from sympy.core.symbol import var from sympy.polys.polytools import (pquo, prem, sturm, subresultants) from sympy.matrices import Matrix from sympy.polys.subresultants_qq_zz import (sylvester, res, res_q, res_z, bezout, subresultants_sylv, modified_subresultants_sylv, subresultants_bezout, modified_subresultants_bezout, backward_eye, sturm_pg, sturm_q, sturm_amv, euclid_pg, euclid_q, euclid_amv, modified_subresultants_pg, subresultants_pg, subresultants_amv_q, quo_z, rem_z, subresultants_amv, modified_subresultants_amv, subresultants_rem, subresultants_vv, subresultants_vv_2) def test_sylvester(): x = var('x') assert sylvester(x**3 -7, 0, x) == sylvester(x**3 -7, 0, x, 1) == Matrix([[0]]) assert sylvester(0, x**3 -7, x) == sylvester(0, x**3 -7, x, 1) == Matrix([[0]]) assert sylvester(x**3 -7, 0, x, 2) == Matrix([[0]]) assert sylvester(0, x**3 -7, x, 2) == Matrix([[0]]) assert sylvester(x**3 -7, 7, x).det() == sylvester(x**3 -7, 7, x, 1).det() == 343 assert sylvester(7, x**3 -7, x).det() == sylvester(7, x**3 -7, x, 1).det() == 343 assert sylvester(x**3 -7, 7, x, 2).det() == -343 assert sylvester(7, x**3 -7, x, 2).det() == 343 assert sylvester(3, 7, x).det() == sylvester(3, 7, x, 1).det() == sylvester(3, 7, x, 2).det() == 1 assert sylvester(3, 0, x).det() == sylvester(3, 0, x, 1).det() == sylvester(3, 0, x, 2).det() == 1 assert sylvester(x - 3, x - 8, x) == sylvester(x - 3, x - 8, x, 1) == sylvester(x - 3, x - 8, x, 2) == Matrix([[1, -3], [1, -8]]) assert sylvester(x**3 - 7*x + 7, 3*x**2 - 7, x) == sylvester(x**3 - 7*x + 7, 3*x**2 - 7, x, 1) == Matrix([[1, 0, -7, 7, 0], [0, 1, 0, -7, 7], [3, 0, -7, 0, 0], [0, 3, 0, -7, 0], [0, 0, 3, 0, -7]]) assert sylvester(x**3 - 7*x + 7, 3*x**2 - 7, x, 2) == Matrix([ [1, 0, -7, 7, 0, 0], [0, 3, 0, -7, 0, 0], [0, 1, 0, -7, 7, 0], [0, 0, 3, 0, -7, 0], [0, 0, 1, 0, -7, 7], [0, 0, 0, 3, 0, -7]]) 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_modified_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 amv_factors = [1, 1, -1, 1, -1, 1] assert modified_subresultants_sylv(p, q, x) == [i*j for i, j in zip(amv_factors, subresultants_amv(p, q, x))] assert modified_subresultants_sylv(p, q, x)[-1] != res_q(p + x**8, q, x) assert modified_subresultants_sylv(p, q, x) != sturm_amv(p, q, x) p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert modified_subresultants_sylv(p, q, x) == sturm_amv(p, q, x) assert modified_subresultants_sylv(-p, q, x) != sturm_amv(-p, q, x) def test_res(): x = var('x') assert res(3, 5, x) == 1 def test_res_q(): x = var('x') assert res_q(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_bezout(): x = var('x') p = -2*x**5+7*x**3+9*x**2-3*x+1 q = -10*x**4+21*x**2+18*x-3 assert bezout(p, q, x, 'bz').det() == sylvester(p, q, x, 2).det() assert bezout(p, q, x, 'bz').det() != sylvester(p, q, x, 1).det() assert bezout(p, q, x, 'prs') == backward_eye(5) * bezout(p, q, x, 'bz') * backward_eye(5) def test_subresultants_bezout(): 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_bezout(p, q, x) == subresultants(p, q, x) assert subresultants_bezout(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_bezout(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_bezout(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_bezout(p, q, x) == euclid_amv(p, q, x) def test_modified_subresultants_bezout(): 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 amv_factors = [1, 1, -1, 1, -1, 1] assert modified_subresultants_bezout(p, q, x) == [i*j for i, j in zip(amv_factors, subresultants_amv(p, q, x))] assert modified_subresultants_bezout(p, q, x)[-1] != sylvester(p + x**8, q, x).det() assert modified_subresultants_bezout(p, q, x) != sturm_amv(p, q, x) p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert modified_subresultants_bezout(p, q, x) == sturm_amv(p, q, x) assert modified_subresultants_bezout(-p, q, x) != sturm_amv(-p, q, x) def test_sturm_pg(): 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 sturm_pg(p, q, x)[-1] != sylvester(p, q, x, 2).det() sam_factors = [1, 1, -1, -1, 1, 1] assert sturm_pg(p, q, x) == [i*j for i,j in zip(sam_factors, euclid_pg(p, q, x))] p = -9*x**5 - 5*x**3 - 9 q = -45*x**4 - 15*x**2 assert sturm_pg(p, q, x, 1)[-1] == sylvester(p, q, x, 1).det() assert sturm_pg(p, q, x)[-1] != sylvester(p, q, x, 2).det() assert sturm_pg(-p, q, x)[-1] == sylvester(-p, q, x, 2).det() assert sturm_pg(-p, q, x) == modified_subresultants_pg(-p, q, x) def test_sturm_q(): x = var('x') p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert sturm_q(p, q, x) == sturm(p) assert sturm_q(-p, -q, x) != sturm(-p) def test_sturm_amv(): 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 sturm_amv(p, q, x)[-1] != sylvester(p, q, x, 2).det() sam_factors = [1, 1, -1, -1, 1, 1] assert sturm_amv(p, q, x) == [i*j for i,j in zip(sam_factors, euclid_amv(p, q, x))] p = -9*x**5 - 5*x**3 - 9 q = -45*x**4 - 15*x**2 