class TestBlockVector(unittest.TestCase):
def test_constructor(self):
v = BlockVector(2)
self.assertEqual(v.nblocks, 2)
self.assertEqual(v.bshape, (2, ))
with self.assertRaises(NotFullyDefinedBlockVectorError):
v_size = v.size
v.set_block(0, np.ones(2))
v.set_block(1, np.ones(4))
self.assertEqual(v.size, 6)
self.assertEqual(v.shape, (6, ))
with self.assertRaises(AssertionError):
v.set_block(0, None)
with self.assertRaises(Exception) as context:
BlockVector('hola')
def setUp(self):
self.ones = BlockVector(3)
self.list_sizes_ones = [2, 4, 3]
for idx, s in enumerate(self.list_sizes_ones):
self.ones.set_block(idx, np.ones(s))
def test_block_sizes(self):
self.assertListEqual(self.ones.block_sizes().tolist(),
self.list_sizes_ones)
def test_dot(self):
v1 = self.ones
self.assertEqual(v1.dot(v1), v1.size)
v2 = v1.clone(3.3)
self.assertAlmostEqual(v1.dot(v2), v1.size * 3.3)
self.assertAlmostEqual(v2.dot(v1.flatten()), v1.size * 3.3)
with self.assertRaises(Exception) as context:
v1.dot(1.0)
def test_mean(self):
flat_v = np.ones(self.ones.size)
v = self.ones
self.assertEqual(v.mean(), flat_v.mean())
v = BlockVector(2)
with self.assertRaises(NotFullyDefinedBlockVectorError):
v_mean = v.mean()
def test_sum(self):
self.assertEqual(self.ones.sum(), self.ones.size)
v = BlockVector(2)
v.set_block(0, np.arange(5))
v.set_block(1, np.arange(9))
self.assertEqual(v.sum(), 46)
def test_all(self):
v = BlockVector(2)
a = np.ones(5)
b = np.ones(3)
v.set_block(0, a)
v.set_block(1, b)
self.assertTrue(v.all())
v = BlockVector(2)
a = np.zeros(5)
b = np.zeros(3)
v.set_block(0, a)
v.set_block(1, b)
self.assertFalse(v.all())
def test_any(self):
v = BlockVector(2)
a = np.zeros(5)
b = np.ones(3)
v.set_block(0, a)
v.set_block(1, b)
self.assertTrue(v.any())
v = BlockVector(2)
a = np.zeros(5)
b = np.zeros(3)
v.set_block(0, a)
v.set_block(1, b)
self.assertFalse(v.any())
def test_argpartition(self):
v = self.ones
self.assertRaises(NotImplementedError, v.argpartition, 1)
def test_argsort(self):
v = self.ones
self.assertRaises(NotImplementedError, v.argsort)
def test_astype(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.astype(np.int, copy=False)
vv = v.astype(np.int)
self.assertEqual(vv.nblocks, v.nblocks)
for blk in vv:
self.assertEqual(blk.dtype, np.int)
def test_byteswap(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
v.byteswap()
def test_choose(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
v.choose(1)
def test_clip(self):
v = BlockVector(3)
v2 = BlockVector(3)
a = np.zeros(5)
b = np.ones(3) * 5.0
c = np.ones(3) * 10.0
v.set_block(0, a)
v.set_block(1, b)
v.set_block(2, c)
v2.set_block(0, np.ones(5) * 4.0)
v2.set_block(1, np.ones(3) * 5.0)
v2.set_block(2, np.ones(3) * 9.0)
vv = v.clip(4.0, 9.0)
self.assertEqual(vv.nblocks, v.nblocks)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v2.get_block(bid)))
def test_compress(self):
v = self.ones
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
c = v.compress(v < 1)
v2 = BlockVector(2)
b = np.zeros(9)
v2.set_block(0, np.ones(0))
v2.set_block(1, b)
self.assertEqual(c.nblocks, v.nblocks)
for bid, blk in enumerate(c):
self.assertTrue(np.allclose(blk, v2.get_block(bid)))
flags = v < 1
c = v.compress(flags.flatten())
self.assertEqual(c.nblocks, v.nblocks)
for bid, blk in enumerate(c):
self.assertTrue(np.allclose(blk, v2.get_block(bid)))
with self.assertRaises(Exception) as context:
v.compress(1.0)
def test_nonzero(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
n = v.nonzero()
v2 = BlockVector(2)
v2.set_block(0, np.arange(5))
v2.set_block(1, np.zeros(0))
self.assertEqual(n[0].nblocks, v.nblocks)
for bid, blk in enumerate(n[0]):
self.assertTrue(np.allclose(blk, v2.get_block(bid)))
def test_ptp(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v.set_block(0, a)
v.set_block(1, b)
vv = np.arange(9)
self.assertEqual(vv.ptp(), v.ptp())
def test_round(self):
v = BlockVector(2)
a = np.ones(5) * 1.1
b = np.ones(9) * 1.1
v.set_block(0, a)
v.set_block(1, b)
vv = v.round()
self.assertEqual(vv.nblocks, v.nblocks)
a = np.ones(5)
b = np.ones(9)
v.set_block(0, a)
v.set_block(1, b)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_std(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v.set_block(0, a)
v.set_block(1, b)
vv = np.concatenate([a, b])
self.assertEqual(vv.std(), v.std())
def test_conj(self):
v = self.ones
vv = v.conj()
self.assertEqual(vv.nblocks, v.nblocks)
self.assertEqual(vv.shape, v.shape)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_conjugate(self):
v = self.ones
vv = v.conjugate()
self.assertEqual(vv.nblocks, v.nblocks)
self.assertEqual(vv.shape, v.shape)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_diagonal(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.diagonal()
def test_getfield(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.getfield(1)
def test_item(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.item(1)
def test_itemset(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.itemset(1)
def test_newbyteorder(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.newbyteorder()
def test_partition(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.partition(1)
def test_repeat(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.repeat(1)
def test_reshape(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.reshape(1)
def test_resize(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.resize(1)
def test_searchsorted(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.searchsorted(1)
def test_setfield(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.setfield(1, 1)
