def test_set_job_labels(client_constructor):
grpc_client = setup_mock_(client_constructor)
grpc_client.get_quantum_job.return_value = qtypes.QuantumJob(
labels={
'color': 'red',
'weather': 'sun',
'run': '1'
},
label_fingerprint='hash')
result = qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0')
grpc_client.update_quantum_job.return_value = result
client = EngineClient()
labels = {'hello': 'world', 'color': 'blue', 'run': '1'}
assert client.set_job_labels('proj', 'prog', 'job0', labels) == result
assert grpc_client.update_quantum_job.call_args[0] == (
'projects/proj/programs/prog/jobs/job0',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0',
labels=labels,
label_fingerprint='hash'),
qtypes.field_mask_pb2.FieldMask(paths=['labels']))
assert client.set_job_labels('proj', 'prog', 'job0', {}) == result
assert grpc_client.update_quantum_job.call_args[0] == (
'projects/proj/programs/prog/jobs/job0',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0',
label_fingerprint='hash'),
qtypes.field_mask_pb2.FieldMask(paths=['labels']))
def test_run_circuit_failed_missing_processor_name(client):
client().create_program.return_value = (
'prog',
qtypes.QuantumProgram(name='projects/proj/programs/prog'),
)
client().create_job.return_value = (
'job-id',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
execution_status={'state': 'READY'}),
)
client().get_job.return_value = qtypes.QuantumJob(
name='projects/proj/programs/prog/jobs/job-id',
execution_status={
'state': 'FAILURE',
'failure': {
'error_code': 'SYSTEM_ERROR',
'error_message': 'Not good'
},
},
)
engine = cg.Engine(project_id='proj')
with pytest.raises(
RuntimeError,
match='Job projects/proj/programs/prog/jobs/job-id on processor'
' UNKNOWN failed. SYSTEM_ERROR: Not good',
):
engine.run(program=_CIRCUIT, gate_set=cg.XMON)
def test_add_labels(add_job_labels):
job = cg.EngineJob('a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(labels={}))
assert job.labels() == {}
add_job_labels.return_value = qtypes.QuantumJob(labels={
'a': '1',
})
assert job.add_labels({'a': '1'}).labels() == {'a': '1'}
add_job_labels.assert_called_with('a', 'b', 'steve', {'a': '1'})
add_job_labels.return_value = qtypes.QuantumJob(labels={
'a': '2',
'b': '1'
})
assert job.add_labels({
'a': '2',
'b': '1'
}).labels() == {
'a': '2',
'b': '1'
}
add_job_labels.assert_called_with('a', 'b', 'steve', {'a': '2', 'b': '1'})
def test_sampler(client):
client().create_program.return_value = (
'prog',
qtypes.QuantumProgram(name='projects/proj/programs/prog'),
)
client().create_job.return_value = (
'job-id',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
execution_status={'state': 'READY'}),
)
client().get_job.return_value = qtypes.QuantumJob(
execution_status={'state': 'SUCCESS'})
client().get_job_results.return_value = qtypes.QuantumResult(
result=_to_any(_RESULTS_V2))
processor = cg.EngineProcessor('proj', 'mysim', EngineContext())
sampler = processor.get_sampler(gate_set=cg.XMON)
results = sampler.run_sweep(
program=_CIRCUIT,
params=[cirq.ParamResolver({'a': 1}),
cirq.ParamResolver({'a': 2})])
assert len(results) == 2
for i, v in enumerate([1, 2]):
assert results[i].repetitions == 1
assert results[i].params.param_dict == {'a': v}
assert results[i].measurements == {'q': np.array([[0]], dtype='uint8')}
assert client().create_program.call_args[0][0] == 'proj'
def test_run_calibration_delegation(create_job):
create_job.return_value = ('dogs', qtypes.QuantumJob())
program = cg.EngineProgram('woof',
'woof',
EngineContext(),
result_type=ResultType.Calibration)
