void test_invalid()
{
testDiag("Test test_invalid()");
FieldCreatePtr fieldCreate = getFieldCreate();
try
{
fieldCreate->createFieldBuilder()->
add("f1", pvByte)->
endNested();
testFail("endNested() allowed in non-nested FieldBuilder");
}
catch (std::runtime_error& re) {
// ok
testPass("endNested() disallowed in non-nested FieldBuilder");
}
try
{
fieldCreate->createFieldBuilder()->
add("f1", pvByte)->
addNestedStructure("nested")->
add("n1", pvUInt)->
createStructure();
testFail("createStructure() allowed in nested FieldBuilder");
}
catch (std::runtime_error& re) {
// ok
testPass("createStructure() disallowed in nested FieldBuilder");
}
}
static PVStructurePtr createPowerSupply()
{
FieldCreatePtr fieldCreate = getFieldCreate();
StandardFieldPtr standardField = getStandardField();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
size_t nfields = 5;
StringArray names;
names.reserve(nfields);
FieldConstPtrArray powerSupply;
powerSupply.reserve(nfields);
names.push_back("alarm");
powerSupply.push_back(standardField->alarm());
names.push_back("timeStamp");
powerSupply.push_back(standardField->timeStamp());
string properties("alarm,display");
names.push_back("voltage");
powerSupply.push_back(standardField->scalar(pvDouble,properties));
names.push_back("power");
powerSupply.push_back(standardField->scalar(pvDouble,properties));
names.push_back("current");
powerSupply.push_back(standardField->scalar(pvDouble,properties));
return pvDataCreate->createPVStructure(
fieldCreate->createStructure(names,powerSupply));
}
PowerSupplyRecordPtr PowerSupplyRecord::create(
string const & recordName)
{
FieldCreatePtr fieldCreate = getFieldCreate();
StandardFieldPtr standardField = getStandardField();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
StructureConstPtr topStructure = fieldCreate->createFieldBuilder()->
add("alarm",standardField->alarm()) ->
add("timeStamp",standardField->timeStamp()) ->
addNestedStructure("power") ->
add("value",pvDouble) ->
endNested()->
addNestedStructure("voltage") ->
add("value",pvDouble) ->
endNested()->
addNestedStructure("current") ->
add("value",pvDouble) ->
endNested()->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(topStructure);
PowerSupplyRecordPtr pvRecord(
new PowerSupplyRecord(recordName,pvStructure));
if(!pvRecord->init()) pvRecord.reset();
return pvRecord;
}
void test_builder()
{
testDiag("test_builder");
NTTableBuilderPtr builder = NTTable::createBuilder();
testOk(builder.get() != 0, "Got builder");
StructureConstPtr structure = builder->
addColumn("column0", pvDouble)->
addColumn("column1", pvString)->
addColumn("column2", pvInt)->
addDescriptor()->
addAlarm()->
addTimeStamp()->
add("extra1",fieldCreate->createScalar(pvString)) ->
add("extra2",fieldCreate->createScalarArray(pvString)) ->
createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTTable::is_a(structure));
testOk1(structure->getID() == NTTable::URI);
testOk1(structure->getNumberFields() == 7);
testOk1(structure->getField("labels").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);
testOk1(structure->getField("extra1").get() != 0);
testOk1(structure->getField("extra2").get() != 0);
StructureConstPtr s = dynamic_pointer_cast<const Structure>(structure->getField("value"));
#define TEST_COLUMN(name, type) \
testOk(s.get() != 0 && \
s->getField(name).get() != 0 && \
dynamic_pointer_cast<const ScalarArray>(s->getField(name)).get() != 0 && \
dynamic_pointer_cast<const ScalarArray>(s->getField(name))->getElementType() == type, \
