TEST(Table, Serialization)
{
// construct table
openstudio::path p = resourcesPath()/toPath("utilities/Table/EUI.csv");
Table table = Table::load(p);
table.setTitle("EUIs");
table.setCaption("EUIs of several buildings");
table.setNHead(2);
table.setNLeft(2);
p = resourcesPath()/toPath("utilities/Table/EUI.ost");
// serialize
openstudio::Time start = openstudio::Time::currentTime();
table.save(p);
openstudio::Time totalTime = openstudio::Time::currentTime() - start;
LOG_FREE(Info, "openstudio.Table", "Time to serialize a small table = " << totalTime);
// ETH@20100526 Uncommenting this line results in a compiler error that I haven't been
// able to debug.
// OptionalTable ot;
// deserialize
start = openstudio::Time::currentTime();
Table loaded = Table::load(p);
totalTime = openstudio::Time::currentTime() - start;
LOG_FREE(Info, "openstudio.Table", "Time to deserialize a small table = " << totalTime);
ASSERT_EQ(static_cast<unsigned>(10),loaded.nRows());
ASSERT_EQ(static_cast<unsigned>(6),loaded.nCols());
std::stringstream ss;
ss << std::fixed << std::setprecision(0) << table[2][2];
EXPECT_EQ("120",ss.str()); ss.str("");
}
TEST_F(CoreFixture, Path_CompletePathToFile)
{
path p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/eplusout");
path result = completePathToFile(p,path(),"sql");
logBeforeAndAfterPathInformation("completePathToFile with ext=\"sql\"",p,result);
path tmp = p.replace_extension(toPath("sql").string());
EXPECT_TRUE(result == tmp);
p = toPath("energyplus/5ZoneAirCooled/eplusout");
path base = resourcesPath();
result = completePathToFile(p,base,"sql");
logBeforeAndAfterPathInformation("completePathToFile with base=resourcesPath() and ext=\"sql\"",p,result);
EXPECT_TRUE(result == tmp);
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled.idf");
result = completePathToFile(p,path(),"sql",true);
logBeforeAndAfterPathInformation("completePathToFile with ext=\"sql\"",p,result);
EXPECT_TRUE(result.empty());
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled");
result = completePathToFile(p);
logBeforeAndAfterPathInformation("completePathToFile",p,result);
EXPECT_TRUE(result.empty());
}
TEST_F(CoreFixture, Path_SetFileExtension)
{
// example usage for assigning proper file extension
path p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/in");
path result = setFileExtension(p,"idf");
EXPECT_TRUE(boost::filesystem::extension(p).empty());
EXPECT_TRUE(toString(boost::filesystem::extension(result)) == std::string(".idf"));
EXPECT_TRUE(boost::filesystem::exists(result));
EXPECT_TRUE(boost::filesystem::is_regular_file(result));
// passes out path as is if file extension already set
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/in.idf");
result = setFileExtension(p,"idf");
EXPECT_TRUE(toString(boost::filesystem::extension(p)) == std::string(".idf"));
EXPECT_TRUE(toString(boost::filesystem::extension(result)) == std::string(".idf"));
// will not replace extension, but will log warning and alert user by returning empty path
p = toPath("energyplus/5ZoneAirCooled/in.osm");
result = setFileExtension(p,"idf",false);
EXPECT_TRUE(result == p);
// will replace extension if asked
p = toPath("energyplus/5ZoneAirCooled/in.osm");
result = setFileExtension(p,"idf",true,false);
EXPECT_TRUE(toString(boost::filesystem::extension(result)) == std::string(".idf"));
// setFileExtension does not care about existence
p = toPath("fakeDir/fakeDirOrFile");
result = setFileExtension(p,"jjj",true);
EXPECT_TRUE(toString(boost::filesystem::extension(result)) == std::string(".jjj"));
}
TEST(Table, UnitExtraction) {
openstudio::path p = resourcesPath()/toPath("utilities/Table/HeightWeight.csv");
