def test_parameterized_schedule(self):
"""Test building parameterized schedule."""
cmd_def = CmdDef()
converter = QobjToInstructionConverter([])
qobj = PulseQobjInstruction(name='pv',
ch='u1',
t0=10,
val='P2*cos(np.pi*P1)')
converted_instruction = converter(qobj)
cmd_def.add('pv_test', 0, converted_instruction)
self.assertEqual(cmd_def.get_parameters('pv_test', 0), ('P1', 'P2'))
sched = cmd_def.get('pv_test', 0, 0, P2=-1)
self.assertEqual(sched.instructions[0][-1].command.value, -1)
with self.assertRaises(PulseError):
cmd_def.get('pv_test', 0, 0, P1=-1)
with self.assertRaises(PulseError):
cmd_def.get('pv_test', 0, P1=1, P2=2, P3=3)
sched = cmd_def.pop('pv_test', 0, 0, P2=-1)
self.assertEqual(sched.instructions[0][-1].command.value, -1)
self.assertFalse(cmd_def.has('pv_test', 0))
def test_sequenced_parameterized_schedule(self):
"""Test parametrized schedule consist of multiple instruction. """
cmd_def = CmdDef()
converter = QobjToInstructionConverter([])
qobjs = [PulseQobjInstruction(name='fc', ch='d0', t0=10, phase='P1'),
PulseQobjInstruction(name='fc', ch='d0', t0=20, phase='P2'),
PulseQobjInstruction(name='fc', ch='d0', t0=30, phase='P3')]
converted_instruction = [converter(qobj) for qobj in qobjs]
cmd_def.add('inst_seq', 0, ParameterizedSchedule(*converted_instruction, name='inst_seq'))
with self.assertRaises(PulseError):
cmd_def.get('inst_seq', 0, P1=1, P2=2, P3=3, P4=4, P5=5)
with self.assertRaises(PulseError):
cmd_def.get('inst_seq', 0, P1=1)
with self.assertRaises(PulseError):
cmd_def.get('inst_seq', 0, 1, 2, 3, P1=1)
sched = cmd_def.get('inst_seq', 0, 1, 2, 3)
self.assertEqual(sched.instructions[0][-1].command.phase, 1)
self.assertEqual(sched.instructions[1][-1].command.phase, 2)
self.assertEqual(sched.instructions[2][-1].command.phase, 3)
sched = cmd_def.get('inst_seq', 0, P1=1, P2=2, P3=3)
self.assertEqual(sched.instructions[0][-1].command.phase, 1)
self.assertEqual(sched.instructions[1][-1].command.phase, 2)
self.assertEqual(sched.instructions[2][-1].command.phase, 3)
sched = cmd_def.get('inst_seq', 0, 1, 2, P3=3)
self.assertEqual(sched.instructions[0][-1].command.phase, 1)
self.assertEqual(sched.instructions[1][-1].command.phase, 2)
self.assertEqual(sched.instructions[2][-1].command.phase, 3)
def test_add(self):
"""Test `add`, `has`, `get`, `cmdss`."""
sched = Schedule()
sched.append(SamplePulse(np.ones(5))(self.config.drive(0)))
cmd_def = CmdDef()
cmd_def.add('tmp', 1, sched)
cmd_def.add('tmp', 0, sched)
self.assertEqual(sched.instructions, cmd_def.get('tmp', (0,)).instructions)
self.assertIn('tmp', cmd_def.cmds())
self.assertEqual(cmd_def.cmd_qubits('tmp'), [(0,), (1,)])
def test_parameterized_schedule(self):
"""Test building parameterized schedule."""
cmd_def = CmdDef()
converter = QobjToInstructionConverter([], buffer=0)
qobj = PulseQobjInstruction(name='pv', ch='u1', t0=10, val='P2*cos(np.pi*P1)')
converted_instruction = converter(qobj)
cmd_def.add('pv_test', 0, converted_instruction)
self.assertEqual(cmd_def.get_parameters('pv_test', 0), ('P1', 'P2'))
sched = cmd_def.get('pv_test', 0, P1='0', P2=-1)
self.assertEqual(sched.instructions[0][-1].command.value, -1)
def test_negative_phases(self):
"""Test bind parameters with negative values."""