name " check");
TEST_COLUMN("column0", pvDouble);
TEST_COLUMN("column1", pvString);
TEST_COLUMN("column2", pvInt);
#undef TEST_COLUMN
std::cout << *structure << std::endl;
// duplicate test
try
{
structure = builder->
addColumn("column0", pvDouble)->
addColumn("column0", pvString)->
createStructure();
testFail("duplicate column name");
} catch (std::runtime_error &) {
testPass("duplicate column name");
}
}
static StructureConstPtr createResultField()
{
FieldCreatePtr fieldCreate = getFieldCreate();
StringArray fieldNames;
fieldNames.push_back("c");
FieldConstPtrArray fields;
fields.push_back(fieldCreate->createScalar(pvDouble));
return fieldCreate->createStructure(fieldNames, fields);
}
// TODO replace with non-locking singleton pattern
FieldCreatePtr FieldCreate::getFieldCreate()
{
LOCAL_STATIC_LOCK;
static FieldCreatePtr fieldCreate;
static Mutex mutex;
Lock xx(mutex);
if(fieldCreate.get()==0) fieldCreate = FieldCreatePtr(new FieldCreate());
return fieldCreate;
}
void test_nestedStructureArray()
{
testDiag("Test test_nestedStructureArray()");
FieldCreatePtr fieldCreate = getFieldCreate();
string NESTED_ID = "nestedID";
StructureConstPtr s = fieldCreate->createFieldBuilder()->
add("double", pvDouble)->
addNestedStructureArray("nested")->
setId(NESTED_ID)->
add("short", pvShort)->
add("long", pvLong)->
endNested()->
addArray("intArray", pvInt)->
createStructure();
testOk1(s.get() != 0);
testOk1(Structure::DEFAULT_ID == s->getID());
testOk1(3 == s->getFields().size());
FieldConstPtr f0 = s->getField(0);
testOk1(scalar == f0->getType());
testOk1("double" == s->getFieldName(0));
testOk(pvDouble == static_pointer_cast<const Scalar>(f0)->getScalarType(), "f0 scalar type == double");
FieldConstPtr f1 = s->getField(1);
testOk1(structureArray == f1->getType());
testOk1("nested" == s->getFieldName(1));
{
StructureConstPtr s2 = static_pointer_cast<const StructureArray>(f1)->getStructure();
testOk1(s2.get() != 0);
testOk1(NESTED_ID == s2->getID());
testOk1(2 == s2->getFields().size());
FieldConstPtr f20 = s2->getField(0);
testOk1(scalar == f20->getType());
testOk1("short" == s2->getFieldName(0));
testOk(pvShort == static_pointer_cast<const Scalar>(f20)->getScalarType(), "f20 scalar type == short");
FieldConstPtr f21 = s2->getField(1);
testOk1(scalar == f21->getType());
testOk1("long" == s2->getFieldName(1));
testOk(pvLong == static_pointer_cast<const Scalar>(f21)->getScalarType(), "f21 element type == long");
}
FieldConstPtr f2 = s->getField(2);
testOk1(scalarArray == f2->getType());
testOk1("intArray" == s->getFieldName(2));
testOk(pvInt == static_pointer_cast<const ScalarArray>(f2)->getElementType(), "f2 element type == int");
}
static void createVariantUnionRecord(
PVDatabasePtr const &master,
string const &recordName)
{
StructureConstPtr top = fieldCreate->createFieldBuilder()->
add("value",fieldCreate->createVariantUnion())->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(top);
PVRecordPtr pvRecord = PVRecord::create(recordName,pvStructure);
bool result = master->addRecord(pvRecord);
if(!result) cout<< "record " << recordName << " not added" << endl;
}
void test_factory()
{
testDiag("Test test_factory()");
FieldCreatePtr fieldCreate = getFieldCreate();
FieldBuilderPtr fb = fieldCreate->createFieldBuilder();
testOk1(fb.get() != 0);
FieldBuilderPtr fb2 = fieldCreate->createFieldBuilder();
testOk1(fb.get() != fb2.get());
}
// returns this service's result structure type definition.
