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org.eclipse.persistence.internal.helper.ConversionManager Maven / Gradle / Ivy
/*
* Copyright (c) 1998, 2022 Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1998, 2021 IBM Corporation and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0 which is available at
* http://www.eclipse.org/legal/epl-2.0,
* or the Eclipse Distribution License v. 1.0 which is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
*/
// Contributors:
// Oracle - initial API and implementation from Oracle TopLink
// 09/30/2014-2.6.0 Dalia Abo Sheasha
// - 445546: NullPointerException thrown when an Array of Bytes contains null values
// 05/11/2020-2.7.0 Jody Grassel
// - 538296: Wrong month is returned if OffsetDateTime is used in JPA 2.2 code
// 13/01/2022-4.0.0 Tomas Kraus
// - 1391: JSON support in JPA
package org.eclipse.persistence.internal.helper;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.Serializable;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.net.URL;
import java.sql.Blob;
import java.sql.Clob;
import java.sql.SQLException;
import java.sql.Time;
import java.sql.Timestamp;
import java.time.LocalDateTime;
import java.time.ZoneId;
import java.time.ZoneOffset;
import java.util.Calendar;
import java.util.HashMap;
import java.util.Hashtable;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import java.util.concurrent.CopyOnWriteArrayList;
import org.eclipse.persistence.config.SystemProperties;
import org.eclipse.persistence.exceptions.ConversionException;
import org.eclipse.persistence.exceptions.DatabaseException;
import org.eclipse.persistence.internal.core.helper.CoreConversionManager;
import org.eclipse.persistence.internal.security.PrivilegedAccessHelper;
import org.eclipse.persistence.logging.AbstractSessionLog;
import org.eclipse.persistence.logging.SessionLog;
/**
*
* Purpose : Contains the conversion routines for some common classes in the system.
* Primarily used to convert objects from a given database type to a different type in Java.
* Uses a singleton instance, this is also used from the platform.
*
* Responsibilities :
*
* Execute the appropriate conversion routine.
*
*/
public class ConversionManager extends CoreConversionManager implements Serializable, Cloneable {
protected Map, Object> defaultNullValues;
private static ZoneId defaultZoneOffset = null;
/**
* This flag is here if the Conversion Manager should use the class loader on the
* thread when loading classes.
*/
protected boolean shouldUseClassLoaderFromCurrentThread = false;
protected static ConversionManager defaultManager;
/** Allows the setting of a global default if no instance-level loader is set. */
private static ClassLoader defaultLoader;
protected ClassLoader loader;
/** Store the list of Classes that can be converted to from the key. */
protected Map>> dataTypesConvertedFromAClass;
/** Store the list of Classes that can be converted from to the key. */
protected Map, List>> dataTypesConvertedToAClass;
private static ZoneId getDefaultZoneOffset() {
if (defaultZoneOffset == null) {
ZoneId tzoneid = null;
String tzone = null;
try {
tzone = PrivilegedAccessHelper.getSystemProperty(SystemProperties.CONVERSION_USE_TIMEZONE);
if (tzone != null) {
try {
tzoneid = java.time.ZoneId.of(tzone);
} catch (Throwable t) {
// If an invalid time zone id is supplied, then fall back to checking for checking for using
// either UTC or the system's default time zone.
if (AbstractSessionLog.getLog().shouldLog(SessionLog.WARNING)) {
AbstractSessionLog.getLog().log(SessionLog.WARNING, "invalid_tzone",
SystemProperties.CONVERSION_USE_TIMEZONE, tzone);
}
}
}
} catch (Exception e) {
// Error occurred attempting to access this system property. Fall back to the next property.
}
String propVal = null;
try {
if (tzoneid == null) {
propVal = PrivilegedAccessHelper.getSystemProperty(SystemProperties.CONVERSION_USE_DEFAULT_TIMEZONE, "false");
if (Boolean.parseBoolean(propVal)) {
tzoneid = java.time.ZoneId.systemDefault();
} else {
tzoneid = ZoneOffset.UTC;
}
}
} catch (Exception e) {
// Error occurred attempting to access this system property. Fall back to UTC.
tzoneid = ZoneOffset.UTC;
if (AbstractSessionLog.getLog().shouldLog(SessionLog.WARNING)) {
AbstractSessionLog.getLog().log(SessionLog.WARNING, "invalid_default_tzone",
SystemProperties.CONVERSION_USE_DEFAULT_TIMEZONE, propVal);
}
}
defaultZoneOffset = tzoneid;
if (AbstractSessionLog.getLog().shouldLog(SessionLog.FINER)) {
AbstractSessionLog.getLog().log(SessionLog.FINER, "using_conversion_tzone", defaultZoneOffset);
}
}
return defaultZoneOffset;
}
public ConversionManager() {
this.dataTypesConvertedFromAClass = new Hashtable<>();
this.dataTypesConvertedToAClass = new Hashtable<>();
}
/**
* INTERNAL:
*/
@Override
public Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException exception) {
return null;
}
}
/**
* Convert the object to the appropriate type by invoking the appropriate
* ConversionManager method
* @param sourceObject the object that must be converted
* @param javaClass the class that the object must be converted to
* @exception ConversionException all exceptions will be thrown as this type.
* @return the newly converted object
*/
@Override
@SuppressWarnings({"unchecked"})
public T convertObject(Object sourceObject, Class javaClass) throws ConversionException {
if (sourceObject == null) {
// Check for default null conversion.
// i.e. allow for null to be defaulted to "", or 0 etc.
if (javaClass != null ) {
return getDefaultNullValue(javaClass);
} else {
return null;
}
}
if (sourceObject.getClass() == javaClass || javaClass == null || javaClass == ClassConstants.OBJECT
|| javaClass == ClassConstants.BLOB || javaClass == ClassConstants.CLOB
// JSON has its own default converter registered. Direct jakarta.json class reference can't be used in core.