def test_setflags(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.setflags()
def test_sort(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.sort()
def test_squeeze(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.squeeze()
def test_swapaxes(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.swapaxes(1, 1)
def test_tobytes(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.tobytes()
def test_trace(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.trace()
def test_prod(self):
self.assertEqual(self.ones.prod(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v.set_block(0, a)
v.set_block(1, b)
self.assertEqual(v.prod(), c.prod())
def test_max(self):
self.assertEqual(self.ones.max(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v.set_block(0, a)
v.set_block(1, b)
self.assertEqual(v.max(), c.max())
def test_min(self):
self.assertEqual(self.ones.min(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v.set_block(0, a)
v.set_block(1, b)
self.assertEqual(v.min(), c.min())
def test_tolist(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v.set_block(0, a)
v.set_block(1, b)
self.assertListEqual(v.tolist(), c.tolist())
def test_flatten(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v.set_block(0, a)
v.set_block(1, b)
self.assertListEqual(v.flatten().tolist(), c.tolist())
def test_fill(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v.set_block(0, a)
v.set_block(1, b)
v.fill(1.0)
c = np.ones(v.size)
self.assertListEqual(v.tolist(), c.tolist())
def test_shape(self):
size = sum(self.list_sizes_ones)
self.assertEqual(self.ones.shape, (size, ))
def test_bshape(self):
self.assertEqual(self.ones.bshape, (3, ))
def test_size(self):
size = sum(self.list_sizes_ones)
self.assertEqual(self.ones.size, size)
def test_length(self):
size = sum(self.list_sizes_ones)
self.assertEqual(len(self.ones), self.ones.nblocks)
def test_argmax(self):
v = BlockVector(3)
a = np.array([3, 2, 1])
v.set_block(0, a.copy())
v.set_block(1, a.copy())
v.set_block(2, a.copy())
v.get_block(1)[1] = 5
argmax = v.argmax()
self.assertEqual(argmax, 4)
def test_argmin(self):
v = BlockVector(3)
a = np.array([3, 2, 1])
v.set_block(0, a.copy())
v.set_block(1, a.copy())
v.set_block(2, a.copy())
v.get_block(1)[1] = -5
argmin = v.argmin()
self.assertEqual(argmin, 4)
def test_cumprod(self):
v = BlockVector(3)
v.set_block(0, np.arange(1, 5))
v.set_block(1, np.arange(5, 10))
v.set_block(2, np.arange(10, 15))
c = np.arange(1, 15)
res = v.cumprod()
self.assertIsInstance(res, BlockVector)
self.assertEqual(v.nblocks, res.nblocks)
self.assertTrue(np.allclose(c.cumprod(), res.flatten()))
def test_cumsum(self):
v = BlockVector(3)
v.set_block(0, np.arange(1, 5))
v.set_block(1, np.arange(5, 10))
v.set_block(2, np.arange(10, 15))
c = np.arange(1, 15)
res = v.cumsum()
self.assertIsInstance(res, BlockVector)
self.assertEqual(v.nblocks, res.nblocks)
self.assertTrue(np.allclose(c.cumsum(), res.flatten()))
def test_clone(self):
v = self.ones
w = v.clone()
self.assertListEqual(w.tolist(), v.tolist())
x = v.clone(4)
self.assertListEqual(x.tolist(), [4] * v.size)
y = x.clone(copy=False)
y.get_block(2)[-1] = 6
d = np.ones(y.size) * 4
d[-1] = 6
self.assertListEqual(y.tolist(), d.tolist())
self.assertListEqual(x.tolist(), d.tolist())
def test_add(self):
v = self.ones
v1 = self.ones
result = v + v1
self.assertListEqual(result.tolist(), [2] * v.size)
result = v + 2
self.assertListEqual(result.tolist(), [3] * v.size)
result = v + v1.flatten()
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() + v1.flatten()))
with self.assertRaises(Exception) as context:
result = v + 'hola'
def test_radd(self):
v = self.ones
v1 = self.ones
result = v + v1
self.assertListEqual(result.tolist(), [2] * v.size)
result = 2 + v
self.assertListEqual(result.tolist(), [3] * v.size)
result = v.flatten() + v1
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() + v1.flatten()))
def test_sub(self):
v = self.ones
v1 = self.ones
result = v - v1
self.assertListEqual(result.tolist(), [0] * v.size)
result = v - 1.0
self.assertListEqual(result.tolist(), [0] * v.size)
result = v - v1.flatten()
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() - v1.flatten()))
with self.assertRaises(Exception) as context:
result = v - 'hola'
def test_rsub(self):
v = self.ones
v1 = self.ones
result = v1.__rsub__(v)
self.assertListEqual(result.tolist(), [0] * v.size)
result = 1.0 - v
self.assertListEqual(result.tolist(), [0] * v.size)
result = v.flatten() - v1
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() - v1.flatten()))
def test_mul(self):
v = self.ones
v1 = v.clone(5, copy=True)
result = v1 * v
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * 5.0
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * v1.flatten()
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() * v1.flatten()))
with self.assertRaises(Exception) as context:
result = v * 'hola'
def test_rmul(self):
v = self.ones
v1 = v.clone(5, copy=True)
result = v1.__rmul__(v)
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * 5.0
self.assertListEqual(result.tolist(), [5] * v.size)
result = v.flatten() * v1
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() * v1.flatten()))
def test_truediv(self):
v = self.ones
v1 = v.clone(5.0, copy=True)
result = v / v1
self.assertListEqual(result.tolist(), [1.0 / 5.0] * v.size)
result = v / v1.flatten()
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() / v1.flatten()))
result = 5.0 / v1
self.assertTrue(np.allclose(result.flatten(), v.flatten()))