Table table = Table::load(p);
table.setTitle("Height and Weight");
table.setNHead(1);
table.setNLeft(1);
std::string unitStr;
unitStr = table.units(0);
EXPECT_TRUE(unitStr.empty());
unitStr = table.units(1);
EXPECT_TRUE(unitStr.empty());
unitStr = table.units(2);
EXPECT_EQ("lb_m",unitStr);
p = resourcesPath()/toPath("utilities/Table/EUI.csv");
table = Table::load(p);
table.setTitle("EUIs");
table.setCaption("EUIs of several buildings");
table.setNHead(2);
table.setNLeft(2);
unitStr = table.units(0);
EXPECT_TRUE(unitStr.empty());
unitStr = table.units(1);
EXPECT_TRUE(unitStr.empty());
unitStr = table.units(2);
EXPECT_EQ("kBtu/ft^2",unitStr);
unitStr = table.units(3);
EXPECT_EQ("MJ/m^2",unitStr);
unitStr = table.units(4);
EXPECT_EQ("kBtu/ft^2",unitStr);
unitStr = table.units(5);
EXPECT_EQ("MJ/m^2",unitStr);
}
TEST_F(CoreFixture, PathWatcher_Dir)
{
Application::instance().application();
openstudio::path path = toPath("./");
ASSERT_TRUE(boost::filesystem::exists(path));
openstudio::path filePath = toPath("./PathWatcher_Dir");
if (boost::filesystem::exists(filePath)){
boost::filesystem::remove(filePath);
}
ASSERT_FALSE(boost::filesystem::exists(filePath));
TestPathWatcher watcher(path);
EXPECT_FALSE(watcher.changed);
EXPECT_EQ(path.string(), watcher.path().string());
// catches the file addition
TestFileWriter w1(filePath, "test 1"); w1.start();
while (!w1.isFinished()){
// do not call process events
QThread::yieldCurrentThread();
}
EXPECT_TRUE(boost::filesystem::exists(filePath));
// calls processEvents
System::msleep(10);
EXPECT_TRUE(watcher.changed);
watcher.changed = false;
EXPECT_FALSE(watcher.changed);
// does not catch changes to the file
TestFileWriter w2(filePath, "test 2"); w2.start();
while (!w2.isFinished()){
// do not call process events
QThread::yieldCurrentThread();
}
EXPECT_TRUE(boost::filesystem::exists(filePath));
// calls processEvents
System::msleep(10);
EXPECT_FALSE(watcher.changed);
// catches file removal
TestFileRemover r1(filePath); r1.start();
while (!r1.isFinished()){
// do not call process events
QThread::yieldCurrentThread();
}
EXPECT_FALSE(boost::filesystem::exists(filePath));
// calls processEvents
System::msleep(10);
EXPECT_TRUE(watcher.changed);
}
TEST(Table, UnitConversion) {
openstudio::path p = resourcesPath()/toPath("utilities/Table/HeightWeight.csv");
Table table = Table::load(p);
table.setTitle("Height and Weight");
table.setNHead(1);
table.setNLeft(1);
EXPECT_FALSE(table.convertUnits(0));
EXPECT_FALSE(table.convertUnits(1));
// expanded test to help debug on gcc
ASSERT_TRUE(table.nRows() >= 2);
ASSERT_TRUE(table.nCols() >= 3);
EXPECT_EQ("lb_m",table.units(2));
std::stringstream ss;
ss << table[0][2];
std::string tmp = extractUnitString(ss.str());
EXPECT_EQ("lb_m",tmp);
tmp = convertToStandardForm(tmp);
EXPECT_EQ("lb_m",tmp);
EXPECT_TRUE(containsRegisteredBaseUnit(tmp));
ASSERT_TRUE(table[1][2].isInt());
double d = table[1][2].toDouble();
Quantity q = createQuantity(d,tmp).get();
EXPECT_TRUE(table.convertUnits(2));
std::string unitStr = table.units(2);
EXPECT_EQ("kg",unitStr);
p = resourcesPath()/toPath("utilities/Table/HeightWeightSI.csv");
boost::filesystem::ofstream outFile(p);
ASSERT_TRUE(outFile);
table.printToStream(outFile,TableFormat(TableFormat::CSV));
outFile.close();
p = resourcesPath()/toPath("utilities/Table/EUI.csv");
table = Table::load(p);
table.setTitle("EUIs");
table.setCaption("EUIs of several buildings");
table.setNHead(2);
table.setNLeft(2);
EXPECT_TRUE(table.convertUnits(2));
unitStr = table.units(2);
EXPECT_EQ("kJ/m^2",unitStr);
// now cols 2 and 3 should be equal except for kJ/m^2 v. MJ/m^2.
