state
* @param foreignKeyDirection FK directionality to be applied to the replacement
*
* @return The replaced state
*/
public static Object[] replace(
final Object[] original,
final Object[] target,
final Type[] types,
final SessionImplementor session,
final Object owner,
final Map copyCache,
final ForeignKeyDirection foreignKeyDirection) {
Object[] copied = new Object[original.length];
for ( int i = 0; i < types.length; i++ ) {
if ( original[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY
|| original[i] == BackrefPropertyAccessor.UNKNOWN ) {
copied[i] = target[i];
}
else {
copied[i] = types[i].replace( original[i], target[i], session, owner, copyCache, foreignKeyDirection );
}
}
return copied;
}
/**
* Apply the {@link Type#replace} operation across a series of values, as long as the corresponding
* {@link Type} is an association.
*
* If the corresponding type is a component type, then apply {@link Type#replace} across the component
* subtypes but do not replace the component value itself.
*
* @param original The source of the state
* @param target The target into which to replace the source values.
* @param types The value types
* @param session The originating session
* @param owner The entity "owning" the values
* @param copyCache A map representing a cache of already replaced state
* @param foreignKeyDirection FK directionality to be applied to the replacement
*
* @return The replaced state
*/
public static Object[] replaceAssociations(
final Object[] original,
final Object[] target,
final Type[] types,
final SessionImplementor session,
final Object owner,
final Map copyCache,
final ForeignKeyDirection foreignKeyDirection) {
Object[] copied = new Object[original.length];
for ( int i = 0; i < types.length; i++ ) {
if ( original[i] == LazyPropertyInitializer.UNFETCHED_PROPERTY
|| original[i] == BackrefPropertyAccessor.UNKNOWN ) {
copied[i] = target[i];
}
else if ( types[i].isComponentType() ) {
// need to extract the component values and check for subtype replacements...
CompositeType componentType = ( CompositeType ) types[i];
Type[] subtypes = componentType.getSubtypes();
Object[] origComponentValues = original[i] == null ? new Object[subtypes.length] : componentType.getPropertyValues( original[i], session );
Object[] targetComponentValues = target[i] == null ? new Object[subtypes.length] : componentType.getPropertyValues( target[i], session );
replaceAssociations( origComponentValues, targetComponentValues, subtypes, session, null, copyCache, foreignKeyDirection );
copied[i] = target[i];
}
else if ( !types[i].isAssociationType() ) {
copied[i] = target[i];
}
else {
copied[i] = types[i].replace( original[i], target[i], session, owner, copyCache, foreignKeyDirection );
}
}
return copied;
}
/**
* Determine if any of the given field values are dirty, returning an array containing
* indices of the dirty fields.
*
* If it is determined that no fields are dirty, null is returned.
*
* @param properties The property definitions
* @param currentState The current state of the entity
* @param previousState The baseline state of the entity
* @param includeColumns Columns to be included in the dirty checking, per property
* @param anyUninitializedProperties Does the entity currently hold any uninitialized property values?
* @param session The session from which the dirty check request originated.
*
* @return Array containing indices of the dirty properties, or null if no properties considered dirty.
*/
public static int[] findDirty(
final NonIdentifierAttribute[] properties,
final Object[] currentState,
final Object[] previousState,
final boolean[][] includeColumns,
final boolean anyUninitializedProperties,
final SessionImplementor session) {
int[] results = null;
int count = 0;
int span = properties.length;
for ( int i = 0; i < span; i++ ) {
final boolean dirty = currentState[i] != LazyPropertyInitializer.UNFETCHED_PROPERTY
&& properties[i].isDirtyCheckable( anyUninitializedProperties )
&& properties[i].getType().isDirty( previousState[i], currentState[i], includeColumns[i], session );
if ( dirty ) {
if ( results == null ) {
results = new int[span];
}
results[count++] = i;
}
}
if ( count == 0 ) {
return null;
}
else {
int[] trimmed = new int[count];
System.arraycopy( results, 0, trimmed, 0, count );
return trimmed;
}
}
/**
* Determine if any of the given field values are modified, returning an array containing
* indices of the modified fields.
*
* If it is determined that no fields are dirty, null is returned.
*
* @param properties The property definitions
* @param currentState The current state of the entity
* @param previousState The baseline state of the entity
* @param includeColumns Columns to be included in the mod checking, per property
* @param anyUninitializedProperties Does the entity currently hold any uninitialized property values?
* @param session The session from which the dirty check request originated.
*
* @return Array containing indices of the modified properties, or null if no properties considered modified.
*/
public static int[] findModified(
final NonIdentifierAttribute[] properties,
final Object[] currentState,
final Object[] previousState,
final boolean[][] includeColumns,
final boolean anyUninitializedProperties,
final SessionImplementor session) {
int[] results = null;
int count = 0;
int span = properties.length;
for ( int i = 0; i < span; i++ ) {
final boolean modified = currentState[i]!=LazyPropertyInitializer.UNFETCHED_PROPERTY
&& properties[i].isDirtyCheckable(anyUninitializedProperties)
&& properties[i].getType().isModified( previousState[i], currentState[i], includeColumns[i], session );
if ( modified ) {
if ( results == null ) {
results = new int[span];
}
results[count++] = i;
}
}
if ( count == 0 ) {
return null;
}
else {
int[] trimmed = new int[count];
System.arraycopy( results, 0, trimmed, 0, count );
return trimmed;
}
}
}