|| javaClass.getName().contains("json")) {
return (T) sourceObject;
}
try {
if (javaClass == ClassConstants.STRING) {
return (T) convertObjectToString(sourceObject);
} else if (javaClass == ClassConstants.UTILDATE) {
return (T) convertObjectToUtilDate(sourceObject);
} else if (javaClass == ClassConstants.SQLDATE) {
return (T) convertObjectToDate(sourceObject);
} else if (javaClass == ClassConstants.TIME) {
return (T) convertObjectToTime(sourceObject);
} else if (javaClass == ClassConstants.TIMESTAMP) {
return (T) convertObjectToTimestamp(sourceObject);
} else if (javaClass == ClassConstants.TIME_LDATE) {
return (T) convertObjectToLocalDate(sourceObject);
} else if (javaClass == ClassConstants.TIME_LDATETIME) {
return (T) convertObjectToLocalDateTime(sourceObject);
} else if (javaClass == ClassConstants.TIME_LTIME) {
return (T) convertObjectToLocalTime(sourceObject);
} else if (javaClass == ClassConstants.TIME_ODATETIME) {
return (T) convertObjectToOffsetDateTime(sourceObject);
} else if (javaClass == ClassConstants.TIME_OTIME) {
return (T) convertObjectToOffsetTime(sourceObject);
} else if ((javaClass == ClassConstants.CALENDAR) || (javaClass == ClassConstants.GREGORIAN_CALENDAR)) {
return (T) convertObjectToCalendar(sourceObject);
} else if ((javaClass == ClassConstants.CHAR) || (javaClass == ClassConstants.PCHAR && !(sourceObject instanceof Character))) {
return (T) convertObjectToChar(sourceObject);
} else if ((javaClass == ClassConstants.INTEGER) || (javaClass == ClassConstants.PINT && !(sourceObject instanceof Integer))) {
return (T) convertObjectToInteger(sourceObject);
} else if ((javaClass == ClassConstants.DOUBLE) || (javaClass == ClassConstants.PDOUBLE && !(sourceObject instanceof Double))) {
return (T) convertObjectToDouble(sourceObject);
} else if ((javaClass == ClassConstants.FLOAT) || (javaClass == ClassConstants.PFLOAT && !(sourceObject instanceof Float))) {
return (T) convertObjectToFloat(sourceObject);
} else if ((javaClass == ClassConstants.LONG) || (javaClass == ClassConstants.PLONG && !(sourceObject instanceof Long))) {
return (T) convertObjectToLong(sourceObject);
} else if ((javaClass == ClassConstants.SHORT) || (javaClass == ClassConstants.PSHORT && !(sourceObject instanceof Short))) {
return (T) convertObjectToShort(sourceObject);
} else if ((javaClass == ClassConstants.BYTE) || (javaClass == ClassConstants.PBYTE && !(sourceObject instanceof Byte))) {
return (T) convertObjectToByte(sourceObject);
} else if (javaClass == ClassConstants.BIGINTEGER) {
return (T) convertObjectToBigInteger(sourceObject);
} else if (javaClass == ClassConstants.BIGDECIMAL) {
return (T) convertObjectToBigDecimal(sourceObject);
} else if (javaClass == ClassConstants.NUMBER) {
return (T) convertObjectToNumber(sourceObject);
} else if ((javaClass == ClassConstants.BOOLEAN) || (javaClass == ClassConstants.PBOOLEAN && !(sourceObject instanceof Boolean))) {
return (T) convertObjectToBoolean(sourceObject);
} else if (javaClass == ClassConstants.APBYTE) {
return (T) convertObjectToByteArray(sourceObject);
} else if (javaClass == ClassConstants.ABYTE) {
return (T) convertObjectToByteObjectArray(sourceObject);
} else if (javaClass == ClassConstants.APCHAR) {
return (T) convertObjectToCharArray(sourceObject);
} else if (javaClass == ClassConstants.ACHAR) {
return (T) convertObjectToCharacterArray(sourceObject);
} else if ((sourceObject.getClass() == ClassConstants.STRING) && (javaClass == ClassConstants.CLASS)) {
return (T) convertObjectToClass(sourceObject);
} else if(javaClass == ClassConstants.URL_Class) {
return (T) convertObjectToUrl(sourceObject);
} else if(javaClass == ClassConstants.UUID) {
return (T) convertObjectToUUID(sourceObject);
}
} catch (ConversionException ce) {
throw ce;
} catch (Exception e) {
throw ConversionException.couldNotBeConverted(sourceObject, javaClass, e);
}
// Check if object is instance of the real class for the primitive class.
if ((((javaClass == ClassConstants.PBOOLEAN) && (sourceObject instanceof Boolean) ) ||
((javaClass == ClassConstants.PLONG) && (sourceObject instanceof Long) ) ||
((javaClass == ClassConstants.PINT) && (sourceObject instanceof Integer) ) ||
((javaClass == ClassConstants.PFLOAT) && (sourceObject instanceof Float)) ||
((javaClass == ClassConstants.PDOUBLE) && (sourceObject instanceof Double) ) ||
((javaClass == ClassConstants.PBYTE) && (sourceObject instanceof Byte)) ||
((javaClass == ClassConstants.PCHAR) && (sourceObject instanceof Character)) ||
((javaClass == ClassConstants.PSHORT) && (sourceObject instanceof Short)))) {
return (T) sourceObject;
}
// Delay this check as poor performance.
if (javaClass.isInstance(sourceObject)) {
return (T) sourceObject;
}
if (ClassConstants.NOCONVERSION.isAssignableFrom(javaClass)) {
return (T) sourceObject;
}
throw ConversionException.couldNotBeConverted(sourceObject, javaClass);
}
/**
* Build a valid instance of BigDecimal from the given sourceObject
* @param sourceObject Valid instance of String, BigInteger, any Number
*/
protected BigDecimal convertObjectToBigDecimal(Object sourceObject) throws ConversionException {
BigDecimal bigDecimal = null;
try {
if (sourceObject instanceof String) {
bigDecimal = new BigDecimal((String)sourceObject);
} else if (sourceObject instanceof BigInteger) {
bigDecimal = new BigDecimal((BigInteger)sourceObject);
} else if (sourceObject instanceof Number) {
// Doubles do not maintain scale, because of this it is
// impossible to distinguish between 1 and 1.0. In order to
// maintain backwards compatibility both 1 and 1.0 will be
// treated as BigDecimal(1).
String numberString = String.valueOf(sourceObject);
if(numberString.endsWith(".0") || numberString.contains(".0E+")) {
bigDecimal = new BigDecimal(((Number)sourceObject).doubleValue());
} else {
bigDecimal = new BigDecimal(numberString);
}
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BIGDECIMAL);
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BIGDECIMAL, exception);
}
return bigDecimal;
}
/**
* Build a valid instance of BigInteger from the provided sourceObject.
* @param sourceObject Valid instance of String, BigDecimal, or any Number
*/
protected BigInteger convertObjectToBigInteger(Object sourceObject) throws ConversionException {
BigInteger bigInteger = null;
try {
if (sourceObject instanceof BigInteger) {
bigInteger = (BigInteger)sourceObject;
} else if (sourceObject instanceof String) {
bigInteger = new BigInteger((String)sourceObject);
} else if (sourceObject instanceof BigDecimal) {
bigInteger = ((BigDecimal)sourceObject).toBigInteger();
} else if (sourceObject instanceof Number) {
bigInteger = new BigInteger(String.valueOf(((Number)sourceObject).longValue()));
} else if (sourceObject instanceof Byte[]) {
Byte[] objectBytes = (Byte[])sourceObject;
byte[] bytes = new byte[objectBytes.length];
for (int index = 0; index < objectBytes.length; index++) {
bytes[index] = objectBytes[index];
}
bigInteger = new BigInteger(bytes);
} else if (sourceObject instanceof byte[]) {
bigInteger = new BigInteger((byte[]) sourceObject);
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BIGINTEGER);
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BIGINTEGER, exception);
}
return bigInteger;
}
/**
* Build a valid instance of Boolean from the source object.
* 't', 'T', "true", "TRUE", 1,'1' -> Boolean(true)
* 'f', 'F', "false", "FALSE", 0 ,'0' -> Boolean(false)
*/
protected Boolean convertObjectToBoolean(Object sourceObject) {
if (sourceObject instanceof Character) {
switch (Character.toLowerCase((Character) sourceObject)) {
case '1':
case 't':
return Boolean.TRUE;
case '0':
case 'f':
return Boolean.FALSE;
}
}
if (sourceObject instanceof String) {
String stringValue = ((String)sourceObject).toLowerCase();
if (stringValue.equals("t") || stringValue.equals("true") || stringValue.equals("1")) {
return Boolean.TRUE;
} else if (stringValue.equals("f") || stringValue.equals("false") || stringValue.equals("0")) {
return Boolean.FALSE;
}
}
if (sourceObject instanceof Number) {
int intValue = ((Number)sourceObject).intValue();
if (intValue != 0) {
return Boolean.TRUE;
}
return Boolean.FALSE;
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BOOLEAN);
}
/**
* Build a valid instance of Byte from the provided sourceObject
* @param sourceObject Valid instance of String or any Number
* @throws ConversionException The Byte(String) constructor throws a
* NumberFormatException if the String does not contain a parsable byte.
