TEST_F(EnergyPlusFixture,ReverseTranslator_WindowConstruction)
{
StrictnessLevel level(StrictnessLevel::Draft);
IddFileType iddFileType(IddFileType::EnergyPlus);
Workspace workspace(level,iddFileType);
IdfObject glazing(IddObjectType::WindowMaterial_Glazing);
IdfObject gas(IddObjectType::WindowMaterial_Gas);
glazing.setName("Glazing Material");
gas.setName("Gas Material");
IdfObject construction(IddObjectType::Construction);
ASSERT_EQ(0u,construction.numExtensibleGroups());
EXPECT_FALSE(construction.pushExtensibleGroup(StringVector(1u,glazing.name().get())).empty());
EXPECT_FALSE(construction.pushExtensibleGroup(StringVector(1u,gas.name().get())).empty());
EXPECT_FALSE(construction.pushExtensibleGroup(StringVector(1u,glazing.name().get())).empty());
IdfObjectVector objects;
objects.push_back(glazing);
objects.push_back(gas);
objects.push_back(construction);
EXPECT_EQ(3u,workspace.addObjects(objects).size());
ReverseTranslator reverseTranslator;
Model model = reverseTranslator.translateWorkspace(workspace);
ASSERT_EQ(1u, model.getModelObjects<Construction>().size());
Construction mConstruction = model.getModelObjects<Construction>()[0];
EXPECT_EQ(3u,mConstruction.layers().size());
EXPECT_EQ(2u, model.getModelObjects<FenestrationMaterial>().size());
}
TEST_F(IdfFixture, IdfFile_ObjectComments) {
OptionalIdfFile oFile = IdfFile::load(resourcesPath()/toPath("utilities/Idf/CommentTest.idf"));
ASSERT_TRUE(oFile);
// header
// CommentOnlyObject
// Version
// Timestep w/ comment
// SimulationControl
// RunPeriod w/ comment
// Building w/ comment
std::stringstream ss;
// check header
ss << "! File Header" << std::endl
<< "! Written by Elaine T. Hale, 15 September 2010";
EXPECT_EQ(ss.str(),oFile->header());
// check objects
IdfObjectVector objects = oFile->objects();
EXPECT_EQ(static_cast<unsigned>(5),objects.size());
ASSERT_TRUE(objects.size() >= 5);
EXPECT_TRUE(objects[0].iddObject().type() == IddObjectType::CommentOnly);
EXPECT_TRUE(objects[1].iddObject().type() == IddObjectType::Timestep);
EXPECT_EQ("! Timestep should be > 1.",objects[1].comment());
EXPECT_TRUE(objects[2].iddObject().type() == IddObjectType::SimulationControl);
EXPECT_TRUE(objects[3].iddObject().type() == IddObjectType::RunPeriod);
EXPECT_EQ("! When to start, when to stop, when to trust the weather file.",objects[3].comment());
EXPECT_TRUE(objects[4].iddObject().type() == IddObjectType::Building);
EXPECT_EQ("! This building has no surfaces, no volume, no nothing.",objects[4].comment());
// print out result for debugging purposes
boost::filesystem::ofstream outFile(resourcesPath()/toPath("utilities/Idf/CommentTest_Roundtrip.idf"));
ASSERT_TRUE(outFile?true:false);
oFile->print(outFile);
}
std::vector<IdfObject> IdfFile::getObjectsByName(const std::string& name) const {
IdfObjectVector result;
BOOST_FOREACH(const IdfObject& object,m_objects) {
OptionalString objectName = object.name();
if (objectName && openstudio::istringEqual(name,*objectName)) {
result.push_back(object);
}
}
void WeatherFileFinder::extractDetails(
const IdfFile &t_idffile,
ToolVersion &t_version,
boost::optional<std::string> &t_filelocationname,
boost::optional<std::string> &t_weatherfilename)
{
IdfObjectVector versionObjects = t_idffile.getObjectsByType(IddObjectType::Version);
if(versionObjects.size() == 1){
OptionalString version = versionObjects[0].getString(VersionFields::VersionIdentifier, true);
if (version){
boost::regex majorMinorBuildRegex("^(\\d*?)\\.(\\d*?)\\.(\\d*?)$");
boost::regex majorMinorRegex("^(\\d*?)\\.(\\d*?)$");
boost::regex majorRegex("^(\\d*?)$");
boost::smatch matches;
if (boost::regex_search(*version, matches, majorMinorBuildRegex)){
unsigned major = boost::lexical_cast<unsigned>(std::string(matches[1].first, matches[1].second));
unsigned minor = boost::lexical_cast<unsigned>(std::string(matches[2].first, matches[2].second));
unsigned build = boost::lexical_cast<unsigned>(std::string(matches[3].first, matches[3].second));
