def test_is_scalar_sparse_matrix():
np = import_module('numpy')
if not np:
skip("numpy not installed.")
scipy = import_module('scipy', import_kwargs={'fromlist': ['sparse']})
if not scipy:
skip("scipy not installed.")
numqubits = 2
id_only = False
id_gate = (IdentityGate(1), )
assert is_scalar_sparse_matrix(id_gate, numqubits, id_only) is True
x0 = X(0)
xx_circuit = (x0, x0)
assert is_scalar_sparse_matrix(xx_circuit, numqubits, id_only) is True
x1 = X(1)
y1 = Y(1)
xy_circuit = (x1, y1)
assert is_scalar_sparse_matrix(xy_circuit, numqubits, id_only) is False
z1 = Z(1)
xyz_circuit = (x1, y1, z1)
assert is_scalar_sparse_matrix(xyz_circuit, numqubits, id_only) is True
cnot = CNOT(1, 0)
cnot_circuit = (cnot, cnot)
assert is_scalar_sparse_matrix(cnot_circuit, numqubits, id_only) is True
h = H(0)
hh_circuit = (h, h)
assert is_scalar_sparse_matrix(hh_circuit, numqubits, id_only) is True
# NOTE:
# The elements of the sparse matrix for the following circuit
# is actually 1.0000000000000002+0.0j.
h1 = H(1)
xhzh_circuit = (x1, h1, z1, h1)
assert is_scalar_sparse_matrix(xhzh_circuit, numqubits, id_only) is True
id_only = True
assert is_scalar_sparse_matrix(xhzh_circuit, numqubits, id_only) is True
assert is_scalar_sparse_matrix(xyz_circuit, numqubits, id_only) is False
assert is_scalar_sparse_matrix(cnot_circuit, numqubits, id_only) is True
assert is_scalar_sparse_matrix(hh_circuit, numqubits, id_only) is True
def test_is_scalar_sparse_matrix():
np = import_module('numpy')
if not np:
skip("numpy not installed.")
scipy = import_module('scipy', __import__kwargs={'fromlist': ['sparse']})
if not scipy:
skip("scipy not installed.")
numqubits = 2
id_only = False
id_gate = (IdentityGate(1),)
assert is_scalar_sparse_matrix(id_gate, numqubits, id_only) is True
x0 = X(0)
xx_circuit = (x0, x0)
assert is_scalar_sparse_matrix(xx_circuit, numqubits, id_only) is True
x1 = X(1)
y1 = Y(1)
xy_circuit = (x1, y1)
assert is_scalar_sparse_matrix(xy_circuit, numqubits, id_only) is False
z1 = Z(1)
xyz_circuit = (x1, y1, z1)
assert is_scalar_sparse_matrix(xyz_circuit, numqubits, id_only) is True
cnot = CNOT(1, 0)
cnot_circuit = (cnot, cnot)
assert is_scalar_sparse_matrix(cnot_circuit, numqubits, id_only) is True
h = H(0)
hh_circuit = (h, h)
assert is_scalar_sparse_matrix(hh_circuit, numqubits, id_only) is True
# NOTE:
# The elements of the sparse matrix for the following circuit
# is actually 1.0000000000000002+0.0j.
h1 = H(1)
xhzh_circuit = (x1, h1, z1, h1)
assert is_scalar_sparse_matrix(xhzh_circuit, numqubits, id_only) is True
id_only = True
assert is_scalar_sparse_matrix(xhzh_circuit, numqubits, id_only) is True
assert is_scalar_sparse_matrix(xyz_circuit, numqubits, id_only) is False
assert is_scalar_sparse_matrix(cnot_circuit, numqubits, id_only) is True
assert is_scalar_sparse_matrix(hh_circuit, numqubits, id_only) is True