/**
* Copyright (c) 2000-present Liferay, Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License as published by the Free
* Software Foundation; either version 2.1 of the License, or (at your option)
* any later version.
*
* This library 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.
*/
package com.liferay.portal.service.persistence.impl;
import aQute.bnd.annotation.ProviderType;
import com.liferay.portal.kernel.dao.orm.EntityCache;
import com.liferay.portal.kernel.dao.orm.EntityCacheUtil;
import com.liferay.portal.kernel.dao.orm.FinderCache;
import com.liferay.portal.kernel.dao.orm.FinderCacheUtil;
import com.liferay.portal.kernel.dao.orm.FinderPath;
import com.liferay.portal.kernel.dao.orm.Query;
import com.liferay.portal.kernel.dao.orm.QueryPos;
import com.liferay.portal.kernel.dao.orm.QueryUtil;
import com.liferay.portal.kernel.dao.orm.Session;
import com.liferay.portal.kernel.exception.NoSuchListTypeException;
import com.liferay.portal.kernel.log.Log;
import com.liferay.portal.kernel.log.LogFactoryUtil;
import com.liferay.portal.kernel.model.ListType;
import com.liferay.portal.kernel.service.persistence.ListTypePersistence;
import com.liferay.portal.kernel.service.persistence.impl.BasePersistenceImpl;
import com.liferay.portal.kernel.util.OrderByComparator;
import com.liferay.portal.kernel.util.ReflectionUtil;
import com.liferay.portal.kernel.util.SetUtil;
import com.liferay.portal.kernel.util.StringBundler;
import com.liferay.portal.kernel.util.StringPool;
import com.liferay.portal.kernel.util.StringUtil;
import com.liferay.portal.model.impl.ListTypeImpl;
import com.liferay.portal.model.impl.ListTypeModelImpl;
import java.io.Serializable;
import java.lang.reflect.Field;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
/**
* The persistence implementation for the list type service.
*
* <p>
* Caching information and settings can be found in <code>portal.properties</code>
* </p>
*
* @author Brian Wing Shun Chan
* @see ListTypePersistence
* @see com.liferay.portal.kernel.service.persistence.ListTypeUtil
* @generated
*/
@ProviderType
public class ListTypePersistenceImpl extends BasePersistenceImpl<ListType>
implements ListTypePersistence {
/*
* NOTE FOR DEVELOPERS:
*
* Never modify or reference this class directly. Always use {@link ListTypeUtil} to access the list type persistence. Modify <code>service.xml</code> and rerun ServiceBuilder to regenerate this class.
*/
public static final String FINDER_CLASS_NAME_ENTITY = ListTypeImpl.class.getName();
public static final String FINDER_CLASS_NAME_LIST_WITH_PAGINATION = FINDER_CLASS_NAME_ENTITY +
".List1";
public static final String FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION = FINDER_CLASS_NAME_ENTITY +
".List2";
public static final FinderPath FINDER_PATH_WITH_PAGINATION_FIND_ALL = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, ListTypeImpl.class,
FINDER_CLASS_NAME_LIST_WITH_PAGINATION, "findAll", new String[0]);
public static final FinderPath FINDER_PATH_WITHOUT_PAGINATION_FIND_ALL = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, ListTypeImpl.class,
FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION, "findAll", new String[0]);
public static final FinderPath FINDER_PATH_COUNT_ALL = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, Long.class,
FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION, "countAll", new String[0]);
public static final FinderPath FINDER_PATH_WITH_PAGINATION_FIND_BY_TYPE = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, ListTypeImpl.class,
FINDER_CLASS_NAME_LIST_WITH_PAGINATION, "findByType",
new String[] {
String.class.getName(),
Integer.class.getName(), Integer.class.getName(),
OrderByComparator.class.getName()
});
public static final FinderPath FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, ListTypeImpl.class,
FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION, "findByType",
new String[] { String.class.getName() },
ListTypeModelImpl.TYPE_COLUMN_BITMASK |
ListTypeModelImpl.NAME_COLUMN_BITMASK);
public static final FinderPath FINDER_PATH_COUNT_BY_TYPE = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, Long.class,
FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION, "countByType",
new String[] { String.class.getName() });
/**
* Returns all the list types where type = ?.
