本文整理汇总了C++中Workspace::toIdfFile方法的典型用法代码示例。如果您正苦于以下问题:C++ Workspace::toIdfFile方法的具体用法?C++ Workspace::toIdfFile怎么用?C++ Workspace::toIdfFile使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类Workspace
的用法示例。
在下文中一共展示了Workspace::toIdfFile方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: exportIdf
void OSDocument::exportIdf()
{
QString fileName = QFileDialog::getSaveFileName( this->mainWindow(),
tr("Export Idf"),
QDir::homePath(),
tr("(*.idf)") );
if( ! fileName.isEmpty() )
{
model::Model m = this->model();
energyplus::ForwardTranslator trans;
Workspace workspace = trans.translateModel(m);
openstudio::path outDir = toPath(fileName);
boost::filesystem::ofstream ofs(outDir);
workspace.toIdfFile().print(ofs);
ofs.close();
}
}
示例2: LOG
TEST_F(IdfFixture,ValidityReport_WithCustomIdd)
{
Workspace workspace;
EXPECT_EQ(IddFileType::OpenStudio, workspace.iddFileType().value());
EXPECT_TRUE(workspace.isValid(StrictnessLevel::Draft));
workspace.addObject(IdfObject(IddObjectType::OS_Building));
EXPECT_TRUE(workspace.isValid(StrictnessLevel::Draft));
std::stringstream ss;
workspace.iddFile().print(ss);
boost::optional<IddFile> iddFile = IddFile::load(ss);
ASSERT_TRUE(iddFile);
Workspace workspace2(*iddFile, StrictnessLevel::None);
EXPECT_EQ(IddFileType::UserCustom, workspace2.iddFileType().value());
workspace2.addObjects(workspace.toIdfFile().objects());
EXPECT_EQ(workspace.objects().size(), workspace2.objects().size());
EXPECT_TRUE(workspace2.isValid(StrictnessLevel::Draft));
ValidityReport report = workspace2.validityReport(StrictnessLevel::Draft);
LOG(Debug,"Validity report for workspace2: " << std::endl << report);
}
示例3: scheduleCompact
TEST_F(EnergyPlusFixture,ForwardTranslatorTest_TranslateCoolingCoil)
{
Model model;
ScheduleCompact scheduleCompact(model);
scheduleCompact.setName("Daytime Ventilation For Cooling Coil Test");
scheduleCompact.setString(1,"Fraction");
scheduleCompact.setString(2,"Through: 12/31");
scheduleCompact.setString(3,"For: Weekdays SummerDesignDay");
scheduleCompact.setString(4,"Until: 08:00");
scheduleCompact.setString(5,"0.0");
scheduleCompact.setString(6,"Until: 18:00");
scheduleCompact.setString(7,"1.0");
scheduleCompact.setString(8,"Until: 24:00");
scheduleCompact.setString(9,"0.0");
scheduleCompact.setString(10,"For: Weekends WinterDesignDay");
scheduleCompact.setString(11,"Until: 10:00");
scheduleCompact.setString(12,"0.0");
scheduleCompact.setString(13,"Until: 16:00");
scheduleCompact.setString(14,"1.0");
scheduleCompact.setString(15,"Until: 24:00");
scheduleCompact.setString(16,"0.0");
scheduleCompact.setString(17,"For: Holidays AllOtherDays");
scheduleCompact.setString(18,"Until: 24:00");
scheduleCompact.setString(19,"0.0");
CurveBiquadratic ccFofT(model);
CurveBiquadratic eirFofT(model);
CurveQuadratic ccFofF(model);
CurveQuadratic eirFofF(model);
CurveQuadratic plf(model);
ccFofT.setCoefficient1Constant(1.0);
ccFofT.setCoefficient2x(2.0);
ccFofT.setCoefficient3xPOW2(3.0);
ccFofT.setCoefficient4y(4.0);
ccFofT.setCoefficient5yPOW2(5.0);
ccFofT.setCoefficient6xTIMESY(6.0);
ccFofT.setMinimumValueofx(-10.0);
ccFofT.setMaximumValueofx(100.03);
ccFofT.setMinimumValueofy(-99999);
ccFofT.setMaximumValueofy(100232);
ccFofT.setMinimumCurveOutput(-1000);
ccFofT.setMaximumCurveOutput(99999);
ccFofT.setInputUnitTypeforX("Temperature");
ccFofT.setInputUnitTypeforY("MassFlow");
eirFofT.setCoefficient1Constant(10.0);
// eirFofT.setCoefficient2x(20.0); check default
eirFofT.setCoefficient3xPOW2(30.0);
eirFofT.setCoefficient4y(40.0);
eirFofT.setCoefficient5yPOW2(50.0);
eirFofT.setCoefficient6xTIMESY(60.0);
eirFofT.setInputUnitTypeforX("VolumetricFlow");
eirFofT.setInputUnitTypeforY("Power");
plf.setCoefficient1Constant(5.50);
plf.setCoefficient2x(55.50);
plf.setCoefficient3xPOW2(23.50);
CoilCoolingDXSingleSpeed cool(model,
scheduleCompact,
ccFofT,
ccFofF,
eirFofT,
eirFofF,
plf);
ForwardTranslator trans;
Workspace workspace = trans.translateModel(model);
EXPECT_EQ(1u,workspace.getObjectsByType(IddObjectType::Version).size());
EXPECT_EQ(1u,workspace.getObjectsByType(IddObjectType::Coil_Cooling_DX_SingleSpeed).size());
EXPECT_EQ(1u,workspace.getObjectsByType(IddObjectType::Schedule_Compact).size());
EXPECT_EQ(2u,workspace.getObjectsByType(IddObjectType::Curve_Biquadratic).size());
EXPECT_EQ(3u,workspace.getObjectsByType(IddObjectType::Curve_Quadratic).size());
path outDir = resourcesPath() / openstudio::toPath("CoolingCoilDXSingleSpeed.idf");
boost::filesystem::ofstream ofs(outDir);
workspace.toIdfFile().print(ofs);
ofs.close();
openstudio::path idfPath = resourcesPath() / openstudio::toPath("CoolingCoilDXSingleSpeed.idf");
OptionalIdfFile idfFile = IdfFile::load(idfPath, IddFileType::EnergyPlus);
ASSERT_TRUE(idfFile);
Workspace inWorkspace(*idfFile);
// Get the Model by calling the translator
ReverseTranslator trans2;
ASSERT_NO_THROW(trans2.translateWorkspace(inWorkspace));
Model model2 = trans2.translateWorkspace(inWorkspace);
}