*
*/
protected Byte convertObjectToByte(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Byte.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).byteValue();
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BYTE, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.BYTE);
}
/**
* Build a valid instance of a byte array from the given object.
* This method does hex conversion of the string values. Some
* databases have problems with storing blobs unless the blob
* is stored as a hex string.
*/
protected byte[] convertObjectToByteArray(Object sourceObject) throws ConversionException {
//Bug#3128838 Used when converted to Byte[]
if (sourceObject instanceof byte[]) {
return (byte[])sourceObject;
//Related to Bug#3128838. Add support to convert to Byte[]
} else if (sourceObject instanceof Byte[]) {
Byte[] objectBytes = (Byte[])sourceObject;
byte[] bytes = new byte[objectBytes.length];
for (int index = 0; index < objectBytes.length; index++) {
Byte value = objectBytes[index];
if (value != null) {
bytes[index] = value;
}
}
return bytes;
} else if (sourceObject instanceof String) {
return Helper.buildBytesFromHexString((String)sourceObject);
} else if (sourceObject instanceof Blob) {
Blob blob = (Blob)sourceObject;
try {
return blob.getBytes(1L, (int)blob.length());
} catch (SQLException exception) {
throw DatabaseException.sqlException(exception);
}
} else if (sourceObject instanceof InputStream) {
InputStream inputStream = (InputStream)sourceObject;
ByteArrayOutputStream outputStream = new ByteArrayOutputStream();
try {
int tempInt = inputStream.read();
while (tempInt != -1) {
outputStream.write(tempInt);
tempInt = inputStream.read();
}
return outputStream.toByteArray();
} catch (IOException ioException) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.APBYTE, ioException);
}
} else if (sourceObject instanceof BigInteger) {
return ((BigInteger)sourceObject).toByteArray();
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.APBYTE);
}
/**
* Build a valid instance of a Byte array from the given object.
* This method does hex conversion of the string values. Some
* databases have problems with storing blobs unless the blob
* is stored as a hex string.
*/
protected Byte[] convertObjectToByteObjectArray(Object sourceObject) throws ConversionException {
byte[] bytes = convertObjectToByteArray(sourceObject);
Byte[] objectBytes = new Byte[bytes.length];
for (int index = 0; index < bytes.length; index++) {
objectBytes[index] = bytes[index];
}
return objectBytes;
}
/**
* Build a valid instance of java.util.Calendar from the given source object.
* @param sourceObject Valid instance of java.util.Date, String, java.sql.Timestamp, or Long
*/
protected Calendar convertObjectToCalendar(Object sourceObject) throws ConversionException {
if (sourceObject instanceof Calendar) {
return (Calendar)sourceObject;
} else if (sourceObject instanceof java.util.Date) {
// PERF: Avoid double conversion for date subclasses.
return Helper.calendarFromUtilDate((java.util.Date)sourceObject);
}
return Helper.calendarFromUtilDate(convertObjectToUtilDate(sourceObject));
}
/**
* Build a valid instance of Character from the provided sourceObject.
* @param sourceObject Valid instance of String or any Number
*/
protected Character convertObjectToChar(Object sourceObject) throws ConversionException {
if (sourceObject instanceof String) {
if (((String)sourceObject).length() < 1) {
// ELBug336192 - Return default null value of char instead of returning null.
return getDefaultNullValue(ClassConstants.PCHAR);
}
return ((String) sourceObject).charAt(0);
}
if (sourceObject instanceof Number) {
return (char) ((Number) sourceObject).byteValue();
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.CHAR);
}
/**
* Build a valid instance of a Character array from the given object.
*/
protected Character[] convertObjectToCharacterArray(Object sourceObject) throws ConversionException {
String stringValue = convertObjectToString(sourceObject);
Character[] chars = new Character[stringValue.length()];
for (int index = 0; index < stringValue.length(); index++) {
chars[index] = stringValue.charAt(index);
}
return chars;
}
/**
* Build a valid instance of a char array from the given object.
*/
protected char[] convertObjectToCharArray(Object sourceObject) throws ConversionException {
if (sourceObject instanceof Character[]) {
Character[] objectChars = (Character[])sourceObject;
char[] chars = new char[objectChars.length];
for (int index = 0; index < objectChars.length; index++) {
chars[index] = objectChars[index];
}
return chars;
}
String stringValue = convertObjectToString(sourceObject);
char[] chars = new char[stringValue.length()];
for (int index = 0; index < stringValue.length(); index++) {
chars[index] = stringValue.charAt(index);
}
return chars;
}
/**
* Build a valid Class from the string that is passed in
* @param sourceObject Valid instance of String
*/
@SuppressWarnings({"unchecked"})
protected Class convertObjectToClass(Object sourceObject) throws ConversionException {
Class> theClass = null;
if (!(sourceObject instanceof String)) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.CLASS);
}
try {
// bug # 2799318
theClass = getPrimitiveClass((String)sourceObject);
if (theClass == null) {
theClass = Class.forName((String)sourceObject, true, getLoader());
}
} catch (Exception exception) {
throw ConversionException.couldNotBeConvertedToClass(sourceObject, ClassConstants.CLASS, exception);
}
return (Class) theClass;
}
/**
* Convert the object to an instance of java.sql.Date.
* @param sourceObject Object of type java.sql.Timestamp, java.util.Date, String or Long
*/
protected java.sql.Date convertObjectToDate(Object sourceObject) throws ConversionException {
java.sql.Date date = null;
if (sourceObject instanceof java.sql.Date) {
date = (java.sql.Date)sourceObject;//Helper date is not caught on class check.
} else if (sourceObject instanceof java.sql.Timestamp) {
date = Helper.dateFromTimestamp((java.sql.Timestamp)sourceObject);
} else if (sourceObject.getClass() == ClassConstants.UTILDATE) {
date = Helper.sqlDateFromUtilDate((java.util.Date)sourceObject);
} else if (sourceObject instanceof Calendar) {
return Helper.dateFromCalendar((Calendar)sourceObject);
} else if (sourceObject instanceof String) {
date = Helper.dateFromString((String)sourceObject);
} else if (sourceObject instanceof Long) {
date = Helper.dateFromLong((Long)sourceObject);
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.SQLDATE);
}
return date;
}
/**
* Convert the object to an instance of Double.
* @param sourceObject Object of type String or Number.
* @throws ConversionException The Double(String) constructor throws a
* NumberFormatException if the String does not contain a parsable double.
*/
protected Double convertObjectToDouble(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Double.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).doubleValue();
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.DOUBLE, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.DOUBLE);
}
/**
* Build a valid Float instance from a String or another Number instance.
* @throws ConversionException The Float(String) constructor throws a
* NumberFormatException if the String does not contain a parsable Float.
*/
protected Float convertObjectToFloat(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Float.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).floatValue();
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.FLOAT, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.FLOAT);
}
/**
* Build a valid Integer instance from a String or another Number instance.
* @throws ConversionException The Integer(String) constructor throws a
* NumberFormatException if the String does not contain a parsable integer.