*
* @param type the type
* @return the matching list types
*/
@Override
public List<ListType> findByType(String type) {
return findByType(type, QueryUtil.ALL_POS, QueryUtil.ALL_POS, null);
}
/**
* Returns a range of all the list types where type = ?.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param type the type
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @return the range of matching list types
*/
@Override
public List<ListType> findByType(String type, int start, int end) {
return findByType(type, start, end, null);
}
/**
* Returns an ordered range of all the list types where type = ?.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param type the type
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @param orderByComparator the comparator to order the results by (optionally <code>null</code>)
* @return the ordered range of matching list types
*/
@Override
public List<ListType> findByType(String type, int start, int end,
OrderByComparator<ListType> orderByComparator) {
return findByType(type, start, end, orderByComparator, true);
}
/**
* Returns an ordered range of all the list types where type = ?.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param type the type
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @param orderByComparator the comparator to order the results by (optionally <code>null</code>)
* @param retrieveFromCache whether to retrieve from the finder cache
* @return the ordered range of matching list types
*/
@Override
public List<ListType> findByType(String type, int start, int end,
OrderByComparator<ListType> orderByComparator, boolean retrieveFromCache) {
boolean pagination = true;
FinderPath finderPath = null;
Object[] finderArgs = null;
if ((start == QueryUtil.ALL_POS) && (end == QueryUtil.ALL_POS) &&
(orderByComparator == null)) {
pagination = false;
finderPath = FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE;
finderArgs = new Object[] { type };
}
else {
finderPath = FINDER_PATH_WITH_PAGINATION_FIND_BY_TYPE;
finderArgs = new Object[] { type, start, end, orderByComparator };
}
List<ListType> list = null;
if (retrieveFromCache) {
list = (List<ListType>)finderCache.getResult(finderPath,
finderArgs, this);
if ((list != null) && !list.isEmpty()) {
for (ListType listType : list) {
if (!Objects.equals(type, listType.getType())) {
list = null;
break;
}
}
}
}
if (list == null) {
StringBundler query = null;
if (orderByComparator != null) {
query = new StringBundler(3 +
(orderByComparator.getOrderByFields().length * 2));
}
else {
query = new StringBundler(3);
}
query.append(_SQL_SELECT_LISTTYPE_WHERE);
boolean bindType = false;
if (type == null) {
query.append(_FINDER_COLUMN_TYPE_TYPE_1);
}
else if (type.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_TYPE_TYPE_3);
}
else {
bindType = true;
query.append(_FINDER_COLUMN_TYPE_TYPE_2);
}
if (orderByComparator != null) {
appendOrderByComparator(query, _ORDER_BY_ENTITY_ALIAS,
orderByComparator);
}
else
if (pagination) {
query.append(ListTypeModelImpl.ORDER_BY_JPQL);
}
String sql = query.toString();
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
QueryPos qPos = QueryPos.getInstance(q);
if (bindType) {
qPos.add(type);
}
if (!pagination) {
list = (List<ListType>)QueryUtil.list(q, getDialect(),
start, end, false);
Collections.sort(list);
list = Collections.unmodifiableList(list);
}
else {
list = (List<ListType>)QueryUtil.list(q, getDialect(),
start, end);
}
cacheResult(list);
finderCache.putResult(finderPath, finderArgs, list);
}
catch (Exception e) {
finderCache.removeResult(finderPath, finderArgs);
throw processException(e);
}
finally {
closeSession(session);
}
}
return list;
}
/**
* Returns the first list type in the ordered set where type = ?.
*
* @param type the type
* @param orderByComparator the comparator to order the set by (optionally <code>null</code>)
* @return the first matching list type
* @throws NoSuchListTypeException if a matching list type could not be found
*/
@Override
public ListType findByType_First(String type,
OrderByComparator<ListType> orderByComparator)
throws NoSuchListTypeException {
ListType listType = fetchByType_First(type, orderByComparator);
if (listType != null) {
return listType;
}
StringBundler msg = new StringBundler(4);
msg.append(_NO_SUCH_ENTITY_WITH_KEY);
msg.append("type=");
msg.append(type);
msg.append(StringPool.CLOSE_CURLY_BRACE);
throw new NoSuchListTypeException(msg.toString());
}
/**
* Returns the first list type in the ordered set where type = ?.
*
* @param type the type
* @param orderByComparator the comparator to order the set by (optionally <code>null</code>)
* @return the first matching list type, or <code>null</code> if a matching list type could not be found
*/
@Override
public ListType fetchByType_First(String type,
OrderByComparator<ListType> orderByComparator) {
List<ListType> list = findByType(type, 0, 1, orderByComparator);
if (!list.isEmpty()) {
return list.get(0);
}
return null;
}
/**
* Returns the last list type in the ordered set where type = ?.
*
* @param type the type
* @param orderByComparator the comparator to order the set by (optionally <code>null</code>)
* @return the last matching list type
* @throws NoSuchListTypeException if a matching list type could not be found
*/
@Override
public ListType findByType_Last(String type,
OrderByComparator<ListType> orderByComparator)
throws NoSuchListTypeException {
ListType listType = fetchByType_Last(type, orderByComparator);
if (listType != null) {
return listType;
}
StringBundler msg = new StringBundler(4);
msg.append(_NO_SUCH_ENTITY_WITH_KEY);
msg.append("type=");
msg.append(type);
msg.append(StringPool.CLOSE_CURLY_BRACE);
throw new NoSuchListTypeException(msg.toString());
}
/**
* Returns the last list type in the ordered set where type = ?.
*
* @param type the type
* @param orderByComparator the comparator to order the set by (optionally <code>null</code>)
* @return the last matching list type, or <code>null</code> if a matching list type could not be found
*/
@Override
public ListType fetchByType_Last(String type,
OrderByComparator<ListType> orderByComparator) {
int count = countByType(type);
if (count == 0) {
return null;
}
List<ListType> list = findByType(type, count - 1, count,
orderByComparator);
if (!list.isEmpty()) {
return list.get(0);
}
return null;
}
/**
* Returns the list types before and after the current list type in the ordered set where type = ?.
