public List getFacadeListByAuthorityDomain(String authority, String domain) {
ArrayList typeList = new ArrayList();
List list = getListByAuthorityDomain(authority, domain);
for (int i = 0; i < list.size(); i++) {
TypeD type = (TypeD) list.get(i);
TypeFacade f =
new TypeFacade(
type.getAuthority(), type.getDomain(), type.getKeyword(), type.getDescription());
f.setTypeId(type.getTypeId());
typeList.add(f);
}
return (List) typeList;
}
/**
* This method return Type with a specified typeId, used by ItemFacade.getItemType()
*
* @param typeId
* @return org.osid.shared.Type or null if no types of that id
*/
public Type getTypeById(Long typeId) {
// pbd hack
List typeList = getAllTypes();
this.typeFacadeMap = createTypeFacadeMapById(typeList);
// end pbd hack
TypeFacade typeFacade = getTypeFacadeById(typeId);
// SAM-1792 this could be a request for an unkown type
if (typeFacade == null) {
log.warn("Unable to find Item Type: " + typeId.toString());
return null;
}
TypeExtension type =
new TypeExtension(
typeFacade.getAuthority(),
typeFacade.getDomain(),
typeFacade.getKeyword(),
typeFacade.getDescription());
return type;
}
public SignatureFacade createConstructorFacade(InstanceCreationExpression exp) throws Exception {
List<TypeExpression> arguments = new ArrayList<TypeExpression>();
Map<String, TypeExpression> argumentsMap = new HashMap<String, TypeExpression>();
if (exp.getTuple().getInstanceCreationTupleElement() != null) {
for (InstanceCreationTupleElement tupleElement :
exp.getTuple().getInstanceCreationTupleElement()) {
TypeExpression typeOfArgument =
new TypeUtils().getTypeOfExpression(tupleElement.getObject());
if (typeOfArgument.getTypeFacade() instanceof ErrorTypeFacade)
throw new TypeInferenceException(typeOfArgument);
arguments.add(typeOfArgument);
argumentsMap.put(tupleElement.getRole(), typeOfArgument);
}
}
// first try to determine if the expression directly refers to a Class or a DataType
TypeFacade cddClassifier = TypeFacadeFactory.eInstance.createVoidFacade(exp.getConstructor());
boolean errorInResolutionOfClassifier = false;
if (cddClassifier instanceof ErrorTypeFacade) {
errorInResolutionOfClassifier = true;
} else {
Classifier referencedType = cddClassifier.extractActualType();
if (referencedType instanceof PrimitiveType) {
throw new Exception("Constructor invocations do not apply to primitive types");
}
if (referencedType instanceof Enumeration) {
throw new Exception("Constructor invocations do not apply to enumerations");
}
if (referencedType.isAbstract()) {
throw new Exception("Abstract classifiers cannot be instantiated");
}
// The classifier has been resolved. Must determine if arguments match with possible
// constructors
if (referencedType instanceof org.eclipse.uml2.uml.Class) {
List<EObject> visibleConstructor =
AlfScopeProvider.scopingTool
.getVisibleOperationsOrBehaviors(referencedType)
.resolveByName(referencedType.getName());
if (visibleConstructor.size() > 1) {
// try to match with arguments
// if does not match, raise an exception
List<SignatureFacade> visibleConstructorSignatures = new ArrayList<SignatureFacade>();
for (EObject cddConstructor : visibleConstructor) {
SignatureFacade cddConstructorSignature =
SignatureFacadeFactory.eInstance.createSignatureFacade(cddConstructor);
if (cddConstructorSignature.isAConstructor())
visibleConstructorSignatures.add(cddConstructorSignature);
}
List<SignatureFacade> matchingSignatures =
SignatureFacade.findNearestSignature(arguments, visibleConstructorSignatures);
if (matchingSignatures.size() > 1) {
String errorMessage = referencedType.getName() + "(";
boolean first = true;
for (TypeExpression arg : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += arg.getLabel();
}
errorMessage += ") resolves to multiple constructors";
throw new Exception(errorMessage);
} else if (matchingSignatures.size() == 0) {
String errorMessage = "Constructor " + referencedType.getName() + "(";
boolean first = true;
for (TypeExpression arg : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += arg.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
} else { // exactly one match
return matchingSignatures.get(0);
}
} else if (visibleConstructor.size() == 0) {
if (arguments.size() > 0) {
// Throw an exception
String errorMessage = "Constructor " + referencedType.getName() + "(";
boolean first = true;
for (TypeExpression t : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += t.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
}
return new DefaultConstructorFacade((Class) referencedType);
} else { // exactly one constructor found
// Tries to determine if arguments match
SignatureFacade constructor = createSignatureFacade(visibleConstructor.get(0));
if (!constructor.isAConstructor()) {
// Throw an exception
String errorMessage = "Constructor " + referencedType.getName() + "(";
boolean first = true;
for (TypeExpression t : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += t.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
}
String potentialErrorMessage = constructor.isCompatibleWithMe(argumentsMap);
if (potentialErrorMessage.length() == 0) return constructor;
else throw new Exception(potentialErrorMessage);
}
} else if (referencedType instanceof DataType) { // This is a data type.