result = v1 / 5.0
self.assertTrue(np.allclose(result.flatten(), v.flatten()))
def test_rtruediv(self):
v = self.ones
v1 = v.clone(5.0, copy=True)
result = v1.__rtruediv__(v)
self.assertListEqual(result.tolist(), [1.0 / 5.0] * v.size)
result = v.flatten() / v1
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() / v1.flatten()))
result = 5.0 / v1
self.assertTrue(np.allclose(result.flatten(), v.flatten()))
result = v1 / 5.0
self.assertTrue(np.allclose(result.flatten(), v.flatten()))
def test_floordiv(self):
v = self.ones
v.fill(2.0)
v1 = v.clone(5.0, copy=True)
result = v1 // v
self.assertListEqual(result.tolist(), [5.0 // 2.0] * v.size)
result = v // v1.flatten()
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() // v1.flatten()))
def test_rfloordiv(self):
v = self.ones
v.fill(2.0)
v1 = v.clone(5.0, copy=True)
result = v.__rfloordiv__(v1)
self.assertListEqual(result.tolist(), [5.0 // 2.0] * v.size)
result = v.flatten() // v1
self.assertTrue(
np.allclose(result.flatten(),
v.flatten() // v1.flatten()))
result = 2.0 // v1
self.assertTrue(np.allclose(result.flatten(), np.zeros(v1.size)))
result = v1 // 2.0
self.assertTrue(np.allclose(result.flatten(), np.ones(v1.size) * 2.0))
def test_iadd(self):
v = self.ones
v += 3
self.assertListEqual(v.tolist(), [4] * v.size)
v.fill(1.0)
v += v
self.assertListEqual(v.tolist(), [2] * v.size)
v.fill(1.0)
v += np.ones(v.size) * 3
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size) * 4))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v += 1.0
self.assertTrue(np.allclose(v.get_block(0), a_copy + 1))
self.assertTrue(np.allclose(v.get_block(1), b_copy + 1))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
v2.set_block(0, np.ones(5))
v2.set_block(1, np.ones(9))
v += v2
self.assertTrue(np.allclose(v.get_block(0), a_copy + 1))
self.assertTrue(np.allclose(v.get_block(1), b_copy + 1))
self.assertTrue(np.allclose(v2.get_block(0), np.ones(5)))
self.assertTrue(np.allclose(v2.get_block(1), np.ones(9)))
with self.assertRaises(Exception) as context:
v += 'hola'
def test_isub(self):
v = self.ones
v -= 3
self.assertListEqual(v.tolist(), [-2] * v.size)
v.fill(1.0)
v -= v
self.assertListEqual(v.tolist(), [0] * v.size)
v.fill(1.0)
v -= np.ones(v.size) * 3
self.assertTrue(np.allclose(v.flatten(), -np.ones(v.size) * 2))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v -= 5.0
self.assertTrue(np.allclose(v.get_block(0), a_copy - 5.0))
self.assertTrue(np.allclose(v.get_block(1), b_copy - 5.0))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
v2.set_block(0, np.ones(5))
v2.set_block(1, np.ones(9))
v -= v2
self.assertTrue(np.allclose(v.get_block(0), a_copy - 1))
self.assertTrue(np.allclose(v.get_block(1), b_copy - 1))
self.assertTrue(np.allclose(v2.get_block(0), np.ones(5)))
self.assertTrue(np.allclose(v2.get_block(1), np.ones(9)))
with self.assertRaises(Exception) as context:
v -= 'hola'
def test_imul(self):
v = self.ones
v *= 3
self.assertListEqual(v.tolist(), [3] * v.size)
v.fill(1.0)
v *= v
self.assertListEqual(v.tolist(), [1] * v.size)
v.fill(1.0)
v *= np.ones(v.size) * 2
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size) * 2))
v = BlockVector(2)
a = np.ones(5)
b = np.arange(9, dtype=np.float64)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v *= 2.0
self.assertTrue(np.allclose(v.get_block(0), a_copy * 2.0))
self.assertTrue(np.allclose(v.get_block(1), b_copy * 2.0))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
v2.set_block(0, np.ones(5) * 2)
v2.set_block(1, np.ones(9) * 2)
v *= v2
self.assertTrue(np.allclose(v.get_block(0), a_copy * 2))
self.assertTrue(np.allclose(v.get_block(1), b_copy * 2))
self.assertTrue(np.allclose(v2.get_block(0), np.ones(5) * 2))
self.assertTrue(np.allclose(v2.get_block(1), np.ones(9) * 2))
with self.assertRaises(Exception) as context:
v *= 'hola'
def test_itruediv(self):
v = self.ones
v /= 3
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size) / 3))
v.fill(1.0)
v /= v
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size)))
v.fill(1.0)
v /= np.ones(v.size) * 2
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size) / 2))
v = BlockVector(2)
a = np.ones(5)
b = np.arange(9, dtype=np.float64)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v /= 2.0
self.assertTrue(np.allclose(v.get_block(0), a_copy / 2.0))
self.assertTrue(np.allclose(v.get_block(1), b_copy / 2.0))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
a_copy = a.copy()
b_copy = b.copy()
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
v2.set_block(0, np.ones(5) * 2)
v2.set_block(1, np.ones(9) * 2)
v /= v2
self.assertTrue(np.allclose(v.get_block(0), a_copy / 2))
self.assertTrue(np.allclose(v.get_block(1), b_copy / 2))
self.assertTrue(np.allclose(v2.get_block(0), np.ones(5) * 2))
self.assertTrue(np.allclose(v2.get_block(1), np.ones(9) * 2))
with self.assertRaises(Exception) as context:
v *= 'hola'
def test_getitem(self):
v = self.ones
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v.get_block(i).size, s)
self.assertEqual(v.get_block(i).shape, (s, ))
self.assertListEqual(v.get_block(i).tolist(), np.ones(s).tolist())
def test_setitem(self):
v = self.ones
for i, s in enumerate(self.list_sizes_ones):
v.set_block(i, np.ones(s) * i)
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v.get_block(i).size, s)
self.assertEqual(v.get_block(i).shape, (s, ))
res = np.ones(s) * i
self.assertListEqual(v.get_block(i).tolist(), res.tolist())
def test_set_blocks(self):
v = self.ones
blocks = [np.ones(s) * i for i, s in enumerate(self.list_sizes_ones)]
v.set_blocks(blocks)