*/
protected Integer convertObjectToInteger(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Integer.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).intValue();
}
if (sourceObject instanceof Boolean) {
if ((Boolean) sourceObject) {
return 1;
} else {
return 0;
}
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.INTEGER, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.INTEGER);
}
/**
* Build a valid Long instance from a String or another Number instance.
* @throws ConversionException The Long(String) constructor throws a
* NumberFormatException if the String does not contain a parsable long.
*
*/
protected Long convertObjectToLong(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Long.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).longValue();
}
if (sourceObject instanceof java.util.Date) {
return ((java.util.Date) sourceObject).getTime();
}
if (sourceObject instanceof java.util.Calendar) {
return ((Calendar) sourceObject).getTimeInMillis();
}
if (sourceObject instanceof Boolean) {
if ((Boolean) sourceObject) {
return 1L;
} else {
return 0L;
}
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.LONG, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.LONG);
}
/**
* INTERNAL:
* Build a valid BigDecimal instance from a String or another
* Number instance. BigDecimal is the most general type so is
* must be returned when an object is converted to a number.
* @throws ConversionException The BigDecimal(String) constructor throws a
* NumberFormatException if the String does not contain a parsable BigDecimal.
*/
protected BigDecimal convertObjectToNumber(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return new BigDecimal((String)sourceObject);
}
if (sourceObject instanceof Number) {
return new BigDecimal(((Number)sourceObject).doubleValue());
}
if (sourceObject instanceof Boolean) {
if ((Boolean) sourceObject) {
return BigDecimal.valueOf(1);
} else {
return BigDecimal.valueOf(0);
}
}
} catch (NumberFormatException exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.NUMBER, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.NUMBER);
}
/**
* INTERNAL:
* Build a valid Short instance from a String or another Number instance.
* @throws ConversionException The Short(String) constructor throws a
* NumberFormatException if the String does not contain a parsable short.
*/
protected Short convertObjectToShort(Object sourceObject) throws ConversionException {
try {
if (sourceObject instanceof String) {
return Short.valueOf((String)sourceObject);
}
if (sourceObject instanceof Number) {
return ((Number) sourceObject).shortValue();
}
if (sourceObject instanceof Boolean) {
if ((Boolean) sourceObject) {
return (short) 1;
} else {
return (short) 0;
}
}
} catch (Exception exception) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.SHORT, exception);
}
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.SHORT);
}
/**
* INTERNAL:
* Converts objects to their string representations. java.util.Date
* is converted to a timestamp first and then to a string. An array
* of bytes is converted to a hex string.
*/
protected String convertObjectToString(Object sourceObject) throws ConversionException {
Class> sourceObjectClass = sourceObject.getClass();
if (sourceObject instanceof java.lang.Number) {
return sourceObject.toString();
} else if (sourceObjectClass == ClassConstants.BOOLEAN) {
return sourceObject.toString();
} else if (sourceObjectClass == ClassConstants.UTILDATE) {
return Helper.printTimestamp(Helper.timestampFromDate((java.util.Date)sourceObject));
} else if (sourceObject instanceof java.util.Calendar) {
return Helper.printCalendar((Calendar)sourceObject);
} else if (sourceObjectClass == ClassConstants.TIMESTAMP) {
return Helper.printTimestamp((java.sql.Timestamp)sourceObject);
} else if (sourceObject instanceof java.sql.Date) {
return Helper.printDate((java.sql.Date)sourceObject);
} else if (sourceObject instanceof java.sql.Time) {
return Helper.printTime((java.sql.Time)sourceObject);
} else if (sourceObjectClass == ClassConstants.APBYTE) {
return Helper.buildHexStringFromBytes((byte[])sourceObject);
//Bug#3854296 Added support to convert Byte[], char[] and Character[] to String correctly
} else if (sourceObjectClass == ClassConstants.ABYTE) {
return Helper.buildHexStringFromBytes(convertObjectToByteArray(sourceObject));
} else if (sourceObjectClass == ClassConstants.APCHAR) {
return new String((char[])sourceObject);
} else if (sourceObjectClass == ClassConstants.ACHAR) {
return new String(convertObjectToCharArray(sourceObject));
} else if (sourceObject instanceof Class) {
return ((Class>)sourceObject).getName();
} else if (sourceObjectClass == ClassConstants.CHAR) {
return sourceObject.toString();
} else if (sourceObject instanceof Clob) {
Clob clob = (Clob)sourceObject;
try {
return clob.getSubString(1L, (int)clob.length());
} catch (SQLException exception) {
throw DatabaseException.sqlException(exception);
}
}
return sourceObject.toString();
}
/**
* INTERNAL:
* Build a valid instance of java.sql.Time from the given source object.
* @param sourceObject Valid instance of java.sql.Time, String, java.util.Date, java.sql.Timestamp, or Long
*/
protected java.sql.Time convertObjectToTime(Object sourceObject) throws ConversionException {
java.sql.Time time = null;
if (sourceObject instanceof java.sql.Time) {
return (java.sql.Time)sourceObject;//Helper timestamp is not caught on class check.
}
if (sourceObject instanceof String) {
time = Helper.timeFromString((String)sourceObject);
} else if (sourceObject.getClass() == ClassConstants.UTILDATE) {
time = Helper.timeFromDate((java.util.Date)sourceObject);
} else if (sourceObject instanceof java.sql.Timestamp) {
time = Helper.timeFromTimestamp((java.sql.Timestamp)sourceObject);
} else if (sourceObject instanceof Calendar) {
return Helper.timeFromCalendar((Calendar)sourceObject);
} else if (sourceObject instanceof Long) {
time = Helper.timeFromLong((Long)sourceObject);
} else if (sourceObject.getClass() == ClassConstants.TIME_LTIME) {
time = java.sql.Time.valueOf((java.time.LocalTime) sourceObject);
} else if (sourceObject.getClass() == ClassConstants.TIME_OTIME) {
time = java.sql.Time.valueOf(((java.time.OffsetTime) sourceObject).toLocalTime());
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME);
}
return time;
}
/**
* INTERNAL:
* Build a valid instance of java.sql.Timestamp from the given source object.
* @param sourceObject Valid object of class java.sql.Timestamp, String, java.util.Date, or Long
*/
protected java.sql.Timestamp convertObjectToTimestamp(Object sourceObject) throws ConversionException {
java.sql.Timestamp timestamp = null;
if (sourceObject instanceof java.sql.Timestamp) {
return (java.sql.Timestamp)sourceObject;// Helper timestamp is not caught on class check.
}
if (sourceObject instanceof String) {
timestamp = Helper.timestampFromString((String)sourceObject);
} else if (sourceObject instanceof java.util.Date) {// This handles all date and subclasses, sql.Date, sql.Time conversions.
timestamp = Helper.timestampFromDate((java.util.Date)sourceObject);
} else if (sourceObject instanceof Calendar) {
return Helper.timestampFromCalendar((Calendar)sourceObject);
} else if (sourceObject instanceof Long) {
timestamp = Helper.timestampFromLong((Long)sourceObject);
} else if (sourceObject instanceof LocalDateTime) {
timestamp = Timestamp.valueOf((LocalDateTime) sourceObject);
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIMESTAMP);
}
return timestamp;
}
/**
* INTERNAL: Build a valid instance of java.time.LocalDate from the given
* source object.
