private Collection<AbstractClassTypeDeclarationDescr> compactDefinitionsAndDeclarations(
Collection<AbstractClassTypeDeclarationDescr> unsortedDescrs,
Map<String, AbstractClassTypeDeclarationDescr> unprocesseableDescrs) {
Map<String, AbstractClassTypeDeclarationDescr> compactedUnsorted =
new HashMap<String, AbstractClassTypeDeclarationDescr>(unsortedDescrs.size());
for (AbstractClassTypeDeclarationDescr descr : unsortedDescrs) {
if (compactedUnsorted.containsKey(descr.getType().getFullName())) {
AbstractClassTypeDeclarationDescr prev =
compactedUnsorted.get(descr.getType().getFullName());
boolean res = mergeTypeDescriptors(prev, descr);
if (!res) {
unprocesseableDescrs.put(prev.getType().getFullName(), prev);
kbuilder.addBuilderResult(
new TypeDeclarationError(
prev,
"Found duplicate declaration for type "
+ prev.getType().getFullName()
+ ", unable to reconcile "));
}
} else {
compactedUnsorted.put(descr.getType().getFullName(), descr);
}
}
return compactedUnsorted.values();
}
private void processTypeAnnotations(
AbstractClassTypeDeclarationDescr typeDescr, TypeDeclaration type) {
try {
Role role = typeDescr.getTypedAnnotation(Role.class);
if (role != null) {
type.setRole(role.value());
}
TypeSafe typeSafe = typeDescr.getTypedAnnotation(TypeSafe.class);
if (typeSafe != null) {
type.setTypesafe(typeSafe.value());
}
if (typeDescr instanceof EnumDeclarationDescr) {
type.setKind(TypeDeclaration.Kind.ENUM);
} else if (typeDescr instanceof TypeDeclarationDescr
&& ((TypeDeclarationDescr) typeDescr).isTrait()) {
type.setKind(TypeDeclaration.Kind.TRAIT);
}
type.setDynamic(typeDescr.hasAnnotation(PropertyChangeSupport.class));
} catch (Exception e) {
kbuilder.addBuilderResult(new TypeDeclarationError(typeDescr, e.getMessage()));
}
}
protected void updateTraitInformation(
AbstractClassTypeDeclarationDescr typeDescr,
TypeDeclaration type,
ClassDefinition def,
PackageRegistry pkgRegistry) {
if (typeDescr.hasAnnotation(Traitable.class)
|| (!type.getKind().equals(TypeDeclaration.Kind.TRAIT)
&& kbuilder.getPackageRegistry().containsKey(def.getSuperClass())
&& kbuilder
.getPackageRegistry(def.getSuperClass())
.getTraitRegistry()
.getTraitables()
.containsKey(def.getSuperClass()))) {
// traitable
if (type.isNovel()) {
try {
PackageRegistry reg = kbuilder.getPackageRegistry(typeDescr.getNamespace());
String availableName = typeDescr.getType().getFullName();
Class<?> resolvedType = reg.getTypeResolver().resolveType(availableName);
updateTraitDefinition(type, resolvedType, false);
} catch (ClassNotFoundException cnfe) {
// we already know the class exists
}
}
pkgRegistry.getTraitRegistry().addTraitable(def);
} else if (type.getKind().equals(TypeDeclaration.Kind.TRAIT)
|| typeDescr.hasAnnotation(Trait.class)) {
// trait
if (!type.isNovel()) {
try {
PackageRegistry reg = kbuilder.getPackageRegistry(typeDescr.getNamespace());
String availableName = typeDescr.getType().getFullName();
Class<?> resolvedType = reg.getTypeResolver().resolveType(availableName);
if (!Thing.class.isAssignableFrom(resolvedType)) {
if (!resolvedType.isInterface()) {
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"Unable to redeclare concrete class "
+ resolvedType.getName()
+ " as a trait."));
return;
}
updateTraitDefinition(type, resolvedType, false);
String target = typeDescr.getTypeName() + TraitFactory.SUFFIX;
TypeDeclarationDescr tempDescr = new TypeDeclarationDescr();
tempDescr.setNamespace(typeDescr.getNamespace());
tempDescr.setFields(typeDescr.getFields());
tempDescr.setType(target, typeDescr.getNamespace());
tempDescr.setTrait(true);
tempDescr.addSuperType(typeDescr.getType());
tempDescr.setResource(type.getResource());
TypeDeclaration tempDeclr = new TypeDeclaration(target);
tempDeclr.setKind(TypeDeclaration.Kind.TRAIT);
tempDeclr.setTypesafe(type.isTypesafe());
tempDeclr.setNovel(true);
