示例#1
0
        /// <summary>
        /// Create a pascal cased name
        /// </summary>
        private static string CreatePascalCasedName(Choice cc)
        {
            // Get the type reference
            var tr = (cc.Content[0] as Property).Type.Class.BaseClass;
            List<String> methods = new List<string>(), methodDeclarations = new List<string>();

            foreach (Property p in cc.Content)
                if (p.Type.Class.BaseClass != null && tr != null && p.Type.Class.BaseClass.Name != tr.Name)
                    tr = null;

            // If no type reference is agreed to, then the type reference is Object!
            string dt = tr == null ? "System.Object" : CreateDatatypeRef(tr, cc.Content[0] as Property);

            return Util.Util.PascalCase(cc.Name) == dt ? Util.Util.MakeFriendly(cc.Name) :
                   cc.Container != null && (Util.Util.PascalCase(cc.Name) == cc.Container.Name || Util.Util.PascalCase(cc.Name) == Util.Util.PascalCase(cc.Container.Name)) ? Util.Util.PascalCase(cc.Name) + "Choice" : Util.Util.PascalCase(cc.Name);

        }
示例#2
0
        /// <summary>
        /// Write an inline condition for a when expand
        /// </summary>
        private bool WriteInlineChooseWhenExpand(XmlWriter xw, Choice c, List<TypeReference> genericSupplier, string interactionName)
        {
            Property rimName = null;
            if (c.Realization != null && c.Realization.Count > 0)
                rimName = c.Realization[0] as Property;
            else
            {
                xw.WriteComment(String.Format("TODO: Can't realize property '{0}' in the RIM as no realization data was found", c.Name));
                //rimName = p;
                return false;
            }

            List<Property> properties = FlattenPropertyHierarchy(c.Content);

            // Write the for-each 
            xw.WriteStartElement("for-each", NS_XSLT);
            string s = String.Format("./*[local-name() = '{0}' {1}]", rimName.Name, GenerateConditionString(rimName,  ResolveTypeReference(rimName.Type.Name, genericSupplier), ".", genericSupplier));

            xw.WriteAttributeString("select", s);
            xw.WriteStartElement("choose", NS_XSLT);

            foreach (var property in properties)
            {
                xw.WriteStartElement("when", NS_XSLT);

                TypeReference tr = property.Type;
                if (ResolveTypeReference(tr.Name, genericSupplier) != null)
                    tr = ResolveTypeReference(property.Type.Name, genericSupplier);

                // Find any ambiguous test conditions
                s = GenerateDeepConditionString(property, tr, new List<string>(), genericSupplier);

                xw.WriteAttributeString("test", String.Format("{0}", s));

                // Create transform
                if (property.PropertyType == Property.PropertyTypes.Structural)
                    WriteInlineAttributeMapExpand(xw, property);
                else
                    WriteInlineElementMapExpand(xw, property, tr, genericSupplier, interactionName);

                xw.WriteEndElement(); // when
            }

            xw.WriteEndElement(); // end choose
            xw.WriteEndElement(); // end for-each

            return true;
        }
示例#3
0
        /// <summary>
        /// Create choice content
        /// </summary>
        private List<XmlSchemaElement> CreateChoice(Choice chc, List<TypeReference> genericParameters, string prefix, List<string> includedModels, List<TypeReference> additionalCompileTargets)
        {
            List<XmlSchemaElement> retVal = new List<XmlSchemaElement>();

            // Iterate through the child classes
            foreach (ClassContent cc in chc.Content)
            {
                if (cc is Property)
                    retVal.Add(CreateElement(cc as Property, genericParameters, prefix, includedModels, additionalCompileTargets));
                else if (cc is Choice)
                    retVal.AddRange(CreateChoice(cc as Choice, genericParameters, prefix, includedModels, additionalCompileTargets));
            }

            return retVal;
        }
示例#4
0
        /// <summary>
        /// Render property attribute
        /// </summary>
        private String RenderPropertyAttribute(ClassContent cc, string ownerPackage, int propertySort)
        {

