/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.codehaus.groovy.runtime.typehandling;
import groovy.lang.MetaMethod;
import org.codehaus.groovy.runtime.InvokerHelper;
import org.codehaus.groovy.runtime.metaclass.NewInstanceMetaMethod;
import java.util.Collections;
import java.util.HashSet;
public class NumberMathModificationInfo {
public static final NumberMathModificationInfo instance = new NumberMathModificationInfo();
private final HashSet<String> names = new HashSet<String>();
private NumberMathModificationInfo() {
Collections.addAll(names, "plus", "minus", "multiply", "div", "compareTo", "or", "and", "xor", "intdiv", "mod", "leftShift", "rightShift", "rightShiftUnsigned");
}
public void checkIfStdMethod(MetaMethod method) {
if (method.getClass() != NewInstanceMetaMethod.class) {
String name = method.getName();
if (method.getParameterTypes().length != 1)
return;
if (!method.getParameterTypes()[0].isNumber && method.getParameterTypes()[0].getTheClass() != Object.class)
return;
if (!names.contains(name))
return;
checkNumberOps(name, method.getDeclaringClass().getTheClass());
}
}
private void checkNumberOps(String name, Class klazz) {
if ("plus".equals(name)) {
if (klazz == Byte.class) {
byte_plus = true;
}
if (klazz == Short.class) {
short_plus = true;
}
if (klazz == Integer.class) {
int_plus = true;
}
if (klazz == Long.class) {
long_plus = true;
}
if (klazz == Float.class) {
float_plus = true;
}
if (klazz == Double.class) {
double_plus = true;
}
if (klazz == Object.class) {
byte_plus = true;
short_plus = true;
int_plus = true;
long_plus = true;
float_plus = true;
double_plus = true;
}
}
if ("minus".equals(name)) {
if (klazz == Byte.class) {
byte_minus = true;
}
if (klazz == Short.class) {
short_minus = true;
}
if (klazz == Integer.class) {
int_minus = true;
}
if (klazz == Long.class) {
long_minus = true;
}
if (klazz == Float.class) {
float_minus = true;
}
if (klazz == Double.class) {
double_minus = true;
}
if (klazz == Object.class) {
byte_minus = true;
short_minus = true;
int_minus = true;
long_minus = true;
float_minus = true;
double_minus = true;
}
}
if ("multiply".equals(name)) {
if (klazz == Byte.class) {
byte_multiply = true;
}
if (klazz == Short.class) {
short_multiply = true;
}
if (klazz == Integer.class) {
int_multiply = true;
}
if (klazz == Long.class) {
long_multiply = true;
}
if (klazz == Float.class) {
float_multiply = true;
}
if (klazz == Double.class) {
double_multiply = true;
}
if (klazz == Object.class) {
byte_multiply = true;
short_multiply = true;
int_multiply = true;
long_multiply = true;
float_multiply = true;
double_multiply = true;
}
}
if ("div".equals(name)) {
if (klazz == Byte.class) {
byte_div = true;
}
if (klazz == Short.class) {
short_div = true;
}
if (klazz == Integer.class) {
int_div = true;
}
if (klazz == Long.class) {
long_div = true;
}
if (klazz == Float.class) {
float_div = true;
}
if (klazz == Double.class) {
double_div = true;
}
if (klazz == Object.class) {
byte_div = true;
short_div = true;
int_div = true;
long_div = true;
float_div = true;
double_div = true;
}
}
if ("or".equals(name)) {
if (klazz == Byte.class) {
byte_or = true;
}
if (klazz == Short.class) {
short_or = true;
}
if (klazz == Integer.class) {
int_or = true;
}
if (klazz == Long.class) {
long_or = true;
}
if (klazz == Float.class) {
float_or = true;
}
if (klazz == Double.class) {
double_or = true;
}
if (klazz == Object.class) {
byte_or = true;
short_or = true;
int_or = true;
long_or = true;
float_or = true;
double_or = true;
}
}
if ("and".equals(name)) {
if (klazz == Byte.class) {
byte_and = true;
}
if (klazz == Short.class) {
short_and = true;
}
if (klazz == Integer.class) {
int_and = true;
}
if (klazz == Long.class) {
long_and = true;
}
if (klazz == Float.class) {
float_and = true;
}
if (klazz == Double.class) {
double_and = true;
}
if (klazz == Object.class) {
byte_and = true;
short_and = true;
int_and = true;
long_and = true;
float_and = true;
double_and = true;
}
}
if ("xor".equals(name)) {
if (klazz == Byte.class) {
byte_xor = true;
}
if (klazz == Short.class) {
short_xor = true;
}
if (klazz == Integer.class) {
int_xor = true;
}
if (klazz == Long.class) {
long_xor = true;
}
if (klazz == Float.class) {
float_xor = true;
}
if (klazz == Double.class) {
double_xor = true;
}
if (klazz == Object.class) {
byte_xor = true;
short_xor = true;
int_xor = true;
long_xor = true;
float_xor = true;
double_xor = true;
}
}
if ("intdiv".equals(name)) {
if (klazz == Byte.class) {
byte_intdiv = true;
}
if (klazz == Short.class) {
short_intdiv = true;
}
if (klazz == Integer.class) {
int_intdiv = true;
}
if (klazz == Long.class) {
long_intdiv = true;
}
if (klazz == Float.class) {
float_intdiv = true;
}
if (klazz == Double.class) {
double_intdiv = true;
}
if (klazz == Object.class) {
byte_intdiv = true;
short_intdiv = true;
int_intdiv = true;
long_intdiv = true;
float_intdiv = true;
double_intdiv = true;
}
}
if ("mod".equals(name)) {
if (klazz == Byte.class) {
byte_mod = true;
}
if (klazz == Short.class) {
short_mod = true;
}
if (klazz == Integer.class) {
int_mod = true;
}
if (klazz == Long.class) {
long_mod = true;
}
if (klazz == Float.class) {
float_mod = true;
}
if (klazz == Double.class) {
double_mod = true;
}
if (klazz == Object.class) {
byte_mod = true;
short_mod = true;
int_mod = true;
long_mod = true;
float_mod = true;
double_mod = true;
}
}
if ("leftShift".equals(name)) {
if (klazz == Byte.class) {
byte_leftShift = true;
}
if (klazz == Short.class) {
short_leftShift = true;
}
if (klazz == Integer.class) {
int_leftShift = true;
}
if (klazz == Long.class) {
long_leftShift = true;
}
if (klazz == Float.class) {
float_leftShift = true;
}
if (klazz == Double.class) {
double_leftShift = true;
}
if (klazz == Object.class) {
byte_leftShift = true;
short_leftShift = true;
int_leftShift = true;
long_leftShift = true;
float_leftShift = true;
double_leftShift = true;
}
}
if ("rightShift".equals(name)) {
if (klazz == Byte.class) {
byte_rightShift = true;
}
if (klazz == Short.class) {
short_rightShift = true;
}
if (klazz == Integer.class) {
int_rightShift = true;
}
if (klazz == Long.class) {
long_rightShift = true;
}
if (klazz == Float.class) {
float_rightShift = true;
}
if (klazz == Double.class) {
double_rightShift = true;
}
if (klazz == Object.class) {
byte_rightShift = true;
short_rightShift = true;
int_rightShift = true;
long_rightShift = true;
float_rightShift = true;
double_rightShift = true;
}
}
if ("rightShiftUnsigned".equals(name)) {
if (klazz == Byte.class) {
byte_rightShiftUnsigned = true;
}
if (klazz == Short.class) {
short_rightShiftUnsigned = true;
}
if (klazz == Integer.class) {
int_rightShiftUnsigned = true;
}
if (klazz == Long.class) {
long_rightShiftUnsigned = true;
}
if (klazz == Float.class) {
float_rightShiftUnsigned = true;
}
if (klazz == Double.class) {
double_rightShiftUnsigned = true;
}
if (klazz == Object.class) {
byte_rightShiftUnsigned = true;
short_rightShiftUnsigned = true;
int_rightShiftUnsigned = true;
long_rightShiftUnsigned = true;
float_rightShiftUnsigned = true;
double_rightShiftUnsigned = true;
}
}
}
public boolean byte_plus;
public boolean short_plus;
public boolean int_plus;
public boolean long_plus;
public boolean float_plus;
public boolean double_plus;
public boolean byte_minus;
public boolean short_minus;
public boolean int_minus;
public boolean long_minus;
public boolean float_minus;
public boolean double_minus;
public boolean byte_multiply;
public boolean short_multiply;
public boolean int_multiply;
public boolean long_multiply;
public boolean float_multiply;
public boolean double_multiply;
public boolean byte_div;
public boolean short_div;