tempDeclr.setTypeClassName(tempDescr.getType().getFullName());
tempDeclr.setResource(type.getResource());
ClassDefinition tempDef = new ClassDefinition(target);
tempDef.setClassName(tempDescr.getType().getFullName());
tempDef.setTraitable(false);
for (FieldDefinition fld : def.getFieldsDefinitions()) {
tempDef.addField(fld);
}
tempDef.setInterfaces(def.getInterfaces());
tempDef.setSuperClass(def.getClassName());
tempDef.setDefinedClass(resolvedType);
tempDef.setAbstrakt(true);
tempDeclr.setTypeClassDef(tempDef);
declaredClassBuilder.generateBeanFromDefinition(
tempDescr, tempDeclr, pkgRegistry, tempDef);
try {
Class<?> clazz =
pkgRegistry.getTypeResolver().resolveType(tempDescr.getType().getFullName());
tempDeclr.setTypeClass(clazz);
pkgRegistry
.getTraitRegistry()
.addTrait(tempDef.getClassName().replace(TraitFactory.SUFFIX, ""), tempDef);
} catch (ClassNotFoundException cnfe) {
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"Internal Trait extension Class '"
+ target
+ "' could not be generated correctly'"));
} finally {
pkgRegistry.getPackage().addTypeDeclaration(tempDeclr);
}
} else {
updateTraitDefinition(type, resolvedType, true);
pkgRegistry.getTraitRegistry().addTrait(def);
}
} catch (ClassNotFoundException cnfe) {
// we already know the class exists
}
} else {
if (def.getClassName().endsWith(TraitFactory.SUFFIX)) {
pkgRegistry
.getTraitRegistry()
.addTrait(def.getClassName().replace(TraitFactory.SUFFIX, ""), def);
} else {
pkgRegistry.getTraitRegistry().addTrait(def);
}
}
}
}
protected void createBean(
AbstractClassTypeDeclarationDescr typeDescr,
PackageRegistry pkgRegistry,
ClassHierarchyManager hierarchyManager,
List<TypeDefinition> unresolvedTypes,
Map<String, AbstractClassTypeDeclarationDescr> unprocesseableDescrs) {
// descriptor needs fields inherited from superclass
if (typeDescr instanceof TypeDeclarationDescr) {
hierarchyManager.inheritFields(
pkgRegistry,
typeDescr,
hierarchyManager.getSortedDescriptors(),
unresolvedTypes,
unprocesseableDescrs);
}
TypeDeclaration type = typeDeclarationFactory.processTypeDeclaration(pkgRegistry, typeDescr);
boolean success = !kbuilder.hasErrors();
try {
// the type declaration is generated in any case (to be used by subclasses, if any)
// the actual class will be generated only if needed
ClassDefinition def = null;
if (success) {
def =
classDefinitionFactory.generateDeclaredBean(
typeDescr, type, pkgRegistry, unresolvedTypes, unprocesseableDescrs);
// now use the definition to compare redeclarations, if any
// this has to be done after the classDef has been generated
if (!type.isNovel()) {
typeDeclarationFactory.checkRedeclaration(typeDescr, type, pkgRegistry);
}
}
success = (def != null) && (!kbuilder.hasErrors());
if (success) {
updateTraitInformation(typeDescr, type, def, pkgRegistry);
}
success = !kbuilder.hasErrors();
if (success) {
declaredClassBuilder.generateBeanFromDefinition(typeDescr, type, pkgRegistry, def);
}
success = !kbuilder.hasErrors();
if (success) {
Class<?> clazz =
pkgRegistry.getTypeResolver().resolveType(typeDescr.getType().getFullName());
type.setTypeClass(clazz);
type.setValid(true);
} else {
unprocesseableDescrs.put(typeDescr.getType().getFullName(), typeDescr);
type.setValid(false);
}
typeDeclarationConfigurator.finalize(
type, typeDescr, pkgRegistry, kbuilder.getPackageRegistry(), hierarchyManager);
} catch (final ClassNotFoundException e) {
unprocesseableDescrs.put(typeDescr.getType().getFullName(), typeDescr);
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"Class '"
+ type.getTypeClassName()
+ "' not found for type declaration of '"
+ type.getTypeName()
+ "'"));
}
if (!success) {
unresolvedTypes.add(new TypeDefinition(type, typeDescr));
} else {
registerGeneratedType(typeDescr);
}
}
protected void checkRedeclaration(
AbstractClassTypeDeclarationDescr typeDescr,
