示例#1
0
size_t fromString(PVUnionArrayPtr const &pv, StringArray const & from, size_t fromStartIndex = 0)
{
    int processed = 0;
    size_t fromValueCount = from.size();

    // first get count
    if (fromStartIndex >= fromValueCount)
        throw std::runtime_error("not enough of values");

    size_t numberOfUnions;
    istringstream iss(from[fromStartIndex]);
    iss >> numberOfUnions;
    // not fail and entire value is parsed (e.g. to detect 1.2 parsing to 1)
    if (iss.fail() || !iss.eof())
        throw runtime_error("failed to parse element count value (uint) of field '" + pv->getFieldName() + "' from string value '" + from[fromStartIndex] + "'");
    fromStartIndex++;
    processed++;

    PVUnionArray::svector pvUnions;
    pvUnions.reserve(numberOfUnions);

    PVDataCreatePtr pvDataCreate = getPVDataCreate();
    for (size_t i = 0; i < numberOfUnions; ++i)
    {
        PVUnionPtr pvUnion = pvDataCreate->createPVUnion(pv->getUnionArray()->getUnion());
        size_t count = fromString(pvUnion, from, fromStartIndex);
        processed += count;
        fromStartIndex += count;
        pvUnions.push_back(pvUnion);
    }

    pv->replace(freeze(pvUnions));

    return processed;
}
static void test()
{
    NTMultiChannelBuilderPtr builder = NTMultiChannel::createBuilder();
    testOk(builder.get() != 0, "Got builder");

    NTMultiChannelPtr multiChannel = builder->
            addDescriptor()->
            addAlarm()->
            addTimeStamp()->
            addSeverity() ->
            add("extra1",fieldCreate->createScalar(pvString)) ->
            add("extra2",fieldCreate->createScalarArray(pvString)) ->
            create();
    testOk1(multiChannel.get() != 0);

    PVStructurePtr pvStructure = multiChannel->getPVStructure();
    testOk1(pvStructure.get()!=NULL);
    testOk1(NTMultiChannel::is_a(pvStructure->getStructure()));
    size_t nchan = 3;
    shared_vector<string> names(nchan);
    names[0] = "channel 0";
    names[1] = "channel 1";
    names[2] = "channel 2";
    shared_vector<const string> channelNames(freeze(names));
    PVStringArrayPtr pvChannelName = multiChannel->getChannelName();
    pvChannelName->replace(channelNames);
    if(debug) {cout << *pvStructure << endl;}
    UnionConstPtr unionPtr =
       fieldCreate->createFieldBuilder()->
           add("doubleValue", pvDouble)->
           add("intValue", pvInt)->
           createUnion();
    multiChannel = builder->
            value(unionPtr) ->
            addDescriptor()->
            addAlarm()->
            addTimeStamp()->
            addSeverity() ->
            addIsConnected() ->
            create();
    testOk1(multiChannel.get() != 0);
    pvStructure = multiChannel->getPVStructure();
    if(debug) {cout << *pvStructure << endl;}
    pvChannelName = multiChannel->getChannelName();
    pvChannelName->replace(channelNames);
    PVUnionArrayPtr pvValue = multiChannel->getValue();
    shared_vector<PVUnionPtr> unions(nchan);
    unions[0] = pvDataCreate->createPVUnion(unionPtr);
    unions[1] = pvDataCreate->createPVUnion(unionPtr);
    unions[2] = pvDataCreate->createPVUnion(unionPtr);
    unions[0]->select("doubleValue");
    unions[1]->select("intValue");
    unions[2]->select("intValue");
    PVDoublePtr pvDouble = unions[0]->get<PVDouble>();
    pvDouble->put(1.235);
    PVIntPtr pvInt = unions[1]->get<PVInt>();
    pvInt->put(5);
    pvInt = unions[2]->get<PVInt>();
    pvInt->put(7);
    pvValue->replace(freeze(unions));
    shared_vector<int32> severities(nchan);
    severities[0] = 0;
    severities[1] = 1;
    severities[2] = 2;
    PVIntArrayPtr pvSeverity = multiChannel->getSeverity();
    pvSeverity->replace(freeze(severities));
    if(debug) {cout << *pvStructure << endl;}
    PVBooleanArrayPtr pvIsConnected = multiChannel->getIsConnected();
    shared_vector<const epics::pvData::boolean> isConnected = pvIsConnected->view();
    multiChannel = builder->
            value(unionPtr) ->
            addDescriptor()->
            addAlarm()->
            addTimeStamp()->
            addSeverity() ->
            addStatus() ->
            addMessage() ->
            addSecondsPastEpoch() ->
            addNanoseconds() ->
            addUserTag() ->
            addIsConnected() ->
            create();
    testOk1(multiChannel.get() != 0);
    pvStructure = multiChannel->getPVStructure();
    if(debug) {cout << *pvStructure << endl;}
    testOk1(NTMultiChannel::isCompatible(pvStructure)==true);
    PVStructurePtr pvTimeStamp = multiChannel->getTimeStamp();
    testOk1(pvTimeStamp.get() !=0);
    PVStructurePtr pvAlarm = multiChannel->getAlarm();
    testOk1(pvAlarm.get() !=0);
    pvValue = multiChannel->getValue();
    testOk1(pvValue.get() !=0);
    pvChannelName = multiChannel->getChannelName();
    testOk1(pvChannelName.get() !=0);
    pvIsConnected = multiChannel->getIsConnected();
    testOk1(pvIsConnected.get() !=0);
    pvSeverity = multiChannel->getSeverity();
    testOk1(pvSeverity.get() !=0);
    PVIntArrayPtr pvStatus = multiChannel->getStatus();
    testOk1(pvStatus.get() !=0);
    PVStringArrayPtr pvMessage = multiChannel->getMessage();
    testOk1(pvMessage.get() !=0);
    PVLongArrayPtr pvSecondsPastEpoch = multiChannel->getSecondsPastEpoch();
    testOk1(pvSecondsPastEpoch.get() !=0);
    PVIntArrayPtr pvNanoseconds = multiChannel->getNanoseconds();
    testOk1(pvNanoseconds.get() !=0);
    PVIntArrayPtr pvUserTag = multiChannel->getUserTag();
    testOk1(pvUserTag.get() !=0);
    PVStringPtr pvDescriptor = multiChannel->getDescriptor();
    testOk1(pvDescriptor.get() !=0);
}