            StringWriter retBuilder = new StringWriter();

            // Represent as an option
            Choice options = cc as Choice;
            if(options == null)
                options = new Choice() {
                    Content = new List<ClassContent>() { cc as Property }
                };

            // Traversal names already rendered
            List<string> alreadyRendered = new List<string>();


            // Iterate through choices
            foreach (Property property in options.Content)
            {
                // Enumerator for alt-traversals
                List<Property.AlternateTraversalData> altTraversal = new List<Property.AlternateTraversalData>();

                altTraversal.Add(new Property.AlternateTraversalData() { CaseWhen = property.Type, TraversalName = property.Name });
                // Alternatives
                if (property.AlternateTraversalNames != null)
                    foreach (Property.AlternateTraversalData kv in property.AlternateTraversalNames)
                        altTraversal.Add(kv);

                // Write properties
                foreach (Property.AlternateTraversalData kv in altTraversal)
                {

                    // Datatype
                    TypeReference tr = Datatypes.MapDatatype(kv.CaseWhen);

                    string key = string.Format("{0}.{1}.{2}.{3}", ownerPackage, tr.Name, kv.TraversalName, kv.InteractionOwner != null ? kv.InteractionOwner.Name : "");

                    // Already rendered
                    if (!alreadyRendered.Contains(key))
                    {
                        retBuilder.Write("\t@Property(name = \"{0}\", conformance = ConformanceType.{1}, propertyType = PropertyType.{2}, sortKey = {3}",
                            kv.TraversalName, cc.Conformance.ToString().ToUpper(), (options.Content[0] as Property).PropertyType.ToString().ToUpper(), propertySort);

                        // Now a type hint
                        if (tr.Class != null && (property.Container is Choice || property.AlternateTraversalNames != null))
                            retBuilder.Write(", type = {0}.class", CreateDatatypeRef(tr, property, ownerPackage));

                        // Now for an interaction hint
                        if (tr.Class != null && (property.Container is Choice || property.AlternateTraversalNames != null) && kv.InteractionOwner != null)
                            retBuilder.Write(", interactionOwner = {0}.interaction.{1}.class", ownerPackage, kv.InteractionOwner.Name);
                        // Impose a flavor?
                        if (tr.Flavor != null)
                            retBuilder.Write(", imposeFlavorId = \"{0}\"", tr.Flavor);

                        // Is this a set?
                        if (property.MaxOccurs != "1")
                            retBuilder.Write(", minOccurs = {0}, maxOccurs = {1}", property.MinOccurs, property.MaxOccurs == "*" ? "-1" : property.MaxOccurs);
                        if (property.MinLength != null)
                            retBuilder.Write(", minLength = {0}", property.MinLength);
                        if (property.MaxLength != null)
                            retBuilder.Write(", maxLength = {0}", property.MaxLength);

                        // Is there an update mode
                        //if (property.UpdateMode != null)
                        //    retBuilder.Write(", defaultUpdateMode = UpdateMode.{0}", property.UpdateMode);

                        // Is there a supplier domain?
                        if (property.SupplierDomain != null &&
                            property.SupplierStrength == MohawkCollege.EHR.gpmr.COR.Property.CodingStrengthKind.CodedNoExtensions)
                            retBuilder.Write(", supplierDomain = \"{0}\"", (property.SupplierDomain.ContentOid));

                        // Fixed value
                        if (!String.IsNullOrEmpty(property.FixedValue))
                            retBuilder.Write(", fixedValue = \"{0}\"", property.FixedValue);

