com.caucho.el.BinaryExpr Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of resin-kernel Show documentation
Show all versions of resin-kernel Show documentation
Kernel for Resin Java Application Server
The newest version!
/*
* Copyright (c) 1998-2012 Caucho Technology -- all rights reserved
*
* This file is part of Resin(R) Open Source
*
* Each copy or derived work must preserve the copyright notice and this
* notice unmodified.
*
* Resin Open Source is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* Resin Open Source is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE, or any warranty
* of NON-INFRINGEMENT. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License
* along with Resin Open Source; if not, write to the
*
* Free Software Foundation, Inc.
* 59 Temple Place, Suite 330
* Boston, MA 02111-1307 USA
*
* @author Scott Ferguson
*/
package com.caucho.el;
import com.caucho.vfs.WriteStream;
import javax.el.ELContext;
import javax.el.ELException;
import java.io.IOException;
import java.math.BigDecimal;
import java.math.BigInteger;
/**
* Represents a binary numeric operation
*/
public class BinaryExpr extends Expr {
private int _op;
private Expr _left;
private Expr _right;
/**
* Creates the binary expression.
*
* @param op the binary operation's lexical code
* @param left the left subexpression
* @param right the right subexpression
*/
private BinaryExpr(int op, Expr left, Expr right)
{
_op = op;
_left = left;
_right = right;
}
public static Expr create(int op, Expr left, Expr right)
{
switch (op) {
case ADD:
return new AddExpr(left, right);
case SUB:
return new SubExpr(left, right);
case MUL:
return new MulExpr(left, right);
case DIV:
return new DivExpr(left, right);
case MOD:
return new ModExpr(left, right);
default:
throw new UnsupportedOperationException();
}
}
/**
* Returns true if this is a constant expression.
*/
@Override
public boolean isConstant()
{
return _left.isConstant() && _right.isConstant();
}
/**
* Evaluate the expression as an object.
*
* @param env the variable environment
*
* @return the result as an object
*/
@Override
public Object getValue(ELContext env)
throws ELException
{
Object aObj = _left.getValue(env);
Object bObj = _right.getValue(env);
if (aObj instanceof BigDecimal || bObj instanceof BigDecimal) {
BigDecimal a = toBigDecimal(aObj, env);
BigDecimal b = toBigDecimal(bObj, env);
switch (_op) {
case ADD:
return a.add(b);
case SUB:
return a.subtract(b);
case MUL:
return a.multiply(b);
case DIV:
return a.divide(b, BigDecimal.ROUND_HALF_UP);
case MOD:
{
double da = toDouble(aObj, env);
double db = toDouble(bObj, env);
return new Double(da % db);
}
default:
throw new IllegalStateException();
}
}
else if (aObj instanceof BigInteger || bObj instanceof BigInteger) {
BigInteger a = toBigInteger(aObj, env);
BigInteger b = toBigInteger(bObj, env);
switch (_op) {
case ADD:
return a.add(b);
case SUB:
return a.subtract(b);
case MUL:
return a.multiply(b);
case DIV:
{
BigDecimal da = toBigDecimal(aObj, env);
BigDecimal db = toBigDecimal(bObj, env);
return da.divide(db, BigDecimal.ROUND_HALF_UP);
}
case MOD:
{
if (aObj instanceof Float ||
aObj instanceof Double ||
bObj instanceof Float ||
bObj instanceof Double) {
double da = toDouble(aObj, env);
double db = toDouble(bObj, env);
return new Double(da % db);
}
else
return a.remainder(b);
}
default:
throw new IllegalStateException();
}
}
else if (isDouble(aObj) || isDouble(bObj)) {
double a = toDouble(aObj, env);
double b = toDouble(bObj, env);
double dValue = 0;
switch (_op) {
case ADD:
dValue = a + b;
break;
case SUB:
dValue = a - b;
break;
case MUL:
dValue = a * b;
break;
case DIV:
dValue = a / b;
break;
case MOD:
dValue = a % b;
break;
}
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
}
if (aObj == null && bObj == null)
return new Integer(0);