for (unsigned i = 0, n = table.nRows(); i < n; ++i) {
if (table.isRowIndex(i,Table::BODY)) {
double d2 = table[i][2].toDouble();
double d3 = table[i][3].toDouble();
EXPECT_NEAR((d2-(d3*1000.0))/(d2),0.0,1.0E-3);
}
}
p = resourcesPath()/toPath("utilities/Table/EUISI.csv");
outFile.open(p);
ASSERT_TRUE(outFile);
table.printToStream(outFile,TableFormat(TableFormat::CSV));
outFile.close();
}
TEST(EEFG, DummyTest)
{
openstudio::path iddPath = resourcesPath()/toPath("eefg/dummy.idd");
openstudio::path idfPath = resourcesPath()/toPath("eefg/dummy.idf");
openstudio::path outPath = resourcesPath()/toPath("eefg/eefg.idf");
eefgValidateIdf(toString(iddPath).c_str(), toString(idfPath).c_str(), toString(outPath).c_str());
}
TEST_F(CoreFixture, Path_RelativePathToFile)
{
path relPath = toPath("energyplus/5ZoneAirCooled/eplusout.sql");
path fullPath = resourcesPath() / relPath;
EXPECT_EQ(toString(relPath),toString(relativePath(fullPath,resourcesPath())));
EXPECT_EQ("eplusout.sql",toString(relativePath(relPath,toPath("energyplus/5ZoneAirCooled/"))));
}
void SqlFileFixture::SetUpTestCase()
{
logFile = FileLogSink(toPath("./SqlFileFixture.log"));
logFile->setLogLevel(Debug);
openstudio::path path;
path = resourcesPath()/toPath("energyplus/5ZoneAirCooled/eplusout.sql");
sqlFile = openstudio::SqlFile(path);
ASSERT_TRUE(sqlFile.connectionOpen());
}
TEST_F(CoreFixture, Path_MakeParentFolder)
{
// path to directory
// add one folder
path p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/MyTestFolder/");
EXPECT_FALSE(boost::filesystem::is_directory(p));
EXPECT_FALSE(boost::filesystem::exists(p));
EXPECT_TRUE(makeParentFolder(p));
EXPECT_TRUE(boost::filesystem::is_directory(p));
EXPECT_TRUE(boost::filesystem::exists(p));
EXPECT_EQ(static_cast<unsigned>(1),boost::filesystem::remove_all(p));
// path to file
// add parent folder
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/MyTestFolder/in.idf");
EXPECT_FALSE(boost::filesystem::is_directory(p.parent_path()));
EXPECT_FALSE(boost::filesystem::exists(p.parent_path()));
EXPECT_FALSE(boost::filesystem::is_regular_file(p));
EXPECT_TRUE(makeParentFolder(p));
EXPECT_TRUE(boost::filesystem::is_directory(p.parent_path()));
EXPECT_TRUE(boost::filesystem::exists(p.parent_path()));
EXPECT_FALSE(boost::filesystem::is_regular_file(p));
EXPECT_EQ(static_cast<unsigned>(1),boost::filesystem::remove_all(p.parent_path()));
// path to directory/directory
// do not add any folders
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/MyTestFolder1/MyTestFolder2/MyTestFolder3/");
EXPECT_FALSE(boost::filesystem::is_directory(p));
EXPECT_FALSE(boost::filesystem::exists(p));
EXPECT_FALSE(makeParentFolder(p));
EXPECT_FALSE(boost::filesystem::is_directory(p));
EXPECT_FALSE(boost::filesystem::exists(p));
// path to directory/directory
// add folders recursively
p = resourcesPath()/toPath("energyplus/5ZoneAirCooled/MyTestFolder1/MyTestFolder2/MyTestFolder3/");
EXPECT_FALSE(boost::filesystem::is_directory(p));
EXPECT_TRUE(makeParentFolder(p,path(),true));
EXPECT_TRUE(boost::filesystem::is_directory(p));
EXPECT_EQ(static_cast<unsigned>(3),boost::filesystem::remove_all(p.parent_path().parent_path().parent_path()));
// path to directory/directory/file
// use base
// add folders recursively
p = toPath("energyplus/5ZoneAirCooled/MyTestFolder1/MyTestFolder2/MyTestFolder3/in.idf");
