static public Hashtable sampleToJObject(EA.Repository Repository, EA.Diagram diagram, DiagramCache diagramCache)
{
Hashtable result = new Hashtable();
IList <EA.Element> clazzes = MetaDataManager.diagramClasses(Repository, diagramCache.elementsList);
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramCache.elementsList);
EA.Element root = MetaDataManager.findContainer(Repository, diagram, diagramCache, RoundTripAddInClass.EA_STEREOTYPE_CONSTRAINT);
logger.log("MetaData container:" + root.Name);
EA.Element rootClassifier = MetaDataManager.extractSelection(diagramCache, root);
MetaDataManager.extractDiagramMetaData(result, root);
logger.log("Export container:" + rootClassifier.Name);
String prefix = (string)result[RoundTripAddInClass.PREFIX];
Dictionary <int, JObject> instances = new Dictionary <int, JObject>();
JArray container = new JArray();
string containerName = root.Name;
string containerClassifier = rootClassifier.Name;
IList <int> visited = new List <int>();
IList <EA.Element> parents = new List <EA.Element>();
IList <int> sampleIds = new List <int>();
IList <int> relationsVisited = new List <int>();
foreach (EA.Element sample in samples)
{
sampleIds.Add(sample.ElementID);
if (sample.Stereotype == RoundTripAddInClass.EA_STEREOTYPE_CONSTRAINT)
{
continue;
}
if (sample.ClassfierID != root.ClassfierID)
{
//skip root elements that are the population elements.
continue;
}
visited.Add(sample.ElementID);
parents.Add(sample);
}
parentsToJObject(Repository, diagram, container, sampleIds, null, parents, visited, relationsVisited, diagramCache);
string msg = prefix + JsonConvert.SerializeObject(container, Newtonsoft.Json.Formatting.Indented) + "\n";
result.Add("sample", containerName);
result.Add("class", containerClassifier);
result.Add("json", msg);
//result.Add("export", root.Name);
return(result);
}
///
/// Validate all object run state keys correspond to classifier attributes
///
//static public void validateDiagram(EA.Repository Repository,EA.Diagram diagram)
//{
// IList<string> messages = diagramValidation(Repository,diagram);
// logger.log("**ValidationResults**");
// if(messages!=null)
// {
// foreach (string m in messages)
// {
// logger.log(m);
// }
// }
//}
//static public IList<string> diagramValidation(EA.Repository Repository, EA.Diagram diagram,IList<EA.Element> diagramElements)
//{
// JSchema jschema = null;
// JObject json = null;
// try
// {
// //logger.log("Validate Sample");
// json = (JObject)sampleToJObject(Repository, diagram, diagramElements)["json"];
// //logger.log("JObject formed");
// EA.Package samplePkg = Repository.GetPackageByID(diagram.PackageID);
// EA.Package samplesPackage = Repository.GetPackageByID(samplePkg.ParentID);
// EA.Package apiPackage = Repository.GetPackageByID(samplesPackage.ParentID);
// EA.Package schemaPackage = null;
// foreach (EA.Package p in apiPackage.Packages)
// {
// if (p!=null && p.Name.Equals(RoundTripAddInClass.API_PACKAGE_SCHEMAS))
// {
// schemaPackage = p;
// }
// }
// if (schemaPackage == null)
// {
// throw new Exception("No Schema package found");
// }
// EA.Diagram schemaDiagram = null;
// foreach (EA.Diagram d in schemaPackage.Diagrams)
// {
// if (d.Stereotype != null && d.Stereotype.Equals(RoundTripAddInClass.EA_STEREOTYPE_SCHEMADIAGRAM))
// {
// schemaDiagram = d;
// }
// }
// jschema = SchemaManager.schemaToJsonSchema(Repository, schemaDiagram,diagramElements).Value;
// }
// catch (ModelValidationException ex)
// {
// return ex.errors.messages;
// }
// IList<string> messages;