StructureConstPtr makeResponseStructure()
{
FieldCreatePtr factory = getFieldCreate();
FieldConstPtrArray fields;
StringArray names;
names.push_back("greeting");
fields.push_back(factory->createScalar(pvString));
return factory->createStructure(names, fields);
}
RPCService::shared_pointer ExampleHelloRPC::create()
{
FieldCreatePtr fieldCreate = getFieldCreate();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
StructureConstPtr topStructure = fieldCreate->createFieldBuilder()->
add("value",pvString)->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(topStructure);
ExampleHelloRPCPtr hello(
new ExampleHelloRPC(pvStructure));
return hello;
}
void test_structure()
{
testDiag("Test test_structure()");
FieldCreatePtr fieldCreate = getFieldCreate();
FieldBuilderPtr fb = fieldCreate->createFieldBuilder();
// test with simple (non-nested) structure
string ID = "testStructureID";
StructureConstPtr s = fb->setId(ID)->
add("double", pvDouble)->
addArray("intArray", pvInt)->
createStructure();
testOk1(s.get() != 0);
testOk1(ID == s->getID());
testOk1(2 == s->getFields().size());
FieldConstPtr f0 = s->getField(0);
testOk1(scalar == f0->getType());
testOk1("double" == s->getFieldName(0));
testOk(pvDouble == static_pointer_cast<const Scalar>(f0)->getScalarType(), "f0 scalar type == double");
FieldConstPtr f1 = s->getField(1);
testOk1(scalarArray == f1->getType());
testOk1("intArray" == s->getFieldName(1));
testOk(pvInt == static_pointer_cast<const ScalarArray>(f1)->getElementType(), "f1 element type == int");
// test reuse with empty structure
StructureConstPtr emptyStructure = fb->createStructure();
testOk1(emptyStructure.get() != 0);
testOk1(Structure::DEFAULT_ID == emptyStructure->getID());
testOk1(0 == emptyStructure->getFields().size());
// test add/addArray with Field
StructureConstPtr s2 = fb->add("s", s)->
addArray("sArray", s)->
createStructure();
testOk1(s2.get()!=0);
testOk1(Structure::DEFAULT_ID == s2->getID());
testOk1(2 == s2->getFields().size());
f0 = s2->getField(0);
testOk1(structure == f0->getType());
testOk1("s" == s2->getFieldName(0));
testOk1(s.get() == f0.get());
f1 = s2->getField(1);
testOk1(structureArray == f1->getType());
testOk1("sArray" == s2->getFieldName(1));
testOk(s.get() == static_pointer_cast<const StructureArray>(f1)->getStructure().get(), "array element is given structure");
}
void test_builder()
{
testDiag("test_builder");
NTScalarArrayBuilderPtr builder = NTScalarArray::createBuilder();
testOk(builder.get() != 0, "Got builder");
StructureConstPtr structure = builder->
value(pvDouble)->
addDescriptor()->
addAlarm()->
addTimeStamp()->
addDisplay()->
addControl()->
add("extra1",fieldCreate->createScalar(pvString)) ->
add("extra2",fieldCreate->createScalarArray(pvString)) ->
createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTScalarArray::is_a(structure));
testOk1(structure->getID() == NTScalarArray::URI);
testOk1(structure->getNumberFields() == 8);
testOk1(structure->getField("value").get() != 0);
testOk1(structure->getField("descriptor").get() != 0);
testOk1(structure->getField("alarm").get() != 0);
testOk1(structure->getField("timeStamp").get() != 0);
testOk1(structure->getField("display").get() != 0);
testOk1(structure->getField("control").get() != 0);
testOk(dynamic_pointer_cast<const ScalarArray>(structure->getField("value")).get() != 0 &&
dynamic_pointer_cast<const ScalarArray>(structure->getField("value"))->getElementType() == pvDouble, "value type");
std::cout << *structure << std::endl;
// no value set
try
{
structure = builder->
addDescriptor()->
addAlarm()->
addTimeStamp()->
addDisplay()->
addControl()->
createStructure();
testFail("no value type set");
} catch (std::runtime_error &) {
