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t_vars.py
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t_vars.py
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"""Test VarKey, Variable, VectorVariable, and ArrayVariable classes"""
import sys
import unittest
import numpy as np
from gpkit import (Monomial, NomialArray, Variable, VarKey,
VectorVariable, ArrayVariable, Vectorize)
import gpkit
from gpkit.nomials import Variable as PlainVariable
class TestVarKey(unittest.TestCase):
"""TestCase for the VarKey class"""
def test_init(self):
"""Test VarKey initialization"""
# test no-name init
_ = ArrayVariable(1)
# test protected field
with self.assertRaises(ValueError):
_ = ArrayVariable(1, idx=5)
# test type
x = VarKey('x')
self.assertEqual(type(x), VarKey)
# test no args
x = VarKey()
self.assertEqual(type(x), VarKey)
y = VarKey(**x.descr)
self.assertEqual(x, y)
# test special 'name' keyword overwriting behavior
x = VarKey('x', flavour='vanilla')
self.assertEqual(x.name, 'x')
x = VarKey(name='x')
self.assertEqual(x.name, 'x')
# pylint: disable=redundant-keyword-arg
self.assertRaises(TypeError, lambda: VarKey('x', name='y'))
self.assertIsInstance(x.latex(), str)
self.assertIsInstance(x.latex_unitstr(), str)
# test index latex printing
y = VectorVariable(2, "y")
self.assertEqual(y[0].key.latex(), "{\\vec{y}}_{0}")
def test_ast(self): # pylint: disable=too-many-statements
if sys.platform[:3] == "win": # pragma: no cover
return
t = Variable("t")
u = Variable("u")
v = Variable("v")
w = Variable("w")
x = VectorVariable(3, "x")
y = VectorVariable(3, "y")
z = VectorVariable(3, "z")
a = VectorVariable((3, 2), "a")
# print(w >= x) # TODO: this always prints the vector on the left
self.assertEqual(str(3*(x + y)*z), "3·(x[:] + y[:])·z[:]")
nni = 3
ii = np.tile(np.arange(1, nni+1), a.shape[1:]+(1,)).T
self.assertEqual(str(w*NomialArray(ii)/nni)[:4], "w·[[")
self.assertEqual(str(w*NomialArray(ii)/nni)[-4:], "]]/3")
self.assertEqual(str(NomialArray(ii)*w/nni)[:2], "[[")
self.assertEqual(str(NomialArray(ii)*w/nni)[-6:], "]]·w/3")
self.assertEqual(str(w*ii/nni)[:4], "w·[[")
self.assertEqual(str(w*ii/nni)[-4:], "]]/3")
self.assertEqual(str(w*(ii/nni))[:4], "w·[[")
self.assertEqual(str(w*(ii/nni))[-2:], "]]")
self.assertEqual(str(w >= (x[0]*t + x[1]*u)/v),
"w >= (x[0]·t + x[1]·u)/v")
self.assertEqual(str(x), "x[:]")
self.assertEqual(str(x*2), "x[:]·2")
self.assertEqual(str(2*x), "2·x[:]")
self.assertEqual(str(x + 2), "x[:] + 2")
self.assertEqual(str(2 + x), "2 + x[:]")
self.assertEqual(str(x/2), "x[:]/2")
self.assertEqual(str(2/x), "2/x[:]")
self.assertEqual(str(x**3), "x[:]³")
self.assertEqual(str(-x), "-x[:]")
self.assertEqual(str(x/y/z), "x[:]/y[:]/z[:]")
self.assertEqual(str(x/(y/z)), "x[:]/(y[:]/z[:])")
self.assertEqual(str(x >= y), "x[:] >= y[:]")
self.assertEqual(str(x >= y + z), "x[:] >= y[:] + z[:]")
self.assertEqual(str(x[:2]), "x[:2]")
self.assertEqual(str(x[:]), "x[:]")
self.assertEqual(str(x[1:]), "x[1:]")
self.assertEqual(str(y * [1, 2, 3]), "y[:]·[1, 2, 3]")
self.assertEqual(str(x[:2] == (y*[1, 2, 3])[:2]),
"x[:2] = (y[:]·[1, 2, 3])[:2]")
self.assertEqual(str(y + [1, 2, 3]), "y[:] + [1, 2, 3]")
self.assertEqual(str(x == y + [1, 2, 3]), "x[:] = y[:] + [1, 2, 3]")
self.assertEqual(str(x >= y + [1, 2, 3]), "x[:] >= y[:] + [1, 2, 3]")
self.assertEqual(str(a[:, 0]), "a[:,0]")
self.assertEqual(str(a[2, :]), "a[2,:]")
g = 1 + 3*a[2, 0]**2
gstrbefore = str(g)
g.ast = None
gstrafter = str(g)
self.assertEqual(gstrbefore, gstrafter)
def test_eq_neq(self):
"""Test boolean equality operators"""
# no args
vk1 = VarKey()
vk2 = VarKey()
self.assertTrue(vk1 != vk2)
self.assertFalse(vk1 == vk2)
self.assertEqual(vk1, vk1)
V = VarKey('V')
vel = VarKey('V')
self.assertTrue(V == vel)
self.assertFalse(V != vel)
self.assertEqual(vel, vel)
x1 = Variable("x", 3, "m")
x2 = Variable("x", 2, "ft")
x3 = Variable("x", 2, "m")
self.assertNotEqual(x2.key, x3.key)
self.assertEqual(x1.key, x3.key)
def test_repr(self):
"""Test __repr__ method"""
for k in ('x', '$x$', 'var_name', 'var name', r"\theta", r'$\pi_{10}$'):
var = VarKey(k)
self.assertEqual(repr(var), k)
def test_dict_key(self):
"""make sure variables are well-behaved dict keys"""
v = VarKey()
x = VarKey('$x$')
d = {v: 1273, x: 'foo'}
self.assertEqual(d[v], 1273)
self.assertEqual(d[x], 'foo')
