def test_does_not_loop_back(net, eqpt, serv):
data = load_requests(serv, eqpt)
equipment = load_equipment(eqpt)
network = load_network(net, equipment)
# Build the network once using the default power defined in SI in eqpt config
# power density : db2linp(ower_dbm": 0)/power_dbm": 0 * nb channels as defined by
# spacing, f_min and f_max
p_db = equipment['SI']['default'].power_dbm
p_total_db = p_db + lin2db(automatic_nch(equipment['SI']['default'].f_min,\
equipment['SI']['default'].f_max, equipment['SI']['default'].spacing))
build_network(network, equipment, p_db, p_total_db)
rqs = requests_from_json(data, equipment)
rqs = correct_route_list(network, rqs)
dsjn = disjunctions_from_json(data)
pths = compute_path_dsjctn(network, equipment, rqs, dsjn)
# check that computed paths do not loop back ie each element appears only once
test = True
for p in pths:
for el in p:
p.remove(el)
a = [e for e in p if e.uid == el.uid]
if a:
test = False
break
assert test
def test_json_response_generation(xls_input, expected_response_file):
""" tests if json response is correctly generated for all combinations of requests
"""
data = convert_service_sheet(xls_input, eqpt_filename)
equipment = load_equipment(eqpt_filename)
network = load_network(xls_input, equipment)
p_db = equipment['SI']['default'].power_dbm
p_total_db = p_db + lin2db(automatic_nch(equipment['SI']['default'].f_min,\
equipment['SI']['default'].f_max, equipment['SI']['default'].spacing))
build_network(network, equipment, p_db, p_total_db)
rqs = requests_from_json(data, equipment)
rqs = correct_route_list(network, rqs)
dsjn = disjunctions_from_json(data)
dsjn = correct_disjn(dsjn)
rqs, dsjn = requests_aggregation(rqs, dsjn)
pths = compute_path_dsjctn(network, equipment, rqs, dsjn)
propagatedpths = compute_path_with_disjunction(network, equipment, rqs, pths)
result = []
for i, pth in enumerate(propagatedpths):
result.append(Result_element(rqs[i], pth))
temp = {
'response': [n.json for n in result]
}
# load expected result and compare keys
# (not values at this stage)
with open(expected_response_file) as jsonfile:
expected = load(jsonfile)
for i, response in enumerate(temp['response']):
assert compare_response(expected['response'][i], response)
def test_disjunction(net,eqpt,serv):
data = load_requests(serv, eqpt, bidir=False)
equipment = load_equipment(eqpt)
network = load_network(net,equipment)
# Build the network once using the default power defined in SI in eqpt config
# power density : db2linp(ower_dbm": 0)/power_dbm": 0 * nb channels as defined by
# spacing, f_min and f_max
p_db = equipment['SI']['default'].power_dbm
p_total_db = p_db + lin2db(automatic_nch(equipment['SI']['default'].f_min,\
equipment['SI']['default'].f_max, equipment['SI']['default'].spacing))
build_network(network, equipment, p_db, p_total_db)
build_oms_list(network, equipment)
rqs = requests_from_json(data, equipment)
rqs = correct_route_list(network, rqs)
dsjn = disjunctions_from_json(data)
pths = compute_path_dsjctn(network, equipment, rqs, dsjn)
print(dsjn)
dsjn_list = [d.disjunctions_req for d in dsjn ]
# assumes only pairs in dsjn list
test = True
for e in dsjn_list:
rqs_id_list = [r.request_id for r in rqs]
p1 = pths[rqs_id_list.index(e[0])][1:-1]
p2 = pths[rqs_id_list.index(e[1])][1:-1]
if isdisjoint(p1, p2) + isdisjoint(p1, find_reversed_path(p2)) > 0:
test = False
print(f'Computed path (roadms):{[e.uid for e in p1 if isinstance(e, Roadm)]}\n')
print(f'Computed path (roadms):{[e.uid for e in p2 if isinstance(e, Roadm)]}\n')
break
print(dsjn_list)
assert test
def test_automaticmodefeature(net, eqpt, serv, expected_mode):
data = load_requests(serv, eqpt, bidir=False)
equipment = load_equipment(eqpt)
network = load_network(net, equipment)
# Build the network once using the default power defined in SI in eqpt config
# power density : db2linp(ower_dbm": 0)/power_dbm": 0 * nb channels as defined by
# spacing, f_min and f_max
p_db = equipment['SI']['default'].power_dbm
p_total_db = p_db + lin2db(automatic_nch(equipment['SI']['default'].f_min,\
equipment['SI']['default'].f_max, equipment['SI']['default'].spacing))
build_network(network, equipment, p_db, p_total_db)
rqs = requests_from_json(data, equipment)
rqs = correct_route_list(network, rqs)
dsjn = []
