use of com.github.antlrjavaparser.api.expr.AnnotationExpr in project spring-roo by spring-projects.
the class JavaParserAnnotationMetadataBuilder method convert.
@SuppressWarnings("unchecked")
private static MemberValuePair convert(final AnnotationAttributeValue<?> value, CompilationUnitServices compilationUnitServices) {
if (value instanceof NestedAnnotationAttributeValue) {
final NestedAnnotationAttributeValue castValue = (NestedAnnotationAttributeValue) value;
AnnotationExpr annotationExpr;
final AnnotationMetadata nestedAnnotation = castValue.getValue();
if (castValue.getValue().getAttributeNames().size() == 0) {
annotationExpr = new MarkerAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()));
} else if (castValue.getValue().getAttributeNames().size() == 1 && (castValue.getValue().getAttributeNames().get(0) == null || "value".equals(castValue.getValue().getAttributeNames().get(0).getSymbolName()))) {
annotationExpr = new SingleMemberAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()), convert(nestedAnnotation.getAttribute(nestedAnnotation.getAttributeNames().get(0)), compilationUnitServices).getValue());
} else {
final List<MemberValuePair> memberValuePairs = new ArrayList<MemberValuePair>();
for (final JavaSymbolName attributeName : nestedAnnotation.getAttributeNames()) {
memberValuePairs.add(convert(nestedAnnotation.getAttribute(attributeName), compilationUnitServices));
}
annotationExpr = new NormalAnnotationExpr(JavaParserUtils.getNameExpr(nestedAnnotation.getAnnotationType().getSimpleTypeName()), memberValuePairs);
}
// Add imports for nested annotation types
JavaParserUtils.importTypeIfRequired(compilationUnitServices.getEnclosingTypeName(), compilationUnitServices.getImports(), nestedAnnotation.getAnnotationType());
// Rely on the nested instance to know its member value pairs
return new MemberValuePair(value.getName().getSymbolName(), annotationExpr);
}
if (value instanceof BooleanAttributeValue) {
final boolean castValue = ((BooleanAttributeValue) value).getValue();
final BooleanLiteralExpr convertedValue = new BooleanLiteralExpr(castValue);
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof CharAttributeValue) {
final char castValue = ((CharAttributeValue) value).getValue();
final CharLiteralExpr convertedValue = new CharLiteralExpr(new String(new char[] { castValue }));
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof LongAttributeValue) {
final Long castValue = ((LongAttributeValue) value).getValue();
final LongLiteralExpr convertedValue = new LongLiteralExpr(castValue.toString() + "L");
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof IntegerAttributeValue) {
final Integer castValue = ((IntegerAttributeValue) value).getValue();
final IntegerLiteralExpr convertedValue = new IntegerLiteralExpr(castValue.toString());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof DoubleAttributeValue) {
final DoubleAttributeValue doubleAttributeValue = (DoubleAttributeValue) value;
final Double castValue = doubleAttributeValue.getValue();
DoubleLiteralExpr convertedValue;
if (doubleAttributeValue.isFloatingPrecisionOnly()) {
convertedValue = new DoubleLiteralExpr(castValue.toString() + "F");
} else {
convertedValue = new DoubleLiteralExpr(castValue.toString() + "D");
}
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof StringAttributeValue) {
final String castValue = ((StringAttributeValue) value).getValue();
final StringLiteralExpr convertedValue = new StringLiteralExpr(castValue.toString());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof EnumAttributeValue) {
final EnumDetails castValue = ((EnumAttributeValue) value).getValue();
// This isn't as elegant as it could be (ie loss of type
// parameters), but it will do for now
final FieldAccessExpr convertedValue = new FieldAccessExpr(JavaParserUtils.getNameExpr(castValue.getType().getFullyQualifiedTypeName()), castValue.getField().getSymbolName());
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof ClassAttributeValue) {
final JavaType castValue = ((ClassAttributeValue) value).getValue();
// This doesn't preserve type parameters
final NameExpr nameExpr = JavaParserUtils.importTypeIfRequired(compilationUnitServices.getEnclosingTypeName(), compilationUnitServices.getImports(), castValue);
final ClassExpr convertedValue = new ClassExpr(JavaParserUtils.getReferenceType(nameExpr));
return new MemberValuePair(value.getName().getSymbolName(), convertedValue);
}
if (value instanceof ArrayAttributeValue) {
final ArrayAttributeValue<AnnotationAttributeValue<?>> castValue = (ArrayAttributeValue<AnnotationAttributeValue<?>>) value;
final List<Expression> arrayElements = new ArrayList<Expression>();
for (final AnnotationAttributeValue<?> v : castValue.getValue()) {
final MemberValuePair converted = convert(v, compilationUnitServices);
if (converted != null) {
arrayElements.add(converted.getValue());
}
}
return new MemberValuePair(value.getName().getSymbolName(), new ArrayInitializerExpr(arrayElements));
}
throw new UnsupportedOperationException("Unsupported attribute value '" + value.getName() + "' of type '" + value.getClass().getName() + "'");
}
use of com.github.antlrjavaparser.api.expr.AnnotationExpr in project spring-roo by spring-projects.