                        // generic supplier
                        if (property.Type != null && property.Type.GenericSupplier != null &&
                            property.Type.GenericSupplier.Count > 0)
                        {
                            retBuilder.Write(", genericSupplier = {");
                            foreach (var genSupp in property.Type.GenericSupplier)
                                if((property.Container as Class).TypeParameters == null ||
                                    !(property.Container as Class).TypeParameters.Exists(o=>o.Name == genSupp.Name))
                                    retBuilder.Write("{0}.class{1}", CreateDatatypeRef(genSupp, property, ownerPackage, false), genSupp == property.Type.GenericSupplier.Last() ? "" : ",");
                            retBuilder.Write("}");
                        }
                        else if (property.MaxOccurs != "1" && !Datatypes.IsCollectionType(property.Type)) // Array list so we still need to put this in
                        {
                            retBuilder.Write(", genericSupplier = {");
                            CreateDatatypeRef(property.Type, property, ownerPackage);
                            retBuilder.Write("}");
                        }

                        retBuilder.WriteLine("),");
                        alreadyRendered.Add(key);
                    }
                }
            }

            string retVal = retBuilder.ToString();
            retVal = retVal.Substring(0, retVal.LastIndexOf(","));
            retVal += "\r\n";
            if (alreadyRendered.Count > 1)
            {
                if (!s_imports.Contains("org.marc.everest.annotations.Properties"))
                    s_imports.Add("org.marc.everest.annotations.Properties");
                return String.Format("\t@Properties( value = {{\r\n{0}\t }})\r\n", retVal);
            }
            else
                return retVal;
        }
示例#5
0
        /// <summary>
        /// Process Associations
        /// </summary>
        private List<ClassContent> ProcessAssociations(AssociationEnd assoc, List<AssociationEndSpecialization> choiceItems, TypeReference typeReference, Choice container)
        {
            
            // Return value
            List<ClassContent> retVal = new List<ClassContent>();
            int nInher = 0;

            // Process the choice items
            foreach (var choice in choiceItems)
            {
                // Attempt to find a class
                var candidateType = typeReference.Class.SpecializedBy.FindAll(o => o.Class.Name.Equals(choice.ClassName));

                Property p = new Property();

                // Did the candidate type find?

                // Found exactly one candidate type with name 
                if (candidateType.Count == 1) 
                    p.Type = candidateType[0];
                // Sometimes we find more than one class with the same name that are specializations
                // in this case we need to correlate the numeric value
                else if (typeReference.Class.SpecializedBy.Count > nInher && typeReference.Class.SpecializedBy[nInher].Class.Name == choice.ClassName)
                    p.Type = typeReference.Class.SpecializedBy[nInher];
                // Otherwise we are referencing a CMET in which case we need to find it
                else if (ClassRepository.ContainsKey(choice.ClassName) && ClassRepository[choice.ClassName] is CommonTypeReference) // The candidate type is a CMET
                    p.Type = (ClassRepository[choice.ClassName] as CommonTypeReference).Class;
                // Last ditch attempt is to look for a local class with the same name
                else if (ClassRepository.ContainsKey(String.Format("{0}.{1}", staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT), choice.ClassName))) // Local class reference
                    p.Type = ((ClassRepository[String.Format("{0}.{1}", staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT), choice.ClassName)] as MohawkCollege.EHR.gpmr.COR.Class).CreateTypeReference());
                else
                {
                    System.Diagnostics.Trace.WriteLine(string.Format("Association class '{0}' in traversal '{1}' is not a sub-class of '{2}'. The association will NOT be processed", choice.ClassName, assoc.Name, typeReference), "error");
                    break;
                }

                nInher++;

                p.PropertyType = Property.PropertyTypes.TraversableAssociation;

                // Fix bug with optional choice
                p.MinOccurs = container.MinOccurs;
                p.MaxOccurs = container.MaxOccurs;
                p.Conformance = container.Conformance;

                p.DerivedFrom = choice;
                p.Documentation = p.Type.ClassDocumentation;

                p.MemberOf = ClassRepository;
                p.Container = container;

                // Traversal names
                p.Name = choice.TraversalName;

                retVal.Add(p);

                // Specializations
                if (choice.Specialization != null && choice.Specialization.Count > 0)
                {
                    retVal.AddRange(ProcessAssociations(assoc, choice.Specialization, p.Type, container));
                }
                