testPass("no value type set");
}
}
void test_arraySizeTypes()
{
testDiag("Test test_arraySizeTypes()");
FieldCreatePtr fieldCreate = getFieldCreate();
StructureConstPtr s = fieldCreate->createFieldBuilder()->
addArray("variableArray", pvDouble)->
addFixedArray("fixedArray", pvDouble, 10)->
addBoundedArray("boundedArray", pvDouble, 1024)->
createStructure();
testOk1(s.get() != 0);
testOk1(Structure::DEFAULT_ID == s->getID());
testOk1(3 == s->getFields().size());
}
static void createDumbPowerSupplyRecord(
PVDatabasePtr const &master,
string const &recordName)
{
StructureConstPtr top = fieldCreate->createFieldBuilder()->
add("alarm",standardField->alarm()) ->
add("timeStamp",standardField->timeStamp()) ->
addNestedStructure("power") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("voltage") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("current") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(top);
PVRecordPtr pvRecord = PVRecord::create(recordName,pvStructure);
bool result = master->addRecord(pvRecord);
if(!result) cout<< "record " << recordName << " not added" << endl;
}
void test_builder()
{
testDiag("test_builder");
NTEnumBuilderPtr builder = NTEnum::createBuilder();
testOk(builder.get() != 0, "Got builder");
StructureConstPtr structure = builder->
addDescriptor()->
addAlarm()->
addTimeStamp()->
add("valueAlarm",standardField->doubleAlarm()) ->
add("extra",fieldCreate->createScalarArray(pvString)) ->
createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTEnum::is_a(structure));
testOk1(structure->getID() == NTEnum::URI);
testOk1(structure->getNumberFields() == 6);
testOk1(structure->getField("value").get() != 0);
testOk1(structure->getField("descriptor").get() != 0);
testOk1(structure->getField("alarm").get() != 0);
testOk1(structure->getField("timeStamp").get() != 0);
FieldConstPtr valueField = structure->getField("value");
testOk(valueField.get() != 0 &&
ntField->isEnumerated(valueField), "value is enum");
std::cout << *structure << std::endl;
}
void test_builder(bool extraFields)
{
testDiag("test_builder");
NTNDArrayBuilderPtr builder = NTNDArray::createBuilder();
testOk(builder.get() != 0, "Got builder");
builder->addDescriptor()->
addTimeStamp()->
addAlarm()->
addDisplay();
if (extraFields)
{
builder->add("extra1",fieldCreate->createScalar(pvString))->
add("extra2",fieldCreate->createScalarArray(pvString));
}
StructureConstPtr structure = builder->createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTNDArray::is_a(structure));
testOk1(structure->getID() == NTNDArray::URI);
testOk1(structure->getField("value").get() != 0);
testOk1(structure->getField("compressedSize").get() != 0);
testOk1(structure->getField("uncompressedSize").get() != 0);
testOk1(structure->getField("codec").get() != 0);
testOk1(structure->getField("dimension").get() != 0);
testOk1(structure->getField("uniqueId").get() != 0);
testOk1(structure->getField("dataTimeStamp").get() != 0);
testOk1(structure->getField("attribute").get() != 0);
testOk1(structure->getField("descriptor").get() != 0);
testOk1(structure->getField("alarm").get() != 0);
testOk1(structure->getField("timeStamp").get() != 0);
testOk1(structure->getField("display").get() != 0);
if (extraFields)
{
testOk1(structure->getField("extra1").get() != 0);
testOk1(structure->getField("extra2").get() != 0);
}
std::cout << *structure << std::endl;
}
void test_all()
{
testDiag("test_builder");
NTNDArrayBuilderPtr builder = NTNDArray::createBuilder();
testOk(builder.get() != 0, "Got builder");
PVStructurePtr pvStructure = builder->
addDescriptor()->
addTimeStamp()->
addAlarm()->
addDisplay()->
add("extra1",fieldCreate->createScalar(pvString)) ->