the class JavaParserClassOrInterfaceTypeDetailsBuilder method build.
@Override
public ClassOrInterfaceTypeDetails build() {
Validate.notEmpty(compilationUnit.getTypes(), "No types in compilation unit, so unable to continue parsing");
ClassOrInterfaceDeclaration clazz = null;
EnumDeclaration enumClazz = null;
final StringBuilder sb = new StringBuilder(compilationUnit.getPackage().getName().toString());
if (name.getEnclosingType() != null) {
sb.append(".").append(name.getEnclosingType().getSimpleTypeName());
}
compilationUnitPackage = new JavaPackage(sb.toString());
// Determine the type name, adding type parameters if possible
final JavaType newName = JavaParserUtils.getJavaType(compilationUnitServices, typeDeclaration);
// Revert back to the original type name (thus avoiding unnecessary
// inferences about java.lang types; see ROO-244)
name = new JavaType(newName.getFullyQualifiedTypeName(), newName.getEnclosingType(), newName.getArray(), newName.getDataType(), newName.getArgName(), newName.getParameters(), name.getModule());
final ClassOrInterfaceTypeDetailsBuilder cidBuilder = new ClassOrInterfaceTypeDetailsBuilder(declaredByMetadataId);
physicalTypeCategory = PhysicalTypeCategory.CLASS;
if (typeDeclaration instanceof ClassOrInterfaceDeclaration) {
clazz = (ClassOrInterfaceDeclaration) typeDeclaration;
if (clazz.isInterface()) {
physicalTypeCategory = PhysicalTypeCategory.INTERFACE;
}
} else if (typeDeclaration instanceof EnumDeclaration) {
enumClazz = (EnumDeclaration) typeDeclaration;
physicalTypeCategory = PhysicalTypeCategory.ENUMERATION;
}
Validate.notNull(physicalTypeCategory, "%s (%s for %s)", UNSUPPORTED_MESSAGE_PREFIX, typeDeclaration.getClass().getSimpleName(), name);
cidBuilder.setName(name);
cidBuilder.setPhysicalTypeCategory(physicalTypeCategory);
imports = compilationUnit.getImports();
if (imports == null) {
imports = new ArrayList<ImportDeclaration>();
compilationUnit.setImports(imports);
}
// Verify the package declaration appears to be correct
if (compilationUnitPackage.equals(name.getPackage()) != true) {
String warningStr = "[Warning] Compilation unit package '" + compilationUnitPackage + "' unexpected for type '" + name.getPackage() + "', it may be a nested class.";
LOGGER.log(Level.WARNING, warningStr);
}
for (final ImportDeclaration importDeclaration : imports) {
if (importDeclaration.getName() instanceof QualifiedNameExpr) {
final String qualifier = ((QualifiedNameExpr) importDeclaration.getName()).getQualifier().toString();
final String simpleName = importDeclaration.getName().getName();
final String fullName = qualifier + "." + simpleName;
// We want to calculate these...
