org.lsmp.djep.groupJep.values.Polynomial Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jep Show documentation
Show all versions of jep Show documentation
JEP is a Java library for parsing and evaluating mathematical expressions.
The newest version!
/* @author rich
* Created on 09-Mar-2004
*/
package org.lsmp.djep.groupJep.values;
import org.lsmp.djep.groupJep.interfaces.*;
import org.lsmp.djep.groupJep.*;
import org.nfunk.jep.type.*;
/**
* The ring of polynomials over a ring R.
*
* @author Rich Morris
* Created on 09-Mar-2004
*/
public class Polynomial extends Number {
private RingI baseRing;
private String symbol;
private Number coeffs[];
private int degree;
/**
* Construct a polynomial over a ring.
* In general the valueOf method should be used to construct a new polynomial.
*
* @param baseRing the underlying ring of the polynomial.
* @param symbol the symbol used to display the polynomial
* @param coeffs an array of coeficients in the base ring coeff[0] is constant, coeff[1] is coefficient of t etc.
*/
public Polynomial(RingI baseRing,String symbol,Number coeffs[]) {
this.baseRing = baseRing;
this.symbol = symbol;
int deg=0;
for(int i=coeffs.length-1;i>0;--i)
if(!baseRing.equals(coeffs[i],baseRing.getZERO()))
{
deg=i;
break;
}
if(deg == coeffs.length-1)
this.coeffs = coeffs;
else
{
this.coeffs = new Number[deg+1];
System.arraycopy(coeffs,0,this.coeffs,0,deg+1);
}
this.degree = deg;
}
/** Sub classes can change the coefficients. Other methods
* should treat polynomials as imutable. */
protected void setCoeffs(Number coeffs[])
{
this.coeffs = coeffs;
this.degree = coeffs.length-1;
}
/** Factory method to create a polynomial with the given coefficients.
* Sub classes should overwrite this method to costruct objects of the correct type. */
protected Polynomial valueOf(Number lcoeffs[])
{
Polynomial p = new Polynomial(baseRing,symbol,lcoeffs);
return p;
}
public Polynomial add(Polynomial poly)
{
int deg = degree > poly.degree ? degree : poly.degree;
Number lcoeffs[] = new Number[deg+1];
for(int i=0;i<=deg;++i)
{
if(i<=degree && i <= poly.degree)
lcoeffs[i] = baseRing.add(coeffs[i],poly.coeffs[i]);
else if(i<=degree)
lcoeffs[i] = coeffs[i];
else
lcoeffs[i] = poly.coeffs[i];
}
return valueOf(lcoeffs);
}
public Polynomial sub(Polynomial poly)
{
int deg = degree > poly.degree ? degree : poly.degree;
Number lcoeffs[] = new Number[deg+1];
for(int i=0;i<=deg;++i)
{
if(i<=degree && i <= poly.degree)
lcoeffs[i] = baseRing.sub(coeffs[i],poly.coeffs[i]);
else if(i<=degree)
lcoeffs[i] = coeffs[i];
else
lcoeffs[i] = baseRing.getInverse(poly.coeffs[i]);
}
return valueOf(lcoeffs);
}
public Polynomial mul(Polynomial poly)
{
int deg = degree + poly.degree;
Number lcoeffs[] = new Number[deg+1];
for(int i=0;i<=deg;++i)
lcoeffs[i] = baseRing.getZERO();
for(int i=0;i<=degree;++i)
for(int j=0;j<=poly.degree;++j)
{
lcoeffs[i+j] = baseRing.add(lcoeffs[i+j],
baseRing.mul(coeffs[i],poly.coeffs[j]));
}
return valueOf(lcoeffs);
}
public Polynomial div(Polynomial poly)
{
if(!poly.isConstantPoly())
throw new IllegalArgumentException("Can currently only divide by numbers and not polynomials");
int deg = coeffs.length-1;
Number lcoeffs[] = new Number[deg+1];
for(int i=0;i>= 1;
if(exp == 0) break;
currentPower = currentPower.mul(currentPower);
}
return res;
}
private boolean needsBrackets(String s)
{
int i1 = s.indexOf('+');
int i2 = s.lastIndexOf('-');
return ( (i1 !=-1) || (i2>0) );
}
public String toString()
{
if(degree==0) return coeffs[0].toString();
StringBuffer sb = new StringBuffer("");
for(int i=degree;i>=0;--i)
{
String s = coeffs[i].toString();
// don't bother if a zero coeff
if(s.equals("0") ||
this.baseRing.equals(coeffs[i],baseRing.getZERO()))
continue;
// apart from first add a + sign if positive
if(i!=degree && !s.startsWith("-")) sb.append("+");
// always print the final coeff (if non zero)
if( i==0 ) {
String s1 = coeffs[i].toString();
sb.append(s1);
//if(s1.startsWith("(") && s1.endsWith(")"))
//{
// sb.append(s1.substring(1,s1.length()-1));
//}
//else sb.append(s1);
break;
}
// if its -1 t^i just print -
if(s.equals("-1"))
sb.append("-");
else if(s.equals("1") ||
this.baseRing.equals(
coeffs[i],
baseRing.getONE()))
{} // don't print 1
else {
if(needsBrackets(coeffs[i].toString()))
{
sb.append("(");
sb.append(coeffs[i].toString());
sb.append(")");
}
else
sb.append(coeffs[i].toString());
//sb.append(stripBrackets(coeffs[i]));
sb.append(" ");
}
if(i>=2) sb.append(symbol+"^"+i);
else if(i==1) sb.append(symbol);
}
sb.append("");
return sb.toString();
}
public int getDegree() { return degree; }
public String getSymbol() { return symbol; }
/** Returns the coefficients of polynomial.
* TODO use defensive copying
* @return the array of coefficients, constant coefficient is element 0.
*/
public Number[] getCoeffs() { return coeffs; }
public Number getCoeff(int i) { return coeffs[i]; }
public RingI getBaseRing() { return baseRing; }
/** value of constant coeff. */
public int intValue() {return coeffs[0].intValue(); }
/** value of constant coeff. */
public long longValue() {return coeffs[0].longValue(); }
/** value of constant coeff. */
public float floatValue() { return coeffs[0].floatValue(); }
/** value of constant coeff. */
public double doubleValue() {return coeffs[0].doubleValue(); }
/** Is this a constant polynomial? **/
public boolean isConstantPoly() {
if( coeffs.length > 1) return false;
return baseRing.isConstantPoly(coeffs[0]);
}
public boolean equals(Polynomial n)
{
if(this.getDegree()!=n.getDegree()) return false;
for(int i=0;i<=this.getDegree();++i)
if(!baseRing.equals(this.getCoeff(i),n.getCoeff(i)))
return false;
return true;
}
/** returns the complex value of this polynomial.
* Where the value of the symbol is replaced by rootVal.
*/
public Complex calculateComplexValue(Complex rootVal) {
Number val = coeffs[this.getDegree()];
Complex cval = GroupJep.complexValueOf(val);
for(int i=this.getDegree()-1;i>=0;--i)
{
Number val2 = coeffs[i];
Complex cval2 = GroupJep.complexValueOf(val2);
Complex prod = cval.mul(rootVal);
cval = prod.add(cval2);
}
return cval;
}
public Number calculateValue(Number rootVal) {
Number val = coeffs[this.getDegree()];
for(int i=this.getDegree()-1;i>=0;--i)
{
Number val2 = coeffs[i];
Number prod = baseRing.mul(val,rootVal);
val = baseRing.add(prod,val2);
}
return val;
}
}