public boolean int_div;
public boolean long_div;
public boolean float_div;
public boolean double_div;
public boolean byte_or;
public boolean short_or;
public boolean int_or;
public boolean long_or;
public boolean float_or;
public boolean double_or;
public boolean byte_and;
public boolean short_and;
public boolean int_and;
public boolean long_and;
public boolean float_and;
public boolean double_and;
public boolean byte_xor;
public boolean short_xor;
public boolean int_xor;
public boolean long_xor;
public boolean float_xor;
public boolean double_xor;
public boolean byte_intdiv;
public boolean short_intdiv;
public boolean int_intdiv;
public boolean long_intdiv;
public boolean float_intdiv;
public boolean double_intdiv;
public boolean byte_mod;
public boolean short_mod;
public boolean int_mod;
public boolean long_mod;
public boolean float_mod;
public boolean double_mod;
public boolean byte_leftShift;
public boolean short_leftShift;
public boolean int_leftShift;
public boolean long_leftShift;
public boolean float_leftShift;
public boolean double_leftShift;
public boolean byte_rightShift;
public boolean short_rightShift;
public boolean int_rightShift;
public boolean long_rightShift;
public boolean float_rightShift;
public boolean double_rightShift;
public boolean byte_rightShiftUnsigned;
public boolean short_rightShiftUnsigned;
public boolean int_rightShiftUnsigned;
public boolean long_rightShiftUnsigned;
public boolean float_rightShiftUnsigned;
public boolean double_rightShiftUnsigned;
public static int plus(byte op1, byte op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + ((int) op2);
}
}
private static int plusSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(byte op1, short op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + ((int) op2);
}
}
private static int plusSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(byte op1, int op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + op2;
}
}
private static int plusSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static long plus(byte op1, long op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((long) op1) + op2;
}
}
private static long plusSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static double plus(byte op1, float op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(byte op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(byte op1, double op2) {
if (instance.byte_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + op2;
}
}
private static double plusSlow(byte op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static int plus(short op1, byte op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + ((int) op2);
}
}
private static int plusSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(short op1, short op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + ((int) op2);
}
}
private static int plusSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(short op1, int op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((int) op1) + op2;
}
}
private static int plusSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static long plus(short op1, long op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((long) op1) + op2;
}
}
private static long plusSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static double plus(short op1, float op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(short op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(short op1, double op2) {
if (instance.short_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + op2;
}
}
private static double plusSlow(short op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static int plus(int op1, byte op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((int) op2);
}
}
private static int plusSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(int op1, short op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((int) op2);
}
}
private static int plusSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static int plus(int op1, int op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return op1 + op2;
}
}
private static int plusSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).intValue();
}
public static long plus(int op1, long op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return ((long) op1) + op2;
}
}
private static long plusSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static double plus(int op1, float op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(int op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(int op1, double op2) {
if (instance.int_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + op2;
}
}
private static double plusSlow(int op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static long plus(long op1, byte op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((long) op2);
}
}
private static long plusSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static long plus(long op1, short op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((long) op2);
}
}
private static long plusSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static long plus(long op1, int op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((long) op2);
}
}
private static long plusSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static long plus(long op1, long op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return op1 + op2;
}
}
private static long plusSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).longValue();
}
public static double plus(long op1, float op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(long op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(long op1, double op2) {
if (instance.long_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + op2;
}
}
private static double plusSlow(long op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, byte op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(float op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, short op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(float op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, int op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(float op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, long op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(float op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, float op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + ((double) op2);
}
}
private static double plusSlow(float op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(float op1, double op2) {
if (instance.float_plus) {
return plusSlow(op1, op2);
} else {
return ((double) op1) + op2;
}
}
private static double plusSlow(float op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, byte op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((double) op2);
}
}
private static double plusSlow(double op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, short op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((double) op2);
}
}
private static double plusSlow(double op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, int op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((double) op2);
}
}
private static double plusSlow(double op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, long op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((double) op2);
}
}
private static double plusSlow(double op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, float op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + ((double) op2);
}
}
private static double plusSlow(double op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static double plus(double op1, double op2) {