*
* @param listTypeId the primary key of the current list type
* @param type the type
* @param orderByComparator the comparator to order the set by (optionally <code>null</code>)
* @return the previous, current, and next list type
* @throws NoSuchListTypeException if a list type with the primary key could not be found
*/
@Override
public ListType[] findByType_PrevAndNext(long listTypeId, String type,
OrderByComparator<ListType> orderByComparator)
throws NoSuchListTypeException {
ListType listType = findByPrimaryKey(listTypeId);
Session session = null;
try {
session = openSession();
ListType[] array = new ListTypeImpl[3];
array[0] = getByType_PrevAndNext(session, listType, type,
orderByComparator, true);
array[1] = listType;
array[2] = getByType_PrevAndNext(session, listType, type,
orderByComparator, false);
return array;
}
catch (Exception e) {
throw processException(e);
}
finally {
closeSession(session);
}
}
protected ListType getByType_PrevAndNext(Session session,
ListType listType, String type,
OrderByComparator<ListType> orderByComparator, boolean previous) {
StringBundler query = null;
if (orderByComparator != null) {
query = new StringBundler(4 +
(orderByComparator.getOrderByConditionFields().length * 3) +
(orderByComparator.getOrderByFields().length * 3));
}
else {
query = new StringBundler(3);
}
query.append(_SQL_SELECT_LISTTYPE_WHERE);
boolean bindType = false;
if (type == null) {
query.append(_FINDER_COLUMN_TYPE_TYPE_1);
}
else if (type.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_TYPE_TYPE_3);
}
else {
bindType = true;
query.append(_FINDER_COLUMN_TYPE_TYPE_2);
}
if (orderByComparator != null) {
String[] orderByConditionFields = orderByComparator.getOrderByConditionFields();
if (orderByConditionFields.length > 0) {
query.append(WHERE_AND);
}
for (int i = 0; i < orderByConditionFields.length; i++) {
query.append(_ORDER_BY_ENTITY_ALIAS);
query.append(orderByConditionFields[i]);
if ((i + 1) < orderByConditionFields.length) {
if (orderByComparator.isAscending() ^ previous) {
query.append(WHERE_GREATER_THAN_HAS_NEXT);
}
else {
query.append(WHERE_LESSER_THAN_HAS_NEXT);
}
}
else {
if (orderByComparator.isAscending() ^ previous) {
query.append(WHERE_GREATER_THAN);
}
else {
query.append(WHERE_LESSER_THAN);
}
}
}
query.append(ORDER_BY_CLAUSE);
String[] orderByFields = orderByComparator.getOrderByFields();
for (int i = 0; i < orderByFields.length; i++) {
query.append(_ORDER_BY_ENTITY_ALIAS);
query.append(orderByFields[i]);
if ((i + 1) < orderByFields.length) {
if (orderByComparator.isAscending() ^ previous) {
query.append(ORDER_BY_ASC_HAS_NEXT);
}
else {
query.append(ORDER_BY_DESC_HAS_NEXT);
}
}
else {
if (orderByComparator.isAscending() ^ previous) {
query.append(ORDER_BY_ASC);
}
else {
query.append(ORDER_BY_DESC);
}
}
}
}
else {
query.append(ListTypeModelImpl.ORDER_BY_JPQL);
}
String sql = query.toString();
Query q = session.createQuery(sql);
q.setFirstResult(0);
q.setMaxResults(2);
QueryPos qPos = QueryPos.getInstance(q);
if (bindType) {
qPos.add(type);
}
if (orderByComparator != null) {
Object[] values = orderByComparator.getOrderByConditionValues(listType);
for (Object value : values) {
qPos.add(value);
}
}
List<ListType> list = q.list();
if (list.size() == 2) {
return list.get(1);
}
else {
return null;
}
}
/**
* Removes all the list types where type = ? from the database.
*
* @param type the type
*/
@Override
public void removeByType(String type) {
for (ListType listType : findByType(type, QueryUtil.ALL_POS,
QueryUtil.ALL_POS, null)) {
remove(listType);
}
}
/**
* Returns the number of list types where type = ?.
*
* @param type the type
* @return the number of matching list types
*/
@Override
public int countByType(String type) {
FinderPath finderPath = FINDER_PATH_COUNT_BY_TYPE;
Object[] finderArgs = new Object[] { type };
Long count = (Long)finderCache.getResult(finderPath, finderArgs, this);
if (count == null) {
StringBundler query = new StringBundler(2);
query.append(_SQL_COUNT_LISTTYPE_WHERE);
boolean bindType = false;
if (type == null) {
query.append(_FINDER_COLUMN_TYPE_TYPE_1);
}
else if (type.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_TYPE_TYPE_3);
}
else {
bindType = true;
query.append(_FINDER_COLUMN_TYPE_TYPE_2);
}
String sql = query.toString();
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
QueryPos qPos = QueryPos.getInstance(q);
if (bindType) {
qPos.add(type);
}
count = (Long)q.uniqueResult();
finderCache.putResult(finderPath, finderArgs, count);
}
catch (Exception e) {
finderCache.removeResult(finderPath, finderArgs);
throw processException(e);
}
finally {
closeSession(session);
}
}
return count.intValue();
}
private static final String _FINDER_COLUMN_TYPE_TYPE_1 = "listType.type IS NULL";
private static final String _FINDER_COLUMN_TYPE_TYPE_2 = "listType.type = ?";
private static final String _FINDER_COLUMN_TYPE_TYPE_3 = "(listType.type IS NULL OR listType.type = '')";
public static final FinderPath FINDER_PATH_FETCH_BY_N_T = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, ListTypeImpl.class,
FINDER_CLASS_NAME_ENTITY, "fetchByN_T",
new String[] { String.class.getName(), String.class.getName() },
ListTypeModelImpl.NAME_COLUMN_BITMASK |
ListTypeModelImpl.TYPE_COLUMN_BITMASK);
public static final FinderPath FINDER_PATH_COUNT_BY_N_T = new FinderPath(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeModelImpl.FINDER_CACHE_ENABLED, Long.class,
FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION, "countByN_T",
new String[] { String.class.getName(), String.class.getName() });
/**
* Returns the list type where name = ? and type = ? or throws a {@link NoSuchListTypeException} if it could not be found.