add("extra2",fieldCreate->createScalarArray(pvString)) ->
createPVStructure();
testOk1(NTNDArray::is_a(pvStructure)==true);
testOk1(NTNDArray::isCompatible(pvStructure)==true);
}
RecordListRecordPtr RecordListRecord::create(
std::string const & recordName)
{
FieldCreatePtr fieldCreate = getFieldCreate();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
StructureConstPtr topStructure = fieldCreate->createFieldBuilder()->
addNestedStructure("argument")->
add("database",pvString)->
add("regularExpression",pvString)->
endNested()->
addNestedStructure("result") ->
add("status",pvString) ->
addArray("names",pvString) ->
endNested()->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(topStructure);
RecordListRecordPtr pvRecord(
new RecordListRecord(recordName,pvStructure));
if(!pvRecord->init()) pvRecord.reset();
return pvRecord;
}
void test_builder()
{
testDiag("test_builder");
NTContinuumBuilderPtr builder = NTContinuum::createBuilder();
testOk(builder.get() != 0, "Got builder");
StructureConstPtr structure = builder->
addDescriptor()->
addAlarm()->
addTimeStamp()->
add("extra1",fieldCreate->createScalar(pvString)) ->
add("extra2",fieldCreate->createScalarArray(pvString)) ->
createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTContinuum::is_a(structure));
testOk1(structure->getID() == NTContinuum::URI);
testOk1(structure->getNumberFields() == 8);
testOk1(structure->getField("base").get() != 0);
testOk1(structure->getField("value").get() != 0);
testOk1(structure->getField("units").get() != 0);
testOk1(structure->getField("descriptor").get() != 0);
testOk1(structure->getField("alarm").get() != 0);
testOk1(structure->getField("timeStamp").get() != 0);
testOk(dynamic_pointer_cast<const ScalarArray>(structure->getField("base")).get() != 0 &&
dynamic_pointer_cast<const ScalarArray>(structure->getField("base"))->getElementType() == pvDouble, "base array element type");
testOk(dynamic_pointer_cast<const ScalarArray>(structure->getField("value")).get() != 0 &&
dynamic_pointer_cast<const ScalarArray>(structure->getField("value"))->getElementType() == pvDouble, "value array element type");
testOk(dynamic_pointer_cast<const ScalarArray>(structure->getField("units")).get() != 0 &&
dynamic_pointer_cast<const ScalarArray>(structure->getField("units"))->getElementType() == pvString, "units array element type");
std::cout << *structure << std::endl;
}
ExampleHelloPtr ExampleHello::create(
string const & recordName)
{
StandardFieldPtr standardField = getStandardField();
FieldCreatePtr fieldCreate = getFieldCreate();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
StructureConstPtr topStructure = fieldCreate->createFieldBuilder()->
addNestedStructure("argument")->
add("value",pvString)->
endNested()->
addNestedStructure("result") ->
add("value",pvString) ->
add("timeStamp",standardField->timeStamp()) ->
endNested()->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(topStructure);
ExampleHelloPtr pvRecord(
new ExampleHello(recordName,pvStructure));
if(!pvRecord->init()) pvRecord.reset();
return pvRecord;
}
static void createRegularUnionArrayRecord(
PVDatabasePtr const &master,
string const &recordName)
{
StructureConstPtr top = fieldCreate->createFieldBuilder()->
addNestedUnionArray("value")->
add("string",pvString)->
addArray("stringArray",pvString)->
endNested()->
createStructure();
PVStructurePtr pvStructure = pvDataCreate->createPVStructure(top);
PVRecordPtr pvRecord = PVRecord::create(recordName,pvStructure);
bool result = master->addRecord(pvRecord);
if(!result) cout<< "record " << recordName << " not added" << endl;
}
PVStructurePtr createPowerSupply()
{
FieldCreatePtr fieldCreate = getFieldCreate();
StandardFieldPtr standardField = getStandardField();
