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from sympy.core.mul import Mulfrom sympy.core.numbers import Rationalfrom sympy.core.singleton import Sfrom sympy.core.symbol import (Symbol, symbols)from sympy.physics.units import Quantity, length, meterfrom sympy.physics.units.prefixes import PREFIXES, Prefix, prefix_unit, kilo, \ kibifrom sympy.physics.units.systems import SI
x = Symbol('x')
def test_prefix_operations(): m = PREFIXES['m'] k = PREFIXES['k'] M = PREFIXES['M']
dodeca = Prefix('dodeca', 'dd', 1, base=12)
assert m * k == 1 assert k * k == M assert 1 / m == k assert k / m == M
assert dodeca * dodeca == 144 assert 1 / dodeca == S.One / 12 assert k / dodeca == S(1000) / 12 assert dodeca / dodeca == 1
m = Quantity("fake_meter") SI.set_quantity_dimension(m, S.One) SI.set_quantity_scale_factor(m, S.One)
assert dodeca * m == 12 * m assert dodeca / m == 12 / m
expr1 = kilo * 3 assert isinstance(expr1, Mul) assert expr1.args == (3, kilo)
expr2 = kilo * x assert isinstance(expr2, Mul) assert expr2.args == (x, kilo)
expr3 = kilo / 3 assert isinstance(expr3, Mul) assert expr3.args == (Rational(1, 3), kilo) assert expr3.args == (S.One/3, kilo)
expr4 = kilo / x assert isinstance(expr4, Mul) assert expr4.args == (1/x, kilo)
def test_prefix_unit(): m = Quantity("fake_meter", abbrev="m") m.set_global_relative_scale_factor(1, meter)
pref = {"m": PREFIXES["m"], "c": PREFIXES["c"], "d": PREFIXES["d"]}
q1 = Quantity("millifake_meter", abbrev="mm") q2 = Quantity("centifake_meter", abbrev="cm") q3 = Quantity("decifake_meter", abbrev="dm")
SI.set_quantity_dimension(q1, length)
SI.set_quantity_scale_factor(q1, PREFIXES["m"]) SI.set_quantity_scale_factor(q1, PREFIXES["c"]) SI.set_quantity_scale_factor(q1, PREFIXES["d"])
res = [q1, q2, q3]
prefs = prefix_unit(m, pref) assert set(prefs) == set(res) assert set(map(lambda v: v.abbrev, prefs)) == set(symbols("mm,cm,dm"))
def test_bases(): assert kilo.base == 10 assert kibi.base == 2
def test_repr(): assert eval(repr(kilo)) == kilo assert eval(repr(kibi)) == kibi
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