public void SetUp() { _env = new ApplicationEnvironment(); ProjectInfo info = ProjectInfoLoader.Load(TestConstant.Project_Drosophila); _unitUnderTest = new Project(info, _env); _unitUnderTest.UnLock(); _unitUnderTest.LoadModel(); }
public void SetUp() { _env = new ApplicationEnvironment(); _unitUnderTest = _env.PluginManager; // Load plugins foreach (string pluginDir in Util.GetPluginDirs()) { string[] files = Directory.GetFiles( pluginDir, Constants.delimiterWildcard + Constants.FileExtPlugin); foreach (string fileName in files) { _env.PluginManager.LoadPlugin(fileName); } } }
/// <summary> /// Creates the new "DynamicModuleManager" instance with no argument. /// </summary> public DynamicModuleManager(ApplicationEnvironment env) { this.m_env = env; // ������DM����[�h����DM�̐���A�v���p�e�B����擾���� // ���A���̂Ƃ���v���p�e�B����lj������Ƃ�s�� DynamicModule tmp = null; tmp = new DynamicModule("ConstantFluxProcess", "", false, "ConstantFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("k", true, true, true, true, (double)0.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("DecayFluxProcess", "", false, "DecayFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("T", true, true, true, true, (double)1.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ExpressionAlgebraicProcess", "", false, "ExpressionAlgebraicProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 0, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Expression", true, true, true, true, "self.getSuperSystem().SizeN_A", typeof(string)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ExpressionFluxProcess", "", false, "ExpressionFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Expression", true, true, true, true, "self.getSuperSystem().SizeN_A", typeof(string)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("GillespieProcess", "", false, "GillespieProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 0, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("MuV", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("DependentProcessList", false, true, false, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Order", false, true, false, false, 0, typeof(int)); tmp.AddProperty("StepInterval", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("k", true, true, true, true, (double)1.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("GMAProcess", "", false, "GMAProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("GMASystemMatrix", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Order", true, true, true, true, 0, typeof(int)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("MassActionFluxProcess", "", false, "MassActionFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("k", true, true, true, true, (double)1.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("MichaelisUniUniFluxProcess", "", false, "MichaelisUniUniFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("KcF", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("KcR", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("KmP", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("KmS", true, true, true, true, (double)0.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("PythonFluxProcess", "", false, "PythonFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Expression", true, true, true, true, "", typeof(string)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("PythonProcess", "", false, "PythonProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("FireMethod", true, true, true, true, "", typeof(string)); tmp.AddProperty("InitializeMethod", true, true, true, true, "", typeof(string)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("QuasiDynamicFluxProcess", "", false, "QuasiDynamicFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 0, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Irreversible", true, true, true, true, 0, typeof(int)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("SSystemProcess", "", false, "SSystemProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 0, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("SSystemMatrix", true, true, true, true, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); // tmp = new DynamicModule("DAEStepper", "", false, "DAEStepper"); tmp.AddProperty("AbsoluteTolerance", true, true, true, true, (double)1e-10, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("JacobianRecalculateTheta", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("MaxIterationNumber", true, true, true, true, 