path base = resourcesPath();
path tmp = base/p;
EXPECT_FALSE(boost::filesystem::is_directory(tmp.parent_path()));
EXPECT_FALSE(boost::filesystem::is_regular_file(tmp));
EXPECT_TRUE(makeParentFolder(p,base,true));
EXPECT_TRUE(boost::filesystem::is_directory(tmp.parent_path()));
EXPECT_FALSE(boost::filesystem::is_regular_file(tmp));
EXPECT_EQ(static_cast<unsigned>(3),boost::filesystem::remove_all(tmp.parent_path().parent_path().parent_path()));
}
void ProjectFixture::SetUpTestCase() {
// set up logging
logFile = FileLogSink(toPath("./ProjectFixture.log"));
logFile->setLogLevel(Info);
openstudio::Logger::instance().standardOutLogger().disable();
// set up data folder
if (!boost::filesystem::exists(toPath("ProjectFixtureData"))) {
boost::filesystem::create_directory(toPath("ProjectFixtureData"));
}
}
TEST(EEFG, Test)
{
openstudio::path iddPath = resourcesPath()/toPath("energyplus/Energy+.idd");
openstudio::path idfPath = resourcesPath()/toPath("energyplus/5ZoneAirCooled/in.idf");
openstudio::path outPath = resourcesPath()/toPath("energyplus/5ZoneAirCooled/eefg.idf");
eefgValidateIdf(toString(iddPath).c_str(), toString(idfPath).c_str(), toString(outPath).c_str());
idfPath = resourcesPath()/toPath("energyplus/Daylighting_School/in.idf");
outPath = resourcesPath()/toPath("energyplus/Daylighting_School/eefg.idf");
eefgValidateIdf(toString(iddPath).c_str(), toString(idfPath).c_str(), toString(outPath).c_str());
}
TEST(FileReference,Constructor) {
FileReference fileReference(resourcesPath() / toPath("energyplus/5ZoneAirCooled/dummyname.osm"));
EXPECT_TRUE(fileReference.fileType() == FileReferenceType::OSM);
fileReference = FileReference(resourcesPath() / toPath("energyplus/5ZoneAirCooled/eplusout.sql"));
EXPECT_TRUE(fileReference.fileType() == FileReferenceType::SQL);
fileReference = FileReference(resourcesPath() / toPath("energyplus/5ZoneAirCooled/in.epw"));
EXPECT_TRUE(fileReference.fileType() == FileReferenceType::EPW);
fileReference = FileReference(resourcesPath() / toPath("energyplus/5ZoneAirCooled/in.idf"));
EXPECT_TRUE(fileReference.fileType() == FileReferenceType::IDF);
}
void EnergyPlusFixture::SetUpTestCase() {
// set up logging
logFile = FileLogSink(toPath("./EnergyPlusFixture.log"));
logFile->setLogLevel(Debug);
openstudio::Logger::instance().standardOutLogger().disable();
// initialize component paths
openstudio::path basePath = resourcesPath()/openstudio::toPath("energyplus/Components/");
// idfComponents consists of .first = path to directory, .second = component type
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_roof_1"),"roof"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_roof_2"),"roof"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_roof_3"),"roof"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_roof_4"),"roof"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_roof_5"),"roof"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_designday_1"),"designday"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_designday_2"),"designday"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_designday_3"),"designday"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_designday_4"),"designday"));
idfComponents.push_back(std::pair<openstudio::path,std::string>(basePath/openstudio::toPath("idf_designday_5"),"designday"));
// delete translated components