// if (!json.IsValid(jschema, out messages))
// {
// logger.log("Sample is not valid:");
// return messages;
// }
// else{
// logger.log("Sample is Valid!");
// return null;
// }
//}
public static void syncHierarchy(EA.Repository Repository, EA.Diagram diagram, DiagramCache diagramCache)
{
logger.log("Sync Hierarchy");
RepositoryHelper.createDiagramCache(Repository, diagram, diagramCache);
//IList<EA.Element> diagramElements = diagramCache.elementsList;
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramCache.elementsList);
EA.Element container = container = MetaDataManager.findContainer(Repository, diagram, diagramCache, RoundTripAddInClass.EA_STEREOTYPE_HIERARCHY);
EA.Element containerClassifierEl = diagramCache.elementIDHash[container.ClassfierID];
string containerName = container.Name;
string containerClassifier = containerClassifierEl.Name;
Hashtable ht = new Hashtable();
MetaDataManager.extractDiagramMetaData(ht, container);
EA.Package samplePkg = Repository.GetPackageByID(diagram.PackageID);
string sourcecontrolPackage = (string)ht[RoundTripAddInClass.PROJECT];
if (fileManager != null)
{
fileManager.initializeAPI(sourcecontrolPackage);
fileManager.setDataName(RoundTripAddInClass.HIERARCHY_PATH);
fileManager.setup(RoundTripAddInClass.RAML_0_8);
if (!fileManager.populationExists(container.Name, containerClassifier, RoundTripAddInClass.HIERARCHY_PATH, container.Name))
{
MessageBox.Show("No file exists at:" + fileManager.exportPath(container.Name, containerClassifier, RoundTripAddInClass.HIERARCHY_PATH, container.Name));
return;
}
else
{
string fullpath = fileManager.exportPath(containerName, containerClassifier, RoundTripAddInClass.HIERARCHY_PATH, container.Name);
JArray jo = JArray.Parse(File.ReadAllText(fullpath));
sync_hierarchy(Repository, diagram, container, jo, samplePkg, diagramCache);
samplePkg.Update();
diagram.DiagramLinks.Refresh();
if (!diagram.Update())
{
logger.log(diagram.GetLastError());
}
}
}
}
static public EA.Element findContainer(EA.Repository Repository, EA.Diagram diagram, DiagramCache diagramCache, String stereotype)
{
logger.log("Finding container for diagram:" + diagram.Name);
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramCache.elementsList);
foreach (EA.Element sample in samples)
{
if (sample.Stereotype != null && sample.Stereotype == stereotype)
{
logger.log("Constraint is identified by Constraint stereotype");
return(sample);
}
}
throw new ModelValidationException("Unable to find Object stereotyped as " + stereotype + " on the diagram");
}
///
/// Validate all object run state keys correspond to classifier attributes
///
//static public void validateDiagram(EA.Repository Repository, EA.Diagram diagram)
//{
// IList<string> messages = diagramValidation(Repository, diagram);
// logger.log("**ValidationResults**");
// if (messages != null)
// {
// foreach (string m in messages)
// {
// logger.log(m);
// }
// }
//}
//static public IList<string> diagramValidation(EA.Repository Repository, EA.Diagram diagram)
//{
// JSchema jschema = null;
// JObject json = null;
// try
// {
// //logger.log("Validate Sample");
// json = (JObject)sampleToJObject(Repository, diagram)["json"];
// //logger.log("JObject formed");
// EA.Package samplePkg = Repository.GetPackageByID(diagram.PackageID);
// EA.Package samplesPackage = Repository.GetPackageByID(samplePkg.ParentID);
// EA.Package apiPackage = Repository.GetPackageByID(samplesPackage.ParentID);
// EA.Package schemaPackage = null;
// foreach (EA.Package p in apiPackage.Packages)
// {
