Evaluating a polynomial with Horner's Algorithm and calculating steps (Java)

I need help on my java code. What I'm trying to accomplish is to calculate the size of each step on a polynomial: `double s = (b-a)/nsteps;` The inputs for the polynomial to be created is degree, coefficient, start value of `x`, stopping value of `x`, and the number of steps. Whenever I try to run a test, my output is `0` for `x` and `y` and I'm not sure what I am missing on my code. Here is my run test on how its supposed to work, but my result for `x` and `y` is `0`:

``````Enter degree:2
Enter coefficient 2:1
Enter coefficient 1:0
Enter coefficient 0:0
f(x) = 1.0x^2 + .0x^1 + 0.0
Enter initial x:0
Enter final x:10
Enter number of steps:20
x = 0.0; f(x) = 0.0
x = 0.5; f(x) = 0.25
x = 1.0; f(x) = 1.0
x = 1.5; f(x) = 2.25
x = 2.0; f(x) = 4.0
x = 2.5; f(x) = 6.25
x = 3.0; f(x) = 9.0
x = 3.5; f(x) = 12.25
x = 4.0; f(x) = 16.0
x = 4.5; f(x) = 20.25
x = 5.0; f(x) = 25.0
x = 5.5; f(x) = 30.25
x = 6.0; f(x) = 36.0
x = 6.5; f(x) = 42.25
x = 7.0; f(x) = 49.0
x = 7.5; f(x) = 56.25
x = 8.0; f(x) = 64.0
x = 8.5; f(x) = 72.25
x = 9.0; f(x) = 81.0
x = 9.5; f(x) = 90.25
x = 10.0; f(x) = 100.0
``````

and here is my java code:

``````import java.util.*;

public class PolyAreaTwo{
//method evalpoly Horner's rule
public static double evalpoly(double[] c, double x) {
int n = c.length - 1;
double y = c[n];
for (int i = n - 1; i >= 0; i--) {
y = c[i] + (x * y);
}
return y;
}

//main method
public static void main(String[] args){
Scanner in = new Scanner(System.in);
int n;
double a, b;
int nsteps;

//input degree
System.out.print("Enter degree of polynomial:");
n = in.nextInt();

//input n+1 coefficients
double[] c = new double[n+1];

for (int i=n; i>=0; i--) {
System.out.print("Enter coefficent " + i + ":");
c[i] = in.nextDouble();
}
for (double d : c) {
System.out.print(" x ^ " + d);

}

//input starting value x = a
System.out.println("Enter starting x: ");
a = in.nextDouble();

//input stopping value x = b
System.out.print("Enter stop x: ");
b = in.nextDouble();

//input number of steps between starting x and stopping x
System.out.print("Enter steps: ");
nsteps = in.nextInt();

//calculate size of each step
double s = (b-a)/nsteps;
int steps = 0;

//loop to call the evalpoly method
for (double x = a; x <= b; x += s) {
double y = evalpoly(c, x);

System.out.println("x ="+x+ " , y ="+y);

}

}

}
``````
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`while (steps < nsteps)` Why do you need obviously infinite loop? – default locale Mar 5 '13 at 5:49

After removing the unnecessary outer `while` loop; consider using your calculated step size in the `for` loop: `x += s`.

As an aside, your implementation of Horner's method in `evalpoly()` can be made more efficient, as shown here and here, by initializing `y` to the highest order coefficient.

``````public static double evalpoly(double[] c, double x) {
int n = c.length - 1;
double y = c[n];
for (int i = n - 1; i >= 0; i--) {
y = c[i] + (x * y);
}
return y;
}
``````
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Thanks that worked! :D Another question though: how can I display f(x) after inputting the final coefficent. Would it go inside my for (int i=n; i>=0; i--) loop? – huehuegg Mar 6 '13 at 5:48
No; after that loop, do a `for (double d : c)` { `print("x ^ " + d); ... }` or similar. Going forward, you can accept this answer by clicking on the empty check mark at the left. – trashgod Mar 6 '13 at 6:15
I am getting these results with the for (double d:c) {System.out.print(" x ^ " + d); ) loop Enter degree of polynomial:2 Enter coefficent 2:1 Enter coefficent 1:0 Enter coefficent 0:0 x ^ 0.0 x ^ 0.0 x ^ 1.0Enter starting x: – huehuegg Mar 6 '13 at 6:46
It sounds like you've nested the loops; they should be sequential. If that doesn't help, please edit your question to show your current code. – trashgod Mar 6 '13 at 6:49
No actually I put the for loop you suggested after the loop for my coefficients. See edit. – huehuegg Mar 6 '13 at 7:42