def test_subresultants_sylv(): x = var('x') p = x**8 + x**6 - 3*x**4 - 3*x**3 + 8*x**2 + 2*x - 5 q = 3*x**6 + 5*x**4 - 4*x**2 - 9*x + 21 assert subresultants_sylv(p, q, x) == subresultants(p, q, x) assert subresultants_sylv(p, q, x)[-1] == res(p, q, x) assert subresultants_sylv(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_sylv(p, q, x) == [i*j for i, j in zip(amv_factors, modified_subresultants_amv(p, q, x))] p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert subresultants_sylv(p, q, x) == euclid_amv(p, q, x)
def test_subresultants_sylv(): x = var('x') p = x**8 + x**6 - 3*x**4 - 3*x**3 + 8*x**2 + 2*x - 5 q = 3*x**6 + 5*x**4 - 4*x**2 - 9*x + 21 assert subresultants_sylv(p, q, x) == subresultants(p, q, x) assert subresultants_sylv(p, q, x)[-1] == res(p, q, x) assert subresultants_sylv(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_sylv(p, q, x) == [i*j for i, j in zip(amv_factors, modified_subresultants_amv(p, q, x))] p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert subresultants_sylv(p, q, x) == euclid_amv(p, q, x)
def test_res_z(): x = var('x') assert res_z(3, 5, x) == 1 assert res(3, 5, x) == res_q(3, 5, x) == res_z(3, 5, x)
def test_res(): x = var('x') assert res(3, 5, x) == 1
def test_res_z(): x = var('x') assert res_z(3, 5, x) == 1 assert res(3, 5, x) == res_q(3, 5, x) == res_z(3, 5, x)
def test_res(): x = var('x') assert res(3, 5, x) == 1
def test_res(): x = var("x") assert res(3, 5, x) == 1