*
* @param sourceObject
* Valid object of class java.sql.Timestamp, String,
* java.util.Date, or Long
*/
protected java.time.LocalDate convertObjectToLocalDate(Object sourceObject) throws ConversionException {
java.time.LocalDate localDate = null;
if (sourceObject instanceof java.time.LocalDate) {
return (java.time.LocalDate) sourceObject;
}
if (sourceObject instanceof String) {
localDate = java.time.LocalDate.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
} else if (sourceObject instanceof java.sql.Date) {
localDate = ((java.sql.Date) sourceObject).toLocalDate();
} else if (sourceObject instanceof java.sql.Timestamp) {
localDate = ((java.sql.Timestamp) sourceObject).toLocalDateTime().toLocalDate();
} else if (sourceObject instanceof java.util.Date) {
// handles sql.Time too
localDate = ((java.util.Date) sourceObject).toInstant().atZone(ZoneId.systemDefault()).toLocalDate();
} else if (sourceObject instanceof Calendar) {
Calendar cal = (Calendar) sourceObject;
localDate = java.time.LocalDate.of(cal.get(Calendar.YEAR), cal.get(Calendar.MONTH) + 1, cal.get(Calendar.DAY_OF_MONTH));
} else if (sourceObject instanceof Long) {
localDate = java.time.LocalDate.ofEpochDay((Long) sourceObject);
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME_LDATE);
}
return localDate;
}
/**
* INTERNAL: Build a valid instance of java.time.LocalTime from the given
* source object.
*
* @param sourceObject
* Valid object of class java.sql.Timestamp, String,
* java.util.Date, or Long
*/
protected java.time.LocalTime convertObjectToLocalTime(Object sourceObject) throws ConversionException {
java.time.LocalTime localTime = null;
if (sourceObject instanceof java.time.LocalTime) {
return (java.time.LocalTime) sourceObject;
}
if (sourceObject instanceof String) {
localTime = java.time.LocalTime.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
} else if (sourceObject instanceof java.sql.Timestamp) {
localTime = ((java.sql.Timestamp) sourceObject).toLocalDateTime().toLocalTime();
} else if (sourceObject instanceof java.sql.Time) {
localTime = ((java.sql.Time) sourceObject).toLocalTime();
} else if (sourceObject instanceof java.util.Date) {
// handles sql.Date
Calendar cal = Helper.allocateCalendar();
cal.setTime((java.util.Date) sourceObject);
localTime = java.time.LocalTime.of(
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND));
Helper.releaseCalendar(cal);
} else if (sourceObject instanceof Calendar) {
Calendar cal = (Calendar) sourceObject;
localTime = java.time.LocalTime.of(
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND));
} else if (sourceObject instanceof Long) {
localTime = java.time.LocalTime.ofSecondOfDay((Long) sourceObject);
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME_LTIME);
}
return localTime;
}
/**
* INTERNAL: Build a valid instance of java.time.LocalDateTime from the given
* source object.
*
* @param sourceObject
* Valid object of class java.sql.Timestamp, String,
* java.util.Date, or Long
*/
protected java.time.LocalDateTime convertObjectToLocalDateTime(Object sourceObject) throws ConversionException {
java.time.LocalDateTime localDateTime = null;
if (sourceObject instanceof java.time.LocalDateTime) {
return (java.time.LocalDateTime) sourceObject;
}
if (sourceObject instanceof String) {
localDateTime = java.time.LocalDateTime.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
} else if (sourceObject instanceof java.sql.Timestamp) {
localDateTime = ((java.sql.Timestamp) sourceObject).toLocalDateTime();
} else if (sourceObject instanceof java.util.Date) {
// handles sql.Time, sql.Date
Calendar cal = Helper.allocateCalendar();
cal.setTime((java.util.Date) sourceObject);
localDateTime = java.time.LocalDateTime.of(
cal.get(Calendar.YEAR), cal.get(Calendar.MONTH) + 1, cal.get(Calendar.DAY_OF_MONTH),
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND));
Helper.releaseCalendar(cal);
} else if (sourceObject instanceof Calendar) {
Calendar cal = (Calendar) sourceObject;
localDateTime = java.time.LocalDateTime.of(
cal.get(Calendar.YEAR), cal.get(Calendar.MONTH) + 1, cal.get(Calendar.DAY_OF_MONTH),
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND));
} else if (sourceObject instanceof Long) {
localDateTime = java.time.LocalDateTime.ofInstant(
java.time.Instant.ofEpochSecond((Long) sourceObject), getDefaultZoneOffset());
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME_LDATETIME);
}
return localDateTime;
}
/**
* INTERNAL: Build a valid instance of java.time.OffsetDateTime from the given
* source object.
*
* @param sourceObject
* Valid object of class java.sql.Timestamp, String,
* java.util.Date, or Long
*/
protected java.time.OffsetDateTime convertObjectToOffsetDateTime(Object sourceObject) throws ConversionException {
java.time.OffsetDateTime offsetDateTime = null;
if (sourceObject instanceof java.time.OffsetDateTime) {
return (java.time.OffsetDateTime) sourceObject;
}
if (sourceObject instanceof String) {
java.time.LocalDateTime ldt = java.time.LocalDateTime.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
return ldt.atZone(java.time.ZoneId.systemDefault()).toOffsetDateTime();
} else if (sourceObject instanceof java.util.Date) {
// handles sql.Time, sql.Date, sql.Timestamp
Calendar cal = Helper.allocateCalendar();
cal.setTime((java.util.Date) sourceObject);
offsetDateTime = java.time.OffsetDateTime.of(
cal.get(Calendar.YEAR), cal.get(Calendar.MONTH) + 1, cal.get(Calendar.DAY_OF_MONTH),
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND) * 1000000,
java.time.ZoneOffset.ofTotalSeconds((cal.get(Calendar.ZONE_OFFSET) + cal.get(Calendar.DST_OFFSET)) / 1000));
Helper.releaseCalendar(cal);
} else if (sourceObject instanceof Calendar) {
Calendar cal = (Calendar) sourceObject;
offsetDateTime = java.time.OffsetDateTime.of(
cal.get(Calendar.YEAR), cal.get(Calendar.MONTH) + 1, cal.get(Calendar.DAY_OF_MONTH),
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND) * 1000000,
java.time.ZoneOffset.ofTotalSeconds((cal.get(Calendar.ZONE_OFFSET) + cal.get(Calendar.DST_OFFSET)) / 1000));
} else if (sourceObject instanceof Long) {
offsetDateTime = java.time.OffsetDateTime.ofInstant(
java.time.Instant.ofEpochSecond((Long) sourceObject), getDefaultZoneOffset());
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME_ODATETIME);
}
return offsetDateTime;
}
/**
* INTERNAL: Build a valid instance of java.time.OffsetTime from the given
* source object.