// must match arguments with visible properties of the data type
SignatureFacade defaultDataTypeConstructor =
new DefaultConstructorFacade((DataType) referencedType);
String errorMessage = defaultDataTypeConstructor.isCompatibleWithMe(argumentsMap);
if (!(errorMessage.length() == 0)) throw new Exception(errorMessage);
else return defaultDataTypeConstructor;
}
}
if (errorInResolutionOfClassifier) {
// We can try again, but considering that:
// - the last element in the qualified name as the name of a constructor
// - the element before the last element is a class name
if (exp.getConstructor().getRemaining() == null)
throw new Exception("Constructor " + exp.getConstructor().getId() + " is undefined");
QualifiedNameWithBinding remaining = exp.getConstructor();
QualifiedNameWithBinding cddClassName = exp.getConstructor();
QualifiedNameWithBinding cddConstructorName = exp.getConstructor();
EObject previousPackage = null;
while (cddConstructorName.getRemaining() != null) {
cddClassName = cddConstructorName;
cddConstructorName = cddConstructorName.getRemaining();
}
if (remaining != cddClassName) {
List<EObject> visiblePackages =
AlfScopeProvider.scopingTool.getVisiblePackages(exp).resolveByName(remaining.getId());
if (visiblePackages.isEmpty()) {
throw new Exception("Could not resolve package " + remaining.getId());
} else if (visiblePackages.size() > 1) {
throw new Exception(remaining.getId() + " resolves to multiple packages");
} else {
List<EObject> nestedVisiblePackages;
previousPackage = visiblePackages.get(0);
remaining = remaining.getRemaining();
while (remaining != cddClassName) {
nestedVisiblePackages =
AlfScopeProvider.scopingTool
.getVisiblePackages(previousPackage)
.resolveByName(remaining.getId());
if (nestedVisiblePackages.isEmpty()) {
throw new Exception("Could not resolve package " + remaining.getId());
} else if (nestedVisiblePackages.size() > 1) {
throw new Exception(remaining.getId() + " resolves to multiple packages");
}
previousPackage = nestedVisiblePackages.get(0);
remaining = remaining.getRemaining();
}
}
}
// At this point, the (potential) path has been validated
// cddClassName should resolve to a classifier
List<EObject> visibleClassifiers = null;
EObject resolvedClassifier = null;
if (previousPackage != null)
visibleClassifiers =
AlfScopeProvider.scopingTool
.getVisibleClassifiers(previousPackage)
.resolveByName(cddClassName.getId());
else
visibleClassifiers =
AlfScopeProvider.scopingTool
.getVisibleClassifiers(exp)
.resolveByName(cddClassName.getId());
if (visibleClassifiers.isEmpty()) {
throw new Exception("Could not resolve classifier " + cddClassName.getId());
} else if (visibleClassifiers.size() > 1) {
throw new Exception(remaining.getId() + " resolves to multiple classifiers.");
} else {
resolvedClassifier = visibleClassifiers.get(0);
}
List<EObject> visibleConstructor =
AlfScopeProvider.scopingTool
.getVisibleOperationsOrBehaviors(resolvedClassifier)
.resolveByName(cddConstructorName.getId());
if (visibleConstructor.size() > 1) {
// try to match with arguments
// if does not match, raise an exception
List<SignatureFacade> visibleConstructorSignatures = new ArrayList<SignatureFacade>();
for (EObject cddConstructor : visibleConstructor) {
SignatureFacade cddConstructorSignature =
SignatureFacadeFactory.eInstance.createSignatureFacade(cddConstructor);
if (cddConstructorSignature.isAConstructor())
visibleConstructorSignatures.add(cddConstructorSignature);
}
List<SignatureFacade> matchingSignatures =
SignatureFacade.findNearestSignature(arguments, visibleConstructorSignatures);
if (matchingSignatures.size() > 1) {
String errorMessage = cddConstructorName.getId() + "(";
boolean first = true;
for (TypeExpression arg : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += arg.getLabel();
}
errorMessage += ") resolves to multiple constructors";
throw new Exception(errorMessage);
} else if (matchingSignatures.size() == 0) {
String errorMessage = "Constructor " + cddConstructorName.getId() + "(";
boolean first = true;
for (TypeExpression arg : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += arg.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
} else { // exactly one match
return matchingSignatures.get(0);
}
} else if (visibleConstructor.size() == 0) {
String errorMessage = "Constructor " + cddConstructorName.getId() + "(";
boolean first = true;
for (TypeExpression arg : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += arg.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
} else { // exactly one constructor
// Tries to determine if arguments match
SignatureFacade constructor = createSignatureFacade(visibleConstructor.get(0));
if (!constructor.isAConstructor()) {
// Throw an exception
String errorMessage = "Constructor " + cddConstructorName.getId() + "(";
boolean first = true;
for (TypeExpression t : arguments) {
if (first) first = false;
else errorMessage += ", ";
errorMessage += t.getLabel();
}
errorMessage += ") is undefined";
throw new Exception(errorMessage);
}
String potentialErrorMessage = constructor.isCompatibleWithMe(arguments, true);
if (potentialErrorMessage.length() == 0) return constructor;
else throw new Exception(potentialErrorMessage);
}
}
throw new Exception("Not supported case");
}
public void listType() {
TypeFacadeQueriesAPI typeFacadeQueries =
PersistenceService.getInstance().getTypeFacadeQueries();
TypeFacade f = typeFacadeQueries.getTypeFacadeById(1L);
log.debug("***facade: " + f.getAuthority());
}