7, typeof(int)); tmp.AddProperty("MaxStepInterval", true, true, true, true, Double.Parse("+��"), typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, Double.Parse("-��"), typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RelativeTolerance", true, true, true, true, (double)1e-10, typeof(double)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("Uround", true, true, true, true, (double)1e-16, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ESSYNSStepper", "", false, "ESSYNSStepper"); tmp.AddProperty("AbsoluteEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("AbsoluteToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("DerivativeToleranceFactor", true, true, true, true, (double)1.001, typeof(double)); tmp.AddProperty("MaxErrorRatio", false, true, false, false, (double)1.0, typeof(double)); tmp.AddProperty("MaxStepInterval", true, true, true, true, (double)1e+100, typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, (double)1e-100, typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Order", false, true, false, false, 1, typeof(int)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RelativeEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("StateToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("TaylorOrder", true, true, true, true, 1, typeof(int)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("FixedDAE1Stepper", "", false, "FixedDAE1Stepper"); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("MaxStepInterval", true, true, true, true, Double.Parse("+��"), typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, Double.Parse("-��"), typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("PerturbationRate", true, true, true, true, (double)1.0000000000000001e-09, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RngSeed", true, true, true, true, "", typeof(string)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-10, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("FixedODE1Stepper", "", false, "FixedODE1Stepper"); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("MaxStepInterval", true, true, true, true, Double.Parse("+��"), typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, Double.Parse("-��"), typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("FluxDistributionStepper", "", false, "FluxDistributionStepper"); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("MaxStepInterval", true, true, true, true, Double.Parse("+��"), typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, Double.Parse("-��"), typeof(double)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ODE23Stepper", "", false, "ODE23Stepper"); tmp.AddProperty("AbsoluteEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("AbsoluteToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("DerivativeToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("MaxErrorRatio", false, true, false, false, (double)1.0, typeof(double)); tmp.AddProperty("MaxStepInterval", true, true, true, true, (double)1e+100, typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, (double)1e-100, typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Order", false, true, false, false, 2, typeof(int)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("StateToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ODE45Stepper", "", false, "ODE45Stepper"); tmp.AddProperty("AbsoluteEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("AbsoluteToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("DerivativeToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("MaxErrorRatio", false, true, false, false, (double)1.0, typeof(double)); tmp.AddProperty("MaxStepInterval", true, true, true, true, (double)1e+100, typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, (double)1e-100, typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Order", false, true, false, false, 5, typeof(int)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RngSeed", true, false, true, false, "", typeof(string)); tmp.AddProperty("SpectralRadius", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("StateToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.01, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ODEStepper", "", false, "ODEStepper"); tmp.AddProperty("AbsoluteEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("AbsoluteToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("DerivativeToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("IsEpsilonChecked", true, true, true, true, 