final JavaType type = new JavaType(fullName);
final JavaPackage typePackage = importDeclaration.isAsterisk() ? new JavaPackage(fullName) : type.getPackage();
// Process any comments for the import
final CommentStructure commentStructure = new CommentStructure();
JavaParserCommentMetadataBuilder.updateCommentsToRoo(commentStructure, importDeclaration);
final ImportMetadataBuilder newImport = new ImportMetadataBuilder(declaredByMetadataId, 0, typePackage, type, importDeclaration.isStatic(), importDeclaration.isAsterisk());
newImport.setCommentStructure(commentStructure);
cidBuilder.add(newImport.build());
}
}
// Convert Java Parser modifier into JDK modifier
cidBuilder.setModifier(JavaParserUtils.getJdkModifier(typeDeclaration.getModifiers()));
// Type parameters
final Set<JavaSymbolName> typeParameterNames = new HashSet<JavaSymbolName>();
for (final JavaType param : name.getParameters()) {
final JavaSymbolName arg = param.getArgName();
// Fortunately type names can only appear at the top-level
if (arg != null && !JavaType.WILDCARD_NEITHER_ARG.equals(arg) && !JavaType.WILDCARD_EXTENDS_ARG.equals(arg) && !JavaType.WILDCARD_SUPER_ARG.equals(arg)) {
typeParameterNames.add(arg);
}
}
List<ClassOrInterfaceType> implementsList;
List<AnnotationExpr> annotationsList = null;
List<BodyDeclaration> members = null;
if (clazz != null) {
final List<ClassOrInterfaceType> extendsList = clazz.getExtends();
if (extendsList != null) {
for (final ClassOrInterfaceType candidate : extendsList) {
final JavaType javaType = JavaParserUtils.getJavaTypeNow(compilationUnitServices, candidate, typeParameterNames);
cidBuilder.addExtendsTypes(javaType);
}
}
final List<JavaType> extendsTypes = cidBuilder.getExtendsTypes();
// Obtain the superclass, if this is a class and one is available
if (physicalTypeCategory == PhysicalTypeCategory.CLASS && extendsTypes.size() == 1) {
final JavaType superclass = extendsTypes.get(0);
final String superclassId = typeLocationService.getPhysicalTypeIdentifier(superclass);
PhysicalTypeMetadata superPtm = null;
if (superclassId != null) {
superPtm = (PhysicalTypeMetadata) metadataService.get(superclassId);
}
if (superPtm != null && superPtm.getMemberHoldingTypeDetails() != null) {
cidBuilder.setSuperclass(superPtm.getMemberHoldingTypeDetails());
}
}
implementsList = clazz.getImplements();
if (implementsList != null) {
for (final ClassOrInterfaceType candidate : implementsList) {
final JavaType javaType = JavaParserUtils.getJavaTypeNow(compilationUnitServices, candidate, typeParameterNames);
cidBuilder.addImplementsType(javaType);
}
}
annotationsList = typeDeclaration.getAnnotations();
members = clazz.getMembers();
}
if (enumClazz != null) {
final List<EnumConstantDeclaration> constants = enumClazz.getEntries();
if (constants != null) {
for (final EnumConstantDeclaration enumConstants : constants) {
cidBuilder.addEnumConstant(new JavaSymbolName(enumConstants.getName()));
}
}
implementsList = enumClazz.getImplements();
annotationsList = enumClazz.getAnnotations();
members = enumClazz.getMembers();
}
if (annotationsList != null) {
for (final AnnotationExpr candidate : annotationsList) {
final AnnotationMetadata md = JavaParserAnnotationMetadataBuilder.getInstance(candidate, compilationUnitServices).build();
final CommentStructure commentStructure = new CommentStructure();
JavaParserCommentMetadataBuilder.updateCommentsToRoo(commentStructure, candidate);
md.setCommentStructure(commentStructure);
cidBuilder.addAnnotation(md);
}
}
if (members != null) {
// type in the signature of the enclosing type
for (final BodyDeclaration bodyDeclaration : members) {
if (bodyDeclaration instanceof TypeDeclaration) {
// Found a type
innerTypes.add((TypeDeclaration) bodyDeclaration);
}
}
for (final BodyDeclaration member : members) {
if (member instanceof FieldDeclaration) {
final FieldDeclaration castMember = (FieldDeclaration) member;
for (final VariableDeclarator var : castMember.getVariables()) {
final FieldMetadata field = JavaParserFieldMetadataBuilder.getInstance(declaredByMetadataId, castMember, var, compilationUnitServices, typeParameterNames).build();