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v.get_block(i).size, s)
self.assertEqual(v.get_block(i).shape, (s, ))
res = np.ones(s) * i
self.assertListEqual(v.get_block(i).tolist(), res.tolist())
def test_has_none(self):
v = self.ones
self.assertFalse(v.has_none)
v = BlockVector(3)
v.set_block(0, np.ones(2))
v.set_block(2, np.ones(3))
self.assertTrue(v.has_none)
v.set_block(1, np.ones(2))
self.assertFalse(v.has_none)
def test_copyfrom(self):
v = self.ones
v1 = np.zeros(v.size)
v.copyfrom(v1)
self.assertListEqual(v.tolist(), v1.tolist())
v2 = BlockVector(len(self.list_sizes_ones))
for i, s in enumerate(self.list_sizes_ones):
v2.set_block(i, np.ones(s) * i)
v.copyfrom(v2)
for idx, blk in enumerate(v2):
self.assertListEqual(blk.tolist(), v2.get_block(idx).tolist())
v3 = BlockVector(2)
v4 = v.clone(2)
v3.set_block(0, v4)
v3.set_block(1, np.zeros(3))
self.assertListEqual(v3.tolist(), v4.tolist() + [0] * 3)
def test_copyto(self):
v = self.ones
v2 = BlockVector(len(self.list_sizes_ones))
v.copyto(v2)
self.assertListEqual(v.tolist(), v2.tolist())
v3 = np.zeros(v.size)
v.copyto(v3)
self.assertListEqual(v.tolist(), v3.tolist())
v *= 5
v.copyto(v2)
self.assertListEqual(v.tolist(), v2.tolist())
def test_gt(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v > 0
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
flags = v > np.zeros(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
vv = v.copy()
vv.fill(0.0)
flags = v > vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_ge(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v >= 0
v.set_block(1, b + 1)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
v.set_block(1, b - 1)
flags = v >= np.zeros(v.size)
v.set_block(1, b)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
v.set_block(1, b - 1)
vv = v.copy()
vv.fill(0.0)
flags = v >= vv
v.set_block(1, b)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_lt(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v < 1
v.set_block(0, a - 1)
v.set_block(1, b + 1)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
v.set_block(0, a + 1)
v.set_block(1, b - 1)
flags = v < np.ones(v.size)
v.set_block(0, a - 1)
v.set_block(1, b + 1)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
v.set_block(0, a + 1)
v.set_block(1, b - 1)
vv = v.copy()
vv.fill(1.0)
flags = v < vv
v.set_block(0, a - 1)
v.set_block(1, b + 1)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_le(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v <= 1
v.set_block(1, b + 1)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
flags = v <= v
vv = v.copy()
vv.fill(1.0)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, vv.get_block(bid)))
flags = v <= v.flatten()
vv = v.copy()
vv.fill(1.0)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, vv.get_block(bid)))
def test_eq(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v == 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
flags = v == np.ones(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
vv = v.copy()
vv.fill(1.0)
flags = v == vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_ne(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
flags = v != 0
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
flags = v != np.zeros(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
vv = v.copy()
vv.fill(0.0)
flags = v != vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v.get_block(bid)))
def test_contains(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
self.assertTrue(0 in v)
self.assertFalse(3 in v)
# ToDo: add tests for block vectors with block vectors in them
# ToDo: vector comparisons
def test_copy(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
v2 = v.copy()
self.assertTrue(np.allclose(v.flatten(), v2.flatten()))
def test_copy_structure(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v.set_block(0, a)
v.set_block(1, b)
v2 = v.copy_structure()
self.assertEqual(v.get_block(0).size, v2.get_block(0).size)
self.assertEqual(v.get_block(1).size, v2.get_block(1).size)
def test_unary_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
unary_funcs = [
np.log10, np.sin, np.cos, np.exp, np.ceil, np.floor, np.tan,
np.arctan, np.arcsin, np.arccos, np.sinh, np.cosh, np.abs, np.tanh,
np.arcsinh, np.arctanh, np.fabs, np.sqrt, np.log, np.log2,
np.absolute, np.isfinite, np.isinf, np.isnan, np.log1p,
np.logical_not, np.exp2, np.expm1, np.sign, np.rint, np.square,
np.positive, np.negative, np.rad2deg, np.deg2rad, np.conjugate,
np.reciprocal
]
for fun in unary_funcs:
v2.set_block(0, fun(v.get_block(0)))
v2.set_block(1, fun(v.get_block(1)))
res = fun(v)
self.assertIsInstance(res, BlockVector)
self.assertEqual(res.nblocks, 2)
for i in range(2):
self.assertTrue(np.allclose(res.get_block(i), v2.get_block(i)))
other_funcs = [np.cumsum, np.cumprod, np.cumproduct]
for fun in other_funcs:
res = fun(v)
self.assertIsInstance(res, BlockVector)
self.assertEqual(res.nblocks, 2)
self.assertTrue(np.allclose(fun(v.flatten()), res.flatten()))
with self.assertRaises(Exception) as context:
np.cbrt(v)
def test_reduce_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v.set_block(0, a)
v.set_block(1, b)
reduce_funcs = [np.sum, np.max, np.min, np.prod, np.mean]
for fun in reduce_funcs:
self.assertAlmostEqual(fun(v), fun(v.flatten()))
other_funcs = [np.all, np.any, np.std, np.ptp]
for fun in other_funcs:
self.assertAlmostEqual(fun(v), fun(v.flatten()))
def test_binary_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
a2 = np.ones(3) * 3.0
b2 = np.ones(2) * 2.8
v2.set_block(0, a2)
