public static void example13() { BigRational fac = new BigRational(); UnivPowerSeriesRing<BigRational> pfac = new UnivPowerSeriesRing<BigRational>(fac, 11, "y"); UnivPowerSeries<BigRational> exp = pfac.getEXP(); System.out.println("exp = " + exp); System.out.println("exp(1) = " + exp.evaluate(fac.getONE())); System.out.println("exp(0) = " + exp.evaluate(fac.getZERO())); BigDecimal dfac = new BigDecimal(); UnivPowerSeriesRing<BigDecimal> dpfac = new UnivPowerSeriesRing<BigDecimal>(dfac, 11, "z"); UnivPowerSeries<BigDecimal> dexp = dpfac.getEXP(); System.out.println("exp = " + dexp); System.out.println("exp(1) = " + dexp.evaluate(dfac.getONE())); System.out.println("exp(0) = " + dexp.evaluate(dfac.getZERO())); }
public static void example7() { final BigRational fac = new BigRational(); final UnivPowerSeriesRing<BigRational> pfac = new UnivPowerSeriesRing<BigRational>(fac, 11, "y"); UnivPowerSeries<BigRational> exp = pfac.fixPoint( new UnivPowerSeriesMap<BigRational>() { public UnivPowerSeries<BigRational> map(UnivPowerSeries<BigRational> e) { return e.integrate(fac.getONE()); } }); System.out.println("exp = " + exp); UnivPowerSeries<BigRational> tan = pfac.fixPoint( new UnivPowerSeriesMap<BigRational>() { public UnivPowerSeries<BigRational> map(UnivPowerSeries<BigRational> t) { return t.multiply(t).sum(pfac.getONE()).integrate(fac.getZERO()); } }); System.out.println("tan = " + tan); UnivPowerSeries<BigRational> sin = new UnivPowerSeries<BigRational>( pfac, new Coefficients<BigRational>() { @Override public BigRational generate(int i) { BigRational c; if (i == 0) { c = fac.getZERO(); } else if (i == 1) { c = fac.getONE(); } else { c = get(i - 2).negate(); c = c.divide(fac.fromInteger(i)).divide(fac.fromInteger(i - 1)); } return c; } }); System.out.println("sin = " + sin); UnivPowerSeries<BigRational> sin1 = pfac.fixPoint( new UnivPowerSeriesMap<BigRational>() { public UnivPowerSeries<BigRational> map(UnivPowerSeries<BigRational> e) { return e.negate().integrate(fac.getONE()).integrate(fac.getZERO()); } }); System.out.println("sin1 = " + sin1); UnivPowerSeries<BigRational> cos = new UnivPowerSeries<BigRational>( pfac, new Coefficients<BigRational>() { @Override public BigRational generate(int i) { BigRational c; if (i == 0) { c = fac.getONE(); } else if (i == 1) { c = fac.getZERO(); } else { c = get(i - 2).negate(); c = c.divide(fac.fromInteger(i)).divide(fac.fromInteger(i - 1)); } return c; } }); System.out.println("cos = " + cos); UnivPowerSeries<BigRational> cos1 = pfac.fixPoint( new UnivPowerSeriesMap<BigRational>() { public UnivPowerSeries<BigRational> map(UnivPowerSeries<BigRational> e) { return e.negate().integrate(fac.getZERO()).integrate(fac.getONE()); } }); System.out.println("cos1 = " + cos1); UnivPowerSeries<BigRational> cos2 = pfac.solveODE(sin1.negate(), fac.getONE()); System.out.println("cos2 = " + cos2); UnivPowerSeries<BigRational> sin2 = pfac.solveODE(cos1, fac.getZERO()); System.out.println("sin2 = " + sin2); UnivPowerSeries<BigRational> sinh = new UnivPowerSeries<BigRational>( pfac, new Coefficients<BigRational>() { @Override public BigRational generate(int i) { BigRational c; if (i == 0) { c = fac.getZERO(); } else if (i == 1) { c = fac.getONE(); } else { c = get(i - 2); c = c.divide(fac.fromInteger(i)).divide(fac.fromInteger(i - 1)); } return c; } }); System.out.println("sinh = " + sinh); UnivPowerSeries<BigRational> cosh = new UnivPowerSeries<BigRational>( pfac, new Coefficients<BigRational>() { @Override public BigRational generate(int i) { BigRational c; if (i == 0) { c = fac.getONE(); } else if (i == 1) { c = fac.getZERO(); } else { c = get(i - 2); c = c.divide(fac.fromInteger(i)).divide(fac.fromInteger(i - 1)); } return c; } } // , null ); System.out.println("cosh = " + cosh); UnivPowerSeries<BigRational> sinhcosh = sinh.sum(cosh); System.out.println("sinh+cosh = " + sinhcosh); System.out.println("sinh+cosh == exp: " + sinhcosh.equals(exp)); }
/** Test scalar multiplication. */ public void testMultiplication() { BigRational cfac = new BigRational(1); GenVectorModul<BigRational> mfac = new GenVectorModul<BigRational>(cfac, ll); BigRational r, s, t; GenVector<BigRational> a, b, c, d, e; r = cfac.random(kl); // System.out.println("r = " + r); s = r.inverse(); // System.out.println("s = " + s); a = mfac.random(kl, q); // System.out.println("a = " + a); c = a.scalarMultiply(r); d = c.scalarMultiply(s); // System.out.println("c = " + c); // System.out.println("d = " + d); assertEquals("a*b*(1/b) = a", a, d); b = mfac.random(kl, q); // System.out.println("b = " + b); t = cfac.getONE(); // System.out.println("t = " + t); c = a.linearCombination(b, t); d = b.linearCombination(a, t); // System.out.println("c = " + c); // System.out.println("d = " + d); assertEquals("a+1*b = b+1*a", c, d); c = a.linearCombination(b, t); d = a.sum(b); // System.out.println("c = " + c); // System.out.println("d = " + d); assertEquals("a+1*b = b+1*a", c, d); s = t.negate(); // System.out.println("s = " + s); c = a.linearCombination(b, t); d = c.linearCombination(b, s); // System.out.println("c = " + c); // System.out.println("d = " + d); assertEquals("a+1*b+(-1)*b = a", a, d); c = a.linearCombination(t, b, t); d = c.linearCombination(t, b, s); // System.out.println("c = " + c); // System.out.println("d = " + d); assertEquals("a*1+b*1+b*(-1) = a", a, d); t = cfac.getZERO(); // System.out.println("t = " + t); c = a.linearCombination(b, t); // System.out.println("c = " + c); assertEquals("a+0*b = a", a, c); d = a.linearCombination(t, b, t); // System.out.println("d = " + d); assertEquals("0*a+0*b = 0", mfac.getZERO(), d); r = a.scalarProduct(b); s = b.scalarProduct(a); // System.out.println("r = " + r); // System.out.println("s = " + s); assertEquals("a.b = b.a", r, s); }