final CommentStructure commentStructure = new CommentStructure();
JavaParserCommentMetadataBuilder.updateCommentsToRoo(commentStructure, member);
field.setCommentStructure(commentStructure);
cidBuilder.addField(field);
}
}
if (member instanceof MethodDeclaration) {
final MethodDeclaration castMember = (MethodDeclaration) member;
final MethodMetadata method = JavaParserMethodMetadataBuilder.getInstance(declaredByMetadataId, castMember, compilationUnitServices, typeParameterNames).build();
final CommentStructure commentStructure = new CommentStructure();
JavaParserCommentMetadataBuilder.updateCommentsToRoo(commentStructure, member);
method.setCommentStructure(commentStructure);
cidBuilder.addMethod(method);
}
if (member instanceof ConstructorDeclaration) {
final ConstructorDeclaration castMember = (ConstructorDeclaration) member;
final ConstructorMetadata constructor = JavaParserConstructorMetadataBuilder.getInstance(declaredByMetadataId, castMember, compilationUnitServices, typeParameterNames).build();
final CommentStructure commentStructure = new CommentStructure();
JavaParserCommentMetadataBuilder.updateCommentsToRoo(commentStructure, member);
constructor.setCommentStructure(commentStructure);
cidBuilder.addConstructor(constructor);
}
if (member instanceof TypeDeclaration) {
final TypeDeclaration castMember = (TypeDeclaration) member;
final JavaType innerType = new JavaType(castMember.getName(), name);
final String innerTypeMetadataId = PhysicalTypeIdentifier.createIdentifier(innerType, PhysicalTypeIdentifier.getPath(declaredByMetadataId));
final ClassOrInterfaceTypeDetails cid = new JavaParserClassOrInterfaceTypeDetailsBuilder(compilationUnit, compilationUnitServices, castMember, innerTypeMetadataId, innerType, metadataService, typeLocationService).build();
cidBuilder.addInnerType(cid);
}
}
}
return cidBuilder.build();
}
use of com.github.antlrjavaparser.api.expr.AnnotationExpr in project spring-roo by spring-projects.
the class JavaParserConstructorMetadataBuilder method addConstructor.
// TODO: Should parse the throws types from JavaParser source
public static void addConstructor(final CompilationUnitServices compilationUnitServices, final List<BodyDeclaration> members, final ConstructorMetadata constructor, final Set<JavaSymbolName> typeParameters) {
Validate.notNull(compilationUnitServices, "Compilation unit services required");
Validate.notNull(members, "Members required");
Validate.notNull(constructor, "Method required");
// Start with the basic constructor
final ConstructorDeclaration d = new ConstructorDeclaration();
d.setModifiers(JavaParserUtils.getJavaParserModifier(constructor.getModifier()));
d.setName(PhysicalTypeIdentifier.getJavaType(constructor.getDeclaredByMetadataId()).getSimpleTypeName());
// Add any constructor-level annotations (not parameter annotations)
final List<AnnotationExpr> annotations = new ArrayList<AnnotationExpr>();
d.setAnnotations(annotations);
for (final AnnotationMetadata annotation : constructor.getAnnotations()) {
JavaParserAnnotationMetadataBuilder.addAnnotationToList(compilationUnitServices, annotations, annotation);
}
// Add any constructor parameters, including their individual
// annotations and type parameters
final List<Parameter> parameters = new ArrayList<Parameter>();
d.setParameters(parameters);
int index = -1;
for (final AnnotatedJavaType constructorParameter : constructor.getParameterTypes()) {
index++;
// Add the parameter annotations applicable for this parameter type
final List<AnnotationExpr> parameterAnnotations = new ArrayList<AnnotationExpr>();
for (final AnnotationMetadata parameterAnnotation : constructorParameter.getAnnotations()) {
JavaParserAnnotationMetadataBuilder.addAnnotationToList(compilationUnitServices, parameterAnnotations, parameterAnnotation);
}
// Compute the parameter name
final String parameterName = constructor.getParameterNames().get(index).getSymbolName();
// Compute the parameter type
