Esempio n. 1
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def test_message_federate_send(mFed):
    epid1 = h.helicsFederateRegisterEndpoint(mFed, "ep1", None)
    epid2 = h.helicsFederateRegisterGlobalEndpoint(mFed, "ep2", "random")

    h.helicsFederateSetTimeProperty(mFed, h.helics_property_time_delta, 1.0)
    h.helicsFederateEnterExecutingMode(mFed)

    data = "random-data"

    h.helicsEndpointSendEventRaw(epid1, "ep2", data, 1.0)

    granted_time = h.helicsFederateRequestTime(mFed, 2.0)
    assert granted_time == 1.0

    res = h.helicsFederateHasMessage(mFed)
    assert res == 1

    res = h.helicsEndpointHasMessage(epid1)
    assert res == 0

    res = h.helicsEndpointHasMessage(epid2)
    assert res == 1

    message = h.helicsEndpointGetMessage(epid2)

    assert message.data == "random-data"
    assert message.length == 11
    assert message.original_dest == ""
    assert message.original_source == "TestA Federate/ep1"
    assert message.source == "TestA Federate/ep1"
    assert message.time == 1.0
Esempio n. 2
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def test_messagefederate_test_message_federate_send(mFed):

    epid1 = h.helicsFederateRegisterEndpoint(mFed, "ep1", "")
    epid2 = h.helicsFederateRegisterGlobalEndpoint(mFed, "ep2", "random")

    h.helicsFederateSetTimeProperty(mFed, h.HELICS_PROPERTY_TIME_DELTA, 1.0)
    h.helicsFederateEnterExecutingMode(mFed)

    data = "random-data"

    h.helicsEndpointSendEventRaw(epid1, "ep2", data, 1.0)

    granted_time = h.helicsFederateRequestTime(mFed, 2.0)
    assert granted_time == 1.0

    res = h.helicsFederateHasMessage(mFed)
    assert res is True

    res = h.helicsEndpointHasMessage(epid1)
    assert res is False

    res = h.helicsEndpointHasMessage(epid2)
    assert res is True

    message = h.helicsEndpointGetMessage(epid2)

    assert h.helicsMessageGetMessageID(message) == 55
    assert h.helicsMessageIsValid(message) is True
    assert h.helicsMessageGetString(message) == "random-data"
    assert h.helicsMessageGetRawDataSize(message) == 11
    assert h.helicsMessageGetOriginalDestination(message) == ""
    assert h.helicsMessageGetOriginalSource(message) == "TestA Federate/ep1"
    assert h.helicsMessageGetSource(message) == "TestA Federate/ep1"
    assert h.helicsMessageGetTime(message) == 1.0
Esempio n. 3
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 def send_to_endpoint(self, endpoint_name, destination='', value=0):
     """
     Send the message to specific endpoint
     :param endpoint_name: endpoint name
     :param destination: destination name if any
     :param value: message
     :return:
     """
     endpoint_idx = self.endpoints[endpoint_name]
     try:
         h.helicsEndpointSendEventRaw(endpoint_idx, destination, str(56.7),
                                      self.current_time)
     except h._helics.HelicsException as e:
         _log.exception(
             "Error sending endpoint message to  HELICS {}".format(e))
def test_message_federate_endpoint_registration(mFed):
    epid1 = h.helicsFederateRegisterEndpoint(mFed, "ep1", None)
    epid2 = h.helicsFederateRegisterGlobalEndpoint(mFed, "ep2", "random")

    h.helicsFederateSetTimeDelta(mFed, 1.0)
    h.helicsFederateEnterExecutionMode(mFed)

    data = "random-data"

    status = h.helicsEndpointSendEventRaw(epid1, "ep2", data, 1.0)

    status, granted_time = h.helicsFederateRequestTime(mFed, 1.0)

    assert granted_time == 1.0

    res = h.helicsFederateHasMessage(mFed)
    assert res == 1

    res = h.helicsEndpointHasMessage(epid1)
    # TODO: Figure out why this is returning zero
    assert res == 0

    res = h.helicsEndpointHasMessage (epid2)
    assert res == 1

    # This causes a segfault
    message = h.helicsEndpointGetMessage(epid2)

    assert message.data == 'random-data'
    assert message.length == 11
    assert message.original_dest == ''
    assert message.original_source == 'TestA Federate/ep1'
    assert message.source == 'TestA Federate/ep1'
    assert message.time == 1.0
Esempio n. 5
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def federate_example(config_path):
    # Registering  federate from json

    try:
        fed = h.helicsCreateCombinationFederateFromConfig(config_path)
    except h._helics.HelicsException as exc:
        print("Exception occured".format(exc))
        exit(-1)
    federate_name = h.helicsFederateGetName(fed)
    print(federate_name)
    endpoint_count = h.helicsFederateGetEndpointCount(fed)
    subkeys_count = h.helicsFederateGetInputCount(fed)
    pubkeys_count = h.helicsFederateGetPublicationCount(fed)