assert sturm_amv(p, q, x, 1)[-1] == sylvester(p, q, x, 1).det() assert sturm_amv(p, q, x)[-1] != sylvester(p, q, x, 2).det() assert sturm_amv(-p, q, x)[-1] == sylvester(-p, q, x, 2).det() assert sturm_pg(-p, q, x) == modified_subresultants_pg(-p, q, x) def test_euclid_pg(): x = var('x') p = x**6+x**5-x**4-x**3+x**2-x+1 q = 6*x**5+5*x**4-4*x**3-3*x**2+2*x-1 assert euclid_pg(p, q, x)[-1] == sylvester(p, q, x).det() assert euclid_pg(p, q, x) == subresultants_pg(p, q, 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 euclid_pg(p, q, x)[-1] != sylvester(p, q, x, 2).det() sam_factors = [1, 1, -1, -1, 1, 1] assert euclid_pg(p, q, x) == [i*j for i,j in zip(sam_factors, sturm_pg(p, q, x))] def test_euclid_q(): x = var('x') p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert euclid_q(p, q, x)[-1] == -sturm(p)[-1] def test_euclid_amv(): x = var('x') p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert euclid_amv(p, q, x)[-1] == sylvester(p, q, x).det() assert euclid_amv(p, q, x) == subresultants_amv(p, q, 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 euclid_amv(p, q, x)[-1] != sylvester(p, q, x, 2).det() sam_factors = [1, 1, -1, -1, 1, 1] assert euclid_amv(p, q, x) == [i*j for i,j in zip(sam_factors, sturm_amv(p, q, x))] def test_modified_subresultants_pg(): 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 amv_factors = [1, 1, -1, 1, -1, 1] assert modified_subresultants_pg(p, q, x) == [i*j for i, j in zip(amv_factors, subresultants_pg(p, q, x))] assert modified_subresultants_pg(p, q, x)[-1] != sylvester(p + x**8, q, x).det() assert modified_subresultants_pg(p, q, x) != sturm_pg(p, q, x) p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert modified_subresultants_pg(p, q, x) == sturm_pg(p, q, x) assert modified_subresultants_pg(-p, q, x) != sturm_pg(-p, q, x) def test_subresultants_pg(): 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_pg(p, q, x) == subresultants(p, q, x) assert subresultants_pg(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_pg(p, q, x) != euclid_pg(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_pg(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_pg(p, q, x) == euclid_pg(p, q, x) def test_subresultants_amv_q(): 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_amv_q(p, q, x) == subresultants(p, q, x) assert subresultants_amv_q(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_amv_q(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_amv_q(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_amv(p, q, x) == euclid_amv(p, q, x) def test_rem_z(): 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 rem_z(p, -q, x) != prem(p, -q, x) def test_quo_z(): 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 quo_z(p, -q, x) != pquo(p, -q, x) y = var('y') q = 3*x**6 + 5*y**4 - 4*x**2 - 9*x + 21 assert quo_z(p, -q, x) == pquo(p, -q, x) def test_subresultants_amv(): 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_amv(p, q, x) == subresultants(p, q, x) assert subresultants_amv(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_amv(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_amv(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_amv(p, q, x) == euclid_amv(p, q, x) def test_modified_subresultants_amv(): 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 amv_factors = [1, 1, -1, 1, -1, 1] assert modified_subresultants_amv(p, q, x) == [i*j for i, j in zip(amv_factors, subresultants_amv(p, q, x))] assert modified_subresultants_amv(p, q, x)[-1] != sylvester(p + x**8, q, x).det() assert modified_subresultants_amv(p, q, x) != sturm_amv(p, q, x) p = x**3 - 7*x + 7 q = 3*x**2 - 7 assert modified_subresultants_amv(p, q, x) == sturm_amv(p, q, x) assert modified_subresultants_amv(-p, q, x) != sturm_amv(-p, q, x) def test_subresultants_rem(): 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_rem(p, q, x) == subresultants(p, q, x) assert subresultants_rem(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_rem(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_rem(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_rem(p, q, x) == euclid_amv(p, q, x) def test_subresultants_vv(): 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_vv(p, q, x) == subresultants(p, q, x) assert subresultants_vv(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_vv(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_vv(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_vv(p, q, x) == euclid_amv(p, q, x) def test_subresultants_vv_2(): 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_vv_2(p, q, x) == subresultants(p, q, x) assert subresultants_vv_2(p, q, x)[-1] == sylvester(p, q, x).det() assert subresultants_vv_2(p, q, x) != euclid_amv(p, q, x) amv_factors = [1, 1, -1, 1, -1, 1] assert subresultants_vv_2(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_vv_2(p, q, x) == euclid_amv(p, q, x)