v2.set_block(1, b2)
binary_ufuncs = [
np.add, np.multiply, np.divide, np.subtract, np.greater,
np.greater_equal, np.less, np.less_equal, np.not_equal, np.maximum,
np.minimum, np.fmax, np.fmin, np.equal, np.logaddexp,
np.logaddexp2, np.remainder, np.heaviside, np.hypot
]
for fun in binary_ufuncs:
flat_res = fun(v.flatten(), v2.flatten())
res = fun(v, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
res = fun(v, v2.flatten())
self.assertTrue(np.allclose(flat_res, res.flatten()))
res = fun(v.flatten(), v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
flat_res = fun(v.flatten(), 5)
res = fun(v, 5)
self.assertTrue(np.allclose(flat_res, res.flatten()))
flat_res = fun(3.0, v2.flatten())
res = fun(3.0, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
v = BlockVector(2)
a = np.ones(3, dtype=bool)
b = np.ones(2, dtype=bool)
v.set_block(0, a)
v.set_block(1, b)
v2 = BlockVector(2)
a2 = np.zeros(3, dtype=bool)
b2 = np.zeros(2, dtype=bool)
v2.set_block(0, a2)
v2.set_block(1, b2)
binary_ufuncs = [np.logical_and, np.logical_or, np.logical_xor]
for fun in binary_ufuncs:
flat_res = fun(v.flatten(), v2.flatten())
res = fun(v, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
def test_min_with_empty_blocks(self):
b = BlockVector(3)
b.set_block(0, np.zeros(3))
b.set_block(1, np.zeros(0))
b.set_block(2, np.zeros(3))
self.assertEqual(b.min(), 0)
def test_max_with_empty_blocks(self):
b = BlockVector(3)
b.set_block(0, np.zeros(3))
b.set_block(1, np.zeros(0))
b.set_block(2, np.zeros(3))
self.assertEqual(b.max(), 0)
class TestBlockVector(unittest.TestCase):
def test_constructor(self):
v = BlockVector(4)
self.assertEqual(v.nblocks, 4)
self.assertEqual(v.bshape, (4,))
self.assertEqual(v.size, 0)
v[0] = np.ones(2)
v[1] = np.ones(4)
self.assertEqual(v.size, 6)
self.assertEqual(v.shape, (6,))
v[0] = None
self.assertEqual(v.size, 4)
self.assertEqual(v.shape, (4,))
self.assertEqual(v.ndim, 1)
with self.assertRaises(Exception) as context:
BlockVector('hola')
def setUp(self):
self.ones = BlockVector(3)
self.list_sizes_ones = [2, 4, 3]
for idx, s in enumerate(self.list_sizes_ones):
self.ones[idx] = np.ones(s)
def test_block_sizes(self):
self.assertListEqual(self.ones.block_sizes().tolist(), self.list_sizes_ones)
def test_dot(self):
v1 = self.ones
self.assertEqual(v1.dot(v1), v1.size)
v2 = v1.clone(3.3)
self.assertAlmostEqual(v1.dot(v2), v1.size*3.3)
self.assertAlmostEqual(v2.dot(v1.flatten()), v1.size*3.3)
with self.assertRaises(Exception) as context:
v1.dot(1.0)
def test_mean(self):
flat_v = np.ones(self.ones.size)
v = self.ones
self.assertEqual(v.mean(), flat_v.mean())
v = BlockVector(2)
self.assertEqual(v.mean(), 0.0)
def test_sum(self):
self.assertEqual(self.ones.sum(), self.ones.size)
v = BlockVector(2)
v[0] = np.arange(5)
v[1] = np.arange(9)
self.assertEqual(v.sum(), 46)
def test_all(self):
v = BlockVector(2)
a = np.ones(5)
b = np.ones(3)
v[0] = a
v[1] = b
self.assertTrue(v.all())
v = BlockVector(2)
a = np.zeros(5)
b = np.zeros(3)
v[0] = a
v[1] = b
self.assertFalse(v.all())
def test_any(self):
v = BlockVector(2)
a = np.zeros(5)
b = np.ones(3)
v[0] = a
v[1] = b
self.assertTrue(v.any())
v = BlockVector(2)
a = np.zeros(5)
b = np.zeros(3)
v[0] = a
v[1] = b
self.assertFalse(v.any())
def test_argpartition(self):
v = self.ones
self.assertRaises(NotImplementedError, v.argpartition, 1)
def test_argsort(self):
v = self.ones
self.assertRaises(NotImplementedError, v.argsort)
def test_astype(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.astype(np.int, copy=False)
vv = v.astype(np.int)
self.assertEqual(vv.nblocks, v.nblocks)
for blk in vv:
self.assertEqual(blk.dtype, np.int)
def test_byteswap(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
v.byteswap()
def test_choose(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
v.choose(1)
def test_clip(self):
v = BlockVector(3)
v2 = BlockVector(3)
a = np.zeros(5)
b = np.ones(3)*5.0
c = np.ones(3)*10.0
v[0] = a
v[1] = b
v[2] = c
v2[0] = np.ones(5) * 4.0
v2[1] = np.ones(3) * 5.0
v2[2] = np.ones(3) * 9.0
vv = v.clip(4.0, 9.0)
self.assertEqual(vv.nblocks, v.nblocks)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v2[bid]))
with self.assertRaises(NotImplementedError) as ctx:
vv = v.clip(4.0, 9.0, out=v2)
def test_compress(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.compress(1, out=1)
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
c = v.compress(v < 1)
v2 = BlockVector(2)
b = np.zeros(9)
v2[0] = np.ones(0)
v2[1] = b
self.assertEqual(c.nblocks, v.nblocks)
for bid, blk in enumerate(c):
self.assertTrue(np.allclose(blk, v2[bid]))
flags = v < 1
c = v.compress(flags.flatten())
self.assertEqual(c.nblocks, v.nblocks)
for bid, blk in enumerate(c):
self.assertTrue(np.allclose(blk, v2[bid]))
with self.assertRaises(Exception) as context:
v.compress(1.0)
def test_nonzero(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
n = v.nonzero()
v2 = BlockVector(2)
v2[0] = np.arange(5)
v2[1] = np.zeros(0)
self.assertEqual(n[0].nblocks, v.nblocks)
for bid, blk in enumerate(n[0]):
self.assertTrue(np.allclose(blk, v2[bid]))
def test_ptp(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v[0] = a
v[1] = b
vv = np.arange(9)
self.assertEqual(vv.ptp(), v.ptp())
def test_round(self):
v = BlockVector(2)
a = np.ones(5)*1.1
b = np.ones(9)*1.1
v[0] = a
v[1] = b
vv = v.round()
self.assertEqual(vv.nblocks, v.nblocks)
a = np.ones(5)
b = np.ones(9)
v[0] = a
v[1] = b
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v[bid]))
def test_std(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v[0] = a
v[1] = b
