int main(int argc,char *argv[])
{
    PVDatabasePtr master = PVDatabase::getMaster();
    PVRecordPtr pvRecord;
    bool result = false;
    string recordName;

    recordName = "exampleServer";
    pvRecord = ExampleServer::create(recordName);
    result = master->addRecord(pvRecord);
    if(!result) cout<< "record " << recordName << " not added" << endl;

    recordName = "traceRecordPGRPC";
    pvRecord = TraceRecord::create(recordName);
    result = master->addRecord(pvRecord);
    if(!result) cout<< "record " << recordName << " not added" << endl;

   
    ContextLocal::shared_pointer contextLocal = ContextLocal::create();
    contextLocal->start();

    PVStringArrayPtr pvNames = master->getRecordNames();
    shared_vector<const string> names = pvNames->view();
    for(size_t i=0; i<names.size(); ++i) cout << names[i] << endl;

    contextLocal->waitForExit();

    return 0;
}
void test_labels()
{
    testDiag("test_labels");

    NTTableBuilderPtr builder = NTTable::createBuilder();
    testOk(builder.get() != 0, "Got builder");

    PVStructurePtr pvStructure = builder->
            addColumn("column0", pvDouble)->
            addColumn("column1", pvString)->
            addColumn("column2", pvInt)->
            createPVStructure();
    testOk1(pvStructure.get() != 0);
    if (!pvStructure)
        return;

    testOk1(NTTable::isCompatible(pvStructure)==true);
    std::cout << *pvStructure << std::endl;

    PVStringArrayPtr labels = pvStructure->getSubField<PVStringArray>("labels");
    testOk1(labels.get() != 0);
    testOk1(labels->getLength() == 3);

    PVStringArray::const_svector l(labels->view());
    testOk1(l[0] == "column0");
    testOk1(l[1] == "column1");
    testOk1(l[2] == "column2");
}
Beispiel #3
0
static PyObject * _getLabels(PyObject *willBeNull, PyObject *args)
{
    PyObject *pcapsule = 0;
    if(!PyArg_ParseTuple(args,"O:nttablePy",
                         &pcapsule))
    {
        PyErr_SetString(PyExc_SyntaxError,
                        "Bad argument. Expected (pvt)");
        return NULL;
    }
    void *pvoid = PyCapsule_GetPointer(pcapsule,"nttablePvt");
    if(pvoid==0) {
        PyErr_SetString(PyExc_SyntaxError,
                        "first arg must be return from _init");
        return NULL;
    }
    NTTablePvt *pvt = static_cast<NTTablePvt *>(pvoid);
    PVStringArrayPtr pvLabel = pvt->nttable->getLabels();
    shared_vector<const string> data(pvLabel->view());
    int num = data.size();
    PyObject *result = PyTuple_New(num);
    for(int i=0; i<num; i++) {
        PyObject *elem = Py_BuildValue("s",data[i].c_str());
        PyTuple_SetItem(result, i, elem);
    }
    return result;
}
shared_vector<const string> PvaClientPutData::getStringArray()
{
    checkValue();
    PVStringArrayPtr pv = pvStructure->getSubField<PVStringArray>("value");
    if(!pv) {
        throw std::runtime_error(messagePrefix + notStringArray);
    }
    return pv->view();   

}
ChannelFind::shared_pointer ChannelProviderLocal::channelList(
    ChannelListRequester::shared_pointer const & channelListRequester)
{
    PVStringArrayPtr records;
    {
        Lock guard(mutex);
        records = pvDatabase->getRecordNames();
    }

    channelListRequester->channelListResult(Status::Ok, channelFinder, records->view(), false);
    return channelFinder;
}
void RecordListRecord::process()
{
    PVStringArrayPtr pvNames = PVDatabase::getMaster()->getRecordNames();
    name->replace(pvNames->view());
    string message("");
    if(database->get().compare("master")!=0) {
        message += " can only access master ";
    }
    string regEx = regularExpression->get();
    if(regEx.compare("")!=0 && regEx.compare(".*")!=0) {
         message += " regularExpression not implemented ";
    }
    status->put(message);
}
Beispiel #7
0
void test_ntenum()
{
    testDiag("test_ntenum");

    NTEnumBuilderPtr builder = NTEnum::createBuilder();
    testOk(builder.get() != 0, "Got builder");

