def test_zzX_eval():
assert zzX_eval([], 3) == 0
assert zzX_eval([[]], 3) == []
assert zzX_eval([[[]]], 3) == [[]]
assert zzX_eval([[1,2]], 0) == [1,2]
assert zzX_eval([[[1]]], 3) == [[1]]
assert zzX_eval([[[1, 2]]], 3) == [[1, 2]]
assert zzX_eval([[3, 2], [1, 2]], 3) == [10, 8]
assert zzX_eval([[[3, 2]], [[1, 2]]], 3) == [[10, 8]]
f = zzX_from_poly(W_1)
assert zzX_eval_for(f, 2,-2) == zzX_from_poly(W_1.subs(y,-2))
assert zzX_eval_for(f, 2, 7) == zzX_from_poly(W_1.subs(y, 7))
assert zzX_eval_for(f, 3,-2) == zzX_from_poly(W_1.subs(z,-2))
assert zzX_eval_for(f, 3, 7) == zzX_from_poly(W_1.subs(z, 7))
assert zzX_diff_eval(f, 3, 2, 7) == zzX_from_poly(W_1.diff(z, 2).subs(z, 7))
assert zzX_eval_list(f_0, []) == f_0
assert zzX_eval_list([[]], [1]) == []
assert zzX_eval_list([[[]]], [1]) == [[]]
assert zzX_eval_list([[[]]], [1, 2]) == []
assert zzX_eval_list(f_0, [1,-17,8]) == 84496
assert zzX_eval_list(f_0, [-17, 8]) == [-1409, 3, 85902]
assert zzX_eval_list(f_0, [8]) == [[83, 2], [3], [302, 81, 1]]
assert zzX_eval_list(f_1, [-17, 8]) == [-136, 15699, 9166, -27144]
assert zzX_eval_list(f_2, [-12, 3]) == [-1377, 0, -702, -1224, 0, -624]
assert zzX_eval_list(f_3, [-12, 3]) == [144, 82, -5181, -28872, -14868, -540]
assert zzX_eval_list(f_4, [25, -1]) == [152587890625, 9765625, -59605407714843750,
-3839159765625, -1562475, 9536712644531250, 610349546750, -4, 24414375000, 1562520]
assert zzX_eval_list(f_5, [25, -1]) == [-1, -78, -2028, -17576]
assert zzX_eval_list(f_6, [0, 2, 4]) == [5040, 0, 0, 4480]
def test_zzX_eval():
assert zzX_eval([], 3) == 0
assert zzX_eval([[]], 3) == []
assert zzX_eval([[[]]], 3) == [[]]
assert zzX_eval([[1, 2]], 0) == [1, 2]
assert zzX_eval([[[1]]], 3) == [[1]]
assert zzX_eval([[[1, 2]]], 3) == [[1, 2]]
assert zzX_eval([[3, 2], [1, 2]], 3) == [10, 8]
assert zzX_eval([[[3, 2]], [[1, 2]]], 3) == [[10, 8]]
f = zzX_from_poly(W_1)
assert zzX_eval_for(f, 2, -2) == zzX_from_poly(W_1.subs(y, -2))
assert zzX_eval_for(f, 2, 7) == zzX_from_poly(W_1.subs(y, 7))
assert zzX_eval_for(f, 3, -2) == zzX_from_poly(W_1.subs(z, -2))
assert zzX_eval_for(f, 3, 7) == zzX_from_poly(W_1.subs(z, 7))
assert zzX_diff_eval(f, 3, 2,
7) == zzX_from_poly(W_1.diff(z, 2).subs(z, 7))
assert zzX_eval_list(f_0, []) == f_0
assert zzX_eval_list([[]], [1]) == []
assert zzX_eval_list([[[]]], [1]) == [[]]