vv = np.concatenate([a, b])
self.assertEqual(vv.std(), v.std())
def test_conj(self):
v = self.ones
vv = v.conj()
self.assertEqual(vv.nblocks, v.nblocks)
self.assertEqual(vv.shape, v.shape)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v[bid]))
def test_conjugate(self):
v = self.ones
vv = v.conjugate()
self.assertEqual(vv.nblocks, v.nblocks)
self.assertEqual(vv.shape, v.shape)
for bid, blk in enumerate(vv):
self.assertTrue(np.allclose(blk, v[bid]))
def test_diagonal(self):
v = self.ones
with self.assertRaises(ValueError) as ctx:
vv = v.diagonal()
def test_getfield(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.getfield(1)
def test_item(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.item(1)
def test_itemset(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.itemset(1)
def test_newbyteorder(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.newbyteorder()
def test_partition(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.partition(1)
def test_repeat(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.repeat(1)
def test_reshape(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.reshape(1)
def test_resize(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.resize(1)
def test_searchsorted(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.searchsorted(1)
def test_setfield(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.setfield(1, 1)
def test_setflags(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.setflags()
def test_sort(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.sort()
def test_squeeze(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.squeeze()
def test_swapaxes(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.swapaxes(1, 1)
def test_tobytes(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.tobytes()
def test_trace(self):
v = self.ones
with self.assertRaises(NotImplementedError) as ctx:
vv = v.trace()
def test_prod(self):
self.assertEqual(self.ones.prod(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v[0] = a
v[1] = b
self.assertEqual(v.prod(), c.prod())
def test_max(self):
self.assertEqual(self.ones.max(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v[0] = a
v[1] = b
self.assertEqual(v.max(), c.max())
def test_min(self):
self.assertEqual(self.ones.min(), 1)
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v[0] = a
v[1] = b
self.assertEqual(v.min(), c.min())
def test_tolist(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v[0] = a
v[1] = b
self.assertListEqual(v.tolist(), c.tolist())
def test_flatten(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
c = np.concatenate([a, b])
v[0] = a
v[1] = b
self.assertListEqual(v.flatten().tolist(), c.tolist())
def test_fill(self):
v = BlockVector(2)
a = np.arange(5)
b = np.arange(9)
v[0] = a
v[1] = b
v.fill(1.0)
c = np.ones(v.size)
self.assertListEqual(v.tolist(), c.tolist())
def test_shape(self):
size = sum(self.list_sizes_ones)
self.assertEqual(self.ones.shape, (size,))
def test_bshape(self):
self.assertEqual(self.ones.bshape, (3,))
def test_size(self):
size = sum(self.list_sizes_ones)
self.assertEqual(self.ones.size, size)
def test_argmax(self):
v = BlockVector(2)
v[0] = np.arange(5)
v[1] = np.arange(10, 15)
self.assertEqual(v.argmax(), v.size-1)
def test_argmin(self):
v = BlockVector(2)
v[0] = np.arange(5)
v[1] = np.arange(10, 15)
self.assertEqual(v.argmin(), 0)
def test_cumprod(self):
v = BlockVector(3)
v[0] = np.arange(1, 5)
v[1] = np.arange(5, 10)
v[2] = np.arange(10, 15)
c = np.arange(1, 15)
res = v.cumprod()
self.assertIsInstance(res, BlockVector)
self.assertEqual(v.nblocks, res.nblocks)
self.assertTrue(np.allclose(c.cumprod(), res.flatten()))
def test_cumsum(self):
v = BlockVector(3)
v[0] = np.arange(1, 5)
v[1] = np.arange(5, 10)
v[2] = np.arange(10, 15)
c = np.arange(1, 15)
res = v.cumsum()
self.assertIsInstance(res, BlockVector)
self.assertEqual(v.nblocks, res.nblocks)
self.assertTrue(np.allclose(c.cumsum(), res.flatten()))
def test_clone(self):
v = self.ones
w = v.clone()
self.assertListEqual(w.tolist(), v.tolist())
x = v.clone(4)
self.assertListEqual(x.tolist(), [4]*v.size)
y = x.clone(copy=False)
y[2][-1] = 6
d = np.ones(y.size)*4
d[-1] = 6
self.assertListEqual(y.tolist(), d.tolist())
self.assertListEqual(x.tolist(), d.tolist())
def test_add(self):
v = self.ones
v1 = self.ones
result = v + v1
self.assertListEqual(result.tolist(), [2]*v.size)
result = v + 2
self.assertListEqual(result.tolist(), [3] * v.size)
result = v + v1.flatten()
self.assertTrue(np.allclose(result.flatten(), v.flatten()+v1.flatten()))
with self.assertRaises(Exception) as context:
result = v + 'hola'
def test_radd(self):
v = self.ones
v1 = self.ones
result = v + v1
self.assertListEqual(result.tolist(), [2] * v.size)
result = 2 + v
self.assertListEqual(result.tolist(), [3] * v.size)
result = v.flatten() + v1
self.assertTrue(np.allclose(result.flatten(), v.flatten() + v1.flatten()))
def test_sub(self):
v = self.ones
v1 = self.ones
result = v - v1
self.assertListEqual(result.tolist(), [0] * v.size)
result = v - 1.0
self.assertListEqual(result.tolist(), [0] * v.size)
result = v - v1.flatten()
self.assertTrue(np.allclose(result.flatten(), v.flatten() - v1.flatten()))
with self.assertRaises(Exception) as context:
result = v - 'hola'
def test_rsub(self):
v = self.ones
v1 = self.ones
result = v1.__rsub__(v)
self.assertListEqual(result.tolist(), [0] * v.size)
result = 1.0 - v
self.assertListEqual(result.tolist(), [0] * v.size)
result = v.flatten() - v1
self.assertTrue(np.allclose(result.flatten(), v.flatten() - v1.flatten()))
