We investigate the computational complexity of deciding whether a given univariate integer polynomial p(x) has a factor q(x) satisfying specific additional constraints. When the only constraint imposed on q(x) is to have a degree smaller than the degree of p(x) and greater than zero, the problem is equivalent to testing the irreducibility of p(x) and then it is solvable in polynomial time. We prove that deciding whether a given monic univariate integer polynomial has factors satisfying additional properties is NP-complete in the strong sense. In particular, given any constant value k ? Z, we prove that it is NP-complete in the strong sense to detect the existence of a factor that returns a prescribed value when evaluated at x = k (Theorem 1) or to detect the existence of a pair of factors-whose product is equal to the original polynomial-that return the same value when evaluated at x = k (Theorem 2). The list of all the properties we have investigated in this paper is reported at the end of Section Introduction.
Dennunzio, A., Formenti, E., Margara, L. (2023). Hard to Detect Factors of Univariate Integer Polynomials. MATHEMATICS, 11(16) [10.3390/math11163602].
Hard to Detect Factors of Univariate Integer Polynomials
Dennunzio, A
;
2023
Abstract
We investigate the computational complexity of deciding whether a given univariate integer polynomial p(x) has a factor q(x) satisfying specific additional constraints. When the only constraint imposed on q(x) is to have a degree smaller than the degree of p(x) and greater than zero, the problem is equivalent to testing the irreducibility of p(x) and then it is solvable in polynomial time. We prove that deciding whether a given monic univariate integer polynomial has factors satisfying additional properties is NP-complete in the strong sense. In particular, given any constant value k ? Z, we prove that it is NP-complete in the strong sense to detect the existence of a factor that returns a prescribed value when evaluated at x = k (Theorem 1) or to detect the existence of a pair of factors-whose product is equal to the original polynomial-that return the same value when evaluated at x = k (Theorem 2). The list of all the properties we have investigated in this paper is reported at the end of Section Introduction.File | Dimensione | Formato | |
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