private void writeDelegateMethods(
      final ClassVisitor visitor,
      final Type generatedType,
      StructSchema<?> delegateSchema,
      Set<Class<?>> typesToDelegate) {
    Class<?> delegateClass = delegateSchema.getType().getConcreteClass();
    Type delegateType = Type.getType(delegateClass);
    Map<Equivalence.Wrapper<Method>, Map<Class<?>, Method>> methodsToDelegate = Maps.newHashMap();
    for (Class<?> typeToDelegate : typesToDelegate) {
      for (Method methodToDelegate : typeToDelegate.getMethods()) {
        if (ModelSchemaUtils.isIgnoredMethod(methodToDelegate)) {
          continue;
        }
        Equivalence.Wrapper<Method> methodKey = METHOD_EQUIVALENCE.wrap(methodToDelegate);
        Map<Class<?>, Method> methodsByReturnType = methodsToDelegate.get(methodKey);
        if (methodsByReturnType == null) {
          methodsByReturnType = Maps.newHashMap();
          methodsToDelegate.put(methodKey, methodsByReturnType);
        }
        methodsByReturnType.put(methodToDelegate.getReturnType(), methodToDelegate);
      }
    }
    Set<Equivalence.Wrapper<Method>> delegateMethodKeys =
        ImmutableSet.copyOf(
            Iterables.transform(
                Arrays.asList(delegateClass.getMethods()),
                new Function<Method, Equivalence.Wrapper<Method>>() {
                  @Override
                  public Equivalence.Wrapper<Method> apply(Method method) {
                    return METHOD_EQUIVALENCE.wrap(method);
                  }
                }));
    for (Map.Entry<Equivalence.Wrapper<Method>, Map<Class<?>, Method>> entry :
        methodsToDelegate.entrySet()) {
      Equivalence.Wrapper<Method> methodKey = entry.getKey();
      if (!delegateMethodKeys.contains(methodKey)) {
        continue;
      }

      Map<Class<?>, Method> methodsByReturnType = entry.getValue();
      for (Method methodToDelegate : methodsByReturnType.values()) {
        writeDelegatedMethod(visitor, generatedType, delegateType, methodToDelegate);
      }
    }
  }
  /**
   * Generates an implementation of the given managed type.
   *
   * <p>The generated class will implement/extend the managed type and will:
   *
   * <ul>
   *   <li>provide implementations for abstract getters and setters that delegate to model nodes
   *   <li>provide a `toString()` implementation
   *   <li>mix-in implementation of {@link ManagedInstance}
   *   <li>provide a constructor that accepts a {@link ModelElementState}, which will be used to
   *       implement the above.
   * </ul>
   *
   * In case a delegate schema is supplied, the generated class will also have:
   *
   * <ul>
   *   <li>a constructor that also takes a delegate instance
   *   <li>methods that call through to the delegate instance
   * </ul>
   */
  public <T, M extends T, D extends T> Class<? extends M> generate(
      StructSchema<M> viewSchema, @Nullable StructSchema<D> delegateSchema) {
    if (delegateSchema != null
        && Modifier.isAbstract(delegateSchema.getType().getConcreteClass().getModifiers())) {
      throw new IllegalArgumentException("Delegate type must be null or a non-abstract type");
    }
    ClassWriter visitor = new ClassWriter(ClassWriter.COMPUTE_MAXS | ClassWriter.COMPUTE_FRAMES);

    ModelType<M> viewType = viewSchema.getType();

    StringBuilder generatedTypeNameBuilder = new StringBuilder(viewType.getName());
    if (delegateSchema != null) {
      generatedTypeNameBuilder
          .append("$BackedBy_")
          .append(delegateSchema.getType().getName().replaceAll("\\.", "_"));
    } else {
      generatedTypeNameBuilder.append("$Impl");
    }

    String generatedTypeName = generatedTypeNameBuilder.toString();
    Type generatedType = Type.getType("L" + generatedTypeName.replaceAll("\\.", "/") + ";");

    Class<M> viewClass = viewType.getConcreteClass();
    Class<?> superclass;
    final ImmutableSet.Builder<String> interfacesToImplement = ImmutableSet.builder();
    final ImmutableSet.Builder<Class<?>> typesToDelegate = ImmutableSet.builder();
    typesToDelegate.add(viewClass);
    interfacesToImplement.add(MANAGED_INSTANCE_TYPE);
    if (viewClass.isInterface()) {
      superclass = Object.class;
      interfacesToImplement.add(Type.getInternalName(viewClass));
    } else {
      superclass = viewClass;
    }
    // TODO:LPTR This should be removed once BinaryContainer is a ModelMap
    // We need to also implement all the interfaces of the delegate type because otherwise
    // BinaryContainer won't recognize managed binaries as BinarySpecInternal
    if (delegateSchema != null) {
      ModelSchemaUtils.walkTypeHierarchy(
          delegateSchema.getType().getConcreteClass(),
          new ModelSchemaUtils.TypeVisitor<D>() {
            @Override
            public void visitType(Class<? super D> type) {
              if (type.isInterface()) {
                typesToDelegate.add(type);
                interfacesToImplement.add(Type.getInternalName(type));
              }
            }
          });
    }

    generateProxyClass(
        visitor,
        viewSchema,
        delegateSchema,
        interfacesToImplement.build(),
        typesToDelegate.build(),
        generatedType,
        Type.getType(superclass));

    ClassLoader targetClassLoader = viewClass.getClassLoader();
    if (delegateSchema != null) {
      // TODO - remove this once the above is removed
      try {
        viewClass.getClassLoader().loadClass(delegateSchema.getType().getConcreteClass().getName());
      } catch (ClassNotFoundException e) {
        // Delegate class is not visible to managed view type -> view type is more general than
        // delegate type, so use the delegate classloader instead
        targetClassLoader = delegateSchema.getType().getConcreteClass().getClassLoader();
      }
    }

    return defineClass(visitor, targetClassLoader, generatedTypeName);
  }