            }

            return retVal;
        }
示例#6
0
        public void ParseAssociation(Association asc, Dictionary<string, Package> derivationSuppliers)
        {

            // There are two scenarios
            // A: Two traversable connections
            // B: A traversable and non traversable end
            

            // Case A: Two traversable connections, this means that the connection appears in both classes
            if (asc.Ends[0] is AssociationEnd && asc.Ends[1] is AssociationEnd)
            {
                // Make processing a little easier
                AssociationEnd[] ends = new AssociationEnd[] { 
                    asc.Ends[0] as AssociationEnd,
                    asc.Ends[1] as AssociationEnd
                };


                // Loop so we write the code once
                for (int i = 0; i < 2; i++)
                {
                    Property p = new Property();
                    p.Name = ends[i].Name;

                    // Business Name
                    foreach(BusinessName bn in ends[i].BusinessName ?? new List<BusinessName>())
                        if(bn.Language == MifCompiler.Language || bn.Language == null)
                            p.BusinessName = bn.Name;

                    // The multiplicity of the opposing end influences the property on this end of the 
                    // association
                    p.MinOccurs = ends[1 - i].MinimumMultiplicity;
                    p.MaxOccurs = ends[1 - i].MaximumMultiplicity;
                    p.Conformance = ends[1 - i].IsMandatory ? ClassContent.ConformanceKind.Mandatory :
                        ends[1 - i].Conformance == ConformanceKind.Required ? ClassContent.ConformanceKind.Required :
                        ends[1 - i].MinimumMultiplicity == "1" ? ClassContent.ConformanceKind.Populated :
                        ClassContent.ConformanceKind.Optional;

                    // The type of this end is the type of the association
                    p.Type = CreateTypeReference(ends[i], p);

                    if (p.Type.Name == null)
                    {
                        if (p.Documentation == null) p.Documentation = new MohawkCollege.EHR.gpmr.COR.Documentation();
                        if (p.Documentation.Description == null) p.Documentation.Description = new List<string>();

                        p.Documentation.Description.Add(String.Format("GPMR: Association to type '{0}' was ignored and set as nothing as '{0}' could not be found. You should consider revising this", ends[i].ParticipantClassName));
                    }

                    // Traversable association
                    p.PropertyType = Property.PropertyTypes.TraversableAssociation;

                    // Annotations
                    if (asc.Annotations != null)
                        p.Documentation = MohawkCollege.EHR.gpmr.Pipeline.Compiler.Mif20.Parsers.DocumentationParser.Parse(asc.Annotations.Documentation);

                    // Find the class this end belongs in
                    if (!ClassRepository.ContainsKey(string.Format("{0}.{1}", staticModel.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT),
                        ends[1 - i].ParticipantClassName)))
                        throw new Exception(string.Format("Can't bind property '{0}' to class '{1}'... Class does not exist", p.Name, ends[1 - i].ParticipantClassName));

                    // Set derivation
                    p.DerivedFrom = asc;
                    p.SortKey = asc.SortKey;

                    try
                    {
                        if (ends[i].DerivedFrom != null)
                        {
                            p.Realization = new List<ClassContent>();
                            foreach (var dei in ends[i].DerivedFrom)
                            {
                                MohawkCollege.EHR.gpmr.COR.Feature f = null;
                                if (!ClassRepository.TryGetValue(string.Format("{0}.{1}", derivationSuppliers[dei.StaticModelDerivationId].PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : derivationSuppliers[dei.StaticModelDerivationId].PackageLocation.ToString(MifCompiler.NAME_FORMAT),
                                    dei.ClassName), out f))
                                    System.Diagnostics.Trace.WriteLine(String.Format("Can't find derivation class '{0}' for association '{1}'", dei.ClassName, ends[i].Name), "debug");
                                else
                                {
                                    ClassContent cc = (f as MohawkCollege.EHR.gpmr.COR.Class).GetFullContent().Find(o => o.Name == dei.AssociationEndName);
                                    p.Realization.Add(cc);
                                }
                            }
                        }
                    }
                    catch (Exception ex)
                    {
                        Trace.WriteLine(String.Format("Cannot append derivation information to {0} (reason:{1})", ends[i].Name, ex.ToString()), "error");
                    }