t_version = ToolVersion(major, minor, build);
}else if(boost::regex_search(*version, matches, majorMinorRegex)){
unsigned major = boost::lexical_cast<unsigned>(std::string(matches[1].first, matches[1].second));
unsigned minor = boost::lexical_cast<unsigned>(std::string(matches[2].first, matches[2].second));
t_version = ToolVersion(major, minor);
}else if(boost::regex_search(*version, matches, majorRegex)){
unsigned major = boost::lexical_cast<unsigned>(std::string(matches[1].first, matches[1].second));
t_version = ToolVersion(major);
}
}
}
IdfObjectVector locationObjects = t_idffile.getObjectsByType(IddObjectType::Site_Location);
if(locationObjects.size() == 1){
OptionalString locationname = locationObjects[0].getString(Site_LocationFields::Name, true);
if (locationname && !locationname->empty()){
LOG(Debug, "Location name field from IDF: " << *locationname);
t_filelocationname = locationname;
}
}
std::string header = t_idffile.header();
std::vector<std::string> headerlines;
boost::split(headerlines, header, boost::is_any_of("\n\r"), boost::algorithm::token_compress_on);
for (std::vector<std::string>::const_iterator itr = headerlines.begin();
itr != headerlines.end();
++itr)
{
boost::smatch matches;
if (boost::regex_match(*itr, matches, boost::regex(".*!\\s+WeatherFileName=(.*)"),boost::regex_constants::match_all))
{
std::string match = matches[1];
t_weatherfilename = match;
break;
}
}
}
std::vector<IdfObject> IdfFile::getObjectsByType(const IddObject& objectType) const {
IdfObjectVector result;
BOOST_FOREACH(const IdfObject& object,objects()) {
if (object.iddObject() == objectType) {
result.push_back(object);
}
}
return result;
}
std::vector<IdfObject> IdfFile::getObjectsByType(IddObjectType objectType) const {
IdfObjectVector result;
for (IdfObjectVector::const_iterator it = m_objects.begin(),
itEnd = m_objects.end(); it != itEnd; ++it) {
if (it->iddObject().type() == objectType) {
result.push_back(*it);
}
}
return result;
}
std::vector<IdfObject> IdfFile::objects() const {
IdfObjectVector result = m_objects;
for (std::set<unsigned>::const_reverse_iterator it = m_versionObjectIndices.rbegin(),
itEnd = m_versionObjectIndices.rend(); it != itEnd; ++it)
{
IdfObjectVector::iterator oit = result.begin();
for (unsigned i = 0; i < *it; ++i, ++oit);
OS_ASSERT(oit->iddObject().isVersionObject() ||
((oit->iddObject().type() == IddObjectType::Catchall) &&
(oit->numFields() > 0u) &&
(boost::regex_match(oit->getString(0).get(),iddRegex::versionObjectName()))));
result.erase(oit);
}
return result;
}
TEST_F(IdfFixture, IdfFile_BasicTests_FromScratch) {
IdfFile idfFile(IddFileType::EnergyPlus); // automatically adds version
EXPECT_TRUE(idfFile.empty());
idfFile.addObject(IdfObject(IddObjectType::Building));
idfFile.addObject(IdfObject(IddObjectType::Zone));
idfFile.insertObjectByIddObjectType(IdfObject(IddObjectType::Construction));
idfFile.addObject(IdfObject(IddObjectType::Material));
EXPECT_FALSE(idfFile.empty());
EXPECT_EQ(static_cast<unsigned>(4),idfFile.numObjects()); // version not reported out
IdfObjectVector objs = idfFile.objects();
ASSERT_EQ(static_cast<unsigned>(4),objs.size());
EXPECT_TRUE(objs[0].iddObject().type() == IddObjectType::Building);
EXPECT_TRUE(objs[1].iddObject().type() == IddObjectType::Construction);
EXPECT_TRUE(objs[2].iddObject().type() == IddObjectType::Zone);
EXPECT_TRUE(objs[3].iddObject().type() == IddObjectType::Material);
}
TEST(ProgressBar, WorkspaceTest)
{
ProgressBar2 pb;
EXPECT_FALSE(pb.called());
StrictnessLevel level(StrictnessLevel::Draft);
IddFileType fileType(IddFileType::EnergyPlus);
Workspace workspace(level,fileType);
workspace.connectProgressBar(pb);
IdfObjectVector objects;
objects.push_back(IdfObject(IddObjectType::Zone));
workspace.addObjects(objects);
System::msleep(10);
EXPECT_TRUE(pb.called());
}
TEST_F(ModelFixture, MeterFromModel)
{
Model model;