*
* @param name the name
* @param type the type
* @return the matching list type
* @throws NoSuchListTypeException if a matching list type could not be found
*/
@Override
public ListType findByN_T(String name, String type)
throws NoSuchListTypeException {
ListType listType = fetchByN_T(name, type);
if (listType == null) {
StringBundler msg = new StringBundler(6);
msg.append(_NO_SUCH_ENTITY_WITH_KEY);
msg.append("name=");
msg.append(name);
msg.append(", type=");
msg.append(type);
msg.append(StringPool.CLOSE_CURLY_BRACE);
if (_log.isDebugEnabled()) {
_log.debug(msg.toString());
}
throw new NoSuchListTypeException(msg.toString());
}
return listType;
}
/**
* Returns the list type where name = ? and type = ? or returns <code>null</code> if it could not be found. Uses the finder cache.
*
* @param name the name
* @param type the type
* @return the matching list type, or <code>null</code> if a matching list type could not be found
*/
@Override
public ListType fetchByN_T(String name, String type) {
return fetchByN_T(name, type, true);
}
/**
* Returns the list type where name = ? and type = ? or returns <code>null</code> if it could not be found, optionally using the finder cache.
*
* @param name the name
* @param type the type
* @param retrieveFromCache whether to retrieve from the finder cache
* @return the matching list type, or <code>null</code> if a matching list type could not be found
*/
@Override
public ListType fetchByN_T(String name, String type,
boolean retrieveFromCache) {
Object[] finderArgs = new Object[] { name, type };
Object result = null;
if (retrieveFromCache) {
result = finderCache.getResult(FINDER_PATH_FETCH_BY_N_T,
finderArgs, this);
}
if (result instanceof ListType) {
ListType listType = (ListType)result;
if (!Objects.equals(name, listType.getName()) ||
!Objects.equals(type, listType.getType())) {
result = null;
}
}
if (result == null) {
StringBundler query = new StringBundler(4);
query.append(_SQL_SELECT_LISTTYPE_WHERE);
boolean bindName = false;
if (name == null) {
query.append(_FINDER_COLUMN_N_T_NAME_1);
}
else if (name.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_N_T_NAME_3);
}
else {
bindName = true;
query.append(_FINDER_COLUMN_N_T_NAME_2);
}
boolean bindType = false;
if (type == null) {
query.append(_FINDER_COLUMN_N_T_TYPE_1);
}
else if (type.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_N_T_TYPE_3);
}
else {
bindType = true;
query.append(_FINDER_COLUMN_N_T_TYPE_2);
}
String sql = query.toString();
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
QueryPos qPos = QueryPos.getInstance(q);
if (bindName) {
qPos.add(name);
}
if (bindType) {
qPos.add(type);
}
List<ListType> list = q.list();
if (list.isEmpty()) {
finderCache.putResult(FINDER_PATH_FETCH_BY_N_T, finderArgs,
list);
}
else {
if (list.size() > 1) {
Collections.sort(list, Collections.reverseOrder());
if (_log.isWarnEnabled()) {
_log.warn(
"ListTypePersistenceImpl.fetchByN_T(String, String, boolean) with parameters (" +
StringUtil.merge(finderArgs) +
") yields a result set with more than 1 result. This violates the logical unique restriction. There is no order guarantee on which result is returned by this finder.");
}
}
ListType listType = list.get(0);
result = listType;
cacheResult(listType);
if ((listType.getName() == null) ||
!listType.getName().equals(name) ||
(listType.getType() == null) ||
!listType.getType().equals(type)) {
finderCache.putResult(FINDER_PATH_FETCH_BY_N_T,
finderArgs, listType);
}
}
}
catch (Exception e) {
finderCache.removeResult(FINDER_PATH_FETCH_BY_N_T, finderArgs);
throw processException(e);
}
finally {
closeSession(session);
}
}
if (result instanceof List<?>) {
return null;
}
else {
return (ListType)result;
}
}
/**
* Removes the list type where name = ? and type = ? from the database.
*
* @param name the name
* @param type the type
* @return the list type that was removed
*/
@Override
public ListType removeByN_T(String name, String type)
throws NoSuchListTypeException {
ListType listType = findByN_T(name, type);
return remove(listType);
}
/**
* Returns the number of list types where name = ? and type = ?.