    NTEnumPtr ntEnum = builder->
            addDescriptor()->
            addAlarm()->
            addTimeStamp()->
            add("valueAlarm",standardField->intAlarm()) ->
            create();
    testOk1(ntEnum.get() != 0);

    testOk1(NTEnum::is_a(ntEnum->getPVStructure()));
    testOk1(NTEnum::isCompatible(ntEnum->getPVStructure()));

    testOk1(ntEnum->getPVStructure().get() != 0);
    testOk1(ntEnum->getValue().get() != 0);
    testOk1(ntEnum->getDescriptor().get() != 0);
    testOk1(ntEnum->getAlarm().get() != 0);
    testOk1(ntEnum->getTimeStamp().get() != 0);

    //
    // example how to set a value
    //
    PVStructurePtr pvValue = ntEnum->getValue();
    //PVStringArray pvChoices = pvValue->getSubField<PVStringArray>("choices");
    PVStringArray::svector choices(2);
    choices[0] = "Off";
    choices[1] = "On";
    pvValue->getSubField<PVStringArray>("choices")->replace(freeze(choices));
    pvValue->getSubField<PVInt>("index")->put(1);
    
    //
    // example how to get a value
    //
    int32 value = ntEnum->getValue()->getSubField<PVInt>("index")->get();
    testOk1(value == 1);

    PVStringArrayPtr pvChoices = ntEnum->getValue()->getSubField<PVStringArray>("choices");
    std::string choice0 = pvChoices->view()[0];
    std::string choice1 = pvChoices->view()[1];
    testOk1(choice0 == "Off");
    testOk1(choice1 == "On");

    //
    // timeStamp ops
    //
    PVTimeStamp pvTimeStamp;
    if (ntEnum->attachTimeStamp(pvTimeStamp))
    {
        testPass("timeStamp attach");

        // example how to set current time
        TimeStamp ts;
        ts.getCurrent();
        pvTimeStamp.set(ts);

        // example how to get EPICS time
        TimeStamp ts2;
        pvTimeStamp.get(ts2);
        testOk1(ts2.getEpicsSecondsPastEpoch() != 0);
    }
    else
        testFail("timeStamp attach fail");

    //
    // alarm ops
    //
    PVAlarm pvAlarm;
    if (ntEnum->attachAlarm(pvAlarm))
    {
        testPass("alarm attach");

        // example how to set an alarm
        Alarm alarm;
        alarm.setStatus(deviceStatus);
        alarm.setSeverity(minorAlarm);
        alarm.setMessage("simulation alarm");
        pvAlarm.set(alarm);
    }
    else
        testFail("alarm attach fail");

    //
    // set descriptor
    //
    ntEnum->getDescriptor()->put("This is a test NTEnum");

    // dump ntEnum
    std::cout << *ntEnum->getPVStructure() << std::endl;

}
void test_ntcontinuum()
{
    testDiag("test_ntcontinuum");

    NTContinuumBuilderPtr builder = NTContinuum::createBuilder();
    testOk(builder.get() != 0, "Got builder");

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

    testOk1(ntContinuum->getPVStructure().get() != 0);
    testOk1(ntContinuum->getDescriptor().get() != 0);
    testOk1(ntContinuum->getAlarm().get() != 0);
    testOk1(ntContinuum->getTimeStamp().get() != 0);
    testOk1(ntContinuum->getBase().get() != 0);
    testOk1(ntContinuum->getValue().get() != 0);
    //
    // example how to set base
    //
    PVDoubleArray::svector newBase;
    newBase.push_back(1.0);
    newBase.push_back(2.0);

    PVDoubleArrayPtr pvBaseField = ntContinuum->getBase();
    pvBaseField->replace(freeze(newBase));

    //
    // example how to get bases
    //
    PVDoubleArray::const_svector base(pvBaseField->view());

    testOk1(base.size() == 2);
    testOk1(base[0] == 1.0);
    testOk1(base[1] == 2.0);

    //
    // example how to set values
    //
    PVDoubleArray::svector newValue;
    newValue.push_back(1.0);
    newValue.push_back(2.0);
    newValue.push_back(10.0);
    newValue.push_back(20.0);
    newValue.push_back(100.0);
    newValue.push_back(200.0);

    PVDoubleArrayPtr pvValueField = ntContinuum->getValue();
    pvValueField->replace(freeze(newValue));

