public static bool LoadFromFile(string fileName, out ParametricValue obj) { System.Exception exception = null; return LoadFromFile(fileName, out obj, out exception); }
/// <summary> /// Deserializes xml markup from file into an ParametricValue object /// </summary> /// <param name="fileName">string xml file to load and deserialize</param> /// <param name="obj">Output ParametricValue object</param> /// <param name="exception">output Exception value if deserialize failed</param> /// <returns>true if this XmlSerializer can deserialize the object; otherwise, false</returns> public static bool LoadFromFile(string fileName, out ParametricValue obj, out System.Exception exception) { exception = null; obj = default(ParametricValue); try { obj = LoadFromFile(fileName); return true; } catch (System.Exception ex) { exception = ex; return false; } }
public static bool Deserialize(string xml, out ParametricValue obj) { System.Exception exception = null; return Deserialize(xml, out obj, out exception); }
/// <summary> /// Deserializes workflow markup into an ParametricValue object /// </summary> /// <param name="xml">string workflow markup to deserialize</param> /// <param name="obj">Output ParametricValue object</param> /// <param name="exception">output Exception value if deserialize failed</param> /// <returns>true if this XmlSerializer can deserialize the object; otherwise, false</returns> public static bool Deserialize(string xml, out ParametricValue obj, out System.Exception exception) { exception = null; obj = default(ParametricValue); try { obj = Deserialize(xml); return true; } catch (System.Exception ex) { exception = ex; return false; } }
public static TestBench Convert(ISIS.GME.Dsml.CyPhyML.Interfaces.TestBench tb) { if (tb == null) throw new ArgumentNullException("tb"); // TODO: Generate ID //var componentConnectorTargetMapping = new Dictionary<CyPhy.Connector, ComponentConnectorInstance>(); var componentConnectorTargetMapping = new Dictionary<CyPhy.Connector, object>(); //var componentValueflowTargetMapping = new Dictionary<CyPhy.ValueFlowTarget, ContainerPrimitivePropertyInstance>(); // Note: its is object because it contains: ContainerPrimitivePropertyInstance AND ComponentPrimitivePropertyInstance (TestComponent) var componentValueflowTargetMapping = new Dictionary<CyPhy.ValueFlowTarget, object>(); var vftIdCache = new Dictionary<CyPhy.ValueFlowTarget, String>(); var avmTestBench = new TestBench { Name = tb.Name }; #region Process ComponentAssembly | DesignContainer var systemUnderTest = tb.Children.TopLevelSystemUnderTestCollection.FirstOrDefault(); if (systemUnderTest != null && systemUnderTest.Referred != null) { var wrapper = new TestBenchPrimitiveWrapper(systemUnderTest.AllReferred); if (wrapper.Primitive != null) { var avmTopLevelSystemUnderTest = new TopLevelSystemUnderTest() { // Note: DesignContainers have no ConfigurationUniqueID DesignID = wrapper.ConfigurationUniqueID, // TODO: Check if null IDinSourceModel = wrapper.ID.ToString() }; SetLayoutData(avmTopLevelSystemUnderTest, systemUnderTest.Impl); #region Process TopLevelSystemUnderTest parameters foreach (var parameter in wrapper.ParameterCollection) { DataTypeEnum xDataType; if (!ConvertCyPhyDataTypeEnum(parameter.Attributes.DataType, out xDataType)) continue; /* var avmPrimitivePropertyInstance = new ContainerPrimitivePropertyInstance() { IDinSourceModel = parameter.Attributes.ID.ToString(), Value = new Value { DataType = xDataType, DataTypeSpecified = true, DimensionType = DimensionTypeEnum.Scalar, DimensionTypeSpecified = true, Dimensions = parameter.Attributes.Dimension, ID = Guid.NewGuid().ToString("D"), //parameter.Guid.ToString("D") } }; //SetLayoutData(avmPrimitivePropertyInstance, parameter.Impl); componentValueflowTargetMapping[parameter] = avmPrimitivePropertyInstance; vftIdCache[parameter] = avmPrimitivePropertyInstance.Value.ID; avmTopLevelSystemUnderTest.PropertyInstance.Add(avmPrimitivePropertyInstance); */ } #endregion #region Process TopLevelSystemUnderTest properties foreach (var property in wrapper.PropertyCollection) { DataTypeEnum xDataType; if (!ConvertCyPhyDataTypeEnum(property.Attributes.DataType, out xDataType)) continue; /* var avmPrimitivePropertyInstance = new ContainerPrimitivePropertyInstance() { IDinSourceModel = property.Attributes.ID.ToString(), Value = new Value { DataType = xDataType, DataTypeSpecified = true, DimensionType = DimensionTypeEnum.Scalar, DimensionTypeSpecified = true, Dimensions = property.Attributes.Dimension, ID = Guid.NewGuid().ToString("D"), //property.Guid.ToString("D") } }; //SetLayoutData(avmPrimitivePropertyInstance, property.Impl); avmTopLevelSystemUnderTest.PropertyInstance.Add(avmPrimitivePropertyInstance); componentValueflowTargetMapping[property] = avmPrimitivePropertyInstance; vftIdCache[property] = avmPrimitivePropertyInstance.Value.ID; */ } #endregion #region Process TopLevelSystemUnderTest ModelicaConnector foreach (var mc in wrapper.ModelicaConnectorCollection) { /* var avmPortInstance = new ContainerPortInstance { ID = string.IsNullOrEmpty(mc.Attributes.ID) ? GetOrSetID(mc) : mc.Attributes.ID, NameInSourceModel = mc.Name, }; modelicaConnectorCache[mc] = avmPortInstance; avmTopLevelSystemUnderTest.PortInstance.Add(avmPortInstance); */ } #endregion // TODO: Temprary solution for Zsolt no difference between ModelicaConnector and Connector in the atm file. // => Impossible to import #region Process TopLevelSystemUnderTest Connectors foreach (var cc in wrapper.ConnectorCollection) { // Now it is ContainerPortInstance => Should be changed in the future. /* var avmPortInstance = new ContainerPortInstance { ID = EnsureComponentIdAttribute(cc), NameInSourceModel = cc.Name, }; componentConnectorTargetMapping[cc] = avmPortInstance; avmTopLevelSystemUnderTest.PortInstance.Add(avmPortInstance); */ } #endregion avmTestBench.TopLevelSystemUnderTest = avmTopLevelSystemUnderTest; } } #endregion #region Process TestComponents foreach (var testComponent in tb.Children.TestComponentCollection) { var avmComponentInstance = new avm.ComponentInstance() { Name = testComponent.Name, ID = EnsureComponentIdAttribute(testComponent).ToString(), ComponentID = testComponent.Guid.ToString("D") }; #region Component connectors foreach (var connector in testComponent.Children.ConnectorCollection) { var connectorId = EnsureComponentIdAttribute(connector); var avmComponentConnectorInstance = new avm.ComponentConnectorInstance { IDinComponentModel = connector.Attributes.ID, ID = avmComponentInstance.ID + '-' + connectorId, }; avmComponentInstance.ConnectorInstance.Add(avmComponentConnectorInstance); if (!componentConnectorTargetMapping.ContainsKey(connector)) componentConnectorTargetMapping[connector] = avmComponentConnectorInstance; } #endregion #region Process testComponent parameters foreach (var parameter in testComponent.Children.ParameterCollection) { DataTypeEnum xDataType; if (!ConvertCyPhyDataTypeEnum(parameter.Attributes.DataType, out xDataType)) continue; var avmPrimitivePropertyInstance = new ComponentPrimitivePropertyInstance() { IDinComponentModel = parameter.Attributes.ID.ToString(), Value = new Value { DataType = xDataType, DataTypeSpecified = true, DimensionType = DimensionTypeEnum.Scalar, DimensionTypeSpecified = true, Dimensions = parameter.Attributes.Dimension, ID = Guid.NewGuid().ToString("D"), //parameter.Guid.ToString("D") } }; //SetLayoutData(avmPrimitivePropertyInstance, parameter.Impl); componentValueflowTargetMapping[parameter] = avmPrimitivePropertyInstance; vftIdCache[parameter] = avmPrimitivePropertyInstance.Value.ID; avmComponentInstance.PrimitivePropertyInstance.Add(avmPrimitivePropertyInstance); } #endregion #region Process testComponent properties foreach (var property in