if (instance.double_plus) {
return plusSlow(op1, op2);
} else {
return op1 + op2;
}
}
private static double plusSlow(double op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "plus", op2)).doubleValue();
}
public static int minus(byte op1, byte op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - ((int) op2);
}
}
private static int minusSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(byte op1, short op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - ((int) op2);
}
}
private static int minusSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(byte op1, int op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - op2;
}
}
private static int minusSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static long minus(byte op1, long op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((long) op1) - op2;
}
}
private static long minusSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static double minus(byte op1, float op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(byte op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(byte op1, double op2) {
if (instance.byte_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - op2;
}
}
private static double minusSlow(byte op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static int minus(short op1, byte op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - ((int) op2);
}
}
private static int minusSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(short op1, short op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - ((int) op2);
}
}
private static int minusSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(short op1, int op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((int) op1) - op2;
}
}
private static int minusSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static long minus(short op1, long op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((long) op1) - op2;
}
}
private static long minusSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static double minus(short op1, float op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(short op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(short op1, double op2) {
if (instance.short_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - op2;
}
}
private static double minusSlow(short op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static int minus(int op1, byte op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((int) op2);
}
}
private static int minusSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(int op1, short op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((int) op2);
}
}
private static int minusSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static int minus(int op1, int op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return op1 - op2;
}
}
private static int minusSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).intValue();
}
public static long minus(int op1, long op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return ((long) op1) - op2;
}
}
private static long minusSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static double minus(int op1, float op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(int op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(int op1, double op2) {
if (instance.int_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - op2;
}
}
private static double minusSlow(int op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static long minus(long op1, byte op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((long) op2);
}
}
private static long minusSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static long minus(long op1, short op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((long) op2);
}
}
private static long minusSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static long minus(long op1, int op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((long) op2);
}
}
private static long minusSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static long minus(long op1, long op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return op1 - op2;
}
}
private static long minusSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).longValue();
}
public static double minus(long op1, float op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(long op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(long op1, double op2) {
if (instance.long_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - op2;
}
}
private static double minusSlow(long op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, byte op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(float op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, short op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(float op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, int op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(float op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, long op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(float op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, float op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - ((double) op2);
}
}
private static double minusSlow(float op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(float op1, double op2) {
if (instance.float_minus) {
return minusSlow(op1, op2);
} else {
return ((double) op1) - op2;
}
}
private static double minusSlow(float op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, byte op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((double) op2);
}
}
private static double minusSlow(double op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, short op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((double) op2);
}
}
private static double minusSlow(double op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, int op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((double) op2);
}
}
private static double minusSlow(double op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, long op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((double) op2);
}
}
private static double minusSlow(double op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, float op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - ((double) op2);
}
}
private static double minusSlow(double op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static double minus(double op1, double op2) {
if (instance.double_minus) {
return minusSlow(op1, op2);
} else {
return op1 - op2;
}
}
private static double minusSlow(double op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "minus", op2)).doubleValue();
}
public static int multiply(byte op1, byte op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * ((int) op2);
}
}
private static int multiplySlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(byte op1, short op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * ((int) op2);
}
}
private static int multiplySlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(byte op1, int op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * op2;
}
}
private static int multiplySlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static long multiply(byte op1, long op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((long) op1) * op2;
}
}
private static long multiplySlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static double multiply(byte op1, float op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(byte op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(byte op1, double op2) {
if (instance.byte_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * op2;