BOOST_FOREACH(const ComponentDirectoryAndType& idfComponent,idfComponents) {
// delete any *.osc and oscomponent.xml files in the directory
for (openstudio::directory_iterator it(idfComponent.first), itEnd; it != itEnd; ++it) {
if (boost::filesystem::is_regular_file(it->status())) {
std::string ext = openstudio::toString(boost::filesystem::extension(*it));
if (ext == ".osc") { boost::filesystem::remove(it->path()); }
if ((ext == ".xml") && (openstudio::toString(it->filename()) == "oscomponent")) {
boost::filesystem::remove(it->path());
}
}
} // for iterator over directory
} // foreach component
}
TEST(Checksum, Paths)
{
// read a file, contents are "Hi there"
path p = resourcesPath() / toPath("utilities/Checksum/Checksum.txt");
EXPECT_EQ("1AD514BA", checksum(p));
// read a file, contents are "Hi there\r\nGoodbye" on Windows and "Hi there\nGoodbye" otherwise
p = resourcesPath() / toPath("utilities/Checksum/Checksum2.txt");
EXPECT_EQ("17B88D3A", checksum(p));
// checksum of a directory is "00000000"
p = resourcesPath() / toPath("utilities/Checksum/");
EXPECT_EQ("00000000", checksum(p));
// if can't find file return "00000000"
p = resourcesPath() / toPath("utilities/Checksum/NotAFile.txt");
EXPECT_EQ("00000000", checksum(p));
}
void SqlFileLargeFixture::SetUpTestCase()
{
openstudio::Logger::instance().disableStandardOut();
openstudio::Logger::instance().logLevel(Debug);
logFile = openstudio::Logger::instance().addLogFile(openstudio::toPath("./SqlFileLargeFixture.log"));
openstudio::path path;
path = resourcesPath()/toPath("utilities/eplusout.sql");
sqlFile = openstudio::SqlFile(path);
ASSERT_TRUE(sqlFile.connectionOpen());
}
openstudio::project::ProjectDatabase ProjectFixture::getDatabase(
const std::string& projectDatabaseName,
bool getCleanDatabase)
{
openstudio::path projectDir = toPath("ProjectFixtureData") / toPath(projectDatabaseName);
if (getCleanDatabase) {
boost::filesystem::remove_all(projectDir);
}
if (!boost::filesystem::exists(projectDir)) {
boost::filesystem::create_directory(projectDir);
databaseDirs.push_back(projectDir);
}
openstudio::path runPath = projectDir / toPath("run.db");
openstudio::path projectPath = projectDir / toPath("project.osp");
openstudio::runmanager::RunManager runManager(runPath, true, false, false);
openstudio::project::ProjectDatabase database(projectPath, runManager, getCleanDatabase);
return database;
}
TEST(AnnotatedTimeline, StockPrices)
{
// make two time series with random data
unsigned N = 1000;
TimeSeries t1(Date::currentDate(), Time(0,1), cumsum(randVector(-1,1.1,N), 100), "pesos");
TimeSeries t2(Date::currentDate(), Time(0,1), cumsum(randVector(-1,1.1,N)), "dollars");
AnnotatedTimeline::Ptr timeline = AnnotatedTimeline::create();
timeline->addTimeSeries("Mexican Stocks", t1);
timeline->addTimeSeries("US Stocks", t2);
timeline->save(toPath("./StockPrices.htm"));
}
void DocumentFixture::SetUpTestCase() {
// set up logging
logFile = FileLogSink(toPath("./DocumentFixture.log"));
logFile->setLogLevel(Info);
// set up doc
doc.setTitle("Excerpt from 2009 Grocery TSD");
doc.addAuthor("Matthew Leach");
doc.addAuthor("Elaine Hale");
doc.addAuthor("Adam Hirsch");
doc.addAuthor("Paul Torcellini");
doc.setTopHeadingLevel(1u);
Section section = doc.appendSection("Building Economic Parameters");
Text txt;
std::stringstream ss;