cmd_def = CmdDef()
converter = QobjToInstructionConverter([])
qobjs = [PulseQobjInstruction(name='fc', ch='d0', t0=10, phase='P1'),
PulseQobjInstruction(name='fc', ch='d0', t0=20, phase='-(P2)')]
converted_instruction = [converter(qobj) for qobj in qobjs]
cmd_def.add('inst_seq', 0, ParameterizedSchedule(*converted_instruction, name='inst_seq'))
sched = cmd_def.get('inst_seq', 0, -1, 2)
self.assertEqual(sched.instructions[0][-1].command.phase, -1)
self.assertEqual(sched.instructions[1][-1].command.phase, -2)
def test_filter(self):
"""Test _filter method."""
device = self.two_qubit_device
lp0 = self.linear(duration=3, slope=0.2, intercept=0.1)
sched = Schedule(name='fake_experiment')
sched = sched.insert(0, lp0(device.drives[0]))
sched = sched.insert(10, lp0(device.drives[1]))
sched = sched.insert(30, FrameChange(phase=-1.57)(device.drives[0]))
for i in sched._filter([lambda x: True]).instructions:
self.assertTrue(i in sched.instructions)
self.assertEqual(len(sched._filter([lambda x: False]).instructions), 0)
self.assertEqual(
len(sched._filter([lambda x: x[0] < 30]).instructions), 2)
def my_test_par_sched_one(x, y, z):
result = PulseInstruction(
SamplePulse(np.array([x, y, z]), name='sample'),
device.drives[0])
return 0, result
def my_test_par_sched_two(x, y, z):
result = PulseInstruction(
SamplePulse(np.array([x, y, z]), name='sample'),
device.drives[0])
return 5, result
par_sched_in_0 = ParameterizedSchedule(my_test_par_sched_one,
parameters={
'x': 0,
'y': 1,
'z': 2
})
par_sched_in_1 = ParameterizedSchedule(my_test_par_sched_two,
parameters={
'x': 0,
'y': 1,
'z': 2
})
par_sched = ParameterizedSchedule(par_sched_in_0, par_sched_in_1)
cmd_def = CmdDef()
cmd_def.add('test', 0, par_sched)
actual = cmd_def.get('test', 0, 0.01, 0.02, 0.03)
expected = par_sched_in_0.bind_parameters(0.01, 0.02, 0.03) |\
par_sched_in_1.bind_parameters(0.01, 0.02, 0.03)
self.assertEqual(actual.start_time, expected.start_time)
self.assertEqual(actual.stop_time, expected.stop_time)
self.assertEqual(cmd_def.get_parameters('test', 0), ('x', 'y', 'z'))
def test_multiple_parameters_not_returned(self):
"""Constructing ParameterizedSchedule object from multiple ParameterizedSchedules sharing
arguments should not produce repeated parameters in resulting ParameterizedSchedule
object."""
device = self.two_qubit_device
def my_test_par_sched_one(x, y, z):
result = PulseInstruction(
SamplePulse(np.array([x, y, z]), name='sample'),
device.drives[0])
return 0, result
def my_test_par_sched_two(x, y, z):
result = PulseInstruction(
SamplePulse(np.array([x, y, z]), name='sample'),
device.drives[0])
return 5, result
par_sched_in_0 = ParameterizedSchedule(my_test_par_sched_one,
parameters={
'x': 0,
'y': 1,
'z': 2
})
par_sched_in_1 = ParameterizedSchedule(my_test_par_sched_two,
parameters={
'x': 0,
'y': 1,
'z': 2
})
par_sched = ParameterizedSchedule(par_sched_in_0, par_sched_in_1)
cmd_def = CmdDef()
cmd_def.add('test', 0, par_sched)
actual = cmd_def.get('test', 0, 0.01, 0.02, 0.03)
expected = par_sched_in_0.bind_parameters(0.01, 0.02, 0.03) |\
par_sched_in_1.bind_parameters(0.01, 0.02, 0.03)
self.assertEqual(actual.start_time, expected.start_time)
self.assertEqual(actual.stop_time, expected.stop_time)
self.assertEqual(cmd_def.get_parameters('test', 0), ('x', 'y', 'z'))