def test_mul(self):
v = self.ones
v1 = v.clone(5, copy=True)
result = v1 * v
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * 5.0
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * v1.flatten()
self.assertTrue(np.allclose(result.flatten(), v.flatten() * v1.flatten()))
with self.assertRaises(Exception) as context:
result = v * 'hola'
def test_rmul(self):
v = self.ones
v1 = v.clone(5, copy=True)
result = v1.__rmul__(v)
self.assertListEqual(result.tolist(), [5] * v.size)
result = v * 5.0
self.assertListEqual(result.tolist(), [5] * v.size)
result = v.flatten() * v1
self.assertTrue(np.allclose(result.flatten(), v.flatten() * v1.flatten()))
# @unittest.skipIf(sys.version_info < (3, 0), 'not supported in this veresion')
# def test_truediv(self):
# v = self.ones
# v1 = v.clone(5, copy=True)
# result = v / v1
# self.assertListEqual(result.tolist(), [1/5] * v.size)
# result = v / v1.flatten()
# self.assertTrue(np.allclose(result.flatten(), v.flatten() / v1.flatten()))
#
# @unittest.skipIf(sys.version_info < (3, 0), 'not supported in this veresion')
# def test_rtruediv(self):
# v = self.ones
# v1 = v.clone(5, copy=True)
# result = v1.__rtruediv__(v)
# self.assertListEqual(result.tolist(), [1 / 5] * v.size)
# result = v.flatten() / v1
# self.assertTrue(np.allclose(result.flatten(), v.flatten() / v1.flatten()))
#
# def test_floordiv(self):
# v = self.ones
# v.fill(2)
# v1 = v.clone(5, copy=True)
# result = v1 // v
# self.assertListEqual(result.tolist(), [5 // 2] * v.size)
# result = v // v1.flatten()
# self.assertTrue(np.allclose(result.flatten(), v.flatten() // v1.flatten()))
#
# def test_rfloordiv(self):
# v = self.ones
# v.fill(2)
# v1 = v.clone(5, copy=True)
# result = v.__rfloordiv__(v1)
# self.assertListEqual(result.tolist(), [5 // 2] * v.size)
# result = v.flatten() // v1
# self.assertTrue(np.allclose(result.flatten(), v.flatten() // v1.flatten()))
def test_iadd(self):
v = self.ones
v += 3
self.assertListEqual(v.tolist(), [4]*v.size)
v.fill(1.0)
v += v
self.assertListEqual(v.tolist(), [2] * v.size)
v.fill(1.0)
v += np.ones(v.size)*3
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size)*4))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v += 1.0
self.assertTrue(np.allclose(v[0], a + 1))
self.assertTrue(np.allclose(v[1], b + 1))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v2 = BlockVector(2)
v2[0] = np.ones(5)
v2[1] = np.ones(9)
v += v2
self.assertTrue(np.allclose(v[0], a + 1))
self.assertTrue(np.allclose(v[1], b + 1))
self.assertTrue(np.allclose(v2[0], np.ones(5)))
self.assertTrue(np.allclose(v2[1], np.ones(9)))
with self.assertRaises(Exception) as context:
v += 'hola'
def test_isub(self):
v = self.ones
v -= 3
self.assertListEqual(v.tolist(), [-2] * v.size)
v.fill(1.0)
v -= v
self.assertListEqual(v.tolist(), [0] * v.size)
v.fill(1.0)
v -= np.ones(v.size) * 3
self.assertTrue(np.allclose(v.flatten(), -np.ones(v.size) * 2))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v -= 5.0
self.assertTrue(np.allclose(v[0], a - 5.0))
self.assertTrue(np.allclose(v[1], b - 5.0))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v2 = BlockVector(2)
v2[0] = np.ones(5)
v2[1] = np.ones(9)
v -= v2
self.assertTrue(np.allclose(v[0], a - 1))
self.assertTrue(np.allclose(v[1], b - 1))
self.assertTrue(np.allclose(v2[0], np.ones(5)))
self.assertTrue(np.allclose(v2[1], np.ones(9)))
with self.assertRaises(Exception) as context:
v -= 'hola'
def test_imul(self):
v = self.ones
v *= 3
self.assertListEqual(v.tolist(), [3] * v.size)
v.fill(1.0)
v *= v
self.assertListEqual(v.tolist(), [1] * v.size)
v.fill(1.0)
v *= np.ones(v.size) * 2
self.assertTrue(np.allclose(v.flatten(), np.ones(v.size) * 2))
v = BlockVector(2)
a = np.ones(5)
b = np.arange(9)
v[0] = a
v[1] = b
v *= 2.0
self.assertTrue(np.allclose(v[0], a * 2.0))
self.assertTrue(np.allclose(v[1], b * 2.0))
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v2 = BlockVector(2)
v2[0] = np.ones(5) * 2
v2[1] = np.ones(9) * 2
v *= v2
self.assertTrue(np.allclose(v[0], a * 2))
self.assertTrue(np.allclose(v[1], b * 2))
self.assertTrue(np.allclose(v2[0], np.ones(5) * 2))
self.assertTrue(np.allclose(v2[1], np.ones(9) * 2))
with self.assertRaises(Exception) as context:
v *= 'hola'
def test_getitem(self):
v = self.ones
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v[i].size, s)
self.assertEqual(v[i].shape, (s,))
self.assertListEqual(v[i].tolist(), np.ones(s).tolist())
def test_setitem(self):
v = self.ones
for i, s in enumerate(self.list_sizes_ones):
v[i] = np.ones(s) * i
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v[i].size, s)
self.assertEqual(v[i].shape, (s,))
res = np.ones(s) * i
self.assertListEqual(v[i].tolist(), res.tolist())
def test_set_blocks(self):
v = self.ones
blocks = [np.ones(s)*i for i, s in enumerate(self.list_sizes_ones)]
v.set_blocks(blocks)
for i, s in enumerate(self.list_sizes_ones):
self.assertEqual(v[i].size, s)
self.assertEqual(v[i].shape, (s,))
res = np.ones(s) * i
self.assertListEqual(v[i].tolist(), res.tolist())
def test_has_none(self):
v = self.ones
self.assertFalse(v.has_none)
v[0] = None
self.assertTrue(v.has_none)
v[0] = np.ones(2)
self.assertFalse(v.has_none)
def test_copyfrom(self):
v = self.ones
v1 = np.zeros(v.size)
v.copyfrom(v1)
self.assertListEqual(v.tolist(), v1.tolist())
v2 = BlockVector(len(self.list_sizes_ones))
for i, s in enumerate(self.list_sizes_ones):
v2[i] = np.ones(s)*i
v.copyfrom(v2)
for idx, blk in enumerate(v2):
self.assertListEqual(blk.tolist(), v2[idx].tolist())
v3 = BlockVector(2)
v4 = v.clone(2)
v3[0] = v4
v3[1] = np.zeros(3)