// if (p != null && p.Name.Equals(RoundTripAddInClass.API_PACKAGE_SCHEMAS))
// {
// schemaPackage = p;
// }
// }
// if (schemaPackage == null)
// {
// throw new Exception("No Schema package found");
// }
// EA.Diagram schemaDiagram = null;
// foreach (EA.Diagram d in schemaPackage.Diagrams)
// {
// if (d.Stereotype != null && d.Stereotype.Equals(RoundTripAddInClass.EA_STEREOTYPE_SCHEMADIAGRAM))
// {
// schemaDiagram = d;
// }
// }
// jschema = SchemaManager.schemaToJsonSchema(Repository, schemaDiagram).Value;
// }
// catch (ModelValidationException ex)
// {
// return ex.errors.messages;
// }
// IList<string> messages;
// if (!json.IsValid(jschema, out messages))
// {
// logger.log("Sample is not valid:");
// return messages;
// }
// else
// {
// logger.log("Sample is Valid!");
// return null;
// }
//}
public static void syncMapping(EA.Repository Repository, EA.Diagram diagram, DiagramCache diagramCache)
{
logger.log("Sync Mapping");
RepositoryHelper.createDiagramCache(Repository, diagram, diagramCache);
IList <EA.Element> diagramElements = diagramCache.elementsList;
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramElements);
EA.Element container = container = MetaDataManager.findContainer(Repository, diagram, diagramCache, RoundTripAddInClass.EA_STEREOTYPE_MAPPING);
EA.Element containerClassifierEl = diagramCache.elementIDHash[container.ClassfierID];
string containerName = container.Name;
string containerClassifier = containerClassifierEl.Name;
EA.Package samplePkg = Repository.GetPackageByID(diagram.PackageID);
Hashtable ht = new Hashtable();
MetaDataManager.extractDiagramMetaData(ht, container);
string project = (String)ht[RoundTripAddInClass.PROJECT];
if (fileManager != null)
{
fileManager.initializeAPI(project);
fileManager.setDataName(RoundTripAddInClass.MAPPING_PATH);
fileManager.setup(RoundTripAddInClass.RAML_0_8);
if (!fileManager.populationExists(container.Name, containerClassifier, RoundTripAddInClass.MAPPING_PATH, container.Name))
{
MessageBox.Show("No file exists at:" + fileManager.exportPath(container.Name, containerClassifier, RoundTripAddInClass.MAPPING_PATH, container.Name));
return;
}
else
{
string fullpath = fileManager.exportPath(containerName, containerClassifier, RoundTripAddInClass.MAPPING_PATH, container.Name);
JArray jo = JArray.Parse(File.ReadAllText(fullpath));
sync_mapping(Repository, diagram, container, containerClassifierEl, jo, samplePkg, diagramCache);
samplePkg.Update();
}
}
}
public static void syncSample(EA.Repository Repository, EA.Diagram diagram, DiagramCache diagramCache)
{
logger.log("Sync Sample");
RepositoryHelper.createDiagramCache(Repository, diagram, diagramCache);
IList <EA.Element> diagramElements = diagramCache.elementsList;
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramElements);
EA.Element container = container = findContainer(Repository, diagram, diagramElements);
EA.Element containerClassifierEl = Repository.GetElementByID(container.ClassfierID);
string containerName = container.Name;
string containerClassifier = containerClassifierEl.Name;
//logger.log("Sample Root:" + container.Name);
EA.Package samplePkg = Repository.GetPackageByID(diagram.PackageID);
EA.Package samplesPackage = Repository.GetPackageByID(samplePkg.ParentID);
EA.Package apiPackage = Repository.GetPackageByID(samplesPackage.ParentID);
if (fileManager != null)
{
fileManager.initializeAPI(apiPackage.Name);
fileManager.setup(RoundTripAddInClass.RAML_0_8);
if (!fileManager.sampleExists(container.Name, containerClassifier))
{