PVDataCreatePtr pvDataCreate = getPVDataCreate();
return pvDataCreate->createPVStructure(
fieldCreate->createFieldBuilder()->
add("alarm",standardField->alarm()) ->
add("timeStamp",standardField->timeStamp()) ->
addNestedStructure("power") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("voltage") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("current") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
createStructure());
}
static void testRequest()
{
StringArray nullNames;
FieldConstPtrArray nullFields;
StringArray optionNames(1);
FieldConstPtrArray optionFields(1);
optionNames[0] = "process";
optionFields[0] = fieldCreate->createScalar(pvString);
StringArray recordNames(1);
FieldConstPtrArray recordFields(1);
recordNames[0] = "_options";
recordFields[0] = fieldCreate->createStructure(optionNames,optionFields);
StringArray fieldNames(2);
FieldConstPtrArray fieldFields(2);
fieldNames[0] = "alarm";
fieldFields[0] = fieldCreate->createStructure(nullNames,nullFields);
fieldNames[1] = "timeStamp";
fieldFields[1] = fieldCreate->createStructure(nullNames,nullFields);
StringArray topNames(2);
FieldConstPtrArray topFields(2);
topNames[0] = "record";
topFields[0] = fieldCreate->createStructure(recordNames,recordFields);
topNames[1] = "field";
topFields[1] = fieldCreate->createStructure(fieldNames,fieldFields);
StructureConstPtr topStructure = fieldCreate->createStructure(
topNames,topFields);
cout << *topStructure << endl;
PVStructurePtr pvTop = pvDataCreate->createPVStructure(topStructure);
cout << *pvTop << endl;
cout << *pvTop->getStructure() << endl;
PVStructurePtr xxx = pvTop->getSubField<PVStructure>("record");
cout << *xxx << endl;
xxx = pvTop->getSubField<PVStructure>("field");
cout << *xxx << endl;
PVStringPtr pvString = pvTop->getSubField<PVString>("record._options.process");
pvString->put("true");
cout << *pvTop << endl;
string subName("record._options.process");
PVFieldPtr pvField = pvTop->getSubField<PVString>(subName);
string fieldName = pvField->getFieldName();
string fullName = pvField->getFullName();
cout << "fieldName " << fieldName << " fullName " << fullName << endl;
testOk1(fieldName.compare("process")==0);
testOk1(fullName.compare(subName)==0);
}
void test_builder()
{
testDiag("test_builder");
NTNDArrayAttributeBuilderPtr builder = NTNDArrayAttribute::createBuilder();
testOk(builder.get() != 0, "Got builder");
StructureConstPtr structure = builder->
addTags()->
addAlarm()->
addTimeStamp()->
add("extra",fieldCreate->createScalar(pvString)) ->
createStructure();
testOk1(structure.get() != 0);
if (!structure)
return;
testOk1(NTNDArrayAttribute::is_a(structure));
testOk1(structure->getID() == NTNDArrayAttribute::URI);
testOk1(structure->getNumberFields() == 9);
testOk1(structure->getField("name").get() != 0);
testOk1(structure->getField("value").get() != 0);
testOk1(structure->getField("tags").get() != 0);
testOk1(structure->getField("descriptor").get() != 0);
testOk1(structure->getField("alarm").get() != 0);
testOk1(structure->getField("timeStamp").get() != 0);
testOk1(structure->getField("sourceType").get() != 0);
testOk1(structure->getField("source").get() != 0);
ScalarConstPtr nameField = structure->getField<Scalar>("name");
testOk(nameField.get() != 0 && nameField->getScalarType() == pvString,
"name is string");
UnionConstPtr valueField = structure->getField<Union>("value");
testOk(valueField.get() != 0, "value is enum");
ScalarArrayConstPtr tagsField = structure->getField<ScalarArray>("tags");
testOk(tagsField.get() != 0 && tagsField->getElementType() == pvString,
"tags is string[]");
std::cout << *structure << std::endl;
}
static void testPostPut()
{