1, typeof(int)); tmp.AddProperty("JacobianRecalculateTheta", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("MaxErrorRatio", false, true, false, false, (double)1.0, typeof(double)); tmp.AddProperty("MaxStepInterval", true, true, true, true, (double)1e+100, typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, (double)1e-100, typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Order", false, true, false, false, 1, typeof(int)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RelativeEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("SpectralRadius", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("StateToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.01, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); // ,�������Ă��Ȃ� tmp.AddProperty("TolerableStepInterval", true, true, true, true, (double)0.001, typeof(double)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("Uround", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); // ��������description���Ȃ����� tmp = new DynamicModule("TauLeapProcess", "", false, "TauLeapProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Order", false, true, false, false, 0, typeof(int)); tmp.AddProperty("Propensity", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("k", true, true, true, true, (double)0.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("PingPongBiBiFluxProcess", "", false, "PingPongBiBiFluxProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("KcF", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("KcR", true, true, true, true, (double)0.0, typeof(double)); tmp.AddProperty("Keq", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KmS0", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KmS1", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KmP0", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KmP1", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KiS0", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("KiP1", true, true, true, true, (double)1.0, typeof(double)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("ExpressionAssignmentProcess", "", false, "ExpressionAssignmentProcess"); tmp.AddProperty("Activity", true, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("IsContinuous", false, true, false, false, 1, typeof(int)); tmp.AddProperty("Name", true, true, true, true, "", typeof(string)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("StepperID", true, true, true, true, "", typeof(string)); tmp.AddProperty("VariableReferenceList", true, true, true, true, "", typeof(List<EcellValue>)); tmp.AddProperty("Expression", true, true, true, true, "self.getSuperSystem().SizeN_A", typeof(string)); tmp.AddProperty("Variable", true, true, true, true, "", typeof(string)); this.m_moduleDic.Add(tmp.Name, tmp); tmp = new DynamicModule("TauLeapStepper", "", false, "TauLeapStepper"); tmp.AddProperty("AbsoluteEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("AbsoluteToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("CurrentTime", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("DependentStepperList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("DerivativeToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("Epsilon", true, true, true, true, (double)0.03, typeof(double)); tmp.AddProperty("MaxErrorRatio", false, true, false, false, (double)1.0, typeof(double)); tmp.AddProperty("MaxStepInterval", true, true, true, true, (double)1e+100, typeof(double)); tmp.AddProperty("MinStepInterval", true, true, true, true, (double)1e-100, typeof(double)); tmp.AddProperty("NextStepInterval", false, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Order", false, true, false, false, 1, typeof(int)); tmp.AddProperty("OriginalStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Priority", true, true, true, true, 0, typeof(int)); tmp.AddProperty("ProcessList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("ReadVariableList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("RelativeEpsilon", true, true, true, true, (double)0.1, typeof(double)); tmp.AddProperty("SpectralRadius", false, true, false, false, (double)0.0, typeof(double)); tmp.AddProperty("Stage", false, true, false, false, 1, typeof(int)); tmp.AddProperty("StateToleranceFactor", true, true, true, true, (double)1.0, typeof(double)); tmp.AddProperty("StepInterval", true, true, true, true, (double)0.01, typeof(double)); tmp.AddProperty("SystemList", false, true, false, false, "", typeof(List<EcellValue>)); tmp.AddProperty("Tau", false, true, false, false, Double.PositiveInfinity, typeof(double)); tmp.AddProperty("TolerableStepInterval", true, true, false, false, (double)0.001, typeof(double)); tmp.AddProperty("Tolerance", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("Uround", true, true, true, true, (double)1e-6, typeof(double)); tmp.AddProperty("WriteVariableList", false, true, false, false, "", typeof(List<EcellValue>)); this.m_moduleDic.Add(tmp.Name, tmp); }
