private Statement createConstructorStatement(
ClassNode cNode,
PropertyNode pNode,
List<String> knownImmutableClasses,
List<String> knownImmutables) {
FieldNode fNode = pNode.getField();
final ClassNode fieldType = fNode.getType();
Statement statement = null;
if (fieldType.isArray() || isOrImplements(fieldType, CLONEABLE_TYPE)) {
statement = createConstructorStatementArrayOrCloneable(fNode);
} else if (isKnownImmutableClass(fieldType, knownImmutableClasses)
|| isKnownImmutable(pNode.getName(), knownImmutables)) {
statement = createConstructorStatementDefault(fNode);
} else if (fieldType.isDerivedFrom(DATE_TYPE)) {
statement = createConstructorStatementDate(fNode);
} else if (isOrImplements(fieldType, COLLECTION_TYPE)
|| fieldType.isDerivedFrom(COLLECTION_TYPE)
|| isOrImplements(fieldType, MAP_TYPE)
|| fieldType.isDerivedFrom(MAP_TYPE)) {
statement = createConstructorStatementCollection(fNode);
} else if (fieldType.isResolved()) {
addError(
createErrorMessage(cNode.getName(), fNode.getName(), fieldType.getName(), "compiling"),
fNode);
statement = EmptyStatement.INSTANCE;
} else {
statement = createConstructorStatementGuarded(cNode, fNode);
}
return statement;
}
private void configureAnnotationFromDefinition(AnnotationNode definition, AnnotationNode root) {
ClassNode type = definition.getClassNode();
if (!type.isResolved()) return;
Class clazz = type.getTypeClass();
if (clazz == Retention.class) {
Expression exp = definition.getMember("value");
if (!(exp instanceof PropertyExpression)) return;
PropertyExpression pe = (PropertyExpression) exp;
String name = pe.getPropertyAsString();
RetentionPolicy policy = RetentionPolicy.valueOf(name);
setRetentionPolicy(policy, root);
} else if (clazz == Target.class) {
Expression exp = definition.getMember("value");
if (!(exp instanceof ListExpression)) return;
ListExpression le = (ListExpression) exp;
int bitmap = 0;
for (Expression e : le.getExpressions()) {
PropertyExpression element = (PropertyExpression) e;
String name = element.getPropertyAsString();
ElementType value = ElementType.valueOf(name);
bitmap |= getElementCode(value);
}
root.setAllowedTargets(bitmap);
}
}
private boolean isKnownImmutableClass(ClassNode fieldType, List<String> knownImmutableClasses) {
if (!fieldType.isResolved()) return false;
return fieldType.isEnum()
|| ClassHelper.isPrimitiveType(fieldType)
|| fieldType.getAnnotations(MY_TYPE).size() != 0
|| inImmutableList(fieldType.getName())
|| knownImmutableClasses.contains(fieldType.getName());
}
private Expression findStaticField(ClassNode staticImportType, String fieldName) {
if (staticImportType.isPrimaryClassNode() || staticImportType.isResolved()) {
FieldNode field = staticImportType.getField(fieldName);
if (field != null && field.isStatic())
return new PropertyExpression(new ClassExpression(staticImportType), fieldName);
}
return null;
}
private Expression findStaticMethod(
ClassNode staticImportType, String methodName, Expression args) {
if (staticImportType.isPrimaryClassNode() || staticImportType.isResolved()) {
if (staticImportType.hasPossibleStaticMethod(methodName, args)) {
return new StaticMethodCallExpression(staticImportType, methodName, args);
}
}
return null;
}
/**
* Returns the concrete class this classnode relates to. However, this method is inherently unsafe
* as it may return null depending on the compile phase you are using. AST transformations should
* never use this method directly, but rather obtain a new class node using {@link
* #getPlainNodeReference()}.
*
* @return the class this classnode relates to. May return null.
*/
public Class getTypeClass() {
if (clazz != null) return clazz;
if (redirect != null) return redirect.getTypeClass();
ClassNode component = redirect().componentType;
if (component != null && component.isResolved()) {
return Array.newInstance(component.getTypeClass(), 0).getClass();
}
throw new GroovyBugError(
"ClassNode#getTypeClass for " + getName() + " is called before the type class is set ");
}
public static ClassNode getFurthestUnresolvedParent(ClassNode classNode) {
ClassNode parent = classNode.getSuperClass();
while (parent != null
&& !getFullName(parent).equals("java.lang.Object")
&& !parent.isResolved()
&& !Modifier.isAbstract(parent.getModifiers())) {
classNode = parent;
parent = parent.getSuperClass();
}
return classNode;
}
private static Annotation getTransformClassAnnotation(ClassNode annotatedType) {
if (!annotatedType.isResolved()) return null;
for (Annotation ann : annotatedType.getTypeClass().getAnnotations()) {
// because compiler clients are free to choose any GroovyClassLoader for
// resolving ClassNodeS such as annotatedType, we have to compare by name,
// and cannot cast the return value to GroovyASTTransformationClass
if (ann.annotationType().getName().equals(GroovyASTTransformationClass.class.getName())) {
return ann;
}
}
return null;
}
public boolean isResolved() {
if (clazz != null) return true;
if (redirect != null) return redirect.isResolved();
return componentType != null && componentType.isResolved();
}