job = program.run_calibration(processor_ids=['lazydog'])
assert job._job == qtypes.QuantumJob()
def test_set_description(set_job_description):
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
set_job_description.return_value = qtypes.QuantumJob(description='world')
assert job.set_description('world').description() == 'world'
set_job_description.assert_called_with('a', 'b', 'steve', 'world')
set_job_description.return_value = qtypes.QuantumJob(description='')
assert job.set_description('').description() == ''
set_job_description.assert_called_with('a', 'b', 'steve', '')
def test_run_sweeps_delegation(create_job):
create_job.return_value = ('steve', qtypes.QuantumJob())
program = cg.EngineProgram('my-proj', 'my-prog', EngineContext())
param_resolver = cirq.ParamResolver({})
job = program.run_sweep(job_id='steve',
repetitions=10,
params=param_resolver,
processor_ids=['mine'])
assert job._job == qtypes.QuantumJob()
def test_description(get_job):
job = cg.EngineJob('a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(description='hello'))
assert job.description() == 'hello'
get_job.return_value = qtypes.QuantumJob(description='hello')
assert cg.EngineJob('a', 'b', 'steve',
EngineContext()).description() == 'hello'
get_job.assert_called_once_with('a', 'b', 'steve', False)
def setup_run_circuit_with_result_(client, result):
client().create_program.return_value = (
'prog',
qtypes.QuantumProgram(name='projects/proj/programs/prog'),
)
client().create_job.return_value = (
'job-id',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
execution_status={'state': 'READY'}),
)
client().get_job.return_value = qtypes.QuantumJob(
execution_status={'state': 'SUCCESS'})
client().get_job_results.return_value = qtypes.QuantumResult(result=result)
def test_run_batch_delegation(create_job):
create_job.return_value = ('kittens', qtypes.QuantumJob())
program = cg.EngineProgram('my-meow',
'my-meow',
EngineContext(),
result_type=ResultType.Batch)
resolver_list = [
cirq.Points('cats', [1.0, 2.0, 3.0]),
cirq.Points('cats', [4.0, 5.0, 6.0])
]
job = program.run_batch(job_id='steve',
repetitions=10,
params_list=resolver_list,
processor_ids=['lazykitty'])
assert job._job == qtypes.QuantumJob()
def test_get_repetitions_and_sweeps_v1(get_job):
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
get_job.return_value = qtypes.QuantumJob(run_context=_to_any(
v1.program_pb2.RunContext(
parameter_sweeps=[v1.params_pb2.ParameterSweep(repetitions=10)])))
with pytest.raises(ValueError, match='v1 RunContext is not supported'):
job.get_repetitions_and_sweeps()
def test_labels():
job = cg.EngineJob('a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(labels={'t': '1'}))
assert job.labels() == {'t': '1'}
def test_get_repetitions_and_sweeps_unsupported(get_job):
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
get_job.return_value = qtypes.QuantumJob(run_context=qtypes.any_pb2.Any(
type_url='type.googleapis.com/unknown.proto'))
with pytest.raises(ValueError,
match='unsupported run_context type: unknown.proto'):
job.get_repetitions_and_sweeps()
def test_get_calibration(get_calibration):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
calibration_name='projects/a/processors/p/calibrations/123'))
calibration = qtypes.QuantumCalibration(data=_to_any(
Merge(
"""
timestamp_ms: 123000,
metrics: [{
name: 'xeb',
targets: ['0_0', '0_1'],
values: [{
double_val: .9999
}]
}, {
name: 't1',
targets: ['0_0'],
values: [{
double_val: 321
}]
}, {
name: 'globalMetric',
values: [{
int32_val: 12300
}]
}]
""",
v2.metrics_pb2.MetricsSnapshot(),
)))
