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| from mpmath import * | |
| from mpmath.libmp import * | |
| import random | |
| def test_fractional_pow(): | |
| mp.dps = 15 | |
| assert mpf(16) ** 2.5 == 1024 | |
| assert mpf(64) ** 0.5 == 8 | |
| assert mpf(64) ** -0.5 == 0.125 | |
| assert mpf(16) ** -2.5 == 0.0009765625 | |
| assert (mpf(10) ** 0.5).ae(3.1622776601683791) | |
| assert (mpf(10) ** 2.5).ae(316.2277660168379) | |
| assert (mpf(10) ** -0.5).ae(0.31622776601683794) | |
| assert (mpf(10) ** -2.5).ae(0.0031622776601683794) | |
| assert (mpf(10) ** 0.3).ae(1.9952623149688795) | |
| assert (mpf(10) ** -0.3).ae(0.50118723362727224) | |
| def test_pow_integer_direction(): | |
| """ | |
| Test that inexact integer powers are rounded in the right | |
| direction. | |
| """ | |
| random.seed(1234) | |
| for prec in [10, 53, 200]: | |
| for i in range(50): | |
| a = random.randint(1<<(prec-1), 1<<prec) | |
| b = random.randint(2, 100) | |
| ab = a**b | |
| # note: could actually be exact, but that's very unlikely! | |
| assert to_int(mpf_pow(from_int(a), from_int(b), prec, round_down)) < ab | |
| assert to_int(mpf_pow(from_int(a), from_int(b), prec, round_up)) > ab | |
| def test_pow_epsilon_rounding(): | |
| """ | |
| Stress test directed rounding for powers with integer exponents. | |
| Basically, we look at the following cases: | |
| >>> 1.0001 ** -5 # doctest: +SKIP | |
| 0.99950014996500702 | |
| >>> 0.9999 ** -5 # doctest: +SKIP | |
| 1.000500150035007 | |
| >>> (-1.0001) ** -5 # doctest: +SKIP | |
| -0.99950014996500702 | |
| >>> (-0.9999) ** -5 # doctest: +SKIP | |
| -1.000500150035007 | |
| >>> 1.0001 ** -6 # doctest: +SKIP | |
| 0.99940020994401269 | |
| >>> 0.9999 ** -6 # doctest: +SKIP | |
| 1.0006002100560125 | |
| >>> (-1.0001) ** -6 # doctest: +SKIP | |
| 0.99940020994401269 | |
| >>> (-0.9999) ** -6 # doctest: +SKIP | |
| 1.0006002100560125 | |
| etc. | |
| We run the tests with values a very small epsilon away from 1: | |
| small enough that the result is indistinguishable from 1 when | |
| rounded to nearest at the output precision. We check that the | |
| result is not erroneously rounded to 1 in cases where the | |
| rounding should be done strictly away from 1. | |
| """ | |
| def powr(x, n, r): | |
| return make_mpf(mpf_pow_int(x._mpf_, n, mp.prec, r)) | |
| for (inprec, outprec) in [(100, 20), (5000, 3000)]: | |
| mp.prec = inprec | |
| pos10001 = mpf(1) + mpf(2)**(-inprec+5) | |
| pos09999 = mpf(1) - mpf(2)**(-inprec+5) | |
| neg10001 = -pos10001 | |
| neg09999 = -pos09999 | |
| mp.prec = outprec | |
| r = round_up | |
| assert powr(pos10001, 5, r) > 1 | |
| assert powr(pos09999, 5, r) == 1 | |
| assert powr(neg10001, 5, r) < -1 | |
| assert powr(neg09999, 5, r) == -1 | |
| assert powr(pos10001, 6, r) > 1 | |
| assert powr(pos09999, 6, r) == 1 | |
| assert powr(neg10001, 6, r) > 1 | |
| assert powr(neg09999, 6, r) == 1 | |
| assert powr(pos10001, -5, r) == 1 | |
| assert powr(pos09999, -5, r) > 1 | |
| assert powr(neg10001, -5, r) == -1 | |
| assert powr(neg09999, -5, r) < -1 | |
| assert powr(pos10001, -6, r) == 1 | |
| assert powr(pos09999, -6, r) > 1 | |
| assert powr(neg10001, -6, r) == 1 | |
| assert powr(neg09999, -6, r) > 1 | |
| r = round_down | |
| assert powr(pos10001, 5, r) == 1 | |
| assert powr(pos09999, 5, r) < 1 | |
| assert powr(neg10001, 5, r) == -1 | |
| assert powr(neg09999, 5, r) > -1 | |
| assert powr(pos10001, 6, r) == 1 | |
| assert powr(pos09999, 6, r) < 1 | |
| assert powr(neg10001, 6, r) == 1 | |
| assert powr(neg09999, 6, r) < 1 | |
| assert powr(pos10001, -5, r) < 1 | |
| assert powr(pos09999, -5, r) == 1 | |
| assert powr(neg10001, -5, r) > -1 | |
| assert powr(neg09999, -5, r) == -1 | |
| assert powr(pos10001, -6, r) < 1 | |
| assert powr(pos09999, -6, r) == 1 | |
| assert powr(neg10001, -6, r) < 1 | |
| assert powr(neg09999, -6, r) == 1 | |
| r = round_ceiling | |
| assert powr(pos10001, 5, r) > 1 | |
| assert powr(pos09999, 5, r) == 1 | |
| assert powr(neg10001, 5, r) == -1 | |
| assert powr(neg09999, 5, r) > -1 | |
| assert powr(pos10001, 6, r) > 1 | |
| assert powr(pos09999, 6, r) == 1 | |
| assert powr(neg10001, 6, r) > 1 | |
| assert powr(neg09999, 6, r) == 1 | |
| assert powr(pos10001, -5, r) == 1 | |
| assert powr(pos09999, -5, r) > 1 | |
| assert powr(neg10001, -5, r) > -1 | |
| assert powr(neg09999, -5, r) == -1 | |
| assert powr(pos10001, -6, r) == 1 | |
| assert powr(pos09999, -6, r) > 1 | |
| assert powr(neg10001, -6, r) == 1 | |
| assert powr(neg09999, -6, r) > 1 | |
| r = round_floor | |
| assert powr(pos10001, 5, r) == 1 | |
| assert powr(pos09999, 5, r) < 1 | |
| assert powr(neg10001, 5, r) < -1 | |
| assert powr(neg09999, 5, r) == -1 | |
| assert powr(pos10001, 6, r) == 1 | |
| assert powr(pos09999, 6, r) < 1 | |
| assert powr(neg10001, 6, r) == 1 | |
| assert powr(neg09999, 6, r) < 1 | |
| assert powr(pos10001, -5, r) < 1 | |
| assert powr(pos09999, -5, r) == 1 | |
| assert powr(neg10001, -5, r) == -1 | |
| assert powr(neg09999, -5, r) < -1 | |
| assert powr(pos10001, -6, r) < 1 | |
| assert powr(pos09999, -6, r) == 1 | |
| assert powr(neg10001, -6, r) < 1 | |
| assert powr(neg09999, -6, r) == 1 | |
| mp.dps = 15 | |