/* * Copyright information and license terms for this software can be * found in the file LICENSE that is included with the distribution */ #include #include #include using namespace epics::nt; using namespace epics::pvData; using std::tr1::dynamic_pointer_cast; static FieldCreatePtr fieldCreate = getFieldCreate(); void test_builder() { testDiag("test_builder"); NTNameValueBuilderPtr builder = NTNameValue::createBuilder(); testOk(builder.get() != 0, "Got builder"); StructureConstPtr structure = builder-> value(pvDouble)-> addDescriptor()-> addAlarm()-> addTimeStamp()-> add("extra1",fieldCreate->createScalar(pvString)) -> add("extra2",fieldCreate->createScalarArray(pvString)) -> createStructure(); testOk1(structure.get() != 0); if (!structure) return; testOk1(NTNameValue::is_a(structure)); testOk1(structure->getID() == NTNameValue::URI); testOk1(structure->getNumberFields() == 7); testOk1(structure->getField("name").get() != 0); testOk1(structure->getField("value").get() != 0); testOk1(structure->getField("descriptor").get() != 0); testOk1(structure->getField("alarm").get() != 0); testOk1(structure->getField("timeStamp").get() != 0); testOk(dynamic_pointer_cast(structure->getField("value")).get() != 0 && dynamic_pointer_cast(structure->getField("value"))->getElementType() == pvDouble, "value array element type"); std::cout << *structure << std::endl; // no value set try { structure = builder-> addDescriptor()-> addAlarm()-> addTimeStamp()-> add("extra1",fieldCreate->createScalar(pvString)) -> add("extra2",fieldCreate->createScalarArray(pvString)) -> createStructure(); testFail("no value type set"); } catch (std::runtime_error &) { testPass("no value type set"); } } 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(); 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; } void test_wrap() { testDiag("test_wrap"); NTNameValuePtr nullPtr = NTNameValue::wrap(PVStructurePtr()); testOk(nullPtr.get() == 0, "nullptr wrap"); nullPtr = NTNameValue::wrap( getPVDataCreate()->createPVStructure( NTField::get()->createTimeStamp() ) ); testOk(nullPtr.get() == 0, "wrong type wrap"); NTNameValueBuilderPtr builder = NTNameValue::createBuilder(); testOk(builder.get() != 0, "Got builder"); PVStructurePtr pvStructure = builder-> value(pvString)-> createPVStructure(); testOk1(pvStructure.get() != 0); if (!pvStructure) return; testOk1(NTNameValue::isCompatible(pvStructure)==true); NTNameValuePtr ptr = NTNameValue::wrap(pvStructure); testOk(ptr.get() != 0, "wrap OK"); ptr = NTNameValue::wrapUnsafe(pvStructure); testOk(ptr.get() != 0, "wrapUnsafe OK"); } void test_extra() { testDiag("test_extra"); NTNameValueBuilderPtr builder = NTNameValue::createBuilder(); testOk(builder.get() != 0, "Got builder"); StructureConstPtr structure = builder-> value(pvDouble)-> addTimeStamp()-> add("function", getFieldCreate()->createScalar(pvString))-> createStructure(); testOk1(structure.get() != 0); if (!structure) return; testOk1(NTNameValue::is_a(structure)); testOk1(structure->getID() == NTNameValue::URI); testOk1(structure->getNumberFields() == 4); testOk1(structure->getField("name").get() != 0); testOk1(structure->getField("value").get() != 0); testOk1(structure->getField("timeStamp").get() != 0); testOk1(structure->getField("function").get() != 0); testOk(dynamic_pointer_cast(structure->getField("function")).get() != 0 && dynamic_pointer_cast(structure->getField("function"))->getScalarType() == pvString, "function type"); std::cout << *structure << std::endl; } MAIN(testNTNameValue) { testPlan(50); test_builder(); test_ntnameValue(); test_wrap(); test_extra(); return testDone(); }