pths = compute_path_dsjctn(network, equipment, rqs, dsjn)
path_res_list = []
for i, pathreq in enumerate(rqs):
# use the power specified in requests but might be different from the one specified for design
# the power is an optional parameter for requests definition
# if optional, use the one defines in eqt_config.json
p_db = lin2db(pathreq.power * 1e3)
p_total_db = p_db + lin2db(pathreq.nb_channel)
print(f'request {pathreq.request_id}')
print(f'Computing path from {pathreq.source} to {pathreq.destination}')
print(f'with path constraint: {[pathreq.source]+pathreq.nodes_list}'
) #adding first node to be clearer on the output
total_path = pths[i]
print(
f'Computed path (roadms):{[e.uid for e in total_path if isinstance(e, Roadm)]}\n'
)
# for debug
# print(f'{pathreq.baud_rate} {pathreq.power} {pathreq.spacing} {pathreq.nb_channel}')
if pathreq.baud_rate is not None:
print(pathreq.format)
path_res_list.append(pathreq.format)
total_path = propagate(total_path, pathreq, equipment)
else:
total_path, mode = propagate_and_optimize_mode(
total_path, pathreq, equipment)
# if no baudrate satisfies spacing, no mode is returned and an empty path is returned
# a warning is shown in the propagate_and_optimize_mode
if mode is not None:
print(mode['format'])
path_res_list.append(mode['format'])
else:
print('nok')
path_res_list.append('nok')
print(path_res_list)
assert path_res_list == expected_mode
def test_json_response_generation(xls_input, expected_response_file):
""" tests if json response is correctly generated for all combinations of requests
"""
data = convert_service_sheet(xls_input, eqpt_filename)
# change one of the request with bidir option to cover bidir case as well
data['path-request'][2]['bidirectional'] = True
equipment = load_equipment(eqpt_filename)
network = load_network(xls_input, equipment)
p_db = equipment['SI']['default'].power_dbm
p_total_db = p_db + lin2db(automatic_nch(equipment['SI']['default'].f_min,\
equipment['SI']['default'].f_max, equipment['SI']['default'].spacing))
build_network(network, equipment, p_db, p_total_db)
oms_list = build_oms_list(network, equipment)
rqs = requests_from_json(data, equipment)
rqs = correct_route_list(network, rqs)
dsjn = disjunctions_from_json(data)
dsjn = correct_disjn(dsjn)
rqs, dsjn = requests_aggregation(rqs, dsjn)
pths = compute_path_dsjctn(network, equipment, rqs, dsjn)
propagatedpths, reversed_pths, reversed_propagatedpths = \
compute_path_with_disjunction(network, equipment, rqs, pths)
pth_assign_spectrum(pths, rqs, oms_list, reversed_pths)
result = []
for i, pth in enumerate(propagatedpths):
# test ServiceError handling : when M is zero at this point, the
# json result should not be created if there is no blocking reason
if i == 1:
my_rq = deepcopy(rqs[i])
my_rq.M = 0
with pytest.raises(ServiceError):
Result_element(my_rq, pth, reversed_propagatedpths[i]).json
my_rq.blocking_reason = 'NO_SPECTRUM'
Result_element(my_rq, pth, reversed_propagatedpths[i]).json
result.append(Result_element(rqs[i], pth, reversed_propagatedpths[i]))
temp = {'response': [n.json for n in result]}
# load expected result and compare keys and values
with open(expected_response_file) as jsonfile:
expected = load(jsonfile)
# since we changes bidir attribute of request#2, need to add the corresponding
# metric in response
for i, response in enumerate(temp['response']):
if i == 2:
# compare response must be False because z-a metric is missing
# (request with bidir option to cover bidir case)
assert not compare_response(expected['response'][i], response)
print(f'response {response["response-id"]} should not match')
expected['response'][2]['path-properties']['z-a-path-metric'] = [{
'metric-type':
'SNR-bandwidth',
'accumulative-value':
22.809999999999999
}, {
'metric-type':
'SNR-0.1nm',
'accumulative-value':
26.890000000000001
}, {
'metric-type':
'OSNR-bandwidth',
'accumulative-value':
26.239999999999998
}, {
'metric-type':
'OSNR-0.1nm',
'accumulative-value':
30.32
}, {
'metric-type':
'reference_power',
'accumulative-value':
0.0012589254117941673
}, {
'metric-type':
'path_bandwidth',
'accumulative-value':
60000000000.0
}]
# test should be OK now
else:
assert compare_response(expected['response'][i], response)
print(f'response {response["response-id"]} is not correct')