}
}
private static double multiplySlow(byte op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static int multiply(short op1, byte op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * ((int) op2);
}
}
private static int multiplySlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(short op1, short op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * ((int) op2);
}
}
private static int multiplySlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(short op1, int op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((int) op1) * op2;
}
}
private static int multiplySlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static long multiply(short op1, long op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((long) op1) * op2;
}
}
private static long multiplySlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static double multiply(short op1, float op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(short op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(short op1, double op2) {
if (instance.short_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * op2;
}
}
private static double multiplySlow(short op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static int multiply(int op1, byte op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((int) op2);
}
}
private static int multiplySlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(int op1, short op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((int) op2);
}
}
private static int multiplySlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static int multiply(int op1, int op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * op2;
}
}
private static int multiplySlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).intValue();
}
public static long multiply(int op1, long op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return ((long) op1) * op2;
}
}
private static long multiplySlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static double multiply(int op1, float op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(int op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(int op1, double op2) {
if (instance.int_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * op2;
}
}
private static double multiplySlow(int op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static long multiply(long op1, byte op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((long) op2);
}
}
private static long multiplySlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static long multiply(long op1, short op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((long) op2);
}
}
private static long multiplySlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static long multiply(long op1, int op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((long) op2);
}
}
private static long multiplySlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static long multiply(long op1, long op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * op2;
}
}
private static long multiplySlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).longValue();
}
public static double multiply(long op1, float op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(long op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(long op1, double op2) {
if (instance.long_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * op2;
}
}
private static double multiplySlow(long op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, byte op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(float op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, short op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(float op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, int op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(float op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, long op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(float op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, float op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * ((double) op2);
}
}
private static double multiplySlow(float op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(float op1, double op2) {
if (instance.float_multiply) {
return multiplySlow(op1, op2);
} else {
return ((double) op1) * op2;
}
}
private static double multiplySlow(float op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, byte op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((double) op2);
}
}
private static double multiplySlow(double op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, short op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((double) op2);
}
}
private static double multiplySlow(double op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, int op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((double) op2);
}
}
private static double multiplySlow(double op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, long op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((double) op2);
}
}
private static double multiplySlow(double op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, float op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * ((double) op2);
}
}
private static double multiplySlow(double op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static double multiply(double op1, double op2) {
if (instance.double_multiply) {
return multiplySlow(op1, op2);
} else {
return op1 * op2;
}
}
private static double multiplySlow(double op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "multiply", op2)).doubleValue();
}
public static int div(byte op1, byte op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int divSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(byte op1, short op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int divSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(byte op1, int op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / op2;
}
}
private static int divSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static long div(byte op1, long op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long divSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static double div(byte op1, float op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(byte op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(byte op1, double op2) {
if (instance.byte_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / op2;
}
}
private static double divSlow(byte op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static int div(short op1, byte op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int divSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(short op1, short op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int divSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(short op1, int op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((int) op1) / op2;
}
}
private static int divSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static long div(short op1, long op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long divSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static double div(short op1, float op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(short op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(short op1, double op2) {
if (instance.short_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / op2;
}
}
private static double divSlow(short op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static int div(int op1, byte op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return op1 / ((int) op2);
}
}