assert zzX_eval_list([[[]]], [1, 2]) == []
assert zzX_eval_list(f_0, [1, -17, 8]) == 84496
assert zzX_eval_list(f_0, [-17, 8]) == [-1409, 3, 85902]
assert zzX_eval_list(f_0, [8]) == [[83, 2], [3], [302, 81, 1]]
assert zzX_eval_list(f_1, [-17, 8]) == [-136, 15699, 9166, -27144]
assert zzX_eval_list(f_2, [-12, 3]) == [-1377, 0, -702, -1224, 0, -624]
assert zzX_eval_list(f_3,
[-12, 3]) == [144, 82, -5181, -28872, -14868, -540]
assert zzX_eval_list(f_4, [25, -1]) == [
152587890625, 9765625, -59605407714843750, -3839159765625, -1562475,
9536712644531250, 610349546750, -4, 24414375000, 1562520
]
assert zzX_eval_list(f_5, [25, -1]) == [-1, -78, -2028, -17576]
assert zzX_eval_list(f_6, [0, 2, 4]) == [5040, 0, 0, 4480]
def test_zzX_wang():
f = zzX_from_poly(W_1)
p = nextprime(zzX_mignotte_bound(f))
assert p == 6291469
V_1, k_1, E_1 = [[1],[]], 1, -14
V_2, k_2, E_2 = [[1, 0]], 2, 3
V_3, k_3, E_3 = [[1],[ 1, 0]], 2, -11
V_4, k_4, E_4 = [[1],[-1, 0]], 1, -17
V = [V_1, V_2, V_3, V_4]
K = [k_1, k_2, k_3, k_4]
E = [E_1, E_2, E_3, E_4]
V = zip(V, K)
A = [-14, 3]
U = zzX_eval_list(f, A)
cu, u = zzx_primitive(U)
assert cu == 1 and u == U == \
[1036728, 915552, 55748, 105621, -17304, -26841, -644]
assert zzX_wang_non_divisors(E, cu, 4) == [7, 3, 11, 17]
assert zzx_sqf_p(u) and zzx_degree(u) == zzX_degree(f)
_, H = zzx_factor_sqf(u)
h_1 = [44, 42, 1]
h_2 = [126, -9, 28]
h_3 = [187, 0, -23]
assert H == [h_1, h_2, h_3]
LC_1 = [[-4], [-4,0]]
LC_2 = [[-1,0,0], []]
LC_3 = [[1], [], [-1,0,0]]
LC = [LC_1, LC_2, LC_3]
assert zzX_wang_lead_coeffs(f, V, cu, E, H, A) == (f, H, LC)
H_1 = [[44L, 42L, 1L], [126L, -9L, 28L], [187L, 0L, -23L]]
C_1 = [-70686, -5863, -17826, 2009, 5031, 74]
H_2 = [[[-4, -12], [-3, 0], [1]], [[-9, 0], [-9], [-2, 0]], [[1, 0, -9], [], [1, -9]]]
C_2 = [[9, 12, -45, -108, -324], [18, -216, -810, 0], [2, 9, -252, -288, -945], [-30, -414, 0], [2, -54, -3, 81], [12, 0]]
H_3 = [[[-4, -12], [-3, 0], [1]], [[-9, 0], [-9], [-2, 0]], [[1, 0, -9], [], [1, -9]]]
C_3 = [[-36, -108, 0], [-27, -36, -108], [-8, -42, 0], [-6, 0, 9], [2, 0]]
T_1 = [[-3, 0], [-2], [1]]
T_2 = [[[-1, 0], []], [[-3], []], [[-6]]]
T_3 = [[[]], [[]], [[-1]]]
assert zzX_diophantine(H_1, C_1, [], 5, p) == T_1
assert zzX_diophantine(H_2, C_2, [-14], 5, p) == T_2
assert zzX_diophantine(H_3, C_3, [-14], 5, p) == T_3
factors = zzX_wang_hensel_lifting(f, H, LC, A, p)