*
* @param sourceObject
* Valid object of class java.sql.Timestamp, String,
* java.util.Date, or Long
*/
protected java.time.OffsetTime convertObjectToOffsetTime(Object sourceObject) throws ConversionException {
java.time.OffsetTime offsetTime = null;
if (sourceObject instanceof java.time.OffsetTime) {
return (java.time.OffsetTime) sourceObject;
}
if (sourceObject instanceof String) {
try {
offsetTime = java.time.OffsetTime.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
} catch (Exception e) {
java.time.LocalTime localTime = java.time.LocalTime.parse(((String) sourceObject).replace(' ', 'T'), Helper.getDefaultDateTimeFormatter());
offsetTime = java.time.OffsetTime.of(localTime, java.time.OffsetDateTime.now().getOffset());
}
} else if (sourceObject instanceof java.util.Date) {
// handles sql.Time, sql.Date, sql.Timestamp
Calendar cal = Helper.allocateCalendar();
cal.setTime((java.util.Date) sourceObject);
offsetTime = java.time.OffsetTime.of(
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND),
java.time.ZoneOffset.ofTotalSeconds((cal.get(Calendar.ZONE_OFFSET) + cal.get(Calendar.DST_OFFSET)) / 1000));
Helper.releaseCalendar(cal);
} else if (sourceObject instanceof Calendar) {
Calendar cal = (Calendar) sourceObject;
offsetTime = java.time.OffsetTime.of(
cal.get(Calendar.HOUR), cal.get(Calendar.MINUTE), cal.get(Calendar.SECOND), cal.get(Calendar.MILLISECOND),
java.time.ZoneOffset.ofTotalSeconds((cal.get(Calendar.ZONE_OFFSET) + cal.get(Calendar.DST_OFFSET)) / 1000));
} else if (sourceObject instanceof Long) {
offsetTime = java.time.OffsetTime.ofInstant(
java.time.Instant.ofEpochSecond((Long) sourceObject), getDefaultZoneOffset());
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.TIME_OTIME);
}
return offsetTime;
}
/**
* INTERNAL:
* Build a valid instance of java.net.URL from the given source object.
* @param sourceObject Valid instance of java.net.URL, or String
*/
protected URL convertObjectToUrl(Object sourceObject) throws ConversionException {
if(sourceObject.getClass() == ClassConstants.URL_Class) {
return (URL) sourceObject;
} else if (sourceObject.getClass() == ClassConstants.STRING) {
try {
return new URL((String) sourceObject);
} catch(Exception e) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.URL_Class, e);
}
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.URL_Class);
}
}
/**
* INTERNAL:
* Build a valid instance of java.util.UUID from the given source object.
* @param sourceObject Valid instance of java.util.UUID, or String
*/
protected UUID convertObjectToUUID(Object sourceObject) throws ConversionException {
if(sourceObject.getClass() == ClassConstants.UUID) {
return (UUID) sourceObject;
} else if (sourceObject.getClass() == ClassConstants.STRING) {
try {
return UUID.fromString((String) sourceObject);
} catch(Exception e) {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.UUID, e);
}
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.UUID);
}
}
/**
* INTERNAL:
* Build a valid instance of java.util.Date from the given source object.
* @param sourceObject Valid instance of java.util.Date, String, java.sql.Timestamp, or Long
*/
protected java.util.Date convertObjectToUtilDate(Object sourceObject) throws ConversionException {
java.util.Date date = null;
if (sourceObject.getClass() == java.util.Date.class) {
date = (java.util.Date)sourceObject;//used when converting util.Date to Calendar
} else if (sourceObject instanceof java.sql.Date) {
date = Helper.utilDateFromSQLDate((java.sql.Date)sourceObject);
} else if (sourceObject instanceof java.sql.Time) {
date = Helper.utilDateFromTime((java.sql.Time)sourceObject);
} else if (sourceObject instanceof String) {
date = Helper.utilDateFromTimestamp(Helper.timestampFromString((String)sourceObject));
} else if (sourceObject instanceof java.sql.Timestamp) {
date = Helper.utilDateFromTimestamp((java.sql.Timestamp)sourceObject);
} else if (sourceObject instanceof Calendar) {
return ((Calendar)sourceObject).getTime();
} else if (sourceObject instanceof Long) {
date = Helper.utilDateFromLong((Long)sourceObject);
} else if (sourceObject instanceof java.util.Date) {
date = new java.util.Date(((java.util.Date) sourceObject).getTime());
} else if (sourceObject instanceof LocalDateTime) {
date = Helper.utilDateFromTimestamp(java.sql.Timestamp.valueOf((LocalDateTime) sourceObject));
} else {
throw ConversionException.couldNotBeConverted(sourceObject, ClassConstants.UTILDATE);
}
return date;
}
/**
* PUBLIC:
* Resolve the given String className into a class using this
* ConversionManager's classloader.
*/
public Class convertClassNameToClass(String className) throws ConversionException {
return convertObjectToClass(className);
}
/**
* A singleton conversion manager is used to handle generic conversions.
* This should not be used for conversion under the session context, these must go through the platform.
* This allows for the singleton to be customized through setting the default to a user defined subclass.
*/
public static ConversionManager getDefaultManager() {
if (defaultManager == null) {
setDefaultManager(new ConversionManager());
defaultManager.setShouldUseClassLoaderFromCurrentThread(true);
}
return defaultManager;
}
/**
* INTERNAL:
* Allow for the null values for classes to be defaulted in one place.
* Any nulls read from the database to be converted to the class will be given the specified null value.
*/
@SuppressWarnings({"unchecked"})
public T getDefaultNullValue(Class theClass) {
if (this.defaultNullValues == null) return null;
return (T) getDefaultNullValues().get(theClass);
}
/**
* INTERNAL:
* Allow for the null values for classes to be defaulted in one place.
* Any nulls read from the database to be converted to the class will be given the specified null value.
*/
public Map, Object> getDefaultNullValues() {
return defaultNullValues;
}
/**
* INTERNAL:
*/
@Override
public ClassLoader getLoader() {
if (shouldUseClassLoaderFromCurrentThread()) {
return PrivilegedAccessHelper.callDoPrivileged(
() -> PrivilegedAccessHelper.getContextClassLoader(Thread.currentThread())
);
}
if (loader == null) {
if (defaultLoader == null) {
//CR 2621
final ClassLoader loader = PrivilegedAccessHelper.callDoPrivileged(
() -> PrivilegedAccessHelper.getClassLoaderForClass(ClassConstants.ConversionManager_Class)
);
setLoader(loader);
} else {
setLoader(getDefaultLoader());
}
}
return loader;
}
/**
* INTERNAL
*/
public boolean hasDefaultNullValues(){
return this.defaultNullValues != null;
}
/**
* INTERNAL:
* Load the class using the default managers class loader.
* This is a thread based class loader by default.
* This should be used to load all classes as Class.forName can only
* see classes on the same classpath as the eclipselink.jar.
*/
@SuppressWarnings({"unchecked"})
public static Class loadClass(String className) {
return (Class) getDefaultManager().convertObject(className, ClassConstants.CLASS);
}
/**
* INTERNAL:
* This is used to determine the wrapper class for a primitive.
*/
@SuppressWarnings({"unchecked"})
public static Class getObjectClass(Class> javaClass) {
// Null means unknown always for classifications.
if (javaClass == null) {
return null;
}
if (javaClass.isPrimitive()) {
if (javaClass == ClassConstants.PCHAR) {
return (Class) ClassConstants.CHAR;
}
if (javaClass == ClassConstants.PINT) {
return (Class) ClassConstants.INTEGER;
}
if (javaClass == ClassConstants.PDOUBLE) {
return (Class) ClassConstants.DOUBLE;
}
if (javaClass == ClassConstants.PFLOAT) {
return (Class) ClassConstants.FLOAT;
}
if (javaClass == ClassConstants.PLONG) {
return (Class) ClassConstants.LONG;
}
if (javaClass == ClassConstants.PSHORT) {
return (Class) ClassConstants.SHORT;
}
if (javaClass == ClassConstants.PBYTE) {
return (Class) ClassConstants.BYTE;
}
if (javaClass == ClassConstants.PBOOLEAN) {
return (Class) ClassConstants.BOOLEAN;
}
} else if (javaClass == ClassConstants.APBYTE) {
return (Class) ClassConstants.APBYTE;
} else if (javaClass == ClassConstants.APCHAR) {
return (Class) ClassConstants.APCHAR;
} else {
return (Class) javaClass;
}
return (Class) javaClass;
}
/**
* INTERNAL:
* Returns a class based on the passed in string.