*
* @param name the name
* @param type the type
* @return the number of matching list types
*/
@Override
public int countByN_T(String name, String type) {
FinderPath finderPath = FINDER_PATH_COUNT_BY_N_T;
Object[] finderArgs = new Object[] { name, type };
Long count = (Long)finderCache.getResult(finderPath, finderArgs, this);
if (count == null) {
StringBundler query = new StringBundler(3);
query.append(_SQL_COUNT_LISTTYPE_WHERE);
boolean bindName = false;
if (name == null) {
query.append(_FINDER_COLUMN_N_T_NAME_1);
}
else if (name.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_N_T_NAME_3);
}
else {
bindName = true;
query.append(_FINDER_COLUMN_N_T_NAME_2);
}
boolean bindType = false;
if (type == null) {
query.append(_FINDER_COLUMN_N_T_TYPE_1);
}
else if (type.equals(StringPool.BLANK)) {
query.append(_FINDER_COLUMN_N_T_TYPE_3);
}
else {
bindType = true;
query.append(_FINDER_COLUMN_N_T_TYPE_2);
}
String sql = query.toString();
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
QueryPos qPos = QueryPos.getInstance(q);
if (bindName) {
qPos.add(name);
}
if (bindType) {
qPos.add(type);
}
count = (Long)q.uniqueResult();
finderCache.putResult(finderPath, finderArgs, count);
}
catch (Exception e) {
finderCache.removeResult(finderPath, finderArgs);
throw processException(e);
}
finally {
closeSession(session);
}
}
return count.intValue();
}
private static final String _FINDER_COLUMN_N_T_NAME_1 = "listType.name IS NULL AND ";
private static final String _FINDER_COLUMN_N_T_NAME_2 = "listType.name = ? AND ";
private static final String _FINDER_COLUMN_N_T_NAME_3 = "(listType.name IS NULL OR listType.name = '') AND ";
private static final String _FINDER_COLUMN_N_T_TYPE_1 = "listType.type IS NULL";
private static final String _FINDER_COLUMN_N_T_TYPE_2 = "listType.type = ?";
private static final String _FINDER_COLUMN_N_T_TYPE_3 = "(listType.type IS NULL OR listType.type = '')";
public ListTypePersistenceImpl() {
setModelClass(ListType.class);
try {
Field field = ReflectionUtil.getDeclaredField(BasePersistenceImpl.class,
"_dbColumnNames");
Map<String, String> dbColumnNames = new HashMap<String, String>();
dbColumnNames.put("type", "type_");
field.set(this, dbColumnNames);
}
catch (Exception e) {
if (_log.isDebugEnabled()) {
_log.debug(e, e);
}
}
}
/**
* Caches the list type in the entity cache if it is enabled.
*
* @param listType the list type
*/
@Override
public void cacheResult(ListType listType) {
entityCache.putResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, listType.getPrimaryKey(), listType);
finderCache.putResult(FINDER_PATH_FETCH_BY_N_T,
new Object[] { listType.getName(), listType.getType() }, listType);
listType.resetOriginalValues();
}
/**
* Caches the list types in the entity cache if it is enabled.
*
* @param listTypes the list types
*/
@Override
public void cacheResult(List<ListType> listTypes) {
for (ListType listType : listTypes) {
if (entityCache.getResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, listType.getPrimaryKey()) == null) {
cacheResult(listType);
}
else {
listType.resetOriginalValues();
}
}
}
/**
* Clears the cache for all list types.
*
* <p>
* The {@link EntityCache} and {@link FinderCache} are both cleared by this method.
* </p>
*/
@Override
public void clearCache() {
entityCache.clearCache(ListTypeImpl.class);
finderCache.clearCache(FINDER_CLASS_NAME_ENTITY);
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITH_PAGINATION);
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION);
}
/**
* Clears the cache for the list type.
*
* <p>
* The {@link EntityCache} and {@link FinderCache} are both cleared by this method.
* </p>
*/
@Override
public void clearCache(ListType listType) {
entityCache.removeResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, listType.getPrimaryKey());
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITH_PAGINATION);
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION);
clearUniqueFindersCache((ListTypeModelImpl)listType, true);
}
@Override
public void clearCache(List<ListType> listTypes) {
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITH_PAGINATION);
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION);
for (ListType listType : listTypes) {
entityCache.removeResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, listType.getPrimaryKey());
clearUniqueFindersCache((ListTypeModelImpl)listType, true);
}
}
protected void cacheUniqueFindersCache(ListTypeModelImpl listTypeModelImpl) {
Object[] args = new Object[] {
listTypeModelImpl.getName(), listTypeModelImpl.getType()
};
finderCache.putResult(FINDER_PATH_COUNT_BY_N_T, args, Long.valueOf(1),
false);
finderCache.putResult(FINDER_PATH_FETCH_BY_N_T, args,
listTypeModelImpl, false);
}
protected void clearUniqueFindersCache(
ListTypeModelImpl listTypeModelImpl, boolean clearCurrent) {
if (clearCurrent) {
Object[] args = new Object[] {
listTypeModelImpl.getName(), listTypeModelImpl.getType()
};
finderCache.removeResult(FINDER_PATH_COUNT_BY_N_T, args);
finderCache.removeResult(FINDER_PATH_FETCH_BY_N_T, args);
}
if ((listTypeModelImpl.getColumnBitmask() &
FINDER_PATH_FETCH_BY_N_T.getColumnBitmask()) != 0) {
Object[] args = new Object[] {
listTypeModelImpl.getOriginalName(),
listTypeModelImpl.getOriginalType()
};
finderCache.removeResult(FINDER_PATH_COUNT_BY_N_T, args);
finderCache.removeResult(FINDER_PATH_FETCH_BY_N_T, args);
}
}
/**
* Creates a new list type with the primary key. Does not add the list type to the database.