ss << "Our statement of work mandates that the design recommendations be analyzed for cost "
<< "effectiveness based on a five-year analysis period, which is assumed acceptable to a "
<< "majority of developers and owners. The other basic economic parameters required for the "
<< "5-TLCC calculation were taken from RSMeans and the Office of Management and Budget "
<< "(OMB) (CITATIONS).";
txt.append(ss.str()); ss.str("");
ss << "This analysis uses the real discount rate, which accounts for the projected rate of "
<< "general inflation found in the Report of the President's Economic Advisors, Analytical "
<< "Perpectives, and is equal to 2.3% for a five-year analysis period (CITATION). By using "
<< "this rate, we do not have to explicitly account for energy and product inflation rates.";
txt.append(ss.str()); ss.str("");
ss << "Regional capital cost modifiers are used to convert national averages to regional "
<< "values. These are available from the RSMeans data sets and are applied before any of the "
<< "additional fees listed in TABLE REF, three of which are also provided by RSMeans "
<< "(CITATION).";
txt.append(ss.str()); ss.str("");
Table tbl;
tbl.setTitle("Economic Parameter Values");
std::vector<std::string> row;
row.push_back("Economic Parameter");
row.push_back("Value");
row.push_back("Data Source");
tbl.appendRow(row);
tbl.setNHead(1);
row[0] = "Analysis Period"; row[1] = "5 Years"; row[2] = "DOE"; tbl.appendRow(row);
row[0] = "Discount Rate"; row[1] = "2.3%"; row[2] = "OMB"; tbl.appendRow(row);
row[0] = "O&M Cost Inflation"; row[1] = "0%"; row[2] = "OMB"; tbl.appendRow(row);
row[0] = "Gas Cost Inflation"; row[1] = "0%"; row[2] = "OMB"; tbl.appendRow(row);
row[0] = "Electricity Cost Inflation"; row[1] = "0%"; row[2] = "OMB"; tbl.appendRow(row);
row[0] = "Bond Fee"; row[1] = "10%"; row[2] = "RSMeans"; tbl.appendRow(row);
row[0] = "Contractor Fee"; row[1] = "10%"; row[2] = "RSMeans"; tbl.appendRow(row);
row[0] = "Contingency Fee"; row[1] = "12%"; row[2] = "RSMeans"; tbl.appendRow(row);
row[0] = "Commissioning Fee"; row[1] = "0.5%"; row[2] = "Assumption"; tbl.appendRow(row);
section.append(txt);
section.append(tbl);
}
TEST(Table, ConstructFromCSV)
{
openstudio::path p = resourcesPath()/toPath("utilities/Table/HeightWeight.csv");
Table table = Table::load(p);
table.setTitle("Height and Weight");
table.setNHead(1);
table.setNLeft(1);
ASSERT_EQ(static_cast<unsigned>(6),table.nRows());
ASSERT_EQ(static_cast<unsigned>(3),table.nCols());
std::stringstream ss;
ss << table[3][1];
EXPECT_EQ("4'11\"",ss.str()); ss.str("");
ss << table[5][2];
EXPECT_EQ("95",ss.str()); ss.str("");
p = resourcesPath()/toPath("utilities/Table/EUI.csv");
table = Table::load(p);
table.setTitle("EUIs");
table.setCaption("EUIs of several buildings");
table.setNHead(2);
table.setNLeft(2);
ASSERT_EQ(static_cast<unsigned>(10),table.nRows());
ASSERT_EQ(static_cast<unsigned>(6),table.nCols());
ss << std::fixed << std::setprecision(0) << table[2][2];
EXPECT_EQ("120",ss.str()); ss.str("");
p = resourcesPath()/toPath("utilities/Table/OddlyShaped.csv");
table = Table::load(p);
table.setCaption("An Oddly Shaped Table");
table.setNHead(1);
table.setNLeft(1);
ASSERT_EQ(static_cast<unsigned>(6),table.nRows());
ASSERT_EQ(static_cast<unsigned>(6),table.nCols());
ss << table[2][0];
EXPECT_EQ("Row 2",ss.str()); ss.str("");
