private void writeSetter(ClassVisitor visitor, Type generatedType, ModelProperty<?> property) {
    WeaklyTypeReferencingMethod<?, Void> weakSetter = property.getSetter();
    // There is no setter for this property
    if (weakSetter == null) {
      return;
    }

    String propertyName = property.getName();
    Class<?> propertyClass = property.getType().getConcreteClass();
    Type propertyType = Type.getType(propertyClass);
    Label calledOutsideOfConstructor = new Label();

    Method setter = weakSetter.getMethod();

    // the regular typed setter
    String methodDescriptor = Type.getMethodDescriptor(Type.VOID_TYPE, propertyType);
    MethodVisitor methodVisitor =
        declareMethod(
            visitor, setter.getName(), methodDescriptor, AsmClassGeneratorUtils.signature(setter));

    putCanCallSettersFieldValueOnStack(methodVisitor, generatedType);
    jumpToLabelIfStackEvaluatesToTrue(methodVisitor, calledOutsideOfConstructor);
    throwExceptionBecauseCalledOnItself(methodVisitor);

    methodVisitor.visitLabel(calledOutsideOfConstructor);
    putStateFieldValueOnStack(methodVisitor, generatedType);
    putConstantOnStack(methodVisitor, propertyName);
    putFirstMethodArgumentOnStack(methodVisitor, propertyType);
    if (propertyClass.isPrimitive()) {
      boxType(methodVisitor, propertyClass);
    }
    invokeStateSetMethod(methodVisitor);

    finishVisitingMethod(methodVisitor);
  }
  private <T> CachedRuleSource doExtract(final Class<T> source) {
    final ModelType<T> type = ModelType.of(source);
    DefaultMethodModelRuleExtractionContext context =
        new DefaultMethodModelRuleExtractionContext(type, this);

    // TODO - exceptions thrown here should point to some extensive documentation on the concept of
    // class rule sources

    StructSchema<T> schema = getSchema(source, context);
    if (schema == null) {
      throw new InvalidModelRuleDeclarationException(context.problems.format());
    }

    // sort for determinism
    Set<Method> methods = new TreeSet<Method>(Ordering.usingToString());
    methods.addAll(Arrays.asList(source.getDeclaredMethods()));

    ImmutableList.Builder<ModelProperty<?>> implicitInputs = ImmutableList.builder();
    ModelProperty<?> target = null;
    for (ModelProperty<?> property : schema.getProperties()) {
      if (property.isAnnotationPresent(RuleTarