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feilong is a suite of core and expanded libraries that include utility classes, http, excel,cvs, io classes, and much much more.
// --------------------------------------------------------------------------
// Copyright (c) 1998-2004, Drew Davidson and Luke Blanshard
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// Neither the name of the Drew Davidson nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
// OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
// AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
// DAMAGE.
// --------------------------------------------------------------------------
package com.feilong.lib.ognl;
import java.lang.reflect.Array;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.Collection;
import java.util.Enumeration;
import com.feilong.lib.ognl.enhance.UnsupportedCompilationException;
/**
* This is an abstract class with static methods that define the operations of OGNL.
*
* @author Luke Blanshard ([email protected])
* @author Drew Davidson ([email protected])
*/
public abstract class OgnlOps implements NumericTypes{
/**
* Compares two objects for equality, even if it has to convert one of them to the other type.
* If both objects are numeric they are converted to the widest type and compared. If one is
* non-numeric and one is numeric the non-numeric is converted to double and compared to the
* double numeric value. If both are non-numeric and Comparable and the types are compatible
* (i.e. v1 is of the same or superclass of v2's type) they are compared with
* Comparable.compareTo(). If both values are non-numeric and not Comparable or of incompatible
* classes this will throw and IllegalArgumentException.
*
* @param v1
* First value to compare
* @param v2
* second value to compare
* @return integer describing the comparison between the two objects. A negative number
* indicates that v1 < v2. Positive indicates that v1 > v2. Zero indicates v1 == v2.
* @throws IllegalArgumentException
* if the objects are both non-numeric yet of incompatible types or do not implement
* Comparable.
*/
public static int compareWithConversion(Object v1,Object v2){
int result;
if (v1 == v2){
result = 0;
}else{
int t1 = getNumericType(v1), t2 = getNumericType(v2), type = getNumericType(t1, t2, true);
switch (type) {
case BIGINT:
result = bigIntValue(v1).compareTo(bigIntValue(v2));
break;
case BIGDEC:
result = bigDecValue(v1).compareTo(bigDecValue(v2));
break;
case NONNUMERIC:
if ((t1 == NONNUMERIC) && (t2 == NONNUMERIC)){
if ((v1 instanceof Comparable) && v1.getClass().isAssignableFrom(v2.getClass())){
result = ((Comparable) v1).compareTo(v2);
break;
}else if ((v1 instanceof Enum && v2 instanceof Enum) && (v1.getClass() == v2.getClass()
|| ((Enum) v1).getDeclaringClass() == ((Enum) v2).getDeclaringClass())){
result = ((Enum) v1).compareTo((Enum) v2);
break;
}else{
throw new IllegalArgumentException(
"invalid comparison: " + v1.getClass().getName() + " and " + v2.getClass().getName());
}
}
// else fall through
case FLOAT:
case DOUBLE:
double dv1 = doubleValue(v1), dv2 = doubleValue(v2);
return (dv1 == dv2) ? 0 : ((dv1 < dv2) ? -1 : 1);
default:
long lv1 = longValue(v1), lv2 = longValue(v2);
return (lv1 == lv2) ? 0 : ((lv1 < lv2) ? -1 : 1);
}
}
return result;
}
/**
* Returns true if object1 is equal to object2 in either the sense that they are the same object
* or, if both are non-null if they are equal in the equals() sense.
*
* @param object1
* First object to compare
* @param object2
* Second object to compare
* @return true if v1 == v2
*/
public static boolean isEqual(Object object1,Object object2){
boolean result = false;
if (object1 == object2){
result = true;
}else if (object1 != null && object2 != null){
if (object1.getClass().isArray()){
if (object2.getClass().isArray() && (object2.getClass() == object1.getClass())){
result = (Array.getLength(object1) == Array.getLength(object2));
if (result){
for (int i = 0, icount = Array.getLength(object1); result && (i < icount); i++){
result = isEqual(Array.get(object1, i), Array.get(object2, i));
}
}
}
}else{
int t1 = getNumericType(object1);
int t2 = getNumericType(object2);
// compare non-comparable non-numeric types by equals only
if (t1 == NONNUMERIC && t2 == NONNUMERIC && (!(object1 instanceof Comparable) || !(object2 instanceof Comparable))){
result = object1.equals(object2);
}else{
result = compareWithConversion(object1, object2) == 0;
}
}
}
return result;
}
public static boolean booleanValue(boolean value){
return value;
}
public static boolean booleanValue(int value){
return value > 0;
}
public static boolean booleanValue(float value){
return value > 0;
}
public static boolean booleanValue(long value){
return value > 0;
}
public static boolean booleanValue(double value){
return value > 0;
}
/**
* Evaluates the given object as a boolean: if it is a Boolean object, it's easy; if it's a
* Number or a Character, returns true for non-zero objects; and otherwise returns true for
* non-null objects.
*
* @param value
* an object to interpret as a boolean
* @return the boolean value implied by the given object
*/
public static boolean booleanValue(Object value){
if (value == null){
return false;
}
Class c = value.getClass();
if (c == Boolean.class){
return ((Boolean) value).booleanValue();
}
if (c == String.class){
return Boolean.parseBoolean(String.valueOf(value));
}
if (c == Character.class){
return ((Character) value).charValue() != 0;
}
if (value instanceof Number){
return ((Number) value).doubleValue() != 0;
}
return true; // non-null
}
/**
* Evaluates the given object as a long integer.
*
* @param value
* an object to interpret as a long integer
* @return the long integer value implied by the given object
* @throws NumberFormatException
* if the given object can't be understood as a long integer
*/
public static long longValue(Object value) throws NumberFormatException{
if (value == null){
return 0L;
}
Class c = value.getClass();
if (c.getSuperclass() == Number.class){
return ((Number) value).longValue();
}
if (c == Boolean.class){
return ((Boolean) value).booleanValue() ? 1 : 0;
}
if (c == Character.class){
return ((Character) value).charValue();
}
return Long.parseLong(stringValue(value, true));
}
/**
* Evaluates the given object as a double-precision floating-point number.
*
* @param value
* an object to interpret as a double
* @return the double value implied by the given object
* @throws NumberFormatException
* if the given object can't be understood as a double
*/
public static double doubleValue(Object value) throws NumberFormatException{
if (value == null){
return 0.0;
}
Class c = value.getClass();
if (c.getSuperclass() == Number.class){
return ((Number) value).doubleValue();
}
if (c == Boolean.class){
return ((Boolean) value).booleanValue() ? 1 : 0;
}
if (c == Character.class){
return ((Character) value).charValue();
}
String s = stringValue(value, true);
return (s.length() == 0) ? 0.0 : Double.parseDouble(s);
}
/**
* Evaluates the given object as a BigInteger.
*
* @param value
* an object to interpret as a BigInteger
* @return the BigInteger value implied by the given object
* @throws NumberFormatException
* if the given object can't be understood as a BigInteger
*/
public static BigInteger bigIntValue(Object value) throws NumberFormatException{
if (value == null){
return BigInteger.valueOf(0L);
}
Class c = value.getClass();
if (c == BigInteger.class){
return (BigInteger) value;
}
if (c == BigDecimal.class){
return ((BigDecimal) value).toBigInteger();
}
if (c.getSuperclass() == Number.class){
return BigInteger.valueOf(((Number) value).longValue());
}
if (c == Boolean.class){
return BigInteger.valueOf(((Boolean) value).booleanValue() ? 1 : 0);
}
if (c == Character.class){
return BigInteger.valueOf(((Character) value).charValue());
}
return new BigInteger(stringValue(value, true));
}
/**
* Evaluates the given object as a BigDecimal.
*
* @param value
* an object to interpret as a BigDecimal
* @return the BigDecimal value implied by the given object
* @throws NumberFormatException
* if the given object can't be understood as a BigDecimal
*/
public static BigDecimal bigDecValue(Object value) throws NumberFormatException{
if (value == null){
return BigDecimal.valueOf(0L);
}
Class c = value.getClass();
if (c == BigDecimal.class){
return (BigDecimal) value;
}
if (c == BigInteger.class){
return new BigDecimal((BigInteger) value);
}
if (c == Boolean.class){
return BigDecimal.valueOf(((Boolean) value).booleanValue() ? 1 : 0);
}
if (c == Character.class){
return BigDecimal.valueOf(((Character) value).charValue());
}
return new BigDecimal(stringValue(value, true));
}
/**
* Evaluates the given object as a String and trims it if the trim flag is true.
*
* @param value
* an object to interpret as a String
* @param trim
* true if result should be whitespace-trimmed, false otherwise.
* @return the String value implied by the given object as returned by the toString() method, or
* "null" if the object is null.
*/
public static String stringValue(Object value,boolean trim){
String result;
if (value == null){
result = OgnlRuntime.NULL_STRING;
}else{
result = value.toString();
if (trim){
result = result.trim();
}
}
return result;
}
/**
* Evaluates the given object as a String.
*
* @param value
* an object to interpret as a String
* @return the String value implied by the given object as returned by the toString() method, or
* "null" if the object is null.
*/
public static String stringValue(Object value){
return stringValue(value, false);
}
/**
* Returns a constant from the NumericTypes interface that represents the numeric type of the
* given object.
*
* @param value
* an object that needs to be interpreted as a number
* @return the appropriate constant from the NumericTypes interface
*/
public static int getNumericType(Object value){
if (value != null){
Class c = value.getClass();
if (c == Integer.class){
return INT;
}
if (c == Double.class){
return DOUBLE;
}
if (c == Boolean.class){
return BOOL;
}
if (c == Byte.class){
return BYTE;
}
if (c == Character.class){
return CHAR;
}
if (c == Short.class){
return SHORT;
}
if (c == Long.class){
return LONG;
}
if (c == Float.class){
return FLOAT;
}
if (c == BigInteger.class){
return BIGINT;
}
if (c == BigDecimal.class){
return BIGDEC;
}
}
return NONNUMERIC;
}
public static Object toArray(char value,Class toType){
return toArray(new Character(value), toType);
}
public static Object toArray(byte value,Class toType){
return toArray(new Byte(value), toType);
}
public static Object toArray(int value,Class toType){
return toArray(new Integer(value), toType);
}
public static Object toArray(long value,Class toType){
return toArray(new Long(value), toType);
}
public static Object toArray(float value,Class toType){
return toArray(new Float(value), toType);
}
public static Object toArray(double value,Class toType){
return toArray(new Double(value), toType);
}
public static Object toArray(boolean value,Class toType){
return toArray(new Boolean(value), toType);
}
public static Object convertValue(char value,Class toType){
return convertValue(new Character(value), toType);
}
public static Object convertValue(byte value,Class toType){
return convertValue(new Byte(value), toType);
}
public static Object convertValue(int value,Class toType){
return convertValue(new Integer(value), toType);
}
public static Object convertValue(long value,Class toType){
return convertValue(new Long(value), toType);
}
public static Object convertValue(float value,Class toType){
return convertValue(new Float(value), toType);
}
public static Object convertValue(double value,Class toType){
return convertValue(new Double(value), toType);
}
public static Object convertValue(boolean value,Class toType){
return convertValue(new Boolean(value), toType);
}
////////////////////////////////////////////////////////////////
public static Object convertValue(char value,Class toType,boolean preventNull){
return convertValue(new Character(value), toType, preventNull);
}
public static Object convertValue(byte value,Class toType,boolean preventNull){
return convertValue(new Byte(value), toType, preventNull);
}
public static Object convertValue(int value,Class toType,boolean preventNull){
return convertValue(new Integer(value), toType, preventNull);
}
public static Object convertValue(long value,Class toType,boolean preventNull){
return convertValue(new Long(value), toType, preventNull);
}
public static Object convertValue(float value,Class toType,boolean preventNull){
return convertValue(new Float(value), toType, preventNull);
}
public static Object convertValue(double value,Class toType,boolean preventNull){
return convertValue(new Double(value), toType, preventNull);
}
public static Object convertValue(boolean value,Class toType,boolean preventNull){
return convertValue(new Boolean(value), toType, preventNull);
}
/////////////////////////////////////////////////////////////////
public static Object toArray(char value,Class toType,boolean preventNull){
return toArray(new Character(value), toType, preventNull);
}
public static Object toArray(byte value,Class toType,boolean preventNull){
return toArray(new Byte(value), toType, preventNull);
}
public static Object toArray(int value,Class toType,boolean preventNull){
return toArray(new Integer(value), toType, preventNull);
}
public static Object toArray(long value,Class toType,boolean preventNull){
return toArray(new Long(value), toType, preventNull);
}
public static Object toArray(float value,Class toType,boolean preventNull){
return toArray(new Float(value), toType, preventNull);
}
public static Object toArray(double value,Class toType,boolean preventNull){
return toArray(new Double(value), toType, preventNull);
}
public static Object toArray(boolean value,Class toType,boolean preventNull){
return toArray(new Boolean(value), toType, preventNull);
}
/**
* Returns the value converted numerically to the given class type This method also detects when
* arrays are being converted and converts the components of one array to the type of the other.
*
* @param value
* an object to be converted to the given type
* @param toType
* class type to be converted to
* @return converted value of the type given, or value if the value cannot be converted to the
* given type.
*/
public static Object convertValue(Object value,Class toType){
return convertValue(value, toType, false);
}
public static Object toArray(Object value,Class toType){
return toArray(value, toType, false);
}
public static Object toArray(Object value,Class toType,boolean preventNulls){
if (value == null){
return null;
}
Object result = null;
if (value.getClass().isArray() && toType.isAssignableFrom(value.getClass().getComponentType())){
return value;
}
if (!value.getClass().isArray()){
if (toType == Character.TYPE){
return stringValue(value).toCharArray();
}
if (value instanceof Collection){
return ((Collection) value).toArray((Object[]) Array.newInstance(toType, 0));
}
Object arr = Array.newInstance(toType, 1);
Array.set(arr, 0, convertValue(value, toType, preventNulls));
return arr;
}
result = Array.newInstance(toType, Array.getLength(value));
for (int i = 0, icount = Array.getLength(value); i < icount; i++){
Array.set(result, i, convertValue(Array.get(value, i), toType));
}
if (result == null && preventNulls){
return value;
}
return result;
}
public static Object convertValue(Object value,Class toType,boolean preventNulls){
Object result = null;
if (value != null && toType.isAssignableFrom(value.getClass())){
return value;
}
if (value != null){
/* If array -> array then convert components of array individually */
if (value.getClass().isArray() && toType.isArray()){
Class componentType = toType.getComponentType();
result = Array.newInstance(componentType, Array.getLength(value));
for (int i = 0, icount = Array.getLength(value); i < icount; i++){
Array.set(result, i, convertValue(Array.get(value, i), componentType));
}
}else if (value.getClass().isArray() && !toType.isArray()){
return convertValue(Array.get(value, 0), toType);
}else if (!value.getClass().isArray() && toType.isArray()){
if (toType.getComponentType() == Character.TYPE){
result = stringValue(value).toCharArray();
}else if (toType.getComponentType() == Object.class){
if (value instanceof Collection){
Collection vc = (Collection) value;
return vc.toArray(new Object[0]);
}else{
return new Object[] { value };
}
}
}else{
if ((toType == Integer.class) || (toType == Integer.TYPE)){
result = new Integer((int) longValue(value));
}
if ((toType == Double.class) || (toType == Double.TYPE)){
result = new Double(doubleValue(value));
}
if ((toType == Boolean.class) || (toType == Boolean.TYPE)){
result = booleanValue(value) ? Boolean.TRUE : Boolean.FALSE;
}
if ((toType == Byte.class) || (toType == Byte.TYPE)){
result = new Byte((byte) longValue(value));
}
if ((toType == Character.class) || (toType == Character.TYPE)){
result = new Character((char) longValue(value));
}
if ((toType == Short.class) || (toType == Short.TYPE)){
result = new Short((short) longValue(value));
}
if ((toType == Long.class) || (toType == Long.TYPE)){
result = new Long(longValue(value));
}
if ((toType == Float.class) || (toType == Float.TYPE)){
result = new Float(doubleValue(value));
}
if (toType == BigInteger.class){
result = bigIntValue(value);
}
if (toType == BigDecimal.class){
result = bigDecValue(value);
}
if (toType == String.class){
result = stringValue(value);
}
}
}else{
if (toType.isPrimitive()){
result = OgnlRuntime.getPrimitiveDefaultValue(toType);
}else if (preventNulls && toType == Boolean.class){
result = Boolean.FALSE;
}else if (preventNulls && Number.class.isAssignableFrom(toType)){
result = OgnlRuntime.getNumericDefaultValue(toType);
}
}
if (result == null && preventNulls){
return value;
}
if (value != null && result == null){
throw new IllegalArgumentException(
"Unable to convert type " + value.getClass().getName() + " of " + value + " to type of " + toType.getName());
}
return result;
}
/**
* Converts the specified value to a primitive integer value.
