def test_with_nested_iterable():
assert QubitSet([0, 1,
[2,
3]]) == tuple([Qubit(0),
Qubit(1),
Qubit(2),
Qubit(3)])
def test_with_qubit_set():
qubits = QubitSet([0, 1])
assert QubitSet([qubits,
[2,
3]]) == tuple([Qubit(0),
Qubit(1),
Qubit(2),
Qubit(3)])
def test_map_happy_case():
mapping = {Qubit(0): Qubit(11), Qubit(1): Qubit(5)}
qubits = QubitSet([0, 1])
mapped_qubits = qubits.map(mapping)
assert mapped_qubits == QubitSet([11, 5])
def test_with_single():
assert QubitSet(0) == tuple([Qubit(0)])
def test_with_iterable():
assert QubitSet([0, 1]) == tuple([Qubit(0), Qubit(1)])
def test_init_with_sequence():
target = [0, Qubit(1)]
instr = Instruction(Gate.CNot(), target)
assert instr.target == QubitSet([0, 1])
def qubits():
return QubitSet([0, Qubit(1)])
def test_new_with_int():
qubit = 0
qubit_new = Qubit.new(qubit)
assert qubit_new == qubit
assert qubit_new is not qubit
def test_init_with_qubit():
target = Qubit(0)
instr = Instruction(Gate.H(), target)
assert instr.target == QubitSet(0)
def test_index_gte_zero():
Qubit(0)
Qubit(5)
def test_new_with_qubit():
qubit = Qubit(0)
qubit_new = Qubit.new(qubit)
assert qubit_new == qubit
assert qubit_new is qubit
def test_index_non_int():
Qubit("not a number")
def test_index_lt_zero():
Qubit(-1)
def qubit():
return Qubit(5)
def test_index_gte_zero(qubit_index):
Qubit(qubit_index)
def test_index_non_int(qubit_arg):
Qubit(qubit_arg)
