/** * Find the smallest real root of p within lowerBound and upperBound (bounds may or may not be * included). If no real root exists in this interval, Double.NaN ist returned. * * @param p * @param lowerBound * @param upperBound * @return */ public double findFirstRootIn(UnivariatePolynomial p, double lowerBound, double upperBound) { if (makeSquarefree) { // make p squarefree UnivariatePolynomial gcd = UnivariatePolynomial.gcd(p, p.derive()); if (gcd.degree() > 0) // Polynomial not squarefree! p = p.div(gcd); } return EVAL(p, lowerBound, upperBound, p.evaluateAt(lowerBound), p.evaluateAt(upperBound)); }
public double[] findAllRootsIn(UnivariatePolynomial p, double lowerBound, double upperBound) { p = p.shrink(); if (makeSquarefree) { // make p squarefree UnivariatePolynomial gcd = UnivariatePolynomial.gcd(p, p.derive()); if (gcd.degree() > 0) // Polynomial not squarefree! p = p.div(gcd); } return null; }
public double EVAL( UnivariatePolynomial p, double lowerBound, double upperBound, double fl, double fu) { // System.out.println( "EVAL on (" + lowerBound + "," + upperBound + ") |-> (" + fl + "," + fu + // ")" ); double m = (lowerBound + upperBound) / 2.0; double r = (upperBound - lowerBound) / 2.0; // System.out.println( "(m,r)=("+m+","+r+")" ); if (upperBound - lowerBound < EPSILON) { // System.out.println( "epsilon reached" ); // prevent infinite loop (e.g. for non-squarefree polynomials) if (fl * fu < 0.0) return m; else return m; // java.lang.Double.NaN; } // test for exclusion predicate: no real root in (m-r,m+r) UnivariatePolynomial t = p.shift(m); // System.out.println( "Taylor exp. of f(x-" + m + "): " + t ); double fm = t.getCoeff(0); double ta[] = t.getCoeffs(); ta[0] = -Math.abs(ta[0]); for (int i = 1; i < ta.length; ++i) ta[i] = Math.abs(ta[i]); if (0.0 > new UnivariatePolynomial(ta).evaluateAt(r)) return java.lang.Double.NaN; // System.out.println( "Exclusion predicate false" ); // test for inclusion predicate: exactly one real root in (m-r,m+r) UnivariatePolynomial t_der = p.derive().shift(m); // System.out.println( "Taylor exp. of f'(x-" + m + "): " + t_der ); double ta_der[] = t_der.getCoeffs(); ta_der[0] = -Math.abs(ta_der[0]); for (int i = 1; i < ta_der.length; ++i) ta_der[i] = Math.abs(ta_der[i]); if (fl * fu <= 0.0 && 0.0 > new UnivariatePolynomial(ta_der).evaluateAt(r)) return bisect(p, lowerBound, upperBound, fl, fu); // System.out.println( "Inclusion predicate false" ); System.out.println(); // bisect double result_left = EVAL(p, lowerBound, m, fl, fm); if (!java.lang.Double.isNaN(result_left)) return result_left; else return EVAL(p, m, upperBound, fm, fu); }