if (bObj instanceof Double || bObj instanceof Float) {
double a = toDouble(aObj, env);
double b = ((Number) bObj).doubleValue();
double dValue = 0;
switch (_op) {
case ADD:
dValue = a + b;
break;
case SUB:
dValue = a - b;
break;
case MUL:
dValue = a * b;
break;
case DIV:
dValue = a / b;
break;
case MOD:
dValue = a % b;
break;
}
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
}
else if (aObj instanceof Number) {
long a = ((Number) aObj).longValue();
long b = toLong(bObj, env);
switch (_op) {
case ADD: return new Long(a + b);
case SUB: return new Long(a - b);
case MUL: return new Long(a * b);
case DIV:
double dValue = (double) a / (double) b;
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
case MOD: return new Long(a % b);
}
}
else if (bObj instanceof Number) {
long a = toLong(aObj, env);
long b = ((Number) bObj).longValue();
switch (_op) {
case ADD: return new Long(a + b);
case SUB: return new Long(a - b);
case MUL: return new Long(a * b);
case DIV:
double dValue = (double) a / (double) b;
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
case MOD: return new Long(a % b);
}
}
if (isDoubleString(aObj) || isDoubleString(bObj)) {
double a = toDouble(aObj, env);
double b = toDouble(bObj, env);
switch (_op) {
case ADD: return new Double(a + b);
case SUB: return new Double(a - b);
case MUL: return new Double(a * b);
case DIV:
double dValue = (double) a / (double) b;
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
case MOD: return new Double(a % b);
}
}
else {
long a = toLong(aObj, env);
long b = toLong(bObj, env);
switch (_op) {
case ADD: return new Long(a + b);
case SUB: return new Long(a - b);
case MUL: return new Long(a * b);
case DIV:
double dValue = (double) a / (double) b;
return Double.isNaN(dValue) ? new Double(0) : new Double(dValue);
case MOD: return new Long(a % b);
}
}
return null;
}
/**
* Evaluate the expression as a long
*
* @param env the variable environment
*
* @return the result as an long
*/
@Override
public long evalLong(ELContext env)
throws ELException
{
long a = _left.evalLong(env);
long b = _right.evalLong(env);
switch (_op) {
case ADD: return a + b;
case SUB: return a - b;
case MUL: return a * b;
case DIV: return (long) ((double) a / (double) b);
case MOD: return a % b;
}
ELException e = new ELException(L.l("error evaluating add {0} and {1}",
String.valueOf(a),
String.valueOf(b)));
error(e, env);
return 0;
}
/**
* Evaluate the expression as a double
*
* @param env the variable environment
*
* @return the result as an double
*/
@Override
public double evalDouble(ELContext env)
throws ELException
{
double a = _left.evalDouble(env);
double b = _right.evalDouble(env);
switch (_op) {
case ADD: return a + b;
case SUB: return a - b;
case MUL: return a * b;
case DIV: return a / b;
case MOD: return a % b;
}
ELException e = new ELException(L.l("error evaluating add {0} and {1}",
String.valueOf(a),
String.valueOf(b)));
error(e, env);
return 0;
}
/**
* Prints the Java code to recreate an LongLiteral.
*
* @param os the output stream to the *.java file
*/
@Override
public void printCreate(WriteStream os)
throws IOException
{
os.print("new com.caucho.el.BinaryExpr(");
os.print(_op + ", ");
_left.printCreate(os);
os.print(", ");
_right.printCreate(os);
os.print(")");
}
/**
* Returns true for equal strings.
*/
public boolean equals(Object o)
{
if (! (o instanceof BinaryExpr))
return false;
BinaryExpr expr = (BinaryExpr) o;
return (_op == expr._op &&
_left.equals(expr._left) &&
_right.equals(expr._right));
}
/**
* Returns a readable representation of the expr.
*/
public String toString()
{
String op;
switch (_op) {
case ADD:
op = " + ";
break;
case SUB:
op = " - ";
break;
case MUL:
op = " * ";
break;
case DIV:
op = " / ";
break;
case MOD:
op = " % ";
break;
default:
op = " unknown(" + _op + ") ";
break;
}
return "(" + _left + op + _right + ")";
}
}