MessageBox.Show("No file exists at:" + fileManager.samplePath(container.Name, containerClassifier));
return;
}
else
{
string fullpath = fileManager.samplePath(containerName, containerClassifier);
JObject jo = JObject.Parse(File.ReadAllText(fullpath));
sync_sample(Repository, container, jo);
}
}
}
static EA.Element findContainer(EA.Repository Repository, EA.Diagram diagram, IList <EA.Element> diagramElements)
{
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramElements);
foreach (EA.Element sample in samples)
{
if (sample.Stereotype != null && sample.Stereotype == RoundTripAddInClass.EA_STEREOTYPE_SAMPLE)
{
logger.log("Sample is identified by SAMPLE classified root");
if (sample.Connectors.Count != 1)
{
MessageBox.Show("root Sample should refer to a single class");
break;
}
else
{
int id = sample.Connectors.GetAt(0).SupplierID;
EA.Element root = Repository.GetElementByID(id);
return(root);
}
}
}
//Deprecated mechanism
foreach (EA.Element sample in samples)
{
if (sample.Stereotype == RoundTripAddInClass.EA_STEREOTYPE_REQUEST)
{
return(sample);
}
}
//MessageBox.Show("object stereotyped as Sample needs to be linked to schema root");
throw new ModelValidationException("object stereotyped as Sample needs to be linked to schema root");
}
static public Hashtable sampleToJObject(EA.Repository Repository, EA.Diagram diagram, IList <EA.Element> diagramElements)
{
Hashtable result = new Hashtable();
IList <EA.Element> clazzes = MetaDataManager.diagramClasses(Repository, diagramElements);
IList <EA.Element> samples = MetaDataManager.diagramSamples(Repository, diagramElements);
EA.Element root = findContainer(Repository, diagram, diagramElements);
EA.Element rootClassifier = Repository.GetElementByID(root.ClassifierID);
Dictionary <int, JObject> instances = new Dictionary <int, JObject>();
JObject container = new JObject();
string containerName = root.Name;
string containerClassifier = rootClassifier.Name;
instances.Add(root.ElementID, container);
foreach (EA.Element sample in samples)
{
//logger.log("Sample Name:" + sample.Name+"\t"+sample.ElementID);
if (sample.Stereotype == RoundTripAddInClass.EA_STEREOTYPE_SAMPLE)
{
continue;
}
EA.Element clazz = null;
if (sample.ClassifierID != 0)
{
clazz = Repository.GetElementByID(sample.ClassifierID);
}
else
{
logger.log("Classifier is null");
}
JObject jsonClass = null;
if (!instances.TryGetValue(sample.ElementID, out jsonClass))
{
jsonClass = new JObject();
instances.Add(sample.ElementID, jsonClass);
}
string rs = sample.RunState;
// Loop through all attributes in run state and add to json
Dictionary <string, RunState> runstate = ObjectManager.parseRunState(rs);
foreach (string key in runstate.Keys)
{
logger.log("Adding property:" + key + " =>" + runstate[key].value);
object o = runstate[key].value;
// Find classifier attribute specified in run state
string attrType = null;
string attrUpperBound = null;
if (clazz != null)
{
foreach (EA.Attribute a in clazz.Attributes)
{
if (a.Name.Equals(key))
{
attrType = a.Type;
attrUpperBound = a.UpperBound;
break;
}
}
// Check if attribuite is defined as related enumeration. When cardinaltity is 0..* then set the attribute cardinality so we serialize as an array
foreach (EA.Connector con in clazz.Connectors)
{
// Check relation is named the same as the run state attribute name and is an enumeration
EA.Element related = Repository.GetElementByID(con.SupplierID);
if (con.SupplierEnd.Role == key && related.Type == RoundTripAddInClass.EA_TYPE_ENUMERATION)
{