                    // Add to repository
                    if(ends[1 - i].Conformance != ConformanceKind.NotPermitted)
                        (ClassRepository[string.Format("{0}.{1}", staticModel.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT),
                            ends[1 - i].ParticipantClassName)] as MohawkCollege.EHR.gpmr.COR.Class).AddContent(p);

                }
            }
            else // Case 2: A traversable and non-traversable connection, 
            {
                AssociationEnd ae = (asc.Ends[0] as AssociationEnd) ?? (asc.Ends[1] as AssociationEnd);
                NonTraversableAssociationEnd ntae = (asc.Ends[0] as NonTraversableAssociationEnd) ?? (asc.Ends[1] as NonTraversableAssociationEnd);

                // Start to process the property.
                ClassContent cc;
                if (ae.ChoiceItem != null && ae.ChoiceItem.Count > 0)
                    cc = new Choice();
                else
                    cc = new Property();

                cc.Name = ae.Name;
                
                // Business Name
                foreach(BusinessName bn in ae.BusinessName ?? new List<BusinessName>())
                    if(bn.Language == MifCompiler.Language || bn.Language == null)
                        cc.BusinessName = bn.Name;
                
                // The multiplicity of the opposing end influences the property on this end of the 
                // association
                cc.MinOccurs = ae.MinimumMultiplicity;
                cc.MaxOccurs = ae.MaximumMultiplicity;
                cc.Conformance = ae.IsMandatory ? ClassContent.ConformanceKind.Mandatory :
                    ae.Conformance == ConformanceKind.Required  && ae.MinimumMultiplicity == "1" ? ClassContent.ConformanceKind.Populated :
                    ae.Conformance == ConformanceKind.Required ? ClassContent.ConformanceKind.Required :
                    ClassContent.ConformanceKind.Optional;

                #region Bind To Class
                // Find the class on the traversable end, we'll need to append the property to it
                if (!ClassRepository.ContainsKey(string.Format("{0}.{1}", staticModel.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT),
                    ntae.ParticipantClassName)))
                    System.Diagnostics.Trace.WriteLine(string.Format("Can't bind property '{0}' to class '{1}'... Class does not exist", cc.Name, ntae.ParticipantClassName), "error");
                //throw new Exception(string.Format("Can't bind property '{0}' to class '{1}'... Class does not exist", p.Name, ae.ParticipantClassName));
                else if (ae.Conformance != ConformanceKind.NotPermitted) // Append the property to the class
                {
                    MohawkCollege.EHR.gpmr.COR.Class cls = ClassRepository[string.Format("{0}.{1}", staticModel.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT),
                    ntae.ParticipantClassName)] as MohawkCollege.EHR.gpmr.COR.Class;
                    cls.AddContent(cc);
                    // Add template parameter
                    if (templateParameters.ContainsKey(ae.ParticipantClassName))
                        cls.AddTypeParameter(templateParameters[ae.ParticipantClassName]);
                }
                else
                    return;

                #endregion

                // Choice or property?
                if (cc is Property)
                {
                    Property p = cc as Property;
                    p.Type = CreateTypeReference(ae, p);
                    if (p.Type.Name == null)
                    {
                        if (p.Documentation == null) p.Documentation = new MohawkCollege.EHR.gpmr.COR.Documentation();
                        if (p.Documentation.Description == null) p.Documentation.Description = new List<string>();
                        p.Documentation.Description.Add(String.Format("GPMR: Association to type '{0}' was ignored and set as nothing as '{0}' could not be found. You should consider revising this", ae.ParticipantClassName));
                    }
                    // Traversable association
                    p.PropertyType = Property.PropertyTypes.TraversableAssociation;
                }
                else // Choice
                {
                    Choice chc = cc as Choice;
                    chc.MemberOf = ClassRepository;
                    chc.Content = new List<ClassContent>();