testComponent.Children.PropertyCollection) { DataTypeEnum xDataType; if (!ConvertCyPhyDataTypeEnum(property.Attributes.DataType, out xDataType)) continue; var avmPrimitivePropertyInstance = new ComponentPrimitivePropertyInstance() { IDinComponentModel = property.Attributes.ID.ToString(), Value = new Value { DataType = xDataType, DataTypeSpecified = true, DimensionType = DimensionTypeEnum.Scalar, DimensionTypeSpecified = true, Dimensions = property.Attributes.Dimension, ID = Guid.NewGuid().ToString("D"), //property.Guid.ToString("D") } }; //SetLayoutData(avmPrimitivePropertyInstance, property.Impl); avmComponentInstance.PrimitivePropertyInstance.Add(avmPrimitivePropertyInstance); componentValueflowTargetMapping[property] = avmPrimitivePropertyInstance; vftIdCache[property] = avmPrimitivePropertyInstance.Value.ID; } #endregion SetLayoutData(avmComponentInstance, testComponent.Impl); avmTestBench.TestComponent.Add(avmComponentInstance); } // TODO: not use dynamic, it is just a walkaround while Adam is on vacation #region Process ConnectorCompositions foreach (var cc in tb.Children.ConnectorCompositionCollection) { var src = cc.SrcEnds.Connector; var dst = cc.DstEnds.Connector; if (src != null && dst != null) { dynamic avmSrc; dynamic avmDst; if (componentConnectorTargetMapping.ContainsKey(src) && componentConnectorTargetMapping.ContainsKey(dst)) { avmSrc = componentConnectorTargetMapping[src]; avmDst = componentConnectorTargetMapping[dst]; try { avmSrc.ConnectorComposition.Add(avmDst.ID); } catch (RuntimeBinderException e) { avmSrc.PortMap.Add(avmDst.ID); } } } } #endregion #endregion #region Process Testbench parameters foreach (var parameter in tb.Children.ParameterCollection) { DataTypeEnum xDataType; if (!ConvertCyPhyDataTypeEnum(parameter.Attributes.DataType, out xDataType)) continue; var avmParameter = new Parameter { ID = parameter.Attributes.ID, Name = parameter.Name, Notes = parameter.Attributes.Description, Value = new Value { DataType = xDataType, DataTypeSpecified = true, DimensionType = DimensionTypeEnum.Scalar, DimensionTypeSpecified = true, Dimensions = parameter.Attributes.Dimension, ID = Guid.NewGuid().ToString("D"), //parameter.Guid.ToString("D") } }; SetLayoutData(avmParameter, parameter.Impl); #region Set value expressions / Derived values if (parameter.SrcConnections.ValueFlowCollection.Any()) { var vft = parameter.SrcConnections.ValueFlowCollection.First().SrcEnds.ValueFlowTarget; String idVft = null; // ContainerPrimitivePropertyInstance cppi = null; dynamic cppi; if (componentValueflowTargetMapping.TryGetValue(vft, out cppi)) { idVft = cppi.Value.ID; } else { //idVft = GetOrSetID(vft); } avmParameter.Value.ValueExpression = new DerivedValue { ValueSource = idVft }; } else { // FixedValue or ParametricValue???? //var avmFixedValue = new FixedValue() { // Value = parameter.Attributes.Value //}; var rangeParts = (parameter.Attributes.Range == null || !parameter.Attributes.Range.Contains("..")) ? new[] { "", "" } : parameter.Attributes.Range.Split(new[] { ".." }, StringSplitOptions.RemoveEmptyEntries); if (rangeParts.Count() != 2) rangeParts = new[] { "", "" }; var avmParametricValue = new ParametricValue { AssignedValue = new FixedValue { Value = parameter.Attributes.Value }, Default = new FixedValue { Value = parameter.Attributes.DefaultValue }, Maximum = new FixedValue { Value = rangeParts[1] }, Minimum = new FixedValue { Value = rangeParts[0] }, }; avmParameter.Value.ValueExpression = avmParametricValue; vftIdCache[parameter] = avmParameter.Value.ID; } #endregion avmTestBench.Parameter.Add(avmParameter); } #endregion #region Process Testbench metrics foreach (var metric in tb.Children.MetricCollection) { var avmMetric = new Metric { Name = metric.Name, Notes = metric.Attributes.Description }; SetLayoutData(avmMetric, metric.Impl); #region Derived values // Metric is derived only if (metric.SrcConnections.ValueFlowCollection.Any()) { var