TypeDeclaration type,
PackageRegistry pkgRegistry) {
TypeDeclaration previousTypeDeclaration =
kbuilder
.getPackageRegistry(typeDescr.getNamespace())
.getPackage()
.getTypeDeclaration(typeDescr.getTypeName());
try {
// if there is no previous declaration, then the original declaration was a POJO
// to the behavior previous these changes
if (previousTypeDeclaration == null) {
// new declarations of a POJO can't declare new fields,
// except if the POJO was previously generated/compiled and saved into the kjar
Class<?> existingDeclarationClass =
TypeDeclarationUtils.getExistingDeclarationClass(typeDescr, pkgRegistry);
if (!kbuilder.getBuilderConfiguration().isPreCompiled()
&& !GeneratedFact.class.isAssignableFrom(existingDeclarationClass)
&& !type.getTypeClassDef().getFields().isEmpty()) {
try {
Class existingClass =
pkgRegistry
.getPackage()
.getTypeResolver()
.resolveType(typeDescr.getType().getFullName());
ClassFieldInspector cfi = new ClassFieldInspector(existingClass);
int fieldCount = 0;
for (String existingFieldName : cfi.getFieldTypesField().keySet()) {
if (!cfi.isNonGetter(existingFieldName)
&& !"class".equals(existingFieldName)
&& cfi.getSetterMethods().containsKey(existingFieldName)
&& cfi.getGetterMethods().containsKey(existingFieldName)) {
if (!typeDescr.getFields().containsKey(existingFieldName)) {
type.setValid(false);
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"New declaration of "
+ typeDescr.getType().getFullName()
+ " does not include field "
+ existingFieldName));
} else {
String fldType = cfi.getFieldTypes().get(existingFieldName).getName();
fldType =
TypeDeclarationUtils.toBuildableType(fldType, kbuilder.getRootClassLoader());
TypeFieldDescr declaredField = typeDescr.getFields().get(existingFieldName);
if (!fldType.equals(
type.getTypeClassDef().getField(existingFieldName).getTypeName())) {
type.setValid(false);
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"New declaration of "
+ typeDescr.getType().getFullName()
+ " redeclared field "
+ existingFieldName
+ " : \n"
+ "existing : "
+ fldType
+ " vs declared : "
+ declaredField.getPattern().getObjectType()));
} else {
fieldCount++;
}
}
}
}
if (fieldCount != typeDescr.getFields().size()) {
kbuilder.addBuilderResult(reportDeclarationDiff(cfi, typeDescr));
}
} catch (IOException e) {
e.printStackTrace();
type.setValid(false);
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"Unable to redeclare "
+ typeDescr.getType().getFullName()
+ " : "
+ e.getMessage()));
} catch (ClassNotFoundException e) {
type.setValid(false);
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
"Unable to redeclare "
+ typeDescr.getType().getFullName()
+ " : "
+ e.getMessage()));
}
}
} else {
int typeComparisonResult = this.compareTypeDeclarations(previousTypeDeclaration, type);
if (typeComparisonResult < 0) {
// oldDeclaration is "less" than newDeclaration -> error
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
typeDescr.getType().getFullName()
+ " declares more fields than the already existing version"));
type.setValid(false);
} else if (typeComparisonResult > 0 && !type.getTypeClassDef().getFields().isEmpty()) {
// oldDeclaration is "grater" than newDeclaration -> error
kbuilder.addBuilderResult(
new TypeDeclarationError(
typeDescr,
typeDescr.getType().getFullName()
+ " declares less fields than the already existing version"));
type.setValid(false);
}
// if they are "equal" -> no problem
// in the case of a declaration, we need to copy all the
// fields present in the previous declaration
if (type.getNature() == TypeDeclaration.Nature.DECLARATION) {
mergeTypeDeclarations(previousTypeDeclaration, type);
}
}
} catch (IncompatibleClassChangeError error) {
// if the types are incompatible -> error
kbuilder.addBuilderResult(new TypeDeclarationError(typeDescr, error.getMessage()));
}
}