                    // Get a type reference to the CMET or main type to be used
                    TypeReference trf = CreateTypeReference(ae, cc);

                    // Cannot find association
                    if (trf.Name == null)
                    {
                        if (chc.Documentation == null) chc.Documentation = new MohawkCollege.EHR.gpmr.COR.Documentation();
                        if (chc.Documentation.Description == null) chc.Documentation.Description = new List<string>();

                        chc.Documentation.Description.Add(String.Format("GPMR: Association to type '{0}' was ignored and set as nothing as '{0}' could not be found. You should consider revising this", ae.ParticipantClassName));
                    }

                    // Warn
                    if (trf.Class == null)
                    {
                        
                        throw new InvalidOperationException(String.Format("Cannot make association to class '{0}' as it was not defined!", ae.ParticipantClassName));
                    }
                    if (ae.ChoiceItem.Count != trf.Class.SpecializedBy.Count)
                        System.Diagnostics.Trace.WriteLine(string.Format("Number of choices on property does not match the number of child classes for its data type for association '{0}'", cc.Name), "warn");

                    chc.Content.AddRange(ProcessAssociations(ae, ae.ChoiceItem, trf, chc));

                    /*
                    // Specializations
                    List<TypeReference> specializations = new List<TypeReference>(trf.Class.SpecializedBy);

                    // Flatten choice members
                    for (int i = 0; i < ae.ChoiceItem.Count ; i++)
                        if (ae.ChoiceItem[i].Specialization != null && ae.ChoiceItem[i].Specialization.Count > 0)
                        {
                            AssociationEndSpecialization aes = ae.ChoiceItem[i]; // Get local reference
                            // Remove redundant data
                            ae.ChoiceItem.RemoveAt(i); // Remove the redundant choice item
                            i--; // redo this item
                            // is this a cmet?
                            if (ClassRepository.ContainsKey(aes.ClassName) && ClassRepository[aes.ClassName] is CommonTypeReference)
                            {
                                specializations.RemoveAll(o => o.Name == (ClassRepository[aes.ClassName] as CommonTypeReference).Class.Name);
                                specializations.AddRange((ClassRepository[aes.ClassName] as CommonTypeReference).Class.Class.SpecializedBy);
                            }
                            
                            ae.ChoiceItem.AddRange(aes.Specialization); // Now add the choices
                        }

                    int ip = 0;

                    // Add choice members
                    foreach (AssociationEndSpecialization aes in ae.ChoiceItem)
                    {
                        Property p = new Property();

                        // Now, construct the properties from the CMET entries
                        // Try ...

                        var rClassName = specializations.Find(o => o.Class != null && o.Class.Name.Equals(aes.ClassName));

                        // Determine if this is a CMET
                        if (ClassRepository.ContainsKey(aes.ClassName) && ClassRepository[aes.ClassName] is CommonTypeReference)
                            p.Type = (ClassRepository[aes.ClassName] as CommonTypeReference).Class;
                        else if (rClassName != null) // Try using the inheritence method
                            p.Type = rClassName;
                        else if (ClassRepository.ContainsKey(String.Format("{0}.{1}", staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT), aes.ClassName)))
                            p.Type = ((ClassRepository[String.Format("{0}.{1}", staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT), aes.ClassName)] as MohawkCollege.EHR.gpmr.COR.Class).CreateTypeReference());
                        else
                        {
                            System.Diagnostics.Trace.WriteLine(string.Format("Class '{2}' of CMET '{1}' could not be found or was not processed. The processing of the property '{0}' in '{3}.{4}' will NOT continue", cc.Name, aes.ClassName, ae.ParticipantClassName, staticModel.PackageLocation.ToString(MifCompiler.NAME_FORMAT), ntae.ParticipantClassName), "error");
                            break;
                        }