get_calibration.return_value = calibration
job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
assert list(job.get_calibration()) == ['xeb', 't1', 'globalMetric']
get_calibration.assert_called_once_with('a', 'p', 123)
def test_results_len(get_job_results):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.SUCCESS))
get_job_results.return_value = RESULTS
job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
assert len(job) == 2
def test_timeout(patched_time_sleep, get_job):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.RUNNING))
get_job.return_value = qjob
job = cg.EngineJob('a', 'b', 'steve', EngineContext(timeout=500))
with pytest.raises(RuntimeError, match='Timed out'):
job.results()
def test_calibration_results_not_a_calibration(get_job_results):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.SUCCESS))
get_job_results.return_value = RESULTS
job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
with pytest.raises(ValueError, match='calibration results'):
job.calibration_results()
def test_run_calibration(client):
client().create_program.return_value = (
'prog',
qtypes.QuantumProgram(name='projects/proj/programs/prog'),
)
client().create_job.return_value = (
'job-id',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
execution_status={'state': 'READY'}),
)
client().get_job.return_value = qtypes.QuantumJob(
execution_status={'state': 'SUCCESS'})
client().get_job_results.return_value = qtypes.QuantumResult(
result=_CALIBRATION_RESULTS_V2)
q1 = cirq.GridQubit(2, 3)
q2 = cirq.GridQubit(2, 4)
layer1 = cg.CalibrationLayer('xeb', cirq.Circuit(cirq.CZ(q1, q2)),
{'num_layers': 42})
layer2 = cg.CalibrationLayer('readout', cirq.Circuit(cirq.measure(q1, q2)),
{'num_samples': 4242})
processor = cg.EngineProcessor('proj', 'mysim', EngineContext())
job = processor.run_calibration(gate_set=cg.FSIM_GATESET,
layers=[layer1, layer2],
job_id='job-id')
results = job.calibration_results()
assert len(results) == 2
assert results[0].code == v2.calibration_pb2.SUCCESS
assert results[0].error_message == 'First success'
assert results[0].token == 'abc123'
assert len(results[0].metrics) == 1
assert len(results[0].metrics['fidelity']) == 1
assert results[0].metrics['fidelity'][(q1, q2)] == [0.75]
assert results[1].code == v2.calibration_pb2.SUCCESS
assert results[1].error_message == 'Second success'
# assert label is correct
client().create_job.assert_called_once_with(
project_id='proj',
program_id='prog',
job_id='job-id',
processor_ids=['mysim'],
run_context=_to_any(v2.run_context_pb2.RunContext()),
description=None,
labels={'calibration': ''},
)
def test_status(get_job):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.RUNNING))
get_job.return_value = qjob
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
assert job.status() == 'RUNNING'
get_job.assert_called_once()
def test_get_repetitions_and_sweeps(get_job):
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
get_job.return_value = qtypes.QuantumJob(run_context=_to_any(
v2.run_context_pb2.RunContext(parameter_sweeps=[
v2.run_context_pb2.ParameterSweep(repetitions=10)
])))
assert job.get_repetitions_and_sweeps() == (10, [cirq.UnitSweep])
get_job.assert_called_once_with('a', 'b', 'steve', True)
def test_run_calibration_no_processors(create_job):
create_job.return_value = ('dogs', qtypes.QuantumJob())
program = cg.EngineProgram('woof',
'woof',
EngineContext(),
result_type=ResultType.Calibration)
with pytest.raises(ValueError, match='No processors specified'):
_ = program.run_calibration(job_id='spot')
def test_run_batch_no_sweeps(create_job):