public void TearDown() { _env = null; _manager = null; }
public void TearDown() { _env = null; }
/// <summary> /// Constructor. /// </summary> public JobManager(ApplicationEnvironment env) { m_env = env; m_timer = new Timer(); m_timer.Enabled = false; m_timer.Interval = m_updateInterval; m_timer.Tick += new EventHandler(UpdateTimeFire); LocalJobProxy p = new LocalJobProxy(); p.Manager = this; m_proxyList.Add(p.Name, p); string cog_home = System.Environment.GetEnvironmentVariable("COG_HOME"); if (!string.IsNullOrEmpty(cog_home)) { GlobusJobProxy g = new GlobusJobProxy(); g.Manager = this; m_proxyList.Add(g.Name, g); } SetCurrentEnvironment(p.Name); TmpRootDir = Util.GetTmpDir(); }
public void TestFixtureSetUp() { _env = new ApplicationEnvironment(); _unitUnderTest = _env.DataManager; }
/// <summary> /// Creates the stepper stub with the current simulation parameter and the stepper ID. /// </summary> /// <param name="cManager">CommandManager</param> /// <param name="ID">Job ID.</param> public StepperStub(CommandManager cManager, string ID) { this.m_cManager = cManager; this.m_env = cManager.Environment; this.m_ID = ID; }
/// <summary> /// Compile the source of DM. /// </summary> /// <param name="env">Application Environmant object.</param> /// <param name="showDialog">ShowDialog or not.</param> private void Compile(ApplicationEnvironment env, bool showDialog) { // Check error. if (m_sourceFile == null || !File.Exists(m_sourceFile)) return; string stageHome = System.Environment.GetEnvironmentVariable("ECELL_STAGING_HOME"); if (string.IsNullOrEmpty(stageHome) ) { string errmes = string.Format(MessageResources.ErrNotInstall, "E-Cell SDK"); throw new EcellException(errmes); } // Set up compile environment. string VS90 = System.Environment.GetEnvironmentVariable("VS90COMNTOOLS"); if (string.IsNullOrEmpty(VS90)) { string errmes = string.Format(MessageResources.ErrNotInstall, "Visual Studio 2008"); throw new EcellException(errmes); } string VSPATH = VS90; string groupname = Constants.groupCompile + ":" + m_sourceFile; int maxCount = 10; int count = 0; ReportingSession rs = null; while (rs == null) { try { rs = env.ReportManager.GetReportingSession(groupname); } catch (Exception) { string errmes = string.Format(MessageResources.ErrCompile, m_sourceFile); System.Threading.Thread.Sleep(100); if (maxCount < count) { throw new EcellException(errmes); } count++; } } // Compile using (rs) { ProcessStartInfo psi = new ProcessStartInfo(); psi.FileName = "cmd.exe"; psi.UseShellExecute = false; psi.CreateNoWindow = true; psi.WorkingDirectory = Path.GetDirectoryName(m_sourceFile); psi.RedirectStandardError = true; psi.RedirectStandardOutput = true; psi.RedirectStandardInput = true; string arch1 = "Win32"; string arch2 = "X86"; string arch3 = "x86"; if (IntPtr.Size == 8) { arch1 = "X64"; arch2 = "X64"; arch3 = "amd64"; } Process p = Process.Start(psi); p.StandardInput.WriteLine("call \"" + VSPATH + "..\\..\\VC\\vcvarsall.bat\" " + arch3); // Set INCLUDE path string INCLUDEPATH = ""; string path1 = Path.Combine(stageHome, "include"); string path2 = string.Format("{0}\\{1}\\Release\\include", stageHome, arch1); if (Directory.Exists(path1)) INCLUDEPATH = path1; else if (Directory.Exists(path2)) INCLUDEPATH = path2; else throw new EcellException(string.Format("Can not find INCLUDE path, {0}, {1}", path1, path2)); // Set LIB path string LIBPATH = ""; string libpath1 = Path.Combine(stageHome, "lib"); string libpath2 = string.Format("{0}\\{1}\\Release\\lib", stageHome, arch1); if (Directory.Exists(libpath1)) LIBPATH = libpath1; else if (Directory.Exists(libpath2)) LIBPATH = libpath2; else throw new EcellException(string.Format("Can not find LIB path, {0}, {1}", path1, path2)); // construct compile option. string opt = "cl.exe /O2 /GL /I \"{0}\" /I \"{0}\\ecell-3.2\" /I \"{0}\\ecell-3.2\\libecs\" /I \"{0}\\ecell-3.2\\libemc\" /D \"WIN32\" /D\"NODEBUG\" /D \"_WINDOWS\" /D \"_USRDLL\" /D \"GSL_DLL\" /D \"__STDC__=1\" /D \"_WINDLL\" /D \"_WIN32_WINNT=0x500\" /D \"_SECURE_SCL=0\" /D \"_MBCS\" /FD /EHsc /MD /W3 /nologo /Wp64 /Zi /TP /errorReport:prompt \"{1}\" /link /OUT:\"{2}\" /LIBPATH:\"{5}\" /INCREMENTAL:NO /NOLOGO /DLL /MANIFEST /MANIFESTFILE:\"{2}.intermediate.manifest \" /DEBUG /SUBSYSTEM:WINDOWS /OPT:REF /OPT:ICF /LTCG /MACHINE:{4} ecs.