                        p.PropertyType = Property.PropertyTypes.TraversableAssociation;

                        // Fix bug with optional choice
                        p.MinOccurs = chc.MinOccurs;
                        p.MaxOccurs = chc.MaxOccurs;
                        p.Conformance = chc.Conformance;

                        p.DerivedFrom = aes;
                        p.Documentation = p.Type.ClassDocumentation;

                        p.MemberOf = ClassRepository;
                        p.Container = chc;

                        // Traversal names
                        p.Name = aes.TraversalName;

                        chc.Content.Add(p);

                        ip++;
                    }
                    */
                    
                }
                
                
                // Annotations
                if (asc.Annotations != null)
                    cc.Documentation = MohawkCollege.EHR.gpmr.Pipeline.Compiler.Mif20.Parsers.DocumentationParser.Parse(asc.Annotations.Documentation);

                // Set derivation
                cc.DerivedFrom = asc;
                cc.SortKey = ae.SortKey;

                try
                {
                    if (ae.DerivedFrom != null)
                    {
                        cc.Realization = new List<ClassContent>();
                        foreach (var dei in ae.DerivedFrom)
                        {
                            MohawkCollege.EHR.gpmr.COR.Feature ss = null;
                            Package derivationPkg = null;
                            if (!derivationSuppliers.TryGetValue(dei.StaticModelDerivationId, out derivationPkg) || derivationPkg == null)
                            {
                                continue;
                            }

                            // Has the package been compiled?
                            if (!ClassRepository.TryGetValue(string.Format("{0}", derivationPkg.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : derivationPkg.PackageLocation.ToString(MifCompiler.NAME_FORMAT)), out ss))
                            {
                                // Attempt to parse 
                                PackageParser.Parse(derivationPkg.PackageLocation.ToString(MifCompiler.NAME_FORMAT), derivationPkg.MemberOfRepository, ClassRepository);
                                // Ditch if still can't find
                                if (!ClassRepository.TryGetValue(string.Format("{0}", derivationPkg.PackageLocation.Artifact == ArtifactKind.RIM ? "RIM" : derivationPkg.PackageLocation.ToString(MifCompiler.NAME_FORMAT)), out ss))
                                    System.Diagnostics.Trace.WriteLine(String.Format("Can't find derivation class '{0}' for association '{1}' (derivation supplier {2})", dei.ClassName, dei.AssociationEndName, dei.StaticModelDerivationId), "warn");
                            }

                            // Feature was found
                            var f = (ss as MohawkCollege.EHR.gpmr.COR.SubSystem).FindClass(dei.ClassName);
                            if (f != null)
                            {
                                // Realized Class content
                                ClassContent rcc = f.GetFullContent().Find(o => o.Name == dei.AssociationEndName);
                                cc.Realization.Add(rcc);
                            }
                            else
                                System.Diagnostics.Trace.WriteLine(String.Format("Can't find derivation class '{0}' for association '{1}' (derivation supplier {2})", dei.ClassName, dei.AssociationEndName, dei.StaticModelDerivationId), "warn");

                        }
                    }
                }
               catch (Exception ex)
                {
                    Trace.WriteLine(String.Format("Cannot append derivation information to {0} (reason:{1})", ae.Name, ex.ToString()), "error");
                }

                (cc.Container as MohawkCollege.EHR.gpmr.COR.Class).Content.Sort(new ClassContent.Comparator());

            }
        }
示例#7
0
 /// <summary>
 /// Query the conformance for a choice
 /// </summary>
 private bool QueryConformance(Choice chc, TypeReference typeReference, ClassContent.ConformanceKind p)
 {
     bool retVal = true;
     foreach (ClassContent cc in chc.Content)
         if (cc is Property)
             retVal &= ((cc.Conformance & p) == cc.Conformance);
         else if (cc is Choice)
             retVal &= QueryConformance(cc as Choice, typeReference, p);
     return retVal;
 }