Type parameterType = null;
if (constructorParameter.getJavaType().isPrimitive()) {
parameterType = JavaParserUtils.getType(constructorParameter.getJavaType());
} else {
final Type finalType = JavaParserUtils.getResolvedName(constructorParameter.getJavaType(), constructorParameter.getJavaType(), compilationUnitServices);
final ClassOrInterfaceType cit = JavaParserUtils.getClassOrInterfaceType(finalType);
// Add any type arguments presented for the return type
if (constructorParameter.getJavaType().getParameters().size() > 0) {
final List<Type> typeArgs = new ArrayList<Type>();
cit.setTypeArgs(typeArgs);
for (final JavaType parameter : constructorParameter.getJavaType().getParameters()) {
// NameExpr importedParameterType =
// JavaParserUtils.importTypeIfRequired(compilationUnitServices.getEnclosingTypeName(),
// compilationUnitServices.getImports(), parameter);
// typeArgs.add(JavaParserUtils.getReferenceType(importedParameterType));
typeArgs.add(JavaParserUtils.importParametersForType(compilationUnitServices.getEnclosingTypeName(), compilationUnitServices.getImports(), parameter));
}
}
parameterType = finalType;
}
// Create a Java Parser constructor parameter and add it to the list
// of parameters
final Parameter p = new Parameter(parameterType, new VariableDeclaratorId(parameterName));
p.setAnnotations(parameterAnnotations);
parameters.add(p);
}
// Set the body
if (constructor.getBody() == null || constructor.getBody().length() == 0) {
d.setBlock(new BlockStmt());
} else {
// There is a body.
// We need to make a fake constructor that we can have JavaParser
// parse.
// Easiest way to do that is to build a simple source class
// containing the required method and re-parse it.
final StringBuilder sb = new StringBuilder();
sb.append("class TemporaryClass {\n");
sb.append(" TemporaryClass() {\n");
sb.append(constructor.getBody());
sb.append("\n");
sb.append(" }\n");
sb.append("}\n");
final ByteArrayInputStream bais = new ByteArrayInputStream(sb.toString().getBytes());
CompilationUnit ci;
try {
ci = JavaParser.parse(bais);
} catch (final IOException e) {
throw new IllegalStateException("Illegal state: Unable to parse input stream", e);
} catch (final ParseException pe) {
throw new IllegalStateException("Illegal state: JavaParser did not parse correctly", pe);
}
final List<TypeDeclaration> types = ci.getTypes();
if (types == null || types.size() != 1) {
throw new IllegalArgumentException("Method body invalid");
}
final TypeDeclaration td = types.get(0);
final List<BodyDeclaration> bodyDeclarations = td.getMembers();
if (bodyDeclarations == null || bodyDeclarations.size() != 1) {
throw new IllegalStateException("Illegal state: JavaParser did not return body declarations correctly");
}
final BodyDeclaration bd = bodyDeclarations.get(0);
if (!(bd instanceof ConstructorDeclaration)) {
throw new IllegalStateException("Illegal state: JavaParser did not return a method declaration correctly");
}
final ConstructorDeclaration cd = (ConstructorDeclaration) bd;
d.setBlock(cd.getBlock());
}
// already exists
for (final BodyDeclaration bd : members) {
if (bd instanceof ConstructorDeclaration) {
// Next constructor should appear after this current constructor
final ConstructorDeclaration cd = (ConstructorDeclaration) bd;
if (cd.getParameters().size() == d.getParameters().size()) {
// Possible match, we need to consider parameter types as
// well now
final ConstructorMetadata constructorMetadata = new JavaParserConstructorMetadataBuilder(constructor.getDeclaredByMetadataId(), cd, compilationUnitServices, typeParameters).build();
boolean matchesFully = true;
for (final AnnotatedJavaType existingParameter : constructorMetadata.getParameterTypes()) {
if (!existingParameter.getJavaType().equals(constructor.getParameterTypes().get(index))) {
matchesFully = false;
break;
}
}
if (matchesFully) {
throw new IllegalStateException("Constructor '" + constructor.getParameterNames() + "' already exists with identical parameters");
}
}
}
}
// ROO-3834: Append Javadoc
CommentStructure commentStructure = constructor.getCommentStructure();