*
* @param listTypeId the primary key for the new list type
* @return the new list type
*/
@Override
public ListType create(long listTypeId) {
ListType listType = new ListTypeImpl();
listType.setNew(true);
listType.setPrimaryKey(listTypeId);
return listType;
}
/**
* Removes the list type with the primary key from the database. Also notifies the appropriate model listeners.
*
* @param listTypeId the primary key of the list type
* @return the list type that was removed
* @throws NoSuchListTypeException if a list type with the primary key could not be found
*/
@Override
public ListType remove(long listTypeId) throws NoSuchListTypeException {
return remove((Serializable)listTypeId);
}
/**
* Removes the list type with the primary key from the database. Also notifies the appropriate model listeners.
*
* @param primaryKey the primary key of the list type
* @return the list type that was removed
* @throws NoSuchListTypeException if a list type with the primary key could not be found
*/
@Override
public ListType remove(Serializable primaryKey)
throws NoSuchListTypeException {
Session session = null;
try {
session = openSession();
ListType listType = (ListType)session.get(ListTypeImpl.class,
primaryKey);
if (listType == null) {
if (_log.isDebugEnabled()) {
_log.debug(_NO_SUCH_ENTITY_WITH_PRIMARY_KEY + primaryKey);
}
throw new NoSuchListTypeException(_NO_SUCH_ENTITY_WITH_PRIMARY_KEY +
primaryKey);
}
return remove(listType);
}
catch (NoSuchListTypeException nsee) {
throw nsee;
}
catch (Exception e) {
throw processException(e);
}
finally {
closeSession(session);
}
}
@Override
protected ListType removeImpl(ListType listType) {
listType = toUnwrappedModel(listType);
Session session = null;
try {
session = openSession();
if (!session.contains(listType)) {
listType = (ListType)session.get(ListTypeImpl.class,
listType.getPrimaryKeyObj());
}
if (listType != null) {
session.delete(listType);
}
}
catch (Exception e) {
throw processException(e);
}
finally {
closeSession(session);
}
if (listType != null) {
clearCache(listType);
}
return listType;
}
@Override
public ListType updateImpl(ListType listType) {
listType = toUnwrappedModel(listType);
boolean isNew = listType.isNew();
ListTypeModelImpl listTypeModelImpl = (ListTypeModelImpl)listType;
Session session = null;
try {
session = openSession();
if (listType.isNew()) {
session.save(listType);
listType.setNew(false);
}
else {
listType = (ListType)session.merge(listType);
}
}
catch (Exception e) {
throw processException(e);
}
finally {
closeSession(session);
}
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITH_PAGINATION);
if (!ListTypeModelImpl.COLUMN_BITMASK_ENABLED) {
finderCache.clearCache(FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION);
}
else
if (isNew) {
Object[] args = new Object[] { listTypeModelImpl.getType() };
finderCache.removeResult(FINDER_PATH_COUNT_BY_TYPE, args);
finderCache.removeResult(FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE,
args);
finderCache.removeResult(FINDER_PATH_COUNT_ALL, FINDER_ARGS_EMPTY);
finderCache.removeResult(FINDER_PATH_WITHOUT_PAGINATION_FIND_ALL,
FINDER_ARGS_EMPTY);
}
else {
if ((listTypeModelImpl.getColumnBitmask() &
FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE.getColumnBitmask()) != 0) {
Object[] args = new Object[] { listTypeModelImpl.getOriginalType() };
finderCache.removeResult(FINDER_PATH_COUNT_BY_TYPE, args);
finderCache.removeResult(FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE,
args);
args = new Object[] { listTypeModelImpl.getType() };
finderCache.removeResult(FINDER_PATH_COUNT_BY_TYPE, args);
finderCache.removeResult(FINDER_PATH_WITHOUT_PAGINATION_FIND_BY_TYPE,
args);
}
}
entityCache.putResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, listType.getPrimaryKey(), listType, false);
clearUniqueFindersCache(listTypeModelImpl, false);
cacheUniqueFindersCache(listTypeModelImpl);
listType.resetOriginalValues();
return listType;
}
protected ListType toUnwrappedModel(ListType listType) {
if (listType instanceof ListTypeImpl) {
return listType;
}
ListTypeImpl listTypeImpl = new ListTypeImpl();
listTypeImpl.setNew(listType.isNew());
listTypeImpl.setPrimaryKey(listType.getPrimaryKey());
listTypeImpl.setMvccVersion(listType.getMvccVersion());
listTypeImpl.setListTypeId(listType.getListTypeId());
listTypeImpl.setName(listType.getName());
listTypeImpl.setType(listType.getType());
return listTypeImpl;
}
/**
* Returns the list type with the primary key or throws a {@link com.liferay.portal.kernel.exception.NoSuchModelException} if it could not be found.
*
* @param primaryKey the primary key of the list type
* @return the list type
* @throws NoSuchListTypeException if a list type with the primary key could not be found
*/
@Override
public ListType findByPrimaryKey(Serializable primaryKey)
throws NoSuchListTypeException {
ListType listType = fetchByPrimaryKey(primaryKey);
if (listType == null) {
if (_log.isDebugEnabled()) {
_log.debug(_NO_SUCH_ENTITY_WITH_PRIMARY_KEY + primaryKey);
}
throw new NoSuchListTypeException(_NO_SUCH_ENTITY_WITH_PRIMARY_KEY +
primaryKey);
}
return listType;
}
/**
* Returns the list type with the primary key or throws a {@link NoSuchListTypeException} if it could not be found.
