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/*****************************************************************************
JEP - Java Expression Parser
JEP is a Java package for parsing and evaluating mathematical
expressions. It currently supports user defined variables,
constant, and functions. A number of common mathematical
functions and constants are included.
JEPLite is a simplified version of JEP.
JEP Author: Nathan Funk
JEPLite Author: Stephen "Cheffo" Kolaroff
JEP Copyright (C) 2001 Nathan Funk
JEPLite Copyright (C) 2002 Stefan Kolarov
JEPLite 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.
JEPLite is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with JEPLite; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*****************************************************************************/
package org.cheffo.jeplite.function;
import org.cheffo.jeplite.util.*;
import org.cheffo.jeplite.*;
import java.util.HashMap;
public abstract class PostfixMathCommand
{
public static final PostfixMathCommand ADD = new Add();
public static final PostfixMathCommand DIVIDE = new Divide();
public static final PostfixMathCommand MULTIPLY = new Multiply();
public static final PostfixMathCommand UMINUS = new UMinus();
public static final PostfixMathCommand AND = new Logical(0);
public static final PostfixMathCommand OR = new Logical(1);
protected int numberOfParameters;
public final int getNumberOfParameters()
{
return numberOfParameters;
}
public double operation(double[] params) throws ParseException{throw new ParseException("Not implemented");}
public void run(DoubleStack inStack)
throws ParseException
{
double[] params = new double[numberOfParameters];
for(int i=numberOfParameters-1; i>-1; i--)
params[i] = inStack.pop();
inStack.push(operation(params));
return;
}
public static void fillFunctionTable(HashMap funTab) {
funTab.put("sin", new Sine());
funTab.put("cos", new Cosine());
funTab.put("tan", new Tangent());
funTab.put("asin", new ArcSine());
funTab.put("acos", new ArcCosine());
funTab.put("atan", new ArcTangent());
funTab.put("sqrt", new Sqrt());
funTab.put("log", new Logarithm());
funTab.put("ln", new NaturalLogarithm());
funTab.put("angle", new Angle());
funTab.put("abs", new Abs());
funTab.put("mod", new Modulus());
funTab.put("sum", new Sum());
funTab.put("rand", new Random());
funTab.put("umin", new UMinus());
funTab.put("add", new Add());
}
static class Abs extends PostfixMathCommand
{
public Abs() {
numberOfParameters = 1;
}
public final void run(DoubleStack stack) {
stack.push(Math.abs(stack.pop()));
}
}
static class Add extends PostfixMathCommand
{
public Add()
{
numberOfParameters = 2;
}
public final void run(DoubleStack stack) {
stack.push(stack.pop()+stack.pop());
}
}
static class Angle extends PostfixMathCommand
{
public Angle()
{
numberOfParameters = 2;
}
public final void run(DoubleStack inStack)
throws ParseException
{
double param2 = inStack.pop();
double param1 = inStack.pop();
inStack.push(Math.atan2(param1, param2));
}
}
static class ArcCosine extends PostfixMathCommand {
public ArcCosine()
{
numberOfParameters = 1;
}
public final void run(DoubleStack stack)
throws ParseException
{
stack.push(Math.acos(stack.pop()));
}
}
static class ArcSine extends PostfixMathCommand
{
public ArcSine()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.asin(params[0]);
}
}
static class ArcTangent extends PostfixMathCommand {
public ArcTangent()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.atan(params[0]);
}
}
static class Cosine extends PostfixMathCommand
{
public Cosine()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.cos(params[0]);
}
}
static class Logarithm extends PostfixMathCommand
{
public Logarithm()
{
numberOfParameters = 1;
}
private static final double LOG_10 = Math.log(10);
public final double operation(double[] params)
throws ParseException
{
return Math.log(params[0])/LOG_10;
}
}
static class NaturalLogarithm extends PostfixMathCommand
{
public NaturalLogarithm()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.log(params[0]);
}
}
static class Sine extends PostfixMathCommand
{
public Sine()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.sin(params[0]);