if (constructor.getCommentStructure() != null) {
// annotation
if (annotations != null && annotations.size() > 0) {
AnnotationExpr firstAnnotation = annotations.get(0);
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(firstAnnotation, commentStructure);
// Otherwise, add comments to the field declaration line
} else {
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(d, commentStructure);
}
} else {
// ROO-3834: Append default Javadoc if not exists a comment structure,
// including constructor params
CommentStructure defaultCommentStructure = new CommentStructure();
List<String> parameterNames = new ArrayList<String>();
for (JavaSymbolName name : constructor.getParameterNames()) {
parameterNames.add(name.getSymbolName());
}
JavadocComment javadocComment = new JavadocComment("TODO Auto-generated constructor documentation", parameterNames, null, null);
defaultCommentStructure.addComment(javadocComment, CommentLocation.BEGINNING);
constructor.setCommentStructure(defaultCommentStructure);
// annotation
if (annotations != null && annotations.size() > 0) {
AnnotationExpr firstAnnotation = annotations.get(0);
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(firstAnnotation, defaultCommentStructure);
// Otherwise, add comments to the constructor declaration line
} else {
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(d, defaultCommentStructure);
}
}
// Add the constructor to the end of the compilation unit
members.add(d);
}
use of com.github.antlrjavaparser.api.expr.AnnotationExpr in project spring-roo by spring-projects.
the class JavaParserTypeParsingService method updateOutput.
/**
* Appends the presented class to the end of the presented body
* declarations. The body declarations appear within the presented
* compilation unit. This is used to progressively build inner types.
*
* @param compilationUnit the work-in-progress compilation unit (required)
* @param enclosingCompilationUnitServices
* @param cid the new class to add (required)
* @param parent the class body declarations a subclass should be added to
* (may be null, which denotes a top-level type within the
* compilation unit)
*/
private void updateOutput(final CompilationUnit compilationUnit, CompilationUnitServices enclosingCompilationUnitServices, final ClassOrInterfaceTypeDetails cid, final List<BodyDeclaration> parent) {
// Append the new imports this class declares
Validate.notNull(compilationUnit.getImports(), "Compilation unit imports should be non-null when producing type '%s'", cid.getName());
for (final ImportMetadata importType : cid.getRegisteredImports()) {
ImportDeclaration importDeclaration;
if (!importType.isAsterisk()) {
NameExpr typeToImportExpr;
if (importType.getImportType().getEnclosingType() == null) {
typeToImportExpr = new QualifiedNameExpr(new NameExpr(importType.getImportType().getPackage().getFullyQualifiedPackageName()), importType.getImportType().getSimpleTypeName());
} else {
typeToImportExpr = new QualifiedNameExpr(new NameExpr(importType.getImportType().getEnclosingType().getFullyQualifiedTypeName()), importType.getImportType().getSimpleTypeName());
}
importDeclaration = new ImportDeclaration(typeToImportExpr, importType.isStatic(), false);
} else {
importDeclaration = new ImportDeclaration(new NameExpr(importType.getImportPackage().getFullyQualifiedPackageName()), importType.isStatic(), importType.isAsterisk());
}
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(importDeclaration, importType.getCommentStructure());
compilationUnit.getImports().add(importDeclaration);
}
// Create a class or interface declaration to represent this actual type
final int javaParserModifier = JavaParserUtils.getJavaParserModifier(cid.getModifier());
TypeDeclaration typeDeclaration;
ClassOrInterfaceDeclaration classOrInterfaceDeclaration;
// Implements handling
final List<ClassOrInterfaceType> implementsList = new ArrayList<ClassOrInterfaceType>();
for (final JavaType current : cid.getImplementsTypes()) {