testDiag("== testPostPut ==");
StructureConstPtr structure =
fieldCreate->createFieldBuilder()->
add("alarm",standardField->alarm()) ->
add("timeStamp",standardField->timeStamp()) ->
addNestedStructure("power") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("voltage") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
addNestedStructure("current") ->
add("value",pvDouble) ->
add("alarm",standardField->alarm()) ->
endNested()->
createStructure();
PvaClientPutDataPtr pvaData = PvaClientPutData::create(structure);
PVStructurePtr pvStructure = pvaData->getPVStructure();
BitSetPtr change = pvaData->getChangedBitSet();
PVDoublePtr powerValue = pvStructure->getSubField<PVDouble>("power.value");
PVDoublePtr voltageValue = pvStructure->getSubField<PVDouble>("voltage.value");
PVDoublePtr currentValue = pvStructure->getSubField<PVDouble>("current.value");
size_t powerOffset = powerValue->getFieldOffset();
size_t voltageOffset = voltageValue->getFieldOffset();
size_t currentOffset = currentValue->getFieldOffset();
change->clear();
powerValue->put(1.0);
voltageValue->put(2.0);
currentValue->put(.5);
testOk(change->cardinality()==3,"3 fields changed");
testOk(change->get(powerOffset),"power changed");
testOk(change->get(voltageOffset),"voltage changed");
testOk(change->get(currentOffset),"current changed");
}
void test()
{
RPCClientPtr channelRPC =
RPCClientPtr(RPCClient::create(channelName));
bool result = channelRPC->connect(1.0);
if(!result) {
cout<< "connect failed\n";
return;
}
NTNameValueBuilderPtr builder = NTNameValue::createBuilder();
NTNameValuePtr ntnamevalue = builder ->
value(pvString) ->
add("function",fieldCreate->createScalar(pvString)) ->
create();
PVStructurePtr pv = ntnamevalue->getPVStructure();
PVStringPtr pvFunction = pv->getSubField<PVString>("function");
PVStringArrayPtr pvNames = pv->getSubField<PVStringArray>("name");
PVStringArrayPtr pvValues = pv->getSubField<PVStringArray>("value");
size_t n = 2;
shared_vector<string> name(n);
shared_vector<string> value(n);
name[0] = string("configname");
name[1] = string("servicename");
value[0] = string("test");
value[1] = string("masar");
pvNames->replace(freeze(name));
pvValues->replace(freeze(value));
pvFunction->put("retrieveSnapshot");
try {
cout << *ntnamevalue->getPVStructure() << endl;
PVStructurePtr pvResponse = channelRPC->request(ntnamevalue->getPVStructure());
cout << *pvResponse << endl;
} catch (std::exception &e)
{
cout << e.what() << endl;
return;
}
channelRPC->destroy();
}
namespace epics { namespace pvaClient {
static FieldCreatePtr fieldCreate = getFieldCreate();
static const string pvaClientName = "pvaClient";
static const string defaultProvider = "pva";
static UnionConstPtr variantUnion = fieldCreate->createVariantUnion();
namespace pvaClientPvt {
static size_t numberPvaClient = 0;
static bool firstTime = true;
static Mutex mutex;
class StartStopClientFactory {
public:
static void PvaClientBeingConstructed()
{
bool saveFirst = false;
{
Lock xx(mutex);
++numberPvaClient;
saveFirst = firstTime;
firstTime = false;
}
if(saveFirst) {
ClientFactory::start();
CAClientFactory::start();
}
}
static void PvaClientBeingDestroyed() {
size_t numLeft = 0;
{
Lock xx(mutex);
--numberPvaClient;
numLeft = numberPvaClient;
}
if(numLeft<=0) {
ClientFactory::stop();
CAClientFactory::stop();
}
}
};
} // namespace pvaClientPvt
class PvaClientChannelCache
{
public:
PvaClientChannelCache(){}
~PvaClientChannelCache(){
destroy();
}
void destroy() {
pvaClientChannelMap.clear();
}
PvaClientChannelPtr getChannel(
string const & channelName,
string const & providerName);
void addChannel(PvaClientChannelPtr const & pvaClientChannel);
void removeChannel(string const & channelName,string const & providerName);
