private static ClassHierarchyProto.Node serializeNode(Node n) { List<ClassHierarchyProto.Node> children = new ArrayList<>(); for (Node child : n.getChildren()) { children.add(serializeNode(child)); } if (n instanceof ClassNode) { ClassNode<?> cn = (ClassNode<?>) n; ConstructorDef<?>[] injectable = cn.getInjectableConstructors(); ConstructorDef<?>[] all = cn.getAllConstructors(); List<ConstructorDef<?>> others = new ArrayList<>(Arrays.asList(all)); others.removeAll(Arrays.asList(injectable)); List<ClassHierarchyProto.ConstructorDef> injectableConstructors = new ArrayList<>(); for (ConstructorDef<?> inj : injectable) { injectableConstructors.add(serializeConstructorDef(inj)); } List<ClassHierarchyProto.ConstructorDef> otherConstructors = new ArrayList<>(); for (ConstructorDef<?> other : others) { otherConstructors.add(serializeConstructorDef(other)); } List<String> implFullNames = new ArrayList<>(); for (ClassNode<?> impl : cn.getKnownImplementations()) { implFullNames.add(impl.getFullName()); } return newClassNode( cn.getName(), cn.getFullName(), cn.isInjectionCandidate(), cn.isExternalConstructor(), cn.isUnit(), injectableConstructors, otherConstructors, implFullNames, children); } else if (n instanceof NamedParameterNode) { NamedParameterNode<?> np = (NamedParameterNode<?>) n; return newNamedParameterNode( np.getName(), np.getFullName(), np.getSimpleArgName(), np.getFullArgName(), np.isSet(), np.isList(), np.getDocumentation(), np.getShortName(), np.getDefaultInstanceAsStrings(), children); } else if (n instanceof PackageNode) { return newPackageNode(n.getName(), n.getFullName(), children); } else { throw new IllegalStateException("Encountered unknown type of Node: " + n); } }
@Override public ClassHierarchy merge(ClassHierarchy ch) { if (this == ch) { return this; } if (!(ch instanceof ProtocolBufferClassHierarchy)) { throw new UnsupportedOperationException( "Cannot merge with class hierarchies of type: " + ch.getClass().getName()); } final ProtocolBufferClassHierarchy pch = (ProtocolBufferClassHierarchy) ch; for (final String key : pch.lookupTable.keySet()) { if (!this.lookupTable.containsKey(key)) { this.lookupTable.put(key, pch.lookupTable.get(key)); } for (final Node n : ch.getNamespace().getChildren()) { if (!this.namespace.contains(n.getFullName())) { if (n instanceof NamedParameter) { final NamedParameterNode np = (NamedParameterNode) n; new NamedParameterNodeImpl<>( this.namespace, np.getName(), np.getFullName(), np.getFullArgName(), np.getSimpleArgName(), np.isSet(), np.isList(), np.getDocumentation(), np.getShortName(), np.getDefaultInstanceAsStrings()); } else if (n instanceof ClassNode) { final ClassNode cn = (ClassNode) n; new ClassNodeImpl( namespace, cn.getName(), cn.getFullName(), cn.isUnit(), cn.isInjectionCandidate(), cn.isExternalConstructor(), cn.getInjectableConstructors(), cn.getAllConstructors(), cn.getDefaultImplementation()); } } } } return this; }
private Node register(final String s) { final Class<?> c; try { c = classForName(s); } catch (final ClassNotFoundException e1) { return null; } try { final Node n = getAlreadyBoundNode(c); return n; } catch (final NameResolutionException e) { // node not bound yet } // First, walk up the class hierarchy, registering all out parents. This // can't be loopy. if (c.getSuperclass() != null) { register(ReflectionUtilities.getFullName(c.getSuperclass())); } for (final Class<?> i : c.getInterfaces()) { register(ReflectionUtilities.getFullName(i)); } // Now, we'd like to register our enclosing classes. This turns out to be // safe. // Thankfully, Java doesn't allow: // class A implements A.B { class B { } } // It also doesn't allow cycles such as: // class A implements B.BB { interface AA { } } // class B implements A.AA { interface BB { } } // So, even though grafting arbitrary DAGs together can give us cycles, Java // seems // to have our back on this one. final Class<?> enclosing = c.getEnclosingClass(); if (enclosing != null) { register(ReflectionUtilities.getFullName(enclosing)); } // Now register the class. This has to be after the above so we know our // parents (superclasses and enclosing packages) are already registered. final Node n = registerClass(c); // Finally, do things that might introduce cycles that invlove c. // This has to be below registerClass, which ensures that any cycles // this stuff introduces are broken. for (final Class<?> innerClass : c.getDeclaredClasses()) { register(ReflectionUtilities.getFullName(innerClass)); } if (n instanceof ClassNode) { final ClassNode<?> cls = (ClassNode<?>) n; for (final ConstructorDef<?> def : cls.getInjectableConstructors()) { for (final ConstructorArg arg : def.getArgs()) { register(arg.getType()); if (arg.getNamedParameterName() != null) { final NamedParameterNode<?> np = (NamedParameterNode<?>) register(arg.getNamedParameterName()); try { // TODO: When handling sets, need to track target of generic parameter, and check the // type here! if (!np.isSet() && !np.isList() && !ReflectionUtilities.isCoercable( classForName(arg.getType()), classForName(np.getFullArgName()))) { throw new ClassHierarchyException( "Named parameter type mismatch in " + cls.getFullName() + ". Constructor expects a " + arg.getType() + " but " + np.getName() + " is a " + np.getFullArgName()); } } catch (final ClassNotFoundException e) { throw new ClassHierarchyException( "Constructor refers to unknown class " + arg.getType(), e); } } } } } else if (n instanceof NamedParameterNode) { final NamedParameterNode<?> np = (NamedParameterNode<?>) n; register(np.getFullArgName()); } return n; }