vft = metric.SrcConnections.ValueFlowCollection.First().SrcEnds.ValueFlowTarget; String idVft = null; // ContainerPrimitivePropertyInstance cppi = null; dynamic cppi; if (componentValueflowTargetMapping.TryGetValue(vft, out cppi)) { idVft = cppi.Value.ID; } else { //idVft = GetOrSetID(vft); } avmMetric.Value.ValueExpression = new DerivedValue { ValueSource = idVft }; } #endregion avmTestBench.Metric.Add(avmMetric); } #endregion #region Process Testbench Environments (modelica models) foreach (var env in tb.Children.EnvironmentCollection) { var avmModelicaModel = new avm.modelica.ModelicaModel { Name = env.Name, Author = env.Attributes.Author, Class = env.Attributes.Class, Notes = env.Attributes.Notes, UsesResource = env.Attributes.FilePathWithinResource, }; #region Process modelica connectors foreach (var mc in env.Children.ModelicaConnectorCollection) { var avmModelicaConnector = new avm.modelica.Connector { Name = mc.Name, Class = mc.Attributes.Class, Definition = mc.Attributes.Definition, Notes = mc.Attributes.DefinitionNotes, ID = string.IsNullOrEmpty(mc.Attributes.ID) ? GetOrSetID(mc) : mc.Attributes.ID, //= mc.Attributes.InstanceNotes, Locator = mc.Attributes.Locator, }; avmModelicaModel.Connector.Add(avmModelicaConnector); SetLayoutData(avmModelicaConnector, mc.Impl); } #endregion avmTestBench.TestStructure.Add(avmModelicaModel); SetLayoutData(avmModelicaModel, env.Impl); } #endregion #region Process Valueflows/set valueexpressions // Note: dynamic because of the Testcomponent Properties/Parameters foreach (var vf in tb.Children.ValueFlowCollection) { var srcValueFlow = vf.SrcEnds.ValueFlowTarget; var dstValueFlow = vf.DstEnds.ValueFlowTarget; if (componentValueflowTargetMapping.ContainsKey(dstValueFlow)) { dynamic dstPair = componentValueflowTargetMapping[dstValueFlow]; dstPair.Value.ValueExpression = new avm.DerivedValue { ValueSource = vftIdCache[srcValueFlow] }; } } #endregion #region Process PortCompositions foreach (var pc in tb.Children.PortCompositionCollection) { var src = pc.SrcEnds.ModelicaConnector; var dst = pc.DstEnds.ModelicaConnector; /* if (src != null & dst != null) { ContainerPortInstance avmSrc; ContainerPortInstance avmDst; if (modelicaConnectorCache.ContainsKey(src)) { avmSrc = modelicaConnectorCache[src]; avmSrc.PortMap.Add(dst.Attributes.ID); } else if (modelicaConnectorCache.ContainsKey(dst)) { avmDst = modelicaConnectorCache[dst]; avmDst.PortMap.Add(src.Attributes.ID); } } */ } #endregion #region Process Workflows var workflowRef = tb.Children.WorkflowRefCollection.FirstOrDefault(); if (workflowRef != null) { var referred = workflowRef.Referred; if (referred != null && referred!=null) { var workflow = referred.Workflow; var avmWorkflow = new Workflow { Name = workflow.Name, }; avmTestBench.Workflow = avmWorkflow; SetLayoutData(avmWorkflow, workflowRef.Impl); var allTasks = workflow.Children.TaskBaseCollection.ToList(); // Get the first task var currentTask = allTasks.FirstOrDefault(x => !x.SrcConnections.FlowCollection.Any()); if (currentTask != null) { do { // Create avm workflow tasks if (currentTask is CyPhy.Task) { var cyphyTask = (CyPhy.Task)currentTask; var avmTask = new InterpreterTask { Name = cyphyTask.Name, COMName = cyphyTask.Attributes.COMName, Parameters = cyphyTask.Attributes.Parameters }; avmWorkflow.Task.Add(avmTask); SetLayoutData(avmTask, cyphyTask.Impl); } else if (currentTask is CyPhy.ExecutionTask) { var cyphyTask = (CyPhy.ExecutionTask)currentTask; var avmTask = new ExecutionTask { Name = cyphyTask.Name, Description = cyphyTask.Attributes.Description, Invocation = cyphyTask.Attributes.Invocation, //TODO: Ask adam about these: // = cyphyTask.Attributes.Parameters // = cyphyTask.Attributes.PostProcess // = cyphyTask.Attributes.PreProcess }; SetLayoutData(avmTask, cyphyTask.Impl); avmWorkflow.Task.Add(avmTask); } else { // ToDo: Give a warning break; } // Next