d = {VarKey(): None, VarKey(): 12}
self.assertEqual(len(d), 2)
def test_units_attr(self):
"""Make sure VarKey objects have a units attribute"""
x = VarKey('x')
for vk in (VarKey(), x, VarKey(**x.descr), VarKey(units='m')):
self.assertTrue("units" in vk.descr)
class TestVariable(unittest.TestCase):
"""TestCase for the Variable class"""
def test_init(self):
"""Test Variable initialization"""
v = Variable('v')
self.assertTrue(isinstance(v, PlainVariable))
self.assertTrue(isinstance(v, Monomial))
# test that operations on Variable cast to Monomial
self.assertTrue(isinstance(3*v, Monomial))
self.assertFalse(isinstance(3*v, PlainVariable))
def test_value(self):
"""Detailed tests for value kwarg of __init__"""
a = Variable('a')
b = Variable('b', value=4)
c = a**2 + b
self.assertEqual(b.value, 4)
self.assertTrue(isinstance(b.value, float))
p1 = c.value
p2 = a**2 + 4
self.assertEqual(p1, p2)
self.assertEqual(a.value, a)
def test_hash(self):
x1 = Variable("x", "-", "first x")
x2 = Variable("x", "-", "second x")
self.assertEqual(hash(x1), hash(x2))
p1 = Variable("p", "psi", "first pressure")
p2 = Variable("p", "psi", "second pressure")
self.assertEqual(hash(p1), hash(p2))
xu = Variable("x", "m", "x with units")
self.assertNotEqual(hash(x1), hash(xu))
def test_unit_parsing(self):
x = Variable("x", "s^0.5/m^0.5")
y = Variable("y", "(m/s)^-0.5")
self.assertEqual(x.units, y.units)
def test_to(self):
x = Variable("x", "ft")
self.assertEqual(x.to("inch").c.magnitude, 12)
def test_eq_ne(self):
# test for #1138
W = Variable("W", 5, "lbf", "weight of 1 bag of sugar")
self.assertTrue(W != W.key)
self.assertTrue(W.key != W)
self.assertFalse(W == W.key)
self.assertFalse(W.key == W)
class TestVectorVariable(unittest.TestCase):
"""TestCase for the VectorVariable class.
Note: more relevant tests in t_posy_array."""
def test_init(self):
"""Test VectorVariable initialization"""
# test 1
n = 3
v = VectorVariable(n, 'v', label='dummy variable')
self.assertTrue(isinstance(v, NomialArray))
v_mult = 3*v
for i in range(n):
self.assertTrue(isinstance(v[i], PlainVariable))
self.assertTrue(isinstance(v[i], Monomial))
# test that operations on Variable cast to Monomial
self.assertTrue(isinstance(v_mult[i], Monomial))
self.assertFalse(isinstance(v_mult[i], PlainVariable))
# test 2
x = VectorVariable(3, 'x', label='dummy variable')
x_0 = Variable('x', idx=(0,), shape=(3,), label='dummy variable')
x_1 = Variable('x', idx=(1,), shape=(3,), label='dummy variable')
x_2 = Variable('x', idx=(2,), shape=(3,), label='dummy variable')
x2 = NomialArray([x_0, x_1, x_2])
self.assertEqual(x, x2)
# test inspired by issue 137
N = 20
x_arr = np.arange(0, 5, 5/N) + 1e-6
x = VectorVariable(N, 'x', x_arr, 'm', "Beam Location")
with self.assertRaises(ValueError):
_ = VectorVariable(2, "x", [1, 2, 3])
with Vectorize(2):
x = VectorVariable(3, "x", np.array([13, 15, 17]))
self.assertEqual(x[0, 0].value, 13)
self.assertEqual(x[1, 0].value, 15)
self.assertEqual(x[2, 0].value, 17)
self.assertEqual(x[0, 0].value, x[0, 1].value)
self.assertEqual(x[1, 0].value, x[1, 1].value)
self.assertEqual(x[2, 0].value, x[2, 1].value)
def test_constraint_creation_units(self):
v = VectorVariable(2, "v", "m/s")
c = (v >= 40*gpkit.units("ft/s"))
c2 = (v >= np.array([20, 30])*gpkit.units("ft/s"))
self.assertTrue(c.right.units)
self.assertTrue(NomialArray(c2.right).units)
class TestArrayVariable(unittest.TestCase):
"""TestCase for the ArrayVariable class"""
def test_is_vector_variable(self):
"""
Make sure ArrayVariable is a shortcut to VectorVariable
(we want to know if this changes).
"""
self.assertTrue(ArrayVariable is VectorVariable)
def test_str(self):
"""Make sure string looks something like a numpy array"""
x = ArrayVariable((2, 4), 'x')
self.assertEqual(str(x), "x[:]")
class TestVectorize(unittest.TestCase):
"""TestCase for gpkit.vectorize"""
def test_shapes(self):
with gpkit.Vectorize(3):
with gpkit.Vectorize(5):
y = gpkit.Variable("y")
x = gpkit.VectorVariable(2, "x")
z = gpkit.VectorVariable(7, "z")
self.assertEqual(y.shape, (5, 3))
self.assertEqual(x.shape, (2, 5, 3))
self.assertEqual(z.shape, (7, 3))
TESTS = [TestVarKey, TestVariable, TestVectorVariable, TestArrayVariable,
TestVectorize]
if __name__ == "__main__": # pragma: no cover
# pylint: disable=wrong-import-position
from gpkit.tests.helpers import run_tests
run_tests(TESTS)