# Horner's rule in C++

While trying to evaulate polynomials using Horner's Rule I have a sample code segment like so:

``````int Horner( int a[], int n, int x )
{
int result = a[n];
for(int i=n-1; i >= 0 ; --i)
result = result * x + a[i];
return result;
}
``````

I understand that `a` is an array of coefficients and that `x` is the value that I would like to evaluate at. My question is what is the `n` for?

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n is the degree of the polynome (and a polynome of degree n, aside from 0 which is kind of special, has n+1 coefficients, so size of array = n+1, n = size of array - 1)

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n is the size of the array

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-1: n is not the size of the array. Horner's rule is for a polynomial of order n and so has n+1 coefficients. The code uses a[n] which is a big hint that n is _not_the size of the array. n is the order of the polynomial. –  Troubadour Nov 8 '09 at 20:57

'n' is index of the last element in the array. Therefore, n is one less than the size of the array.

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The code appears to be incorrect. The statement:

``````int result = a[n];
``````

should fail if n is size of the array... If n is the size of the array minus 1, then it will work but the contract of the function is very strange in this case. It is impossible to pass empty array to the function, which is not generic and requires additional checking on caller's side.

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-1: The code is correct. –  Troubadour Nov 8 '09 at 20:58
n is not the size of the array; it is the order of the polynomial. A polynomial of order n has n+1 coefficients, hence n+1 elements are in the coefficient array. –  Stephen Canon Nov 9 '09 at 0:01
In C++ it's idiomatic to pass the number of elements. Since arrays are 0 based, the last element of the array is `arr[n-1]`.