edge var nextFlow = currentTask.DstConnections.FlowCollection.FirstOrDefault(); // No more outgoing edge if (nextFlow == null) break; currentTask = nextFlow.DstEnds.TaskBase; // No element at the end of the edge // ToDo: Give a warning } while (currentTask != null); } } } #endregion #region Process Settings foreach (var settings in tb.Children.SolverSettingsCollection) { var intervalMethod = AvmModelicaIntervalMethodMapping.FirstOrDefault(x => x.Item1 == settings.Attributes.IntervalMethod); var jobManagerToolSelection = AvmModelicaJobManagerToolSelectionMapping.FirstOrDefault(x => x.Item1 == settings.Attributes.JobManagerToolSelection); var avmSettings = new avm.modelica.SolverSettings { IntervalLength = settings.Attributes.IntervalLength, IntervalLengthSpecified = true, // TODO: Give warning IntervalMethod = intervalMethod!=null?intervalMethod.Item2:avm.modelica.IntervalMethod.IntervalLength, // TODO: Give warning JobManagerToolSelection = jobManagerToolSelection!=null?jobManagerToolSelection.Item2:avm.modelica.JobManagerToolSelection.Dymola_latest, JobManagerToolSelectionSpecified = true, NumberOfIntervals = settings.Attributes.NumberOfIntervals, NumberOfIntervalsSpecified = true, Solver = settings.Attributes.Solver.ToString(), StartTime = settings.Attributes.StartTime, StartTimeSpecified = true, StopTime = settings.Attributes.StartTime, StopTimeSpecified = true, Tolerance = settings.Attributes.Tolerance, ToleranceSpecified = true, ToolSpecificAnnotations = settings.Attributes.ToolSpecificAnnotations }; avmTestBench.Settings.Add(avmSettings); } #endregion return avmTestBench; }
private void createAVMCyberParameter(List<avm.modelica.Parameter> avmCyberModelParameterList, Cyber.ParameterRef cyberModelParameterRef) { string idString = "ID" + _idCounter; _idCounter++; // Initialize a avmCyber Parameter avm.modelica.Parameter avmCyberParameter = new avm.modelica.Parameter(); //// // Set avm cyber parameter Value avmCyberParameter.Value = new avm.Value(); // Assign ValueExpressionType for avm Value avm.DerivedValue avmDerivedValue = new avm.DerivedValue(); avmDerivedValue.ValueSource = idString; avmCyberParameter.Value.ValueExpression = avmDerivedValue; // Assign ID attr content avmCyberParameter.Value.ID = META2AVM_Util.UtilFuncs.ensureMetaIDAttribute(cyberModelParameterRef); //// // Assign Locator relative to the parent cyberModel avmCyberParameter.Locator = cyberModelParameterRef.Name; /// Now do the outer representation avm.PrimitiveProperty avmProperty = new avm.PrimitiveProperty(); avmProperty.Name = avmCyberParameter.Locator; avmProperty.ID = "property." + idString; avmProperty.Notes = avmCyberParameter.Notes; avmProperty.Value = new avm.Value(); avmProperty.Value.ID = idString; // Three cases for getting the data type and/or value of the parameter object // TODO: JEP The Simulink case is extremely messy - assume that the value is a real-type scalar for now, and we'll take care of it later avmProperty.Value.DimensionType = DimensionTypeEnum.Scalar; avmProperty.Value.DataType = DataTypeEnum.Real; avm.ParametricValue avmParametricValue = new avm.ParametricValue(); //avm.FixedValue maxVal = new avm.FixedValue(); //maxVal.Value = "1.0e10"; //avmParametricValue.Maximum = maxVal; //avm.FixedValue minVal = new avm.FixedValue(); //minVal.Value = "-1.0e10"; //avmParametricValue.Minimum = minVal; //avm.FixedValue avmFixedValue = new avm.FixedValue(); //avmFixedValue.Value = "0"; /* Cyber.ParameterBase pbase = cyberModelParamterRef.Referred as Cyber.ParameterBase; if (pbase.Kind == "VFL_Parameter") { Simulink.SF_Parameter sfparam = pbase as Simulink.SF_Parameter; } else if (pbase.Kind == "Data") { } else if (pbase.Kind == "SFData") { } */ avmProperty.Value.ValueExpression = avmParametricValue; // Add avm param to the given List avmCyberModelParameterList.Add(avmCyberParameter); _avmComponent.Property.Add(avmProperty); }