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib"; string cmd = string.Format(opt, new object[] { INCLUDEPATH, m_sourceFile, m_outputFile, arch1, arch2, LIBPATH }); // Compile. p.StandardInput.WriteLine(cmd); p.StandardInput.WriteLine("exit"); p.StandardInput.Close(); string mes = p.StandardOutput.ReadToEnd(); env.Console.Write(mes); p.StandardOutput.Close(); p.WaitForExit(); p.Close(); // Check Error. if (mes.Contains(" error")) { string[] ele = mes.Split(new char[] { '\n' }); for (int i = 0; i < ele.Length; i++) { if (ele[i].Contains(" error")) { rs.Add(new CompileReport(MessageType.Error, ele[i], groupname)); env.LogManager.Append(new ApplicationLogEntry(MessageType.Error, ele[i], this)); } } string errmes = string.Format(MessageResources.ErrCompile, m_sourceFile); throw new EcellException(errmes); } p = Process.Start(psi); p.StandardInput.WriteLine("call \"" + VSPATH + "\\vsvars32.bat\""); string mopt = "mt.exe /outputresource:\"{0};#2\" /manifest \"{0}.intermediate.manifest\" /nologo"; cmd = string.Format(mopt, m_outputFile); p.StandardInput.WriteLine(cmd); p.StandardInput.WriteLine("exit"); p.StandardInput.Close(); mes = p.StandardOutput.ReadToEnd(); env.Console.WriteLine(mes); Console.WriteLine(mes); p.StandardOutput.Close(); p.WaitForExit(); p.Close(); // error if (mes.Contains(" error")) { string[] ele = mes.Split(new char[] { '\n' }); for (int i = 0; i < ele.Length; i++) { if (ele[i].Contains(" error")) { rs.Add(new CompileReport(MessageType.Error, ele[i], groupname)); env.LogManager.Append(new ApplicationLogEntry(MessageType.Error, ele[i], this)); } } string errmes = string.Format(MessageResources.ErrCompile, m_sourceFile); throw new EcellException(errmes); } // Reload DMs. try { File.Copy(OutputFile, DMFile, true); string msg = string.Format(MessageResources.InfoCompile, Path.GetFileNameWithoutExtension(DMFile)); env.Console.WriteLine(msg); env.Console.Flush(); } catch (Exception e) { // �ړ����DM�����[�h����Ă��邽�߈ړ��ł��Ȃ������B // ����Ă��̗�O�͖��������̂Ƃ���B string errmsg = string.Format(MessageResources.WarnMoveDM, DMFile, OutputFile); if (showDialog) { Util.ShowNoticeDialog(errmsg); } env.Console.WriteLine(e.ToString()); env.Console.Flush(); } } }
/// <summary> /// Set the plugin settings. /// </summary> /// <param name="env">the application environment.</param> /// <param name="settings">XMLNode.</param> private static void SetPluginSettings(ApplicationEnvironment env, XmlNode settings) { if (settings == null) return; foreach (XmlElement plugin in settings.ChildNodes) { env.PluginManager.SetPluginStatus(plugin.Name, plugin); } }
/// <summary> /// Set the logger to XML node. /// </summary> /// <param name="env">ApplicationEnvironment</param> /// <param name="model">the model object.</param> /// <param name="loggers">Logger XML node.</param> private static void SetLogger(ApplicationEnvironment env, EcellModel model, XmlNode loggers) { if (loggers == null || loggers.ChildNodes.Count <= 0) return; foreach (XmlNode node in loggers.ChildNodes) { if (!node.Name.Equals(LemlConstants.xPathLogger)) continue; string modelID = GetStringAttribute(node, LemlConstants.xPathModelID); string key = GetStringAttribute(node, LemlConstants.xPathKey); string type = GetStringAttribute(node, LemlConstants.xPathType); EcellObject eo = GetEcellObject(model, type, key); if (eo == null) continue; string fullPN = GetStringAttribute(node, LemlConstants.xpathFullPN); LoggerEntry entry = new LoggerEntry(modelID, key, type, fullPN); entry.Color = Color.FromName(GetStringAttribute(node, LemlConstants.xpathColor)); entry.LineStyleInt = Int32.Parse(GetStringAttribute(node, LemlConstants.xpathLineStyle)); entry.LineWidth = Int32.Parse(GetStringAttribute(node, LemlConstants.xpathLineWidth)); entry.IsShowInt = Int32.Parse(GetStringAttribute(node, LemlConstants.xpathIsShown)); entry.IsY2AxisInt = Int32.Parse(GetStringAttribute(node, LemlConstants.xpathIsY2)); foreach (EcellData d in eo.Value) { if (!d.EntityPath.Equals(fullPN)) continue; d.Logged = true; env.LoggerManager.AddLoggerEntry(entry); } } }
