galois.poly_gcd

galois.poly_gcd(a, b)

Finds the greatest common divisor of two polynomials \(a(x)\) and \(b(x)\) over \(\mathrm{GF}(q)\).

This implementation uses the Euclidean Algorithm.

Parameters

• a (galois.Poly) – A polynomial \(a(x)\) over \(\mathrm{GF}(q)\).

• b (galois.Poly) – A polynomial \(b(x)\) over \(\mathrm{GF}(q)\).

Returns

Polynomial greatest common divisor of \(a(x)\) and \(b(x)\).

Return type

galois.Poly

Examples

In [1]: GF = galois.GF(7)

In [2]: a = galois.Poly.Roots([2,2,2,3,6], field=GF); a
Out[2]: Poly(x^5 + 6x^4 + x + 3, GF(7))

# a(x) and b(x) only share the root 2 in common
In [3]: b = galois.Poly.Roots([1,2], field=GF); b
Out[3]: Poly(x^2 + 4x + 2, GF(7))

In [4]: gcd = galois.poly_gcd(a, b); gcd
Out[4]: Poly(x + 5, GF(7))

# The GCD has only 2 as a root with multiplicity 1
In [5]: gcd.roots(multiplicity=True)
Out[5]: (GF([2], order=7), array([1]))