IdfObjectVector idfObjects;
idfObjects.push_back(IdfObject(IddObjectType::OS_Meter));
idfObjects.back().setString(OS_MeterFields::Name,"Electricity:Facility");
idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"monthly");
idfObjects.back().setString(OS_MeterFields::MeterFileOnly,"false");
LOG(Debug,"Meter text: " << std::endl << idfObjects.back());
idfObjects.push_back(IdfObject(IddObjectType::OS_Meter));
idfObjects.back().setString(OS_MeterFields::Name,"Gas:Building");
idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"hourly");
idfObjects.push_back(IdfObject(IddObjectType::OS_Meter));
idfObjects.back().setString(OS_MeterFields::Name,"InteriorLights:Electricity");
idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"runperiod");
idfObjects.back().setString(OS_MeterFields::MeterFileOnly,"false");
idfObjects.back().setString(OS_MeterFields::Cumulative,"true");
idfObjects.push_back(IdfObject(IddObjectType::OS_Meter));
idfObjects.back().setString(OS_MeterFields::Name,"General:InteriorLights:Electricity:Zone:North Zone");
idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"daily");
idfObjects.back().setString(OS_MeterFields::Cumulative,"true");
EXPECT_EQ(static_cast<unsigned>(4), idfObjects.size());
HandleVector handles = getHandles(model.addObjects(idfObjects));
ASSERT_EQ(static_cast<unsigned>(4), handles.size());
EXPECT_EQ(static_cast<unsigned>(4), model.getModelObjects<Meter>().size());
//"Output:Meter,Electricity:Facility,monthly;"
OptionalMeter meter = model.getModelObject<Meter>(handles[0]);
ASSERT_TRUE(meter);
EXPECT_EQ("Electricity:Facility", meter->name());
EXPECT_FALSE(meter->cumulative());
EXPECT_FALSE(meter->specificEndUse());
EXPECT_FALSE(meter->endUseType());
ASSERT_TRUE(meter->fuelType());
EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value());
ASSERT_TRUE(meter->installLocationType());
EXPECT_EQ(InstallLocationType::Facility, meter->installLocationType().get().value());
EXPECT_FALSE(meter->specificInstallLocation());
//"Output:Meter:MeterFileOnly,Gas:Building,hourly;"
meter = model.getModelObject<Meter>(handles[1]);
ASSERT_TRUE(meter);
EXPECT_EQ("Gas:Building", meter->name());
EXPECT_FALSE(meter->cumulative());
EXPECT_FALSE(meter->specificEndUse());
EXPECT_FALSE(meter->endUseType());
ASSERT_TRUE(meter->fuelType());
EXPECT_EQ(FuelType::Gas, meter->fuelType().get().value());
ASSERT_TRUE(meter->installLocationType());
EXPECT_EQ(InstallLocationType::Building, meter->installLocationType().get().value());
EXPECT_FALSE(meter->specificInstallLocation());
//"Output:Meter:Cumulative,InteriorLights:Electricity,runperiod;"
meter = model.getModelObject<Meter>(handles[2]);
ASSERT_TRUE(meter);
EXPECT_EQ("InteriorLights:Electricity", meter->name());
EXPECT_TRUE(meter->cumulative());
EXPECT_FALSE(meter->specificEndUse());
ASSERT_TRUE(meter->endUseType());
EXPECT_EQ(EndUseType::InteriorLights, meter->endUseType().get().value());
ASSERT_TRUE(meter->fuelType());
EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value());
EXPECT_FALSE(meter->installLocationType());
EXPECT_FALSE(meter->specificInstallLocation());
//"Output:Meter:Cumulative:MeterFileOnly,General:InteriorLights:Electricity:Zone:North Zone,daily;"
meter = model.getModelObject<Meter>(handles[3]);
ASSERT_TRUE(meter);
EXPECT_EQ("General:InteriorLights:Electricity:Zone:North Zone", meter->name());
EXPECT_TRUE(meter->cumulative());
ASSERT_TRUE(meter->specificEndUse());
EXPECT_EQ("General", meter->specificEndUse().get());
ASSERT_TRUE(meter->endUseType());
EXPECT_EQ(EndUseType::InteriorLights, meter->endUseType().get().value());
ASSERT_TRUE(meter->fuelType());
EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value());
ASSERT_TRUE(meter->installLocationType());
EXPECT_EQ(InstallLocationType::Zone, meter->installLocationType().get().value());
ASSERT_TRUE(meter->specificInstallLocation());
EXPECT_EQ("North Zone", meter->specificInstallLocation().get());
}
