def test_meijerg(): # carefully set up the parameters. # NOTE: this used to fail sometimes. I believe it is fixed, but if you # hit an inexplicable test failure here, please let me know the seed. a1, a2 = map(lambda n: randcplx() - 5*I - n*I, range(2)) b1, b2 = map(lambda n: randcplx() + 5*I + n*I, range(2)) b3, b4, b5, a3, a4, a5 = map(lambda n: randcplx(), range(6)) g = meijerg([a1], [a3, a4], [b1], [b3, b4], z) assert ReduceOrder.meijer_minus(3, 4) is None assert ReduceOrder.meijer_plus(4, 3) is None g2 = meijerg([a1, a2], [a3, a4], [b1], [b3, b4, a2], z) assert tn(ReduceOrder.meijer_plus(a2, a2).apply(g, op), g2, z) g2 = meijerg([a1, a2], [a3, a4], [b1], [b3, b4, a2 + 1], z) assert tn(ReduceOrder.meijer_plus(a2, a2 + 1).apply(g, op), g2, z) g2 = meijerg([a1, a2 - 1], [a3, a4], [b1], [b3, b4, a2 + 2], z) assert tn(ReduceOrder.meijer_plus(a2 - 1, a2 + 2).apply(g, op), g2, z) g2 = meijerg([a1], [a3, a4, b2 - 1], [b1, b2 + 2], [b3, b4], z) assert tn(ReduceOrder.meijer_minus(b2 + 2, b2 - 1).apply(g, op), g2, z, tol=1e-6) # test several-step reduction an = [a1, a2] bq = [b3, b4, a2 + 1] ap = [a3, a4, b2 - 1] bm = [b1, b2 + 1] niq, ops = reduce_order_meijer(IndexQuadruple(an, ap, bm, bq)) assert niq.an == (a1,) assert set(niq.ap) == set([a3, a4]) assert niq.bm == (b1,) assert set(niq.bq) == set([b3, b4]) assert tn(apply_operators(g, ops, op), meijerg(an, ap, bm, bq, z), z)
def test_reduction_operators(): a1, a2, b1 = map(lambda n: randcplx(n), range(3)) h = hyper([a1], [b1], z) assert ReduceOrder(2, 0) is None assert ReduceOrder(2, -1) is None assert ReduceOrder(1, S('1/2')) is None h2 = hyper((a1, a2), (b1, a2), z) assert tn(ReduceOrder(a2, a2).apply(h, op), h2, z) h2 = hyper((a1, a2 + 1), (b1, a2), z) assert tn(ReduceOrder(a2 + 1, a2).apply(h, op), h2, z) h2 = hyper((a2 + 4, a1), (b1, a2), z) assert tn(ReduceOrder(a2 + 4, a2).apply(h, op), h2, z) # test several step order reduction ap = (a2 + 4, a1, b1 + 1) bq = (a2, b1, b1) nip, ops = reduce_order(IndexPair(ap, bq)) assert nip.ap == (a1,) assert nip.bq == (b1,) assert tn(apply_operators(h, ops, op), hyper(ap, bq, z), z)
def test_reduction_operators(): a1, a2, b1 = (randcplx(n) for n in range(3)) h = hyper([a1], [b1], z) assert ReduceOrder(2, 0) is None assert ReduceOrder(2, -1) is None assert ReduceOrder(1, S('1/2')) is None h2 = hyper((a1, a2), (b1, a2), z) assert tn(ReduceOrder(a2, a2).apply(h, op), h2, z) h2 = hyper((a1, a2 + 1), (b1, a2), z) assert tn(ReduceOrder(a2 + 1, a2).apply(h, op), h2, z) h2 = hyper((a2 + 4, a1), (b1, a2), z) assert tn(ReduceOrder(a2 + 4, a2).apply(h, op), h2, z) # test several step order reduction ap = (a2 + 4, a1, b1 + 1) bq = (a2, b1, b1) func, ops = reduce_order(Hyper_Function(ap, bq)) assert func.ap == (a1,) assert func.bq == (b1,) assert tn(apply_operators(h, ops, op), hyper(ap, bq, z), z)