private static int divSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(int op1, short op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return op1 / ((int) op2);
}
}
private static int divSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static int div(int op1, int op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return op1 / op2;
}
}
private static int divSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).intValue();
}
public static long div(int op1, long op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long divSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static double div(int op1, float op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(int op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(int op1, double op2) {
if (instance.int_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / op2;
}
}
private static double divSlow(int op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static long div(long op1, byte op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long divSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static long div(long op1, short op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long divSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static long div(long op1, int op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long divSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static long div(long op1, long op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return op1 / op2;
}
}
private static long divSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).longValue();
}
public static double div(long op1, float op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(long op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(long op1, double op2) {
if (instance.long_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / op2;
}
}
private static double divSlow(long op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, byte op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(float op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, short op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(float op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, int op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(float op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, long op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(float op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, float op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / ((double) op2);
}
}
private static double divSlow(float op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(float op1, double op2) {
if (instance.float_div) {
return divSlow(op1, op2);
} else {
return ((double) op1) / op2;
}
}
private static double divSlow(float op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, byte op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / ((double) op2);
}
}
private static double divSlow(double op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, short op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / ((double) op2);
}
}
private static double divSlow(double op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, int op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / ((double) op2);
}
}
private static double divSlow(double op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, long op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / ((double) op2);
}
}
private static double divSlow(double op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, float op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / ((double) op2);
}
}
private static double divSlow(double op1, float op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static double div(double op1, double op2) {
if (instance.double_div) {
return divSlow(op1, op2);
} else {
return op1 / op2;
}
}
private static double divSlow(double op1, double op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "div", op2)).doubleValue();
}
public static int or(byte op1, byte op2) {
if (instance.byte_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | ((int) op2);
}
}
private static int orSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(byte op1, short op2) {
if (instance.byte_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | ((int) op2);
}
}
private static int orSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(byte op1, int op2) {
if (instance.byte_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | op2;
}
}
private static int orSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static long or(byte op1, long op2) {
if (instance.byte_or) {
return orSlow(op1, op2);
} else {
return ((long) op1) | op2;
}
}
private static long orSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static int or(short op1, byte op2) {
if (instance.short_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | ((int) op2);
}
}
private static int orSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(short op1, short op2) {
if (instance.short_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | ((int) op2);
}
}
private static int orSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(short op1, int op2) {
if (instance.short_or) {
return orSlow(op1, op2);
} else {
return ((int) op1) | op2;
}
}
private static int orSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static long or(short op1, long op2) {
if (instance.short_or) {
return orSlow(op1, op2);
} else {
return ((long) op1) | op2;
}
}
private static long orSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static int or(int op1, byte op2) {
if (instance.int_or) {
return orSlow(op1, op2);
} else {
return op1 | ((int) op2);
}
}
private static int orSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(int op1, short op2) {
if (instance.int_or) {
return orSlow(op1, op2);
} else {
return op1 | ((int) op2);
}
}
private static int orSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static int or(int op1, int op2) {
if (instance.int_or) {
return orSlow(op1, op2);
} else {
return op1 | op2;
}
}
private static int orSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).intValue();
}
public static long or(int op1, long op2) {
if (instance.int_or) {
return orSlow(op1, op2);
} else {
return ((long) op1) | op2;
}
}
private static long orSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static long or(long op1, byte op2) {
if (instance.long_or) {
return orSlow(op1, op2);
} else {
return op1 | ((long) op2);
}
}
private static long orSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static long or(long op1, short op2) {
if (instance.long_or) {
return orSlow(op1, op2);
} else {
return op1 | ((long) op2);
}
}
private static long orSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static long or(long op1, int op2) {
if (instance.long_or) {
return orSlow(op1, op2);
} else {
return op1 | ((long) op2);
}
}
private static long orSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static long or(long op1, long op2) {
if (instance.long_or) {
return orSlow(op1, op2);
} else {
return op1 | op2;
}
}
private static long orSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "or", op2)).longValue();
}
public static int and(byte op1, byte op2) {
if (instance.byte_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & ((int) op2);
}
}
private static int andSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(byte op1, short op2) {
if (instance.byte_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & ((int) op2);
}
}
private static int andSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(byte op1, int op2) {
if (instance.byte_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & op2;
}
}