self.assertListEqual(v3.tolist(), v4.tolist() + [0]*3)
def test_copyto(self):
v = self.ones
v2 = BlockVector(len(self.list_sizes_ones))
v.copyto(v2)
self.assertListEqual(v.tolist(), v2.tolist())
v3 = np.zeros(v.size)
v.copyto(v3)
self.assertListEqual(v.tolist(), v3.tolist())
v *= 5
v.copyto(v2)
self.assertListEqual(v.tolist(), v2.tolist())
def test_gt(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v > 0
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
flags = v > np.zeros(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
vv = v.copy()
vv.fill(0.0)
flags = v > vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
def test_ge(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v >= 0
v[1] = b + 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
v[1] = b - 1
flags = v >= np.zeros(v.size)
v[1] = b
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
v[1] = b - 1
vv = v.copy()
vv.fill(0.0)
flags = v >= vv
v[1] = b
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
def test_lt(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v < 1
v[0] = a-1
v[1] = b+1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
v[0] = a + 1
v[1] = b - 1
flags = v < np.ones(v.size)
v[0] = a - 1
v[1] = b + 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
v[0] = a + 1
v[1] = b - 1
vv = v.copy()
vv.fill(1.0)
flags = v < vv
v[0] = a - 1
v[1] = b + 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
def test_le(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v <= 1
v[1] = b + 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
flags = v <= v
vv = v.copy()
vv.fill(1.0)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, vv[bid]))
flags = v <= v.flatten()
vv = v.copy()
vv.fill(1.0)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, vv[bid]))
def test_eq(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v == 1
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
flags = v == np.ones(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
vv = v.copy()
vv.fill(1.0)
flags = v == vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
def test_ne(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
flags = v != 0
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
flags = v != np.zeros(v.size)
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
vv = v.copy()
vv.fill(0.0)
flags = v != vv
self.assertEqual(v.nblocks, flags.nblocks)
for bid, blk in enumerate(flags):
self.assertTrue(np.allclose(blk, v[bid]))
def test_contains(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
self.assertTrue(0 in v)
self.assertFalse(3 in v)
# ToDo: add tests for block vectors with block vectors in them
# ToDo: vector comparisons
def test_copy(self):
v = BlockVector(2)
a = np.ones(5)
b = np.zeros(9)
v[0] = a
v[1] = b
v2 = v.copy()
self.assertTrue(np.allclose(v.flatten(), v2.flatten()))
def test_unary_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v[0] = a
v[1] = b
v2 = BlockVector(2)
unary_funcs = [np.log10, np.sin, np.cos, np.exp, np.ceil,
np.floor, np.tan, np.arctan, np.arcsin,
np.arccos, np.sinh, np.cosh, np.abs,
np.tanh, np.arcsinh, np.arctanh,
np.fabs, np.sqrt, np.log, np.log2,
np.absolute, np.isfinite, np.isinf, np.isnan,
np.log1p, np.logical_not, np.exp2, np.expm1,
np.sign, np.rint, np.square, np.positive,
np.negative, np.rad2deg, np.deg2rad,
np.conjugate, np.reciprocal]
for fun in unary_funcs:
v2[0] = fun(v[0])
v2[1] = fun(v[1])
res = fun(v)
self.assertIsInstance(res, BlockVector)
self.assertEqual(res.nblocks, 2)
for i in range(2):
self.assertTrue(np.allclose(res[i], v2[i]))
other_funcs = [np.cumsum, np.cumprod, np.cumproduct]
for fun in other_funcs:
res = fun(v)
self.assertIsInstance(res, BlockVector)
self.assertEqual(res.nblocks, 2)
self.assertTrue(np.allclose(fun(v.flatten()), res.flatten()))
with self.assertRaises(Exception) as context:
np.cbrt(v)
def test_reduce_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v[0] = a
v[1] = b
reduce_funcs = [np.sum, np.max, np.min, np.prod, np.mean]
for fun in reduce_funcs:
self.assertAlmostEqual(fun(v), fun(v.flatten()))
other_funcs = [np.all, np.any, np.std, np.ptp, np.argmax, np.argmin]
for fun in other_funcs:
self.assertAlmostEqual(fun(v), fun(v.flatten()))
def test_binary_ufuncs(self):
v = BlockVector(2)
a = np.ones(3) * 0.5
b = np.ones(2) * 0.8
v[0] = a
v[1] = b
v2 = BlockVector(2)
a2 = np.ones(3) * 3.0
b2 = np.ones(2) * 2.8
v2[0] = a2
v2[1] = b2
binary_ufuncs = [np.add, np.multiply, np.divide, np.subtract,
np.greater, np.greater_equal, np.less,
np.less_equal, np.not_equal,
np.maximum, np.minimum,
np.fmax, np.fmin, np.equal,
np.logaddexp, np.logaddexp2, np.remainder,
np.heaviside, np.hypot]
for fun in binary_ufuncs:
flat_res = fun(v.flatten(), v2.flatten())
res = fun(v, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
res = fun(v, v2.flatten())
self.assertTrue(np.allclose(flat_res, res.flatten()))
res = fun(v.flatten(), v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
flat_res = fun(v.flatten(), 5)
res = fun(v, 5)
self.assertTrue(np.allclose(flat_res, res.flatten()))
flat_res = fun(3.0, v2.flatten())
res = fun(3.0, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
v = BlockVector(2)
a = np.ones(3, dtype=bool)
b = np.ones(2, dtype=bool)
v[0] = a
v[1] = b
v2 = BlockVector(2)
a2 = np.zeros(3, dtype=bool)
b2 = np.zeros(2, dtype=bool)
v2[0] = a2
v2[1] = b2
binary_ufuncs = [np.logical_and, np.logical_or, np.logical_xor]
for fun in binary_ufuncs:
flat_res = fun(v.flatten(), v2.flatten())
res = fun(v, v2)
self.assertTrue(np.allclose(flat_res, res.flatten()))