    # Reference to Publications and Subscription form index
    endid = {}
    subid = {}
    pubid = {}
    for i in range(0,endpoint_count):
        endid["m{}".format(i)] = h.helicsFederateGetEndpointByIndex(fed, i)
        end_name = h.helicsEndpointGetName(endid["m{}".format(i)])
        logger.info( 'Registered Endpoint ---> {}'.format(end_name))

    for i in range(0, subkeys_count):
        idx = h.helicsFederateGetInputByIndex(fed, i)
        subid["m{}".format(i)] = idx
        status = h.helicsInputSetDefaultComplex(subid["m{}".format(i)], 0, 0)
        sub_key = h.helicsSubscriptionGetKey(idx)
        logger.info( 'Registered Subscription ---> {}'.format(sub_key))

    for i in range(0, pubkeys_count):
        idx = h.helicsFederateGetPublicationByIndex(fed, i)
        pubid["m{}".format(i)] = idx
        pub_key = h.helicsPublicationGetKey(idx)
        logger.info( 'Registered Publications ---> {}'.format(pub_key))

    print('###############################################################################################')
    print('########################   Entering Execution Mode  ##########################################')
    # Entering Execution Mode
    h.helicsFederateEnterExecutingMode(fed)
    print('###############################################################################################')

    hours = 0.1
    total_inteval = int(60 * 60 * hours)
    grantedtime = -1
    update_interval = 1 # 5*60
    k = 0
    data ={}
    time.sleep(5)
    time_sim = []
    real = 0
    for t in range(0, total_inteval, update_interval):
        while grantedtime < t:
            grantedtime = h.helicsFederateRequestTime (fed, t)
        time.sleep(0.1)
        print('########################   Time interval {}  ##########################################'.format(t))
        print('########################   Publishing to topics  ######################################')
        real = real + 1
        for i in range(0, pubkeys_count):
            idx = pubid["m{}".format(i)]
            h.helicsPublicationPublishComplex(idx, real*i, 78)

        print( '########################   Get input from subscribed topics  #########################')
        for i in range(0, subkeys_count):
            idx = subid["m{}".format(i)]
            value = h.helicsInputGetDouble(idx)
            key = h.helicsSubscriptionGetKey(idx)
            print("Value for key: {} is {}".format(key, value))

        print('########################   Get from Endpoint  #########################################')
        idx = endid["m{}".format(0)]
        while h.helicsEndpointHasMessage(idx):            
            msg = h.helicsEndpointGetMessage(idx)
            end_name = h.helicsEndpointGetName(idx)
            print("Value from endpoint name: {} is {}".format(end_name, msg.data))

        print('########################   Send to VOLTTRON Endpoint  #################################')
        for i in range(0, endpoint_count):
            idx = endid["m{}".format(i)]
            value = i + random.randint(1, 101) + 89.7
            end_name = h.helicsEndpointGetName(idx)
            print("Sending Value:{0} for endpoint: {1}".format(value, end_name))
            h.helicsEndpointSendEventRaw(idx, '', str(value), t)
            end_name = h.helicsEndpointGetName(idx)

    logger.info("Destroying federate")
    destroy_federate(fed)
Esempio n. 6
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# Enter execution mode #
h.helicsFederateEnterExecutingMode(vfed)
print("PI SENDER: Entering execution mode")

# This federate will be publishing deltat*pi for numsteps steps #
this_time = 0.0
value = pi

for t in range(5, 10):
    val = value

    currenttime = h.helicsFederateRequestTime(vfed, t)

    h.helicsPublicationPublishDouble(pub, val)
    print("PI SENDER: Sending value pi = {} at time {} to PI RECEIVER".format(
        val, currenttime))

    h.helicsEndpointSendEventRaw(epid, "endpoint2", str(t), t)
    time.sleep(1)

h.helicsFederateFinalize(vfed)
print("PI SENDER: Federate finalized")

while h.helicsBrokerIsConnected(broker):
    time.sleep(1)

h.helicsFederateFree(vfed)
h.helicsCloseLibrary()

print("PI SENDER: Broker disconnected")