*
*
* - Null values will cause a -1 to be returned.
* - {@link Number} instances have their intValue() methods invoked.
* - All other types result in calling Integer.parseInt(value.toString());
*
*
* @param value
* The object to get the value of.
* @return A valid integer.
*/
public static int getIntValue(Object value){
try{
if (value == null){
return -1;
}
if (Number.class.isInstance(value)){
return ((Number) value).intValue();
}
String str = String.class.isInstance(value) ? (String) value : value.toString();
return Integer.parseInt(str);
}catch (Throwable t){
throw new RuntimeException("Error converting " + value + " to integer:", t);
}
}
/**
* Returns the constant from the NumericTypes interface that best expresses the type of a
* numeric operation on the two given objects.
*
* @param v1
* one argument to a numeric operator
* @param v2
* the other argument
* @return the appropriate constant from the NumericTypes interface
*/
public static int getNumericType(Object v1,Object v2){
return getNumericType(v1, v2, false);
}
/**
* Returns the constant from the NumericTypes interface that best expresses the type of an
* operation, which can be either numeric or not, on the two given types.
*
* @param t1
* type of one argument to an operator
* @param t2
* type of the other argument
* @param canBeNonNumeric
* whether the operator can be interpreted as non-numeric
* @return the appropriate constant from the NumericTypes interface
*/
public static int getNumericType(int t1,int t2,boolean canBeNonNumeric){
if (t1 == t2){
return t1;
}
if (canBeNonNumeric && (t1 == NONNUMERIC || t2 == NONNUMERIC || t1 == CHAR || t2 == CHAR)){
return NONNUMERIC;
}
if (t1 == NONNUMERIC){
t1 = DOUBLE; // Try to interpret strings as doubles...
}
if (t2 == NONNUMERIC){
t2 = DOUBLE; // Try to interpret strings as doubles...
}
if (t1 >= MIN_REAL_TYPE){
if (t2 >= MIN_REAL_TYPE){
return Math.max(t1, t2);
}
if (t2 < INT){
return t1;
}
if (t2 == BIGINT){
return BIGDEC;
}
return Math.max(DOUBLE, t1);
}else if (t2 >= MIN_REAL_TYPE){
if (t1 < INT){
return t2;
}
if (t1 == BIGINT){
return BIGDEC;
}
return Math.max(DOUBLE, t2);
}else{
return Math.max(t1, t2);
}
}
/**
* Returns the constant from the NumericTypes interface that best expresses the type of an
* operation, which can be either numeric or not, on the two given objects.
*
* @param v1
* one argument to an operator
* @param v2
* the other argument
* @param canBeNonNumeric
* whether the operator can be interpreted as non-numeric
* @return the appropriate constant from the NumericTypes interface
*/
public static int getNumericType(Object v1,Object v2,boolean canBeNonNumeric){
return getNumericType(getNumericType(v1), getNumericType(v2), canBeNonNumeric);
}
/**
* Returns a new Number object of an appropriate type to hold the given integer value. The type
* of the returned object is consistent with the given type argument, which is a constant from
* the NumericTypes interface.