private static int andSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static long and(byte op1, long op2) {
if (instance.byte_and) {
return andSlow(op1, op2);
} else {
return ((long) op1) & op2;
}
}
private static long andSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static int and(short op1, byte op2) {
if (instance.short_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & ((int) op2);
}
}
private static int andSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(short op1, short op2) {
if (instance.short_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & ((int) op2);
}
}
private static int andSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(short op1, int op2) {
if (instance.short_and) {
return andSlow(op1, op2);
} else {
return ((int) op1) & op2;
}
}
private static int andSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static long and(short op1, long op2) {
if (instance.short_and) {
return andSlow(op1, op2);
} else {
return ((long) op1) & op2;
}
}
private static long andSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static int and(int op1, byte op2) {
if (instance.int_and) {
return andSlow(op1, op2);
} else {
return op1 & ((int) op2);
}
}
private static int andSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(int op1, short op2) {
if (instance.int_and) {
return andSlow(op1, op2);
} else {
return op1 & ((int) op2);
}
}
private static int andSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static int and(int op1, int op2) {
if (instance.int_and) {
return andSlow(op1, op2);
} else {
return op1 & op2;
}
}
private static int andSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).intValue();
}
public static long and(int op1, long op2) {
if (instance.int_and) {
return andSlow(op1, op2);
} else {
return ((long) op1) & op2;
}
}
private static long andSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static long and(long op1, byte op2) {
if (instance.long_and) {
return andSlow(op1, op2);
} else {
return op1 & ((long) op2);
}
}
private static long andSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static long and(long op1, short op2) {
if (instance.long_and) {
return andSlow(op1, op2);
} else {
return op1 & ((long) op2);
}
}
private static long andSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static long and(long op1, int op2) {
if (instance.long_and) {
return andSlow(op1, op2);
} else {
return op1 & ((long) op2);
}
}
private static long andSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static long and(long op1, long op2) {
if (instance.long_and) {
return andSlow(op1, op2);
} else {
return op1 & op2;
}
}
private static long andSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "and", op2)).longValue();
}
public static int xor(byte op1, byte op2) {
if (instance.byte_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ ((int) op2);
}
}
private static int xorSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(byte op1, short op2) {
if (instance.byte_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ ((int) op2);
}
}
private static int xorSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(byte op1, int op2) {
if (instance.byte_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ op2;
}
}
private static int xorSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static long xor(byte op1, long op2) {
if (instance.byte_xor) {
return xorSlow(op1, op2);
} else {
return ((long) op1) ^ op2;
}
}
private static long xorSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static int xor(short op1, byte op2) {
if (instance.short_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ ((int) op2);
}
}
private static int xorSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(short op1, short op2) {
if (instance.short_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ ((int) op2);
}
}
private static int xorSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(short op1, int op2) {
if (instance.short_xor) {
return xorSlow(op1, op2);
} else {
return ((int) op1) ^ op2;
}
}
private static int xorSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static long xor(short op1, long op2) {
if (instance.short_xor) {
return xorSlow(op1, op2);
} else {
return ((long) op1) ^ op2;
}
}
private static long xorSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static int xor(int op1, byte op2) {
if (instance.int_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ ((int) op2);
}
}
private static int xorSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(int op1, short op2) {
if (instance.int_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ ((int) op2);
}
}
private static int xorSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static int xor(int op1, int op2) {
if (instance.int_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ op2;
}
}
private static int xorSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).intValue();
}
public static long xor(int op1, long op2) {
if (instance.int_xor) {
return xorSlow(op1, op2);
} else {
return ((long) op1) ^ op2;
}
}
private static long xorSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static long xor(long op1, byte op2) {
if (instance.long_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ ((long) op2);
}
}
private static long xorSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static long xor(long op1, short op2) {
if (instance.long_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ ((long) op2);
}
}
private static long xorSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static long xor(long op1, int op2) {
if (instance.long_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ ((long) op2);
}
}
private static long xorSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static long xor(long op1, long op2) {
if (instance.long_xor) {
return xorSlow(op1, op2);
} else {
return op1 ^ op2;
}
}
private static long xorSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "xor", op2)).longValue();
}
public static int intdiv(byte op1, byte op2) {
if (instance.byte_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int intdivSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(byte op1, short op2) {
if (instance.byte_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int intdivSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(byte op1, int op2) {
if (instance.byte_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / op2;
}
}
private static int intdivSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static long intdiv(byte op1, long op2) {
if (instance.byte_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long intdivSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static int intdiv(short op1, byte op2) {
if (instance.short_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int intdivSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(short op1, short op2) {
if (instance.short_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / ((int) op2);
}
}
private static int intdivSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(short op1, int op2) {
if (instance.short_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((int) op1) / op2;
}
}
private static int intdivSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static long intdiv(short op1, long op2) {
if (instance.short_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long intdivSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static int intdiv(int op1, byte op2) {
if (instance.int_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / ((int) op2);
}
}
private static int intdivSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(int op1, short op2) {