implementsList.add(JavaParserUtils.getResolvedName(cid.getName(), current, compilationUnit));
}
if (cid.getPhysicalTypeCategory() == PhysicalTypeCategory.INTERFACE || cid.getPhysicalTypeCategory() == PhysicalTypeCategory.CLASS) {
final boolean isInterface = cid.getPhysicalTypeCategory() == PhysicalTypeCategory.INTERFACE;
if (parent == null) {
// Top level type
typeDeclaration = new ClassOrInterfaceDeclaration(javaParserModifier, isInterface, cid.getName().getNameIncludingTypeParameters().replace(cid.getName().getPackage().getFullyQualifiedPackageName() + ".", ""));
classOrInterfaceDeclaration = (ClassOrInterfaceDeclaration) typeDeclaration;
} else {
// Inner type
typeDeclaration = new ClassOrInterfaceDeclaration(javaParserModifier, isInterface, cid.getName().getSimpleTypeName());
classOrInterfaceDeclaration = (ClassOrInterfaceDeclaration) typeDeclaration;
if (cid.getName().getParameters().size() > 0) {
classOrInterfaceDeclaration.setTypeParameters(new ArrayList<TypeParameter>());
for (final JavaType param : cid.getName().getParameters()) {
NameExpr pNameExpr = JavaParserUtils.importTypeIfRequired(cid.getName(), compilationUnit.getImports(), param);
final String tempName = StringUtils.replace(pNameExpr.toString(), param.getArgName() + " extends ", "", 1);
pNameExpr = new NameExpr(tempName);
final ClassOrInterfaceType pResolvedName = JavaParserUtils.getClassOrInterfaceType(pNameExpr);
classOrInterfaceDeclaration.getTypeParameters().add(new TypeParameter(param.getArgName().getSymbolName(), Collections.singletonList(pResolvedName)));
}
}
}
// Superclass handling
final List<ClassOrInterfaceType> extendsList = new ArrayList<ClassOrInterfaceType>();
for (final JavaType current : cid.getExtendsTypes()) {
if (!OBJECT.equals(current)) {
extendsList.add(JavaParserUtils.getResolvedName(cid.getName(), current, compilationUnit));
}
}
if (extendsList.size() > 0) {
classOrInterfaceDeclaration.setExtends(extendsList);
}
// Implements handling
if (implementsList.size() > 0) {
classOrInterfaceDeclaration.setImplements(implementsList);
}
} else {
typeDeclaration = new EnumDeclaration(javaParserModifier, cid.getName().getSimpleTypeName());
}
typeDeclaration.setMembers(new ArrayList<BodyDeclaration>());
Validate.notNull(typeDeclaration.getName(), "Missing type declaration name for '%s'", cid.getName());
// If adding a new top-level type, must add it to the compilation unit
// types
Validate.notNull(compilationUnit.getTypes(), "Compilation unit types must not be null when attempting to add '%s'", cid.getName());
if (parent == null) {
// Top-level class
compilationUnit.getTypes().add(typeDeclaration);
} else {
// Inner class
parent.add(typeDeclaration);
}
// CompilationUnitServices needs to be created
if (enclosingCompilationUnitServices == null) {
// Create a compilation unit so that we can use JavaType*Metadata
// static methods directly
enclosingCompilationUnitServices = new CompilationUnitServices() {
@Override
public JavaPackage getCompilationUnitPackage() {
return cid.getName().getPackage();
}
@Override
public JavaType getEnclosingTypeName() {
return cid.getName();
}
@Override
public List<ImportDeclaration> getImports() {
return compilationUnit.getImports();
}
@Override
public List<TypeDeclaration> getInnerTypes() {
return compilationUnit.getTypes();
}
@Override
public PhysicalTypeCategory getPhysicalTypeCategory() {
return cid.getPhysicalTypeCategory();
}
};
}
final CompilationUnitServices finalCompilationUnitServices = enclosingCompilationUnitServices;
// A hybrid CompilationUnitServices must be provided that references the
// enclosing types imports and package
final CompilationUnitServices compilationUnitServices = new CompilationUnitServices() {
@Override
public JavaPackage getCompilationUnitPackage() {
return finalCompilationUnitServices.getCompilationUnitPackage();
}
@Override
public JavaType getEnclosingTypeName() {
return cid.getName();
}
@Override
public List<ImportDeclaration> getImports() {
return finalCompilationUnitServices.getImports();
}
@Override
public List<TypeDeclaration> getInnerTypes() {
