This function takes the coefficients of a polynomial as its input
Given some polynomial function:
zx^n + yx^(n-1) + ... + cx^2 + bx + a
p = [z y ... c b a]
Given these coefficients, and the corresponding exponents
[0 1 2 3 ...], we have an algorithm for taking a derivative of a polynomial (which you know). For each term in the polynomial:
- Multiply the coefficient of each term by the exponent of the that term
- Subtract one from the exponent
So...that's what your code does! I'll go through it (almost) line-by-line:
function dp = derp(p)
n = length(p) - 1;
n is the length (number of terms) of the derivative it will just be one less than the input polynomial because the constant term drops out (corresponding exponent is zero). This is also the order of the input polynomial (highest exponent value).
p = p(:)';
This just transposes the input vector. I'm...not sure why this is done in your code, it seems unnecessary.
dp = p(1:n).*(n:-1:1);
Here each coefficient
p(1:n) is multiplied by the exponent of its term
k = find(dp ~= 0);
This searches for any indices where the coefficient is not zero and stores those indices in
dp = dp(k(1):end);
dp = 0;
This if-statement sets
dp to the coefficients of the derivative starting with the first non-zero coefficient. If all the calculated coefficients are zero (input function was a constant), dp is just set to zero.
Hopefully this helps!