if (instance.int_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / ((int) op2);
}
}
private static int intdivSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static int intdiv(int op1, int op2) {
if (instance.int_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / op2;
}
}
private static int intdivSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).intValue();
}
public static long intdiv(int op1, long op2) {
if (instance.int_intdiv) {
return intdivSlow(op1, op2);
} else {
return ((long) op1) / op2;
}
}
private static long intdivSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static long intdiv(long op1, byte op2) {
if (instance.long_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long intdivSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static long intdiv(long op1, short op2) {
if (instance.long_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long intdivSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static long intdiv(long op1, int op2) {
if (instance.long_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / ((long) op2);
}
}
private static long intdivSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static long intdiv(long op1, long op2) {
if (instance.long_intdiv) {
return intdivSlow(op1, op2);
} else {
return op1 / op2;
}
}
private static long intdivSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "intdiv", op2)).longValue();
}
public static int mod(byte op1, byte op2) {
if (instance.byte_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % ((int) op2);
}
}
private static int modSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(byte op1, short op2) {
if (instance.byte_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % ((int) op2);
}
}
private static int modSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(byte op1, int op2) {
if (instance.byte_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % op2;
}
}
private static int modSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static long mod(byte op1, long op2) {
if (instance.byte_mod) {
return modSlow(op1, op2);
} else {
return ((long) op1) % op2;
}
}
private static long modSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static int mod(short op1, byte op2) {
if (instance.short_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % ((int) op2);
}
}
private static int modSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(short op1, short op2) {
if (instance.short_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % ((int) op2);
}
}
private static int modSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(short op1, int op2) {
if (instance.short_mod) {
return modSlow(op1, op2);
} else {
return ((int) op1) % op2;
}
}
private static int modSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static long mod(short op1, long op2) {
if (instance.short_mod) {
return modSlow(op1, op2);
} else {
return ((long) op1) % op2;
}
}
private static long modSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static int mod(int op1, byte op2) {
if (instance.int_mod) {
return modSlow(op1, op2);
} else {
return op1 % ((int) op2);
}
}
private static int modSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(int op1, short op2) {
if (instance.int_mod) {
return modSlow(op1, op2);
} else {
return op1 % ((int) op2);
}
}
private static int modSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static int mod(int op1, int op2) {
if (instance.int_mod) {
return modSlow(op1, op2);
} else {
return op1 % op2;
}
}
private static int modSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).intValue();
}
public static long mod(int op1, long op2) {
if (instance.int_mod) {
return modSlow(op1, op2);
} else {
return ((long) op1) % op2;
}
}
private static long modSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static long mod(long op1, byte op2) {
if (instance.long_mod) {
return modSlow(op1, op2);
} else {
return op1 % ((long) op2);
}
}
private static long modSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static long mod(long op1, short op2) {
if (instance.long_mod) {
return modSlow(op1, op2);
} else {
return op1 % ((long) op2);
}
}
private static long modSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static long mod(long op1, int op2) {
if (instance.long_mod) {
return modSlow(op1, op2);
} else {
return op1 % ((long) op2);
}
}
private static long modSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static long mod(long op1, long op2) {
if (instance.long_mod) {
return modSlow(op1, op2);
} else {
return op1 % op2;
}
}
private static long modSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "mod", op2)).longValue();
}
public static int leftShift(byte op1, byte op2) {
if (instance.byte_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << ((int) op2);
}
}
private static int leftShiftSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(byte op1, short op2) {
if (instance.byte_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << ((int) op2);
}
}
private static int leftShiftSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(byte op1, int op2) {
if (instance.byte_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << op2;
}
}
private static int leftShiftSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static long leftShift(byte op1, long op2) {
if (instance.byte_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((long) op1) << op2;
}
}
private static long leftShiftSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static int leftShift(short op1, byte op2) {
if (instance.short_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << ((int) op2);
}
}
private static int leftShiftSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(short op1, short op2) {
if (instance.short_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << ((int) op2);
}
}
private static int leftShiftSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(short op1, int op2) {
if (instance.short_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((int) op1) << op2;
}
}
private static int leftShiftSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static long leftShift(short op1, long op2) {
if (instance.short_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((long) op1) << op2;
}
}
private static long leftShiftSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static int leftShift(int op1, byte op2) {
if (instance.int_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << ((int) op2);
}
}
private static int leftShiftSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(int op1, short op2) {
if (instance.int_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << ((int) op2);
}
}
private static int leftShiftSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static int leftShift(int op1, int op2) {
if (instance.int_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << op2;
}
}
private static int leftShiftSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).intValue();
}
public static long leftShift(int op1, long op2) {
if (instance.int_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return ((long) op1) << op2;
}
}
private static long leftShiftSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static long leftShift(long op1, byte op2) {
if (instance.long_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << ((long) op2);
}
}
private static long leftShiftSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static long leftShift(long op1, short op2) {
if (instance.long_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << ((long) op2);
}
}