*
* @param type
* the nominal numeric type of the result, a constant from the NumericTypes interface
* @param value
* the integer value to convert to a Number object
* @return a Number object with the given value, of type implied by the type argument
*/
public static Number newInteger(int type,long value){
switch (type) {
case BOOL:
case CHAR:
case INT:
return new Integer((int) value);
case FLOAT:
if (value == value){
return new Float(value);
}
// else fall through:
case DOUBLE:
if (value == value){
return new Double(value);
}
// else fall through:
case LONG:
return new Long(value);
case BYTE:
return new Byte((byte) value);
case SHORT:
return new Short((short) value);
default:
return BigInteger.valueOf(value);
}
}
/**
* Returns a new Number object of an appropriate type to hold the given real value. The type of
* the returned object is always either Float or Double, and is only Float if the given type tag
* (a constant from the NumericTypes interface) is FLOAT.
*
* @param type
* the nominal numeric type of the result, a constant from the NumericTypes interface
* @param value
* the real value to convert to a Number object
* @return a Number object with the given value, of type implied by the type argument
*/
public static Number newReal(int type,double value){
if (type == FLOAT){
return new Float((float) value);
}
return new Double(value);
}
public static Object binaryOr(Object v1,Object v2){
int type = getNumericType(v1, v2);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).or(bigIntValue(v2));
}
return newInteger(type, longValue(v1) | longValue(v2));
}
public static Object binaryXor(Object v1,Object v2){
int type = getNumericType(v1, v2);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).xor(bigIntValue(v2));
}
return newInteger(type, longValue(v1) ^ longValue(v2));
}
public static Object binaryAnd(Object v1,Object v2){
int type = getNumericType(v1, v2);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).and(bigIntValue(v2));
}
return newInteger(type, longValue(v1) & longValue(v2));
}
public static boolean equal(Object v1,Object v2){
if (v1 == null){
return v2 == null;
}
if (v1 == v2 || isEqual(v1, v2)){
return true;
}
if (v1 instanceof Number && v2 instanceof Number){
return ((Number) v1).doubleValue() == ((Number) v2).doubleValue();
}
return false;
}
public static boolean less(Object v1,Object v2){
return compareWithConversion(v1, v2) < 0;
}
public static boolean greater(Object v1,Object v2){
return compareWithConversion(v1, v2) > 0;
}
public static boolean in(Object v1,Object v2) throws OgnlException{
if (v2 == null){
return false;
}
ElementsAccessor elementsAccessor = OgnlRuntime.getElementsAccessor(OgnlRuntime.getTargetClass(v2));
for (Enumeration e = elementsAccessor.getElements(v2); e.hasMoreElements();){
Object o = e.nextElement();
if (equal(v1, o)){
return true;
}
}
return false;
}
public static Object shiftLeft(Object v1,Object v2){
int type = getNumericType(v1);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).shiftLeft((int) longValue(v2));
}
return newInteger(type, longValue(v1) << (int) longValue(v2));
}
public static Object shiftRight(Object v1,Object v2){
int type = getNumericType(v1);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).shiftRight((int) longValue(v2));
}
return newInteger(type, longValue(v1) >> (int) longValue(v2));
}
public static Object unsignedShiftRight(Object v1,Object v2){
int type = getNumericType(v1);
if (type == BIGINT || type == BIGDEC){
return bigIntValue(v1).shiftRight((int) longValue(v2));
}
if (type <= INT){
return newInteger(INT, ((int) longValue(v1)) >>> (int) longValue(v2));
}
return newInteger(type, longValue(v1) >>> (int) longValue(v2));
}
public static Object add(Object v1,Object v2){
int type = getNumericType(v1, v2, true);
switch (type) {
case BIGINT:
return bigIntValue(v1).add(bigIntValue(v2));
case BIGDEC:
return bigDecValue(v1).add(bigDecValue(v2));
case FLOAT:
case DOUBLE:
return newReal(type, doubleValue(v1) + doubleValue(v2));
case NONNUMERIC:
int t1 = getNumericType(v1), t2 = getNumericType(v2);
if (((t1 != NONNUMERIC) && (v2 == null)) || ((t2 != NONNUMERIC) && (v1 == null))){
throw new NullPointerException("Can't add values " + v1 + " , " + v2);
}
return stringValue(v1) + stringValue(v2);
default:
return newInteger(type, longValue(v1) + longValue(v2));
}
}
public static Object subtract(Object v1,Object v2){
int type = getNumericType(v1, v2);
switch (type) {
case BIGINT:
return bigIntValue(v1).subtract(bigIntValue(v2));
case BIGDEC:
return bigDecValue(v1).subtract(bigDecValue(v2));
case FLOAT:
case DOUBLE:
return newReal(type, doubleValue(v1) - doubleValue(v2));
default:
return newInteger(type, longValue(v1) - longValue(v2));
}
}
public static Object multiply(Object v1,Object v2){
int type = getNumericType(v1, v2);
switch (type) {
case BIGINT:
return bigIntValue(v1).multiply(bigIntValue(v2));
case BIGDEC:
return bigDecValue(v1).multiply(bigDecValue(v2));
case FLOAT:
case DOUBLE:
return newReal(type, doubleValue(v1) * doubleValue(v2));
default:
return newInteger(type, longValue(v1) * longValue(v2));
}
}
public static Object divide(Object v1,Object v2){
int type = getNumericType(v1, v2);
switch (type) {
case BIGINT:
return bigIntValue(v1).divide(bigIntValue(v2));
case BIGDEC:
return bigDecValue(v1).divide(bigDecValue(v2), BigDecimal.ROUND_HALF_EVEN);
case FLOAT:
case DOUBLE:
return newReal(type, doubleValue(v1) / doubleValue(v2));
default:
return newInteger(type, longValue(v1) / longValue(v2));
}
}
public static Object remainder(Object v1,Object v2){
int type = getNumericType(v1, v2);
switch (type) {
case BIGDEC:
case BIGINT:
return bigIntValue(v1).remainder(bigIntValue(v2));
default:
return newInteger(type, longValue(v1) % longValue(v2));
}
}
public static Object negate(Object value){
int type = getNumericType(value);
switch (type) {
case BIGINT:
return bigIntValue(value).negate();
case BIGDEC:
return bigDecValue(value).negate();
case FLOAT:
case DOUBLE:
return newReal(type, -doubleValue(value));
default:
return newInteger(type, -longValue(value));
}
}
public static Object bitNegate(Object value){
int type = getNumericType(value);
switch (type) {
case BIGDEC:
case BIGINT:
return bigIntValue(value).not();
default:
return newInteger(type, ~longValue(value));
}
}
public static String getEscapeString(String value){
StringBuffer result = new StringBuffer();
for (int i = 0, icount = value.length(); i < icount; i++){
result.append(getEscapedChar(value.charAt(i)));
}
return new String(result);
}
public static String getEscapedChar(char ch){
String result;
switch (ch) {
case '\b':
result = "\b";
break;
case '\t':
result = "\\t";
break;
case '\n':
result = "\\n";
break;
case '\f':
result = "\\f";
break;
case '\r':
result = "\\r";
break;
case '\"':
result = "\\\"";
break;
case '\'':
result = "\\\'";
break;
case '\\':
result = "\\\\";
break;
default:
if (Character.isISOControl(ch)){
String hc = Integer.toString(ch, 16);
int hcl = hc.length();
result = "\\u";
if (hcl < 4){
if (hcl == 3){
result = result + "0";
}else{
if (hcl == 2){
result = result + "00";
}else{
result = result + "000";
}
}
}
result = result + hc;
}else{
result = new String(ch + "");
}
break;
}
return result;
}
public static Object returnValue(Object ignore,Object returnValue){
return returnValue;
}
/**
* Utility method that converts incoming exceptions to {@link RuntimeException}
* instances - or casts them if they already are.
*
* @param t
* The exception to cast.
* @return The exception cast to a {@link RuntimeException}.
*/
public static RuntimeException castToRuntime(Throwable t){
if (RuntimeException.class.isInstance(t)){
return (RuntimeException) t;
}
if (OgnlException.class.isInstance(t)){
throw new UnsupportedCompilationException("Error evluating expression: " + t.getMessage(), t);
}
return new RuntimeException(t);
}
}