/// <summary> /// Save EcellObjects in LEML format. /// </summary> /// <param name="env">ApplicationEnvironment</param> /// <param name="model">The model object.</param> /// <param name="filename">the file name.</param> public static void SaveLEML(ApplicationEnvironment env, EcellModel model, string filename) { CheckFilePath(filename); FileStream fs = null; XmlTextWriter xmlOut = null; try { // Create xml file fs = new FileStream(filename, FileMode.Create); xmlOut = new XmlTextWriter(fs, Encoding.UTF8); // Use indenting for readability xmlOut.Formatting = Formatting.Indented; xmlOut.WriteStartDocument(); // Always begin file with identification and warning xmlOut.WriteComment(LemlConstants.xPathFileHeader1); xmlOut.WriteComment(LemlConstants.xPathFileHeader2); // Application settings xmlOut.WriteStartElement(LemlConstants.xPathApplication); xmlOut.WriteAttributeString(LemlConstants.xPathName, Application.ProductName); xmlOut.WriteAttributeString(LemlConstants.xPathApplicationVersion, Application.ProductVersion); xmlOut.WriteAttributeString(LemlConstants.xPathConfigFileVersion, CONFIG_FILE_VERSION); // Layer settings xmlOut.WriteStartElement(LemlConstants.xPathLayerList); foreach (EcellLayer layer in model.Layers) { xmlOut.WriteStartElement(LemlConstants.xPathLayer); xmlOut.WriteAttributeString(LemlConstants.xPathName, layer.Name); xmlOut.WriteAttributeString(LemlConstants.xPathVisible, layer.Visible.ToString()); xmlOut.WriteEndElement(); } xmlOut.WriteEndElement(); // Alias xmlOut.WriteStartElement(LemlConstants.xPathAliasList); foreach (EcellObject eo in model.Children) { foreach (EcellObject child in eo.Children) { if (!(child is EcellVariable)) continue; WriteAliases(xmlOut, child); } } xmlOut.WriteEndElement(); // Object settings xmlOut.WriteStartElement(LemlConstants.xPathEcellObjectList); foreach (EcellObject stepper in model.Steppers) { WriteObjectElement(xmlOut, stepper); } foreach (EcellObject eo in model.Children) { WriteObjectElement(xmlOut, eo); foreach (EcellObject child in eo.Children) { WriteObjectElement(xmlOut, child); } } xmlOut.WriteEndElement(); // Logger xmlOut.WriteStartElement(LemlConstants.xPathLoggerList); foreach (string name in env.LoggerManager.GetLoggerList()) { LoggerEntry entry = env.LoggerManager.GetLoggerEntryForFullPN(name); WriteLoggerElement(xmlOut, entry); } xmlOut.WriteEndElement(); // Plugin settings. xmlOut.WriteStartElement(LemlConstants.xPathPluginSettings); foreach (XmlNode status in env.PluginManager.GetPluginStatus()) { status.WriteTo(xmlOut); } xmlOut.WriteEndElement(); xmlOut.WriteEndElement(); xmlOut.WriteEndDocument(); } catch (Exception ex) { Trace.WriteLine(ex); Util.ShowErrorDialog(string.Format(MessageResources.ErrSaveFile, filename) + Environment.NewLine + ex.Message); } finally { if (xmlOut != null) xmlOut.Close(); if (fs != null) fs.Close(); } }
/// <summary> /// LoadLEML /// </summary> /// <param name="env">ApplicationEnvironment.</param> /// <param name="model">the model ID.</param> /// <param name="filename">the filename.</param> public static void LoadLEML(ApplicationEnvironment env, EcellModel model,string filename) { if (!File.Exists(filename)) return; XmlDocument xmlD = new XmlDocument(); try { xmlD.Load(filename); XmlNode applicationData = GetNodeByKey(xmlD, LemlConstants.xPathApplication); // Load Layers XmlNode layers = GetNodeByKey(applicationData, LemlConstants.xPathLayerList); SetLayers(model, layers); // Load Aliases XmlNode aliases = GetNodeByKey(applicationData, LemlConstants.xPathAliasList); SetAliases(model, aliases); // Load EcellObjects XmlNode ecellObjects = GetNodeByKey(applicationData, LemlConstants.xPathEcellObjectList); SetEcellObjects(model, ecellObjects); // Load Logger XmlNode loggers = GetNodeByKey(applicationData, LemlConstants.xPathLoggerList); SetLogger(env, model, loggers); // Load plugin settings XmlNode settings = GetNodeByKey(applicationData, LemlConstants.xPathPluginSettings); SetPluginSettings(env, settings); } catch (Exception ex) { Trace.WriteLine(ex); Util.ShowErrorDialog(string.Format(MessageResources.ErrLoadFile, filename) + Environment.NewLine + ex.Message); } }
public void SetUp() { _env = new ApplicationEnvironment(); _unitUnderTest = new ConsoleManager(_env); }