*
* @param listTypeId the primary key of the list type
* @return the list type
* @throws NoSuchListTypeException if a list type with the primary key could not be found
*/
@Override
public ListType findByPrimaryKey(long listTypeId)
throws NoSuchListTypeException {
return findByPrimaryKey((Serializable)listTypeId);
}
/**
* Returns the list type with the primary key or returns <code>null</code> if it could not be found.
*
* @param primaryKey the primary key of the list type
* @return the list type, or <code>null</code> if a list type with the primary key could not be found
*/
@Override
public ListType fetchByPrimaryKey(Serializable primaryKey) {
Serializable serializable = entityCache.getResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, primaryKey);
if (serializable == nullModel) {
return null;
}
ListType listType = (ListType)serializable;
if (listType == null) {
Session session = null;
try {
session = openSession();
listType = (ListType)session.get(ListTypeImpl.class, primaryKey);
if (listType != null) {
cacheResult(listType);
}
else {
entityCache.putResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, primaryKey, nullModel);
}
}
catch (Exception e) {
entityCache.removeResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, primaryKey);
throw processException(e);
}
finally {
closeSession(session);
}
}
return listType;
}
/**
* Returns the list type with the primary key or returns <code>null</code> if it could not be found.
*
* @param listTypeId the primary key of the list type
* @return the list type, or <code>null</code> if a list type with the primary key could not be found
*/
@Override
public ListType fetchByPrimaryKey(long listTypeId) {
return fetchByPrimaryKey((Serializable)listTypeId);
}
@Override
public Map<Serializable, ListType> fetchByPrimaryKeys(
Set<Serializable> primaryKeys) {
if (primaryKeys.isEmpty()) {
return Collections.emptyMap();
}
Map<Serializable, ListType> map = new HashMap<Serializable, ListType>();
if (primaryKeys.size() == 1) {
Iterator<Serializable> iterator = primaryKeys.iterator();
Serializable primaryKey = iterator.next();
ListType listType = fetchByPrimaryKey(primaryKey);
if (listType != null) {
map.put(primaryKey, listType);
}
return map;
}
Set<Serializable> uncachedPrimaryKeys = null;
for (Serializable primaryKey : primaryKeys) {
Serializable serializable = entityCache.getResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, primaryKey);
if (serializable != nullModel) {
if (serializable == null) {
if (uncachedPrimaryKeys == null) {
uncachedPrimaryKeys = new HashSet<Serializable>();
}
uncachedPrimaryKeys.add(primaryKey);
}
else {
map.put(primaryKey, (ListType)serializable);
}
}
}
if (uncachedPrimaryKeys == null) {
return map;
}
StringBundler query = new StringBundler((uncachedPrimaryKeys.size() * 2) +
1);
query.append(_SQL_SELECT_LISTTYPE_WHERE_PKS_IN);
for (Serializable primaryKey : uncachedPrimaryKeys) {
query.append((long)primaryKey);
query.append(StringPool.COMMA);
}
query.setIndex(query.index() - 1);
query.append(StringPool.CLOSE_PARENTHESIS);
String sql = query.toString();
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
for (ListType listType : (List<ListType>)q.list()) {
map.put(listType.getPrimaryKeyObj(), listType);
cacheResult(listType);
uncachedPrimaryKeys.remove(listType.getPrimaryKeyObj());
}
for (Serializable primaryKey : uncachedPrimaryKeys) {
entityCache.putResult(ListTypeModelImpl.ENTITY_CACHE_ENABLED,
ListTypeImpl.class, primaryKey, nullModel);
}
}
catch (Exception e) {
throw processException(e);
}
finally {
closeSession(session);
}
return map;
}
/**
* Returns all the list types.
*
* @return the list types
*/
@Override
public List<ListType> findAll() {
return findAll(QueryUtil.ALL_POS, QueryUtil.ALL_POS, null);
}
/**
* Returns a range of all the list types.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @return the range of list types
*/
@Override
public List<ListType> findAll(int start, int end) {
return findAll(start, end, null);
}
/**
* Returns an ordered range of all the list types.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @param orderByComparator the comparator to order the results by (optionally <code>null</code>)
* @return the ordered range of list types
*/
@Override
public List<ListType> findAll(int start, int end,
OrderByComparator<ListType> orderByComparator) {
return findAll(start, end, orderByComparator, true);
}
/**
* Returns an ordered range of all the list types.
*
* <p>
* Useful when paginating results. Returns a maximum of <code>end - start</code> instances. <code>start</code> and <code>end</code> are not primary keys, they are indexes in the result set. Thus, <code>0</code> refers to the first result in the set. Setting both <code>start</code> and <code>end</code> to {@link QueryUtil#ALL_POS} will return the full result set. If <code>orderByComparator</code> is specified, then the query will include the given ORDER BY logic. If <code>orderByComparator</code> is absent and pagination is required (<code>start</code> and <code>end</code> are not {@link QueryUtil#ALL_POS}), then the query will include the default ORDER BY logic from {@link ListTypeModelImpl}. If both <code>orderByComparator</code> and pagination are absent, for performance reasons, the query will not have an ORDER BY clause and the returned result set will be sorted on by the primary key in an ascending order.