return compilationUnit.getTypes();
}
@Override
public PhysicalTypeCategory getPhysicalTypeCategory() {
return cid.getPhysicalTypeCategory();
}
};
// Add type annotations
final List<AnnotationExpr> annotations = new ArrayList<AnnotationExpr>();
typeDeclaration.setAnnotations(annotations);
for (final AnnotationMetadata candidate : cid.getAnnotations()) {
JavaParserAnnotationMetadataBuilder.addAnnotationToList(compilationUnitServices, annotations, candidate);
}
// ROO-3834: Generating default Javadoc inside class if class doesn't contains JavaDoc
List<Comment> classComments = compilationUnit.getComments();
if (classComments == null || classComments.isEmpty()) {
CommentStructure defaultCommentStructure = new CommentStructure();
String defaultComment = "= ".concat(cid.getType().getSimpleTypeName()).concat("\n \nTODO Auto-generated class documentation");
defaultCommentStructure.addComment(new JavadocComment(defaultComment), CommentLocation.BEGINNING);
if (annotations.isEmpty()) {
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(typeDeclaration, defaultCommentStructure);
} else {
// If exists some annotation, include comment before the existing annotations
AnnotationExpr firstAnnotation = annotations.get(0);
JavaParserCommentMetadataBuilder.updateCommentsToJavaParser(firstAnnotation, defaultCommentStructure);
}
}
// Add enum constants and interfaces
if (typeDeclaration instanceof EnumDeclaration && cid.getEnumConstants().size() > 0) {
final EnumDeclaration enumDeclaration = (EnumDeclaration) typeDeclaration;
final List<EnumConstantDeclaration> constants = new ArrayList<EnumConstantDeclaration>();
enumDeclaration.setEntries(constants);
for (final JavaSymbolName constant : cid.getEnumConstants()) {
addEnumConstant(constants, constant);
}
// Implements handling
if (implementsList.size() > 0) {
enumDeclaration.setImplements(implementsList);
}
}
// Add fields
for (final FieldMetadata candidate : cid.getDeclaredFields()) {
JavaParserFieldMetadataBuilder.addField(compilationUnitServices, typeDeclaration.getMembers(), candidate);
}
// Add constructors
for (final ConstructorMetadata candidate : cid.getDeclaredConstructors()) {
JavaParserConstructorMetadataBuilder.addConstructor(compilationUnitServices, typeDeclaration.getMembers(), candidate, null);
}
// Add methods
for (final MethodMetadata candidate : cid.getDeclaredMethods()) {
JavaParserMethodMetadataBuilder.addMethod(compilationUnitServices, typeDeclaration.getMembers(), candidate, null);
}
// Add inner types
for (final ClassOrInterfaceTypeDetails candidate : cid.getDeclaredInnerTypes()) {
updateOutput(compilationUnit, compilationUnitServices, candidate, typeDeclaration.getMembers());
}
final HashSet<String> imported = new HashSet<String>();
final ArrayList<ImportDeclaration> imports = new ArrayList<ImportDeclaration>();
for (final ImportDeclaration importDeclaration : compilationUnit.getImports()) {
JavaPackage importPackage = null;
JavaType importType = null;
if (importDeclaration.isAsterisk()) {
importPackage = new JavaPackage(importDeclaration.getName().toString());
} else {
importType = new JavaType(importDeclaration.getName().toString());
importPackage = importType.getPackage();
}
if (importPackage.equals(cid.getName().getPackage()) && importDeclaration.isAsterisk()) {
continue;
}
if (importPackage.equals(cid.getName().getPackage()) && importType != null && importType.getEnclosingType() == null) {
continue;
}
if (importType != null && importType.equals(cid.getName())) {
continue;
}
if (!imported.contains(importDeclaration.getName().toString())) {
imports.add(importDeclaration);
imported.add(importDeclaration.getName().toString());
}
}
Collections.sort(imports, new Comparator<ImportDeclaration>() {
@Override
public int compare(final ImportDeclaration importDeclaration, final ImportDeclaration importDeclaration1) {
return importDeclaration.getName().toString().compareTo(importDeclaration1.getName().toString());
}
});
compilationUnit.setImports(imports);
}
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