# Running with no sweeps is fine. Uses program's batch size to create
# proper empty sweeps.
create_job.return_value = ('kittens', qtypes.QuantumJob())
program = cg.EngineProgram(
'my-meow',
'my-meow',
_program=qtypes.QuantumProgram(code=_BATCH_PROGRAM_V2),
context=EngineContext(),
result_type=ResultType.Batch,
)
job = program.run_batch(job_id='steve',
repetitions=10,
processor_ids=['lazykitty'])
assert job._job == qtypes.QuantumJob()
batch_run_context = v2.batch_pb2.BatchRunContext()
create_job.call_args[1]['run_context'].Unpack(batch_run_context)
assert len(batch_run_context.run_contexts) == 1
def test_set_labels(set_job_labels):
job = cg.EngineJob('a', 'b', 'steve', EngineContext())
set_job_labels.return_value = qtypes.QuantumJob(labels={
'a': '1',
'b': '1'
})
assert job.set_labels({
'a': '1',
'b': '1'
}).labels() == {
'a': '1',
'b': '1'
}
set_job_labels.assert_called_with('a', 'b', 'steve', {'a': '1', 'b': '1'})
set_job_labels.return_value = qtypes.QuantumJob()
assert job.set_labels({}).labels() == {}
set_job_labels.assert_called_with('a', 'b', 'steve', {})
def test_run_batch(client):
client().create_program.return_value = (
'prog',
qtypes.QuantumProgram(name='projects/proj/programs/prog'),
)
client().create_job.return_value = (
'job-id',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job-id',
execution_status={'state': 'READY'}),
)
client().get_job.return_value = qtypes.QuantumJob(
execution_status={'state': 'SUCCESS'})
client().get_job_results.return_value = qtypes.QuantumResult(
result=_BATCH_RESULTS_V2)
processor = cg.EngineProcessor('a', 'p', EngineContext())
job = processor.run_batch(
gate_set=cg.XMON,
programs=[_CIRCUIT, _CIRCUIT],
job_id='job-id',
params_list=[cirq.Points('a', [1, 2]),
cirq.Points('a', [3, 4])],
)
results = job.results()
assert len(results) == 4
for i, v in enumerate([1, 2, 3, 4]):
assert results[i].repetitions == 1
assert results[i].params.param_dict == {'a': v}
assert results[i].measurements == {'q': np.array([[0]], dtype='uint8')}
client().create_program.assert_called_once()
client().create_job.assert_called_once()
run_context = v2.batch_pb2.BatchRunContext()
client().create_job.call_args[1]['run_context'].Unpack(run_context)
assert len(run_context.run_contexts) == 2
for idx, rc in enumerate(run_context.run_contexts):
sweeps = rc.parameter_sweeps
assert len(sweeps) == 1
assert sweeps[0].repetitions == 1
if idx == 0:
assert sweeps[0].sweep.single_sweep.points.points == [1.0, 2.0]
if idx == 1:
assert sweeps[0].sweep.single_sweep.points.points == [3.0, 4.0]
client().get_job.assert_called_once()
client().get_job_results.assert_called_once()
def test_id():
job = cg.EngineJob(
'a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(create_time=qtypes.timestamp_pb2.Timestamp(
seconds=1581515101)),
)
assert job.id() == 'steve'
def test_failure_with_no_error():
job = cg.EngineJob(
'a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.SUCCESS, )),
)
assert not job.failure()
def test_results_getitem(get_job_results):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.SUCCESS))
get_job_results.return_value = RESULTS
job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
assert str(job[0]) == 'q=0110'
assert str(job[1]) == 'q=1010'
with pytest.raises(IndexError):
_ = job[2]
def test_create_time():
job = cg.EngineJob(
'a',
'b',
'steve',
EngineContext(),
_job=qtypes.QuantumJob(create_time=qtypes.timestamp_pb2.Timestamp(
seconds=1581515101)),
)
assert job.create_time() == datetime.datetime(2020, 2, 12, 13, 45, 1)
def test_results_iter(get_job_results):
qjob = qtypes.QuantumJob(execution_status=qtypes.ExecutionStatus(
state=qtypes.ExecutionStatus.State.SUCCESS))
get_job_results.return_value = RESULTS
job = cg.EngineJob('a', 'b', 'steve', EngineContext(), _job=qjob)
results = [str(r) for r in job]
assert len(results) == 2
assert results[0] == 'q=0110'
assert results[1] == 'q=1010'
def test_set_job_description(client_constructor):
grpc_client = setup_mock_(client_constructor)
result = qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0')
grpc_client.update_quantum_job.return_value = result
client = EngineClient()
assert client.set_job_description('proj', 'prog', 'job0', 'A job') == result
assert grpc_client.update_quantum_job.call_args[0] == (
'projects/proj/programs/prog/jobs/job0',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0',
description='A job'),
qtypes.field_mask_pb2.FieldMask(paths=['description']))
assert client.set_job_description('proj', 'prog', 'job0', '') == result
assert grpc_client.update_quantum_job.call_args[0] == (
'projects/proj/programs/prog/jobs/job0',
qtypes.QuantumJob(name='projects/proj/programs/prog/jobs/job0'),
qtypes.field_mask_pb2.FieldMask(paths=['description']))