* </p>
*
* @param start the lower bound of the range of list types
* @param end the upper bound of the range of list types (not inclusive)
* @param orderByComparator the comparator to order the results by (optionally <code>null</code>)
* @param retrieveFromCache whether to retrieve from the finder cache
* @return the ordered range of list types
*/
@Override
public List<ListType> findAll(int start, int end,
OrderByComparator<ListType> orderByComparator, boolean retrieveFromCache) {
boolean pagination = true;
FinderPath finderPath = null;
Object[] finderArgs = null;
if ((start == QueryUtil.ALL_POS) && (end == QueryUtil.ALL_POS) &&
(orderByComparator == null)) {
pagination = false;
finderPath = FINDER_PATH_WITHOUT_PAGINATION_FIND_ALL;
finderArgs = FINDER_ARGS_EMPTY;
}
else {
finderPath = FINDER_PATH_WITH_PAGINATION_FIND_ALL;
finderArgs = new Object[] { start, end, orderByComparator };
}
List<ListType> list = null;
if (retrieveFromCache) {
list = (List<ListType>)finderCache.getResult(finderPath,
finderArgs, this);
}
if (list == null) {
StringBundler query = null;
String sql = null;
if (orderByComparator != null) {
query = new StringBundler(2 +
(orderByComparator.getOrderByFields().length * 2));
query.append(_SQL_SELECT_LISTTYPE);
appendOrderByComparator(query, _ORDER_BY_ENTITY_ALIAS,
orderByComparator);
sql = query.toString();
}
else {
sql = _SQL_SELECT_LISTTYPE;
if (pagination) {
sql = sql.concat(ListTypeModelImpl.ORDER_BY_JPQL);
}
}
Session session = null;
try {
session = openSession();
Query q = session.createQuery(sql);
if (!pagination) {
list = (List<ListType>)QueryUtil.list(q, getDialect(),
start, end, false);
Collections.sort(list);
list = Collections.unmodifiableList(list);
}
else {
list = (List<ListType>)QueryUtil.list(q, getDialect(),
start, end);
}
cacheResult(list);
finderCache.putResult(finderPath, finderArgs, list);
}
catch (Exception e) {
finderCache.removeResult(finderPath, finderArgs);
throw processException(e);
}
finally {
closeSession(session);
}
}
return list;
}
/**
* Removes all the list types from the database.
*
*/
@Override
public void removeAll() {
for (ListType listType : findAll()) {
remove(listType);
}
}
/**
* Returns the number of list types.
*
* @return the number of list types
*/
@Override
public int countAll() {
Long count = (Long)finderCache.getResult(FINDER_PATH_COUNT_ALL,
FINDER_ARGS_EMPTY, this);
if (count == null) {
Session session = null;
try {
session = openSession();
Query q = session.createQuery(_SQL_COUNT_LISTTYPE);
count = (Long)q.uniqueResult();
finderCache.putResult(FINDER_PATH_COUNT_ALL, FINDER_ARGS_EMPTY,
count);
}
catch (Exception e) {
finderCache.removeResult(FINDER_PATH_COUNT_ALL,
FINDER_ARGS_EMPTY);
throw processException(e);
}
finally {
closeSession(session);
}
}
return count.intValue();
}
@Override
public Set<String> getBadColumnNames() {
return _badColumnNames;
}
@Override
protected Map<String, Integer> getTableColumnsMap() {
return ListTypeModelImpl.TABLE_COLUMNS_MAP;
}
/**
* Initializes the list type persistence.
*/
public void afterPropertiesSet() {
}
public void destroy() {
entityCache.removeCache(ListTypeImpl.class.getName());
finderCache.removeCache(FINDER_CLASS_NAME_ENTITY);
finderCache.removeCache(FINDER_CLASS_NAME_LIST_WITH_PAGINATION);
finderCache.removeCache(FINDER_CLASS_NAME_LIST_WITHOUT_PAGINATION);
}
protected EntityCache entityCache = EntityCacheUtil.getEntityCache();
protected FinderCache finderCache = FinderCacheUtil.getFinderCache();
private static final String _SQL_SELECT_LISTTYPE = "SELECT listType FROM ListType listType";
private static final String _SQL_SELECT_LISTTYPE_WHERE_PKS_IN = "SELECT listType FROM ListType listType WHERE listTypeId IN (";
private static final String _SQL_SELECT_LISTTYPE_WHERE = "SELECT listType FROM ListType listType WHERE ";
private static final String _SQL_COUNT_LISTTYPE = "SELECT COUNT(listType) FROM ListType listType";
private static final String _SQL_COUNT_LISTTYPE_WHERE = "SELECT COUNT(listType) FROM ListType listType WHERE ";
private static final String _ORDER_BY_ENTITY_ALIAS = "listType.";
private static final String _NO_SUCH_ENTITY_WITH_PRIMARY_KEY = "No ListType exists with the primary key ";
private static final String _NO_SUCH_ENTITY_WITH_KEY = "No ListType exists with the key {";
private static final Log _log = LogFactoryUtil.getLog(ListTypePersistenceImpl.class);
private static final Set<String> _badColumnNames = SetUtil.fromArray(new String[] {
"type"
});
}