    //
    // example how to get values
    //
    PVDoubleArray::const_svector value(pvValueField->view());

    testOk1(value.size() == 6);
    testOk1(value[0] == 1.0);
    testOk1(value[1] == 2.0);
    testOk1(value[2] == 10.0);
    testOk1(value[3] == 20.0);
    testOk1(value[4] == 100.0);
    testOk1(value[5] == 200.0);

    //
    // example how to set units
    //
    PVStringArray::svector newUnits;
    newUnits.push_back("s");
    newUnits.push_back("ms");
    newUnits.push_back("us");
    newUnits.push_back("s");

    PVStringArrayPtr pvUnitsField = ntContinuum->getUnits();
    pvUnitsField->replace(freeze(newUnits));

    //
    // example how to get units
    //
    PVStringArray::const_svector units(pvUnitsField->view());

    testOk1(units.size() == 4);
    testOk1(units[0] == "s");
    testOk1(units[1] == "ms");
    testOk1(units[2] == "us");
    testOk1(units[3] == "s");

    //
    // test isValid
    //
    testOk1(ntContinuum->isValid());
    //
    // timeStamp ops
    //
    PVTimeStamp pvTimeStamp;
    if (ntContinuum->attachTimeStamp(pvTimeStamp))
    {
        testPass("timeStamp attach");

        // example how to set current time
        TimeStamp ts;
        ts.getCurrent();
        pvTimeStamp.set(ts);

        // example how to get EPICS time
        TimeStamp ts2;
        pvTimeStamp.get(ts2);
        testOk1(ts2.getEpicsSecondsPastEpoch() != 0);
    }
    else
        testFail("timeStamp attach fail");

    //
    // alarm ops
    //
    PVAlarm pvAlarm;
    if (ntContinuum->attachAlarm(pvAlarm))
    {
        testPass("alarm attach");

        // example how to set an alarm
        Alarm alarm;
        alarm.setStatus(deviceStatus);
        alarm.setSeverity(minorAlarm);
        alarm.setMessage("simulation alarm");
        pvAlarm.set(alarm);
    }
    else
        testFail("alarm attach fail");

    //
    // set descriptor
    //
    ntContinuum->getDescriptor()->put("This is a test NTContinuum");

    // dump NTContinuum
    std::cout << *ntContinuum->getPVStructure() << std::endl;

}
Beispiel #9
0
static PyObject *getScalarArrayValue(PVScalarArrayPtr pvScalarArray)
{
    ScalarType scalarType = pvScalarArray->getScalarArray()->getElementType();
    switch(scalarType) {
    case pvBoolean: {
        PVBooleanArrayPtr pvArray = static_pointer_cast<PVBooleanArray>(pvScalarArray);
        shared_vector<const boolean> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            int value = (data[i] ? 1 : 0);
            PyObject *elem = Py_BuildValue("i",value);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvByte: {
        PVByteArrayPtr pvArray = static_pointer_cast<PVByteArray>(pvScalarArray);
        shared_vector<const int8> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            int value = data[i];
            PyObject *elem = Py_BuildValue("i",value);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvUByte: {
        PVUByteArrayPtr pvArray = static_pointer_cast<PVUByteArray>(pvScalarArray);
        shared_vector<const uint8> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            int value = data[i];
            PyObject *elem = Py_BuildValue("i",value);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvShort: {
        PVShortArrayPtr pvArray = static_pointer_cast<PVShortArray>(pvScalarArray);
        shared_vector<const int16> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            int value = data[i];
            PyObject *elem = Py_BuildValue("i",value);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvUShort: {
        PVUShortArrayPtr pvArray = static_pointer_cast<PVUShortArray>(pvScalarArray);
        shared_vector<const uint16> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            int value = data[i];
            PyObject *elem = Py_BuildValue("i",value);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvInt: {
        PVIntArrayPtr pvArray = static_pointer_cast<PVIntArray>(pvScalarArray);
        shared_vector<const int32> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("i",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvUInt: {
        PVUIntArrayPtr pvArray = static_pointer_cast<PVUIntArray>(pvScalarArray);
        shared_vector<const uint32> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("i",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvLong: {
        PVLongArrayPtr pvArray = static_pointer_cast<PVLongArray>(pvScalarArray);
        shared_vector<const int64> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("k",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvULong: {
        PVULongArrayPtr pvArray = static_pointer_cast<PVULongArray>(pvScalarArray);
        shared_vector<const uint64> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("k",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvFloat: {
        PVFloatArrayPtr pvArray = static_pointer_cast<PVFloatArray>(pvScalarArray);
        shared_vector<const float> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("f",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvDouble: {
        PVDoubleArrayPtr pvArray = static_pointer_cast<PVDoubleArray>(pvScalarArray);
        shared_vector<const double> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("d",data[i]);
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    case pvString: {
        PVStringArrayPtr pvArray = static_pointer_cast<PVStringArray>(pvScalarArray);
        shared_vector<const string> data(pvArray->view());
        int num = data.size();
        PyObject *result = PyTuple_New(num);
        for(int i=0; i<num; i++) {
            PyObject *elem = Py_BuildValue("s",data[i].c_str());
            PyTuple_SetItem(result, i, elem);
        }
        return result;
    }
    }
    Py_INCREF(Py_None);
    return Py_None;
}
Beispiel #10
0
void test_ntnameValue()
{
    testDiag("test_ntnameValue");