}
// initialize static members
void UnitsFixture::SetUpTestCase()
{
logFile = FileLogSink(toPath("./UnitsFixture.log"));
logFile->setLogLevel(Debug);
Logger::instance().standardOutLogger().disable();
tol = 1.0E-8;
openstudio::DoubleVector vals = openstudio::toStandardVector(openstudio::randVector(0.0,1000.0,8760u));
openstudio::Unit u = openstudio::createSIPower();
for (double val : vals) {
testQuantityVector.push_back(openstudio::Quantity(val,u));
}
testOSQuantityVector = openstudio::OSQuantityVector(u,vals);
}
void IddFixture::SetUpTestCase()
{
// set up logging
logFile = FileLogSink(toPath("./IddFixture.log"));
logFile->setLogLevel(Debug);
// load from factory and time it
openstudio::Time start = openstudio::Time::currentTime();
epIddFile = openstudio::IddFactory::instance().getIddFile(openstudio::IddFileType::EnergyPlus);
iddLoadTime = openstudio::Time::currentTime() - start;
LOG(Info, "EnergyPlus IddFile load time (from IddFactory) = " << iddLoadTime);
start = openstudio::Time::currentTime();
osIddFile = openstudio::IddFactory::instance().getIddFile(openstudio::IddFileType::OpenStudio);
iddLoadTime = openstudio::Time::currentTime() - start;
LOG(Info, "OpenStudio IddFile load time (from IddFactory) = " << iddLoadTime);
}
void CoreFixture::SetUpTestCase()
{
// set up logging
logFile = FileLogSink(toPath("./CoreFixture.log"));
logFile->setLogLevel(Info);
}
// initiallize static members
void DataFixture::SetUpTestCase() {
logFile = FileLogSink(toPath("./DataFixture.log"));
logFile->setLogLevel(Info);
}
// initialize static members
void GeometryFixture::SetUpTestCase()
{
logFile = FileLogSink(toPath("./GeometryFixture.log"));
logFile->setLogLevel(Debug);
}
void AnalysisFixture::SetUpTestCase() {
// set up logging
logFile = FileLogSink(toPath("./AnalysisFixture.log"));
logFile->setLogLevel(Debug);
openstudio::Logger::instance().standardOutLogger().disable();
}
void RunManagerTestFixture::SetUpTestCase() {
// set up logging
logFile = FileLogSink(toPath("./RunManagerTestFixture.log"));
logFile->setLogLevel(Trace);
openstudio::Logger::instance().standardOutLogger().disable();
}
TEST_F(CoreFixture, Path_toString)
{
EXPECT_EQ("energyplus/5ZoneAirCooled/eplusout.sql", toString(toPath("energyplus/5ZoneAirCooled/eplusout.sql")));
EXPECT_EQ("energyplus/5ZoneAirCooled/eplusout.sql", toString(toPath("energyplus\\5ZoneAirCooled\\eplusout.sql")));
EXPECT_EQ("/energyplus/5ZoneAirCooled/eplusout.sql", toString(toPath("/energyplus/5ZoneAirCooled/eplusout.sql")));
EXPECT_EQ("/energyplus/5ZoneAirCooled/eplusout.sql", toString(toPath("/energyplus\\5ZoneAirCooled\\eplusout.sql")));
EXPECT_EQ("energyplus/5ZoneAirCooled/", toString(toPath("energyplus/5ZoneAirCooled/")));
EXPECT_EQ("energyplus/5ZoneAirCooled/", toString(toPath("energyplus\\5ZoneAirCooled\\")));
EXPECT_EQ("/energyplus/5ZoneAirCooled/", toString(toPath("/energyplus/5ZoneAirCooled/")));
EXPECT_EQ("/energyplus/5ZoneAirCooled/", toString(toPath("\\energyplus\\5ZoneAirCooled\\")));
EXPECT_EQ("energyplus/5ZoneAirCooled", toString(toPath("energyplus/5ZoneAirCooled")));
EXPECT_EQ("energyplus/5ZoneAirCooled", toString(toPath("energyplus\\5ZoneAirCooled")));
EXPECT_EQ("/energyplus/5ZoneAirCooled", toString(toPath("/energyplus/5ZoneAirCooled")));
EXPECT_EQ("/energyplus/5ZoneAirCooled", toString(toPath("\\energyplus\\5ZoneAirCooled")));
}