f_1 = zzX_to_poly(factors[0], x, y, z)
f_2 = zzX_to_poly(factors[1], x, y, z)
f_3 = zzX_to_poly(factors[2], x, y, z)
assert f_1 == -(4*(y + z)*x**2 + x*y*z - 1).as_poly(x, y, z)
assert f_2 == -(y*z**2*x**2 + 3*x*z + 2*y).as_poly(x, y, z)
assert f_3 == ((y**2 - z**2)*x**2 + y - z**2).as_poly(x, y, z)
assert f_1*f_2*f_3 == W_1
def test_zzX_wang():
f = zzX_from_poly(W_1)
p = nextprime(zzX_mignotte_bound(f))
assert p == 6291469
V_1, k_1, E_1 = [[1], []], 1, -14
V_2, k_2, E_2 = [[1, 0]], 2, 3
V_3, k_3, E_3 = [[1], [1, 0]], 2, -11
V_4, k_4, E_4 = [[1], [-1, 0]], 1, -17
V = [V_1, V_2, V_3, V_4]
K = [k_1, k_2, k_3, k_4]
E = [E_1, E_2, E_3, E_4]
V = zip(V, K)
A = [-14, 3]
U = zzX_eval_list(f, A)
cu, u = zzx_primitive(U)
assert cu == 1 and u == U == \
[1036728, 915552, 55748, 105621, -17304, -26841, -644]
assert zzX_wang_non_divisors(E, cu, 4) == [7, 3, 11, 17]
assert zzx_sqf_p(u) and zzx_degree(u) == zzX_degree(f)
_, H = zzx_factor_sqf(u)
h_1 = [44, 42, 1]
h_2 = [126, -9, 28]
h_3 = [187, 0, -23]
assert H == [h_1, h_2, h_3]
LC_1 = [[-4], [-4, 0]]
LC_2 = [[-1, 0, 0], []]
LC_3 = [[1], [], [-1, 0, 0]]
LC = [LC_1, LC_2, LC_3]
assert zzX_wang_lead_coeffs(f, V, cu, E, H, A) == (f, H, LC)
H_1 = [[44L, 42L, 1L], [126L, -9L, 28L], [187L, 0L, -23L]]
C_1 = [-70686, -5863, -17826, 2009, 5031, 74]
H_2 = [[[-4, -12], [-3, 0], [1]], [[-9, 0], [-9], [-2, 0]],
[[1, 0, -9], [], [1, -9]]]
C_2 = [[9, 12, -45, -108, -324], [18, -216, -810, 0],
[2, 9, -252, -288, -945], [-30, -414, 0], [2, -54, -3, 81], [12, 0]]
H_3 = [[[-4, -12], [-3, 0], [1]], [[-9, 0], [-9], [-2, 0]],
[[1, 0, -9], [], [1, -9]]]
C_3 = [[-36, -108, 0], [-27, -36, -108], [-8, -42, 0], [-6, 0, 9], [2, 0]]
T_1 = [[-3, 0], [-2], [1]]
T_2 = [[[-1, 0], []], [[-3], []], [[-6]]]
T_3 = [[[]], [[]], [[-1]]]
assert zzX_diophantine(H_1, C_1, [], 5, p) == T_1
assert zzX_diophantine(H_2, C_2, [-14], 5, p) == T_2
assert zzX_diophantine(H_3, C_3, [-14], 5, p) == T_3
factors = zzX_wang_hensel_lifting(f, H, LC, A, p)
f_1 = zzX_to_poly(factors[0], x, y, z)
f_2 = zzX_to_poly(factors[1], x, y, z)
f_3 = zzX_to_poly(factors[2], x, y, z)
assert f_1 == -(4 * (y + z) * x**2 + x * y * z - 1).as_poly(x, y, z)
assert f_2 == -(y * z**2 * x**2 + 3 * x * z + 2 * y).as_poly(x, y, z)
assert f_3 == ((y**2 - z**2) * x**2 + y - z**2).as_poly(x, y, z)
assert f_1 * f_2 * f_3 == W_1