void showCache();
size_t cacheSize();
private:
map<string,PvaClientChannelPtr> pvaClientChannelMap;
};
PvaClientChannelPtr PvaClientChannelCache::getChannel(
string const & channelName,
string const & providerName)
{
string name = channelName + providerName;
map<string,PvaClientChannelPtr>::iterator iter = pvaClientChannelMap.find(name);
if(iter!=pvaClientChannelMap.end()) return iter->second;
return PvaClientChannelPtr();
}
void PvaClientChannelCache::addChannel(PvaClientChannelPtr const & pvaClientChannel)
{
Channel::shared_pointer channel = pvaClientChannel->getChannel();
string name = channel->getChannelName()
+ channel->getProvider()->getProviderName();
pvaClientChannelMap.insert(std::pair<string,PvaClientChannelPtr>(
name,pvaClientChannel));
}
void PvaClientChannelCache::removeChannel(
string const & channelName,
string const & providerName)
{
string name = channelName + providerName;
map<string,PvaClientChannelPtr>::iterator iter = pvaClientChannelMap.find(name);
if(iter!=pvaClientChannelMap.end()) pvaClientChannelMap.erase(iter);
}
void PvaClientChannelCache::showCache()
{
map<string,PvaClientChannelPtr>::iterator iter;
for(iter = pvaClientChannelMap.begin(); iter != pvaClientChannelMap.end(); ++iter)
{
PvaClientChannelPtr pvaChannel = iter->second;
Channel::shared_pointer channel = pvaChannel->getChannel();
string channelName = channel->getChannelName();
string providerName = channel->getProvider()->getProviderName();
cout << "channel " << channelName << " provider " << providerName << endl;
cout << " get and put cacheSize " << pvaChannel->cacheSize() << endl;
pvaChannel->showCache();
}
}
size_t PvaClientChannelCache::cacheSize()
{
return pvaClientChannelMap.size();
}
using namespace epics::pvaClient::pvaClientPvt;
PvaClientPtr PvaClient::create()
{
PvaClientPtr xx(new PvaClient());
StartStopClientFactory::PvaClientBeingConstructed();
return xx;
}
PvaClient::PvaClient()
: pvaClientChannelCache(new PvaClientChannelCache()),
isDestroyed(false)
{
}
PvaClient::~PvaClient() {
destroy();
}
void PvaClient::destroy()
{
{
Lock xx(mutex);
if(isDestroyed) return;
isDestroyed = true;
}
pvaClientChannelCache.reset();
StartStopClientFactory::PvaClientBeingDestroyed();
}
string PvaClient:: getRequesterName()
{
static string name("pvaClient");
RequesterPtr req = requester.lock();
if(req) {
return req->getRequesterName();
}
return name;
}
void PvaClient::message(
string const & message,
MessageType messageType)
{
RequesterPtr req = requester.lock();
if(req) {
req->message(message,messageType);
return;
}
cout << getMessageTypeName(messageType) << " " << message << endl;
}
PvaClientChannelPtr PvaClient::channel(
std::string const & channelName,
std::string const & providerName,
double timeOut)
{
PvaClientChannelPtr pvaClientChannel =
pvaClientChannelCache->getChannel(channelName,providerName);
if(pvaClientChannel) return pvaClientChannel;
pvaClientChannel = createChannel(channelName,providerName);
pvaClientChannel->connect(timeOut);
pvaClientChannelCache->addChannel(pvaClientChannel);
return pvaClientChannel;
}
PvaClientChannelPtr PvaClient::createChannel(string const & channelName, string const & providerName)
{
return PvaClientChannel::create(getPtrSelf(),channelName,providerName);
}
void PvaClient::setRequester(RequesterPtr const & requester)
{
this->requester = requester;
}
void PvaClient::clearRequester()
{
requester = Requester::weak_pointer();
}
void PvaClient::showCache()
{
pvaClientChannelCache->showCache();
}
size_t PvaClient::cacheSize()
{
return pvaClientChannelCache->cacheSize();
}
}}
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);
}
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;
}
