Math.toRadians 用于求解二次和三次方程的位置

Placement of Math.toRadians for solving quadratic and cubic equations

我正在编写一个求解二次或三次方程的程序。问题是我不知道我是否正确放置了 Math.toRadians

代码如下:

public double[] getRaices(double a,double b, double c, double d) throws ComplexException {
    if (a==0){
        double discriminante=Math.pow(c,2)+((-4)*b*d);
        if(discriminante>=0){
            this.Raices[0]=(c*(-1)+Math.sqrt(discriminante))/(2*b);
            this.Raices[1]=(c*(-1)-Math.sqrt(discriminante))/(2*b);
        }else{
            throw new ComplexException("No hay solucion Real");
        }

    } else{
        double f=((3*c/a)-(Math.pow(b,2)/Math.pow(a,2)))/3;
        double g=((2*Math.pow(b,3)/Math.pow(a,3))-(9*b*c/Math.pow(a,2))+(27*d/a))/27;
        double h=(Math.pow(g,2)/4)+(Math.pow(f,3)/27);
        if(f+g+h==0){
            Raices [0]=Math.cbrt(d/a)*(-1);
            Raices [1]=Math.cbrt(d/a)*(-1);
            Raices [2]=Math.cbrt(d/a)*(-1);
        }else{
            if(h<=0){
                double i=Math.sqrt((Math.pow(g,2)/4)-h);
                double j=Math.cbrt(i);
                double k=Math.acos(Math.toRadians(-1*(g/2*i)));
                System.out.println(" "+k+" ");
                double l=j*(0-1);
                double m=Math.toRadians(Math.cos(Math.toRadians(k/3)));
                System.out.println(" "+m+" ");
                double n=Math.sqrt(3)*Math.sin(Math.toRadians(k/3));
                System.out.println(" "+n+" ");
                double p=(b/(3*a)*(0-1));
                Raices [0]=2*j*Math.cos(Math.toRadians(k/3))-(b/(3*a));
                Raices [1]=(l*(m+n))+p;
                Raices [2]=(l*(m-n))+p;
            }else{
                double r=((0-1)*(g/2))+Math.sqrt(h);
                double s=Math.cbrt(r);
                double t=((0-1)*(g/2))-Math.sqrt(h);
                double u=Math.cbrt(t);
                throw new ComplexException("2 de las raices son imaginarias pero una raiz es real: "+Math.floor(Raices [0]=(s+u)-(b/(3*a))));
            }
        }
    }
    return Raices;
}

但问题出在if (h<=0)

我针对网页测试了您的代码,发现了几个错误。 首先是 g /2i,你写 g/2*i 而不是 g/2/i 或 (g/(2*i)。还有几个 Math.toRadians 不是必需的(网页说计算是以弧度为单位的, 所以不需要转换).

我添加了 println 以帮助遵循以下公式:

package test;

public class Cubic {
    private double[] Raices = new double[3];

    public static void main(String[] args) throws ComplexException {
        double[] raices = new Cubic().getRaices(2, -4, -22, 24);
        System.out.println(raices[0] + "," + raices[1] + "," + raices[2]);
    }

    public double[] getRaices(double a, double b, double c, double d) throws ComplexException {
        if (a == 0) {
            double discriminante = Math.pow(c, 2) + ((-4) * b * d);
            if (discriminante >= 0) {
                this.Raices[0] = (c * (-1) + Math.sqrt(discriminante)) / (2 * b);
                this.Raices[1] = (c * (-1) - Math.sqrt(discriminante)) / (2 * b);
            } else {
                throw new ComplexException("No hay solucion Real");
            }

        } else {
            double f = ((3 * c / a) - (Math.pow(b, 2) / Math.pow(a, 2))) / 3;
            System.out.println("f=" + f);
            double g = ((2 * Math.pow(b, 3) / Math.pow(a, 3)) - (9 * b * c / Math.pow(a, 2)) + (27 * d / a)) / 27;
            System.out.println("g=" + g);
            double h = (Math.pow(g, 2) / 4) + (Math.pow(f, 3) / 27);
            System.out.println("h=" + h);
            if (f + g + h == 0) {
                Raices[0] = Math.cbrt(d / a) * (-1);
                Raices[1] = Math.cbrt(d / a) * (-1);
                Raices[2] = Math.cbrt(d / a) * (-1);
            } else {
                if (h <= 0) {
                    double i = Math.sqrt((Math.pow(g, 2) / 4) - h);
                    double j = Math.cbrt(i);
                    double k = Math.acos(-1 * (g / 2 / i));
                    System.out.println("k=" + k + " ");
                    double l = j * (0 - 1);
                    System.out.println("l=" + l + " ");
                    double m = Math.cos(k / 3);
                    System.out.println("m= " + m + " ");
                    double n = Math.sqrt(3) * Math.sin(k / 3);
                    System.out.println("n= " + n + " ");
                    double p = (b / (3 * a) * (0 - 1));
                    System.out.println("p= " + p + " ");
                    Raices[0] = 2 * j * Math.cos(k / 3) - (b / (3 * a));
                    Raices[1] = (l * (m + n)) + p;
                    Raices[2] = (l * (m - n)) + p;
                } else {
                    double r = ((0 - 1) * (g / 2)) + Math.sqrt(h);
                    double s = Math.cbrt(r);
                    double t = ((0 - 1) * (g / 2)) - Math.sqrt(h);
                    double u = Math.cbrt(t);
                    throw new ComplexException(
                            "2 de las raices son imaginarias pero una raiz es real: " + Math.floor(Raices[0] = (s + u) - (b / (3 * a))));
                }
            }
        }
        return Raices;
    }
}