    NTNameValueBuilderPtr builder = NTNameValue::createBuilder();
    testOk(builder.get() != 0, "Got builder");

    NTNameValuePtr ntNameValue = builder->
            value(pvInt)->
            addDescriptor()->
            addAlarm()->
            addTimeStamp()->
            add("extra1",fieldCreate->createScalar(pvString)) ->
            add("extra2",fieldCreate->createScalarArray(pvString)) ->
            create();
    testOk1(ntNameValue.get() != 0);

    testOk1(NTNameValue::is_a(ntNameValue->getPVStructure()));
    testOk1(NTNameValue::isCompatible(ntNameValue->getPVStructure()));

    testOk1(ntNameValue->getPVStructure().get() != 0);
    testOk1(ntNameValue->getDescriptor().get() != 0);
    testOk1(ntNameValue->getAlarm().get() != 0);
    testOk1(ntNameValue->getTimeStamp().get() != 0);
    testOk1(ntNameValue->getName().get() != 0);
    testOk1(ntNameValue->getValue().get() != 0);

    //
    // example how to set name
    //
    PVStringArray::svector newName;
    newName.push_back("name1");
    newName.push_back("name2");
    newName.push_back("name3");

    PVStringArrayPtr pvNameField = ntNameValue->getName();
    pvNameField->replace(freeze(newName));

    //
    // example how to get name
    //
    PVStringArray::const_svector name(pvNameField->view());

    testOk1(name.size() == 3);
    testOk1(name[0] == "name1");
    testOk1(name[1] == "name2");
    testOk1(name[2] == "name3");

    //
    // example how to set value
    //
    PVIntArray::svector newValue;
    newValue.push_back(1);
    newValue.push_back(2);
    newValue.push_back(8);

    PVIntArrayPtr pvValueField = ntNameValue->getValue<PVIntArray>();
    pvValueField->replace(freeze(newValue));

    //
    // example how to get column value
    //
    PVIntArray::const_svector value(pvValueField->view());

    testOk1(value.size() == 3);
    testOk1(value[0] == 1);
    testOk1(value[1] == 2);
    testOk1(value[2] == 8);

    //
    // timeStamp ops
    //
    PVTimeStamp pvTimeStamp;
    if (ntNameValue->attachTimeStamp(pvTimeStamp))
    {
        testPass("timeStamp attach");

        // example how to set current time
        TimeStamp ts;
        ts.getCurrent();
        pvTimeStamp.set(ts);

        // example how to get EPICS time
        TimeStamp ts2;
        pvTimeStamp.get(ts2);
        testOk1(ts2.getEpicsSecondsPastEpoch() != 0);
    }
    else
        testFail("timeStamp attach fail");

    //
    // alarm ops
    //
    PVAlarm pvAlarm;
    if (ntNameValue->attachAlarm(pvAlarm))
    {
        testPass("alarm attach");

        // example how to set an alarm
        Alarm alarm;
        alarm.setStatus(deviceStatus);
        alarm.setSeverity(minorAlarm);
        alarm.setMessage("simulation alarm");
        pvAlarm.set(alarm);
    }
    else
        testFail("alarm attach fail");

    //
    // set descriptor
    //
    ntNameValue->getDescriptor()->put("This is a test NTNameValue");

    // dump NTNameValue
    std::cout << *ntNameValue->getPVStructure() << std::endl;

}