}
}
static class Tangent extends PostfixMathCommand
{
public Tangent()
{
numberOfParameters = 1;
}
public final double operation(double[] params)
throws ParseException
{
return Math.tan(params[0]);
}
}
static class UMinus extends PostfixMathCommand
{
public UMinus()
{
numberOfParameters = 1;
}
public final void run(DoubleStack stack)
throws ParseException
{
stack.push(-stack.pop());
}
}
static class Sqrt extends PostfixMathCommand
{
public Sqrt()
{
numberOfParameters = 1;
}
public final void run(DoubleStack stack)
throws ParseException
{
stack.push(Math.sqrt(stack.pop()));
}
}
public static class Divide extends PostfixMathCommand
{
public Divide()
{
numberOfParameters = 2;
}
public final void run(DoubleStack stack) {
double p2 = stack.pop();
stack.push(stack.pop()/p2);
}
public final double operation(double[] params)
throws ParseException
{
return params[0]/params[1];
}
}
public static class Subtract extends PostfixMathCommand
{
public Subtract()
{
numberOfParameters = 2;
}
public final double operation(double[] params){return params[0]-params[1];}
}
public static class Comparative extends PostfixMathCommand
{
int id;
double tolerance;
public double operation(double[] params) {return 0;}
public Comparative(int id_in)
{
id = id_in;
numberOfParameters = 2;
tolerance = 1e-6;
}
public final void run(DoubleStack inStack)
throws ParseException
{
double y = inStack.pop();
double x = inStack.pop();
int r;
switch (id)
{
case 0:
r = (x<y) ? 1 : 0;
break;
case 1:
r = (x>y) ? 1 : 0;
break;
case 2:
r = (x<=y) ? 1 : 0;
break;
case 3:
r = (x>=y) ? 1 : 0;
break;
case 4:
r = (x!=y) ? 1 : 0;
break;
case 5:
r = (x==y) ? 1 : 0;
break;
default:
throw new ParseException("Unknown relational operator");
}
inStack.push(r);
}
}
public static class Power extends PostfixMathCommand
{
public Power()
{
numberOfParameters = 2;
}
public final double operation(double[] params) {return 0;}
public final void run(DoubleStack inStack)
throws ParseException
{
double param2 = inStack.pop();
double param1 = inStack.pop();
inStack.push(Math.pow(param1, param2));
}
}
static class Random extends PostfixMathCommand
{
public Random()
{
numberOfParameters = 0;
}
public double operation(double[] params){return 0;}
public final void run(DoubleStack inStack)
throws ParseException
{
inStack.push(Math.random());
}
}
public static class Logical extends PostfixMathCommand
{
int id;
public Logical(int id_in)
{
id = id_in;
numberOfParameters = 2;
}
public final double operation(double[] params) {return 0;}
public final void run(DoubleStack inStack)
throws ParseException
{
double y = inStack.pop();
double x = inStack.pop();
int r;
switch (id)
{
case 0:
// AND
r = ((x!=0d) && (y!=0d)) ? 1 : 0;
break;
case 1:
// OR
r = ((x!=0d) || (y!=0d)) ? 1 : 0;
break;
default:
r = 0;
}
inStack.push(r);
return;
}
}
public static class Multiply extends PostfixMathCommand
{
public Multiply()
{
numberOfParameters = 2;
}
public final double operation(double[] params) {return 0;}
public final void run(DoubleStack inStack)
throws ParseException
{
inStack.push(inStack.pop()*inStack.pop());
return;
}
}
public static class Not extends PostfixMathCommand
{
public Not()
{
numberOfParameters = 1;
}
public double operation(double[] params) {return 0;}
public void run(DoubleStack inStack)
throws ParseException
{
double param = inStack.pop();
int r = (param==0) ? 1 : 0;
inStack.push(r);
return;
}
}
public static class Modulus extends PostfixMathCommand
{
public Modulus()
{
numberOfParameters = 2;
}
public double operation(double[] params){return 0;}
public final void run(DoubleStack inStack)
throws ParseException
{
double param2 = inStack.pop();
double param1 = inStack.pop();
double result = param1 % param2;
inStack.push(result);
return;
}
}
static class Sum extends PostfixMathCommand
{
public Sum()
{
numberOfParameters = -1;
}
public final double operation(double[] params){return 0;}
public void run(DoubleStack inStack)
throws ParseException
{
if (null == inStack)
{
throw new ParseException("Stack argument null");
}
double r = 0;
while(!inStack.isEmpty())
r += inStack.pop();
inStack.push(r);
}
}
}
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