private static long leftShiftSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static long leftShift(long op1, int op2) {
if (instance.long_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << ((long) op2);
}
}
private static long leftShiftSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static long leftShift(long op1, long op2) {
if (instance.long_leftShift) {
return leftShiftSlow(op1, op2);
} else {
return op1 << op2;
}
}
private static long leftShiftSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "leftShift", op2)).longValue();
}
public static int rightShift(byte op1, byte op2) {
if (instance.byte_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> ((int) op2);
}
}
private static int rightShiftSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(byte op1, short op2) {
if (instance.byte_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> ((int) op2);
}
}
private static int rightShiftSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(byte op1, int op2) {
if (instance.byte_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> op2;
}
}
private static int rightShiftSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static long rightShift(byte op1, long op2) {
if (instance.byte_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((long) op1) >> op2;
}
}
private static long rightShiftSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static int rightShift(short op1, byte op2) {
if (instance.short_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> ((int) op2);
}
}
private static int rightShiftSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(short op1, short op2) {
if (instance.short_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> ((int) op2);
}
}
private static int rightShiftSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(short op1, int op2) {
if (instance.short_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((int) op1) >> op2;
}
}
private static int rightShiftSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static long rightShift(short op1, long op2) {
if (instance.short_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((long) op1) >> op2;
}
}
private static long rightShiftSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static int rightShift(int op1, byte op2) {
if (instance.int_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> ((int) op2);
}
}
private static int rightShiftSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(int op1, short op2) {
if (instance.int_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> ((int) op2);
}
}
private static int rightShiftSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static int rightShift(int op1, int op2) {
if (instance.int_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> op2;
}
}
private static int rightShiftSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).intValue();
}
public static long rightShift(int op1, long op2) {
if (instance.int_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return ((long) op1) >> op2;
}
}
private static long rightShiftSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static long rightShift(long op1, byte op2) {
if (instance.long_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> ((long) op2);
}
}
private static long rightShiftSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static long rightShift(long op1, short op2) {
if (instance.long_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> ((long) op2);
}
}
private static long rightShiftSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static long rightShift(long op1, int op2) {
if (instance.long_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> ((long) op2);
}
}
private static long rightShiftSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static long rightShift(long op1, long op2) {
if (instance.long_rightShift) {
return rightShiftSlow(op1, op2);
} else {
return op1 >> op2;
}
}
private static long rightShiftSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShift", op2)).longValue();
}
public static int rightShiftUnsigned(byte op1, byte op2) {
if (instance.byte_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(byte op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(byte op1, short op2) {
if (instance.byte_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(byte op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(byte op1, int op2) {
if (instance.byte_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> op2;
}
}
private static int rightShiftUnsignedSlow(byte op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static long rightShiftUnsigned(byte op1, long op2) {
if (instance.byte_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((long) op1) >>> op2;
}
}
private static long rightShiftUnsignedSlow(byte op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static int rightShiftUnsigned(short op1, byte op2) {
if (instance.short_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(short op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(short op1, short op2) {
if (instance.short_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(short op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(short op1, int op2) {
if (instance.short_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((int) op1) >>> op2;
}
}
private static int rightShiftUnsignedSlow(short op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static long rightShiftUnsigned(short op1, long op2) {
if (instance.short_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((long) op1) >>> op2;
}
}
private static long rightShiftUnsignedSlow(short op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static int rightShiftUnsigned(int op1, byte op2) {
if (instance.int_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(int op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(int op1, short op2) {
if (instance.int_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> ((int) op2);
}
}
private static int rightShiftUnsignedSlow(int op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static int rightShiftUnsigned(int op1, int op2) {
if (instance.int_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> op2;
}
}
private static int rightShiftUnsignedSlow(int op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).intValue();
}
public static long rightShiftUnsigned(int op1, long op2) {
if (instance.int_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return ((long) op1) >>> op2;
}
}
private static long rightShiftUnsignedSlow(int op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static long rightShiftUnsigned(long op1, byte op2) {
if (instance.long_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> ((long) op2);
}
}
private static long rightShiftUnsignedSlow(long op1, byte op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static long rightShiftUnsigned(long op1, short op2) {
if (instance.long_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> ((long) op2);
}
}
private static long rightShiftUnsignedSlow(long op1, short op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static long rightShiftUnsigned(long op1, int op2) {
if (instance.long_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> ((long) op2);
}
}
private static long rightShiftUnsignedSlow(long op1, int op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
public static long rightShiftUnsigned(long op1, long op2) {
if (instance.long_rightShiftUnsigned) {
return rightShiftUnsignedSlow(op1, op2);
} else {
return op1 >>> op2;
}
}
private static long rightShiftUnsignedSlow(long op1, long op2) {
return ((Number) InvokerHelper.invokeMethod(op1, "rightShiftUnsigned", op2)).longValue();
}
}