/// <summary> /// Comile the source of DM. /// </summary> /// <param name="fileName">the file name of source.</param> /// <param name="env">Application Environment object.</param> public static void Compile(string fileName, ApplicationEnvironment env) { if (fileName == null || !File.Exists(fileName)) return; DMCompiler cm = new DMCompiler(); cm.SourceFile = fileName; string outdir = Path.Combine(Path.GetDirectoryName(fileName), Constants.TmpDirName); if (!Directory.Exists(outdir)) Directory.CreateDirectory(outdir); string outfile = Path.Combine(outdir, Path.GetFileNameWithoutExtension(fileName) + Constants.FileExtDM); string dmfile = Path.Combine(Path.GetDirectoryName(fileName), Path.GetFileNameWithoutExtension(fileName) + Constants.FileExtDM); cm.OutputFile = outfile; cm.DMFile = dmfile; try { env.DataManager.CurrentProject.UnloadSimulator(); cm.Compile(env, true); string msg = string.Format(MessageResources.InfoCompile, Path.GetFileNameWithoutExtension(dmfile)); env.DMDescriptorKeeper.Load(env.DataManager.CurrentProject.GetDMDirs()); env.DataManager.CurrentProject.ReloadSimulator(); Util.ShowNoticeDialog(msg); } catch (Exception e) { env.Console.WriteLine(e.ToString()); env.Console.Flush(); Util.ShowErrorDialog(e.Message); } }
/// <summary> /// Compile DMs. /// </summary> /// <param name="files">source files.</param> /// <param name="env">Application Environment</param> public static void Compile(List<string> files, ApplicationEnvironment env) { if (files == null || files.Count == 0) return; DMCompiler cm = new DMCompiler(); string errmes = ""; string finished = ""; try { env.DataManager.CurrentProject.UnloadSimulator(); } catch (Exception e) { env.Console.WriteLine(e.ToString()); env.Console.Flush(); Util.ShowErrorDialog(e.Message); } foreach (string filename in files) { cm.SourceFile = filename; string outdir = Path.Combine(Path.GetDirectoryName(filename), Constants.TmpDirName); if (!Directory.Exists(outdir)) Directory.CreateDirectory(outdir); string dmname = Path.GetFileNameWithoutExtension(filename); string outfile = Path.Combine(outdir, dmname + Constants.FileExtDM); string dmfile = Path.Combine(Path.GetDirectoryName(filename), dmname + Constants.FileExtDM); cm.OutputFile = outfile; cm.DMFile = dmfile; try { cm.Compile(env, true); finished += " " + dmname; } catch (Exception e) { errmes += e.Message + "\n"; env.Console.WriteLine(e.ToString()); env.Console.Flush(); } } env.DMDescriptorKeeper.Load(env.DataManager.CurrentProject.GetDMDirs()); env.DataManager.CurrentProject.ReloadSimulator(); // Error if (!string.IsNullOrEmpty(errmes)) { Util.ShowErrorDialog(errmes); } // Finished if (!string.IsNullOrEmpty(finished)) { string msg = string.Format(MessageResources.InfoCompile, Path.GetFileNameWithoutExtension(finished)); Util.ShowNoticeDialog(msg); } }
/// <summary> /// Constructors. /// </summary> /// <param name="env">application environment.</param> public ConsoleManager(ApplicationEnvironment env) { m_env = env; m_buf = new StringBuilder(); m_state = 0; }
/// <summary> /// Creates the new "DataManager" instance with no argument. /// </summary> public DataManager(ApplicationEnvironment env) { this.m_env = env; this.m_observedList = new Dictionary<string, EcellObservedData>(); this.m_parameterList = new Dictionary<string, EcellParameterData>(); SetDefaultDir(); }
public void SetUp() { _unitUnderTest = new ApplicationEnvironment(); }
/// <summary> /// Constructor with the initial parameters. /// </summary> /// <param name="env">the environment object.</param> public CommandManager(ApplicationEnvironment env) { m_env = env; s_instance = this; }
public void TearDown() { _unitUnderTest = null; }
public void TestFixtureTearDown() { _unitUnderTest = null; _env = null; }
public void SetUp() { _env = new ApplicationEnvironment(); _manager = _env.ActionManager; }
/// <summary> /// Creates the new "Project" instance with ProjectInfo. /// </summary> /// <param name="info">the project information object.</param> /// <param name="env">ApplicationEnvironment</param> public Project(ProjectInfo info, ApplicationEnvironment env) { if (info == null) throw new EcellException(string.Format(MessageResources.ErrInvalidParam, "ProjectInfo")); if (env == null) throw new EcellException(string.Format(MessageResources.ErrInvalidParam, "ApplicationEnvironment")); m_info = info; m_env = env; m_stepperDic = new Dictionary<string, List<EcellObject>>(); m_modelList = new List<EcellModel>(); m_systemDic = new Dictionary<string, List<EcellObject>>(); m_logableEntityPathDic = new Dictionary<string, string>(); m_loggerPolicyDic = new Dictionary<string, LoggerPolicy>(); // Loads the model. if (info.Type != ProjectType.Model) info.FindModels(); SetDMList(); m_simulator = CreateSimulatorInstance(); // Lock(); }
public void SetUp() { _env = new ApplicationEnvironment(); }