//if (con.SupplierEnd.Cardinality.Equals(RoundTripAddInClass.CARDINALITY_0_TO_MANY))
//{
//logger.log(" matching enum with 0..*:" + con.SupplierEnd.Cardinality);
//}
attrType = related.Type;
attrUpperBound = con.SupplierEnd.Cardinality;
break;
}
}
// Check if attribute is defined as related DataItem
foreach (EA.Connector con in clazz.Connectors)
{
// Check relation is named the same as the run state attribute name and is an enumeration
EA.Element related = Repository.GetElementByID(con.SupplierID);
if (con.SupplierEnd.Role == key && related.Stereotype == RoundTripAddInClass.EA_STEREOTYPE_DATAITEM)
{
attrType = SchemaManager.getDataItemType(related);
attrUpperBound = con.SupplierEnd.Cardinality;
break;
}
}
}
// Add attribute to json as either value or array
if (attrType != null)
{
//logger.log(" upper bound:" + key + " =>" + attrUpperBound);
if (attrUpperBound.Equals("*") || attrUpperBound.Equals(RoundTripAddInClass.CARDINALITY_0_TO_MANY))
{
// Create array and split values separated by commas
JArray ja = new JArray();
foreach (string value in runstate[key].value.Split(','))
{
o = convertEATypeToValue(attrType, value);
ja.Add(o);
}
jsonClass.Add(new JProperty(key, ja));
}
else
{
// Not array so convert and add attribute and formatted value
o = convertEATypeToValue(attrType, runstate[key].value);
logger.log("Attr:" + attrType + " " + o.ToString());
jsonClass.Add(new JProperty(key, o));
}
}
else
{
// No classifier found so add as object serialized as string
logger.log("Attr:" + key + "-" + o.ToString());
jsonClass.Add(new JProperty(key, o));
}
}
}
logger.log("Export container:" + containerName);
foreach (EA.Element clazz in samples)
{
JObject jsonClass = null;
if (!instances.TryGetValue(clazz.ElementID, out jsonClass))
{
continue;
}
if (jsonClass != null)
{
logger.log("Found jsonClass:" + clazz.Name);
foreach (EA.Connector con in clazz.Connectors)
{
//logger.log("Found connector:");
EA.Element related = null;
if (clazz.ElementID == con.ClientID)
{
related = Repository.GetElementByID(con.SupplierID);
try
{
object o = instances[related.ElementID];
}
catch (KeyNotFoundException)
{
//Object is in package but not on the diagram
continue;
}
if (related != null && instances[related.ElementID] != null)
{
if (con.SupplierEnd.Cardinality.Equals(RoundTripAddInClass.CARDINALITY_0_TO_MANY) ||
con.SupplierEnd.Cardinality.Equals(RoundTripAddInClass.CARDINALITY_1_TO_MANY)
)
{
//logger.log("Found array");
string propertyName = related.Name;
//Override with the connection supplier end
try{
if (con.SupplierEnd.Role.Length > 0)
{
propertyName = con.SupplierEnd.Role;
}
}catch (Exception) { }
JProperty p = jsonClass.Property(propertyName);
if (p == null)
{
JArray ja = new JArray();
ja.Add(instances[related.ElementID]);
//logger.log("Adding array property:"+ related.Name);
jsonClass.Add(new JProperty(propertyName, ja));
}
else
{
JArray ja = (JArray)p.Value;
//logger.log("Adding to array property");
ja.Add(instances[related.ElementID]);
}
}
else
{
string propertyName = related.Name;
//Override with the connection supplier end
try {
if (con.SupplierEnd.Role.Length > 0)
{
propertyName = con.SupplierEnd.Role;
}
}catch (Exception) { }
//logger.log("Adding property:" + related.Name);
jsonClass.Add(new JProperty(propertyName, instances[related.ElementID]));
}
}
}
}
}
}
//KeyValuePair<string,JObject> kv = new KeyValuePair<string,JObject>(containerName,container);
//return kv;
//logger.log("REturning result");
result.Add("sample", containerName);
result.Add("class", containerClassifier);
result.Add("json", container);
return(result);
}