*/
@SuppressWarnings({"unchecked"})
public static Class getPrimitiveClass(String classType) {
if (classType.equals("int")) {
return (Class) Integer.TYPE;
} else if (classType.equals("boolean")) {
return (Class) Boolean.TYPE;
} else if (classType.equals("char")) {
return (Class) Character.TYPE;
} else if (classType.equals("short")) {
return (Class) Short.TYPE;
} else if (classType.equals("byte")) {
return (Class) Byte.TYPE;
} else if (classType.equals("float")) {
return (Class) Float.TYPE;
} else if (classType.equals("double")) {
return (Class) Double.TYPE;
} else if (classType.equals("long")) {
return (Class) Long.TYPE;
}
return null;
}
/**
* A singleton conversion manager is used to handle generic conversions.
* This should not be used for conversion under the session context, these must go through the platform.
* This allows for the singleton to be customized through setting the default to a user defined subclass.
*/
public static void setDefaultManager(ConversionManager theManager) {
defaultManager = theManager;
}
/**
* INTERNAL:
* Allow for the null values for classes to be defaulted in one place.
* Any nulls read from the database to be converted to the class will be given the specified null value.
* Primitive null values should be set to the wrapper class.
*/
public void setDefaultNullValue(Class> theClass, Object theValue) {
if (this.defaultNullValues == null){
this.defaultNullValues = new HashMap<>(5);
}
getDefaultNullValues().put(theClass, theValue);
}
/**
* INTERNAL:
* Allow for the null values for classes to be defaulted in one place.
* Any nulls read from the database to be converted to the class will be given the specified null value.
*/
public void setDefaultNullValues(Map, Object> defaultNullValues) {
this.defaultNullValues = defaultNullValues;
}
/**
* INTERNAL:
*/
public void setLoader(ClassLoader classLoader) {
shouldUseClassLoaderFromCurrentThread = false;
loader = classLoader;
}
/**
* INTERNAL:
* Set the default class loader to use if no instance-level loader is set
*/
public static void setDefaultLoader(ClassLoader classLoader) {
defaultLoader = classLoader;
}
/**
* INTERNAL:
* Get the default class loader to use if no instance-level loader is set
* @return java.lang.ClassLoader
*/
public static ClassLoader getDefaultLoader() {
return defaultLoader;
}
/**
* ADVANCED:
* This flag should be set if the current thread classLoader should be used.
* This is the case in certain Application Servers were the class loader must be
* retrieved from the current Thread. If classNotFoundExceptions are being thrown then set
* this flag. In certain cases it will resolve the problem
*/
public void setShouldUseClassLoaderFromCurrentThread(boolean useCurrentThread) {
this.shouldUseClassLoaderFromCurrentThread = useCurrentThread;
}
/**
* ADVANCED:
* This flag should be set if the current thread classLoader should be used.
* This is the case in certain Application Servers were the class loader must be
* retrieved from the current Thread. If classNotFoundExceptions are being thrown then set
* this flag. In certain cases it will resolve the problem
*/
public boolean shouldUseClassLoaderFromCurrentThread() {
return this.shouldUseClassLoaderFromCurrentThread;
}
/**
* PUBLIC:
* Return the list of Classes that can be converted to from the passed in javaClass.
* @param javaClass - the class that is converted from
* @return - a vector of classes
*/
public List> getDataTypesConvertedFrom(Class> javaClass) {
if (dataTypesConvertedFromAClass.isEmpty()) {
buildDataTypesConvertedFromAClass();
}
return dataTypesConvertedFromAClass.get(javaClass);
}
/**
* PUBLIC:
* Return the list of Classes that can be converted from to the passed in javaClass.
* @param javaClass - the class that is converted to
* @return - a vector of classes
*/
public List> getDataTypesConvertedTo(Class> javaClass) {
if (dataTypesConvertedToAClass.isEmpty()) {
buildDataTypesConvertedToAClass();
}
return dataTypesConvertedToAClass.get(javaClass);
}
protected List> buildNumberVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(BigInteger.class);
vec.add(BigDecimal.class);
vec.add(Byte.class);
vec.add(Double.class);
vec.add(Float.class);
vec.add(Integer.class);
vec.add(Long.class);
vec.add(Short.class);
vec.add(Number.class);
return vec;
}
protected List> buildDateTimeVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(java.util.Date.class);
vec.add(Timestamp.class);
vec.add(Calendar.class);
return vec;
}
protected void buildDataTypesConvertedFromAClass() {
dataTypesConvertedFromAClass.put(BigDecimal.class, buildFromBigDecimalVec());
dataTypesConvertedFromAClass.put(BigInteger.class, buildFromBigIntegerVec());
dataTypesConvertedFromAClass.put(Blob.class, buildFromBlobVec());
dataTypesConvertedFromAClass.put(Boolean.class, buildFromBooleanVec());
dataTypesConvertedFromAClass.put(byte[].class, buildFromByteArrayVec());
dataTypesConvertedFromAClass.put(Byte.class, buildFromByteVec());
dataTypesConvertedFromAClass.put(Calendar.class, buildFromCalendarVec());
dataTypesConvertedFromAClass.put(Character.class, buildFromCharacterVec());
dataTypesConvertedFromAClass.put(Clob.class, buildFromClobVec());
dataTypesConvertedFromAClass.put(java.sql.Date.class, buildFromDateVec());
dataTypesConvertedFromAClass.put(Double.class, buildFromDoubleVec());
dataTypesConvertedFromAClass.put(Float.class, buildFromFloatVec());
dataTypesConvertedFromAClass.put(Integer.class, buildFromIntegerVec());
dataTypesConvertedFromAClass.put(Long.class, buildFromLongVec());
dataTypesConvertedFromAClass.put(Number.class, buildFromNumberVec());
dataTypesConvertedFromAClass.put(Short.class, buildFromShortVec());
dataTypesConvertedFromAClass.put(String.class, buildFromStringVec());
dataTypesConvertedFromAClass.put(Timestamp.class, buildFromTimestampVec());
dataTypesConvertedFromAClass.put(Time.class, buildFromTimeVec());
dataTypesConvertedFromAClass.put(java.util.Date.class, buildFromUtilDateVec());
dataTypesConvertedFromAClass.put(Byte[].class, buildFromByteObjectArraryVec());
dataTypesConvertedFromAClass.put(char[].class, buildFromCharArrayVec());
dataTypesConvertedFromAClass.put(Character[].class, buildFromCharacterArrayVec());
}
protected List> buildFromBooleanVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Boolean.class);
vec.add(Integer.class);
vec.add(Long.class);
vec.add(Short.class);
vec.add(Number.class);
vec.add(Character[].class);
vec.add(char[].class);
vec.add(boolean.class);
vec.add(int.class);
vec.add(long.class);
vec.add(short.class);
return vec;
}
protected List> buildFromNumberVec() {
List> vec = buildNumberVec();
vec.add(String.class);
vec.add(Character.class);
vec.add(Boolean.class);
vec.add(Character[].class);
vec.add(char[].class);
vec.add(char.class);
vec.add(int.class);
vec.add(double.class);
vec.add(float.class);
vec.add(long.class);
vec.add(short.class);
vec.add(byte.class);
vec.add(boolean.class);
return vec;
}
protected List> buildFromBigDecimalVec() {
return buildFromNumberVec();
}
protected List> buildFromBigIntegerVec() {
return buildFromNumberVec();
}
protected List> buildFromIntegerVec() {
return buildFromNumberVec();
}
protected List> buildFromFloatVec() {
return buildFromNumberVec();
}
protected List> buildFromDoubleVec() {
return buildFromNumberVec();
}
protected List> buildFromShortVec() {
return buildFromNumberVec();
}
protected List> buildFromByteVec() {
return buildFromNumberVec();
}
protected List> buildFromLongVec() {
List> vec = buildFromNumberVec();
vec.addAll(buildDateTimeVec());
vec.add(java.sql.Date.class);
vec.add(Time.class);
return vec;
}
protected List> buildFromStringVec() {
List> vec = buildFromLongVec();
vec.add(Byte[].class);
vec.add(byte[].class);
vec.add(Clob.class);
return vec;
}
protected List> buildFromCharacterVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Boolean.class);
vec.add(Character[].class);
vec.add(Character.class);
vec.add(char[].class);
vec.add(char.class);
vec.add(boolean.class);
return vec;
}
protected List> buildFromByteArrayVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(byte[].class);
vec.add(Byte[].class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List> buildFromClobVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List> buildFromBlobVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Byte[].class);
vec.add(byte[].class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List> buildFromUtilDateVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(java.sql.Date.class);
vec.add(Time.class);
vec.add(long.class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List>buildFromTimestampVec() {
return buildFromUtilDateVec();
}
protected List> buildFromCalendarVec() {
return buildFromUtilDateVec();
}
protected List> buildFromDateVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(java.sql.Date.class);
vec.add(long.class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List> buildFromTimeVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(Time.class);
vec.add(long.class);
vec.add(Character[].class);
vec.add(char[].class);
return vec;
}
protected List> buildFromByteObjectArraryVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(Blob.class);
vec.add(byte[].class);
return vec;
}
protected List> buildFromCharArrayVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(Clob.class);
return vec;
}
protected List> buildFromCharacterArrayVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(Clob.class);
return vec;
}
protected void buildDataTypesConvertedToAClass() {
dataTypesConvertedToAClass.put(BigDecimal.class, buildToBigDecimalVec());
dataTypesConvertedToAClass.put(BigInteger.class, buildToBigIntegerVec());
dataTypesConvertedToAClass.put(Boolean.class, buildToBooleanVec());
dataTypesConvertedToAClass.put(Byte.class, buildToByteVec());
dataTypesConvertedToAClass.put(byte[].class, buildToByteArrayVec());
dataTypesConvertedToAClass.put(Byte[].class, buildToByteObjectArrayVec());
dataTypesConvertedToAClass.put(Calendar.class, buildToCalendarVec());
dataTypesConvertedToAClass.put(Character.class, buildToCharacterVec());
dataTypesConvertedToAClass.put(Character[].class, buildToCharacterArrayVec());
dataTypesConvertedToAClass.put(char[].class, buildToCharArrayVec());
dataTypesConvertedToAClass.put(java.sql.Date.class, buildToDateVec());
dataTypesConvertedToAClass.put(Double.class, buildToDoubleVec());
dataTypesConvertedToAClass.put(Float.class, buildToFloatVec());
dataTypesConvertedToAClass.put(Integer.class, buildToIntegerVec());
dataTypesConvertedToAClass.put(Long.class, buildToLongVec());
dataTypesConvertedToAClass.put(Number.class, buildToNumberVec());
dataTypesConvertedToAClass.put(Short.class, buildToShortVec());
dataTypesConvertedToAClass.put(String.class, buildToStringVec());
dataTypesConvertedToAClass.put(Timestamp.class, buildToTimestampVec());
dataTypesConvertedToAClass.put(Time.class, buildToTimeVec());
dataTypesConvertedToAClass.put(java.util.Date.class, buildToUtilDateVec());
dataTypesConvertedToAClass.put(Clob.class, buildToClobVec());
dataTypesConvertedToAClass.put(Blob.class, buildToBlobVec());
}
protected List> buildAllTypesToAClassVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Integer.class);
vec.add(java.util.Date.class);
vec.add(java.sql.Date.class);
vec.add(Time.class);
vec.add(Timestamp.class);
vec.add(Calendar.class);
vec.add(Character.class);
vec.add(Double.class);
vec.add(Float.class);
vec.add(Long.class);
vec.add(Short.class);
vec.add(Byte.class);
vec.add(BigInteger.class);
vec.add(BigDecimal.class);
vec.add(Number.class);
vec.add(Boolean.class);
vec.add(Character[].class);
vec.add(Blob.class);
vec.add(Clob.class);
return vec;
}
protected List> buildToBigDecimalVec() {
List> vec = buildNumberVec();
vec.add(String.class);
return vec;
}
protected List> buildToBigIntegerVec() {
return buildToBigDecimalVec();
}
protected List> buildToBooleanVec() {
List> vec = buildToBigDecimalVec();
vec.add(Character.class);
vec.add(Boolean.class);
return vec;
}
protected List> buildToByteVec() {
return buildToBigDecimalVec();
}
protected List> buildToDoubleVec() {
return buildToBigDecimalVec();
}
protected List> buildToFloatVec() {
return buildToBigDecimalVec();
}
protected List> buildToIntegerVec() {
List> vec = buildToBigDecimalVec();
vec.add(Boolean.class);
return vec;
}
protected List> buildToLongVec() {
List> vec = buildToIntegerVec();
vec.add(Calendar.class);
vec.add(java.util.Date.class);
return vec;
}
protected List> buildToNumberVec() {
return buildToIntegerVec();
}
protected List> buildToShortVec() {
return buildToIntegerVec();
}
protected List> buildToByteArrayVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(Blob.class);
vec.add(byte[].class);
vec.add(Byte[].class);
return vec;
}
protected List> buildToByteObjectArrayVec() {
List> vec = buildToByteArrayVec();
vec.add(Byte[].class);
return vec;
}
protected List> buildToCharacterVec() {
List> vec = buildToBigDecimalVec();
vec.add(Character.class);
return vec;
}
protected List> buildToCharacterArrayVec() {
return buildAllTypesToAClassVec();
}
protected List> buildToCharArrayVec() {
return buildAllTypesToAClassVec();
}
protected List> buildToStringVec() {
return buildAllTypesToAClassVec();
}
protected List> buildToCalendarVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(java.sql.Date.class);
vec.add(Time.class);
return vec;
}
protected List> buildToTimestampVec() {
return buildToCalendarVec();
}
protected List> buildToUtilDateVec() {
return buildToCalendarVec();
}
protected List> buildToDateVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(java.sql.Date.class);
return vec;
}
protected List> buildToTimeVec() {
List> vec = buildDateTimeVec();
vec.add(String.class);
vec.add(Long.class);
vec.add(Time.class);
return vec;
}
protected List> buildToBlobVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(Byte[].class);
vec.add(byte[].class);
return vec;
}
protected List> buildToClobVec() {
List> vec = new CopyOnWriteArrayList<>();
vec.add(String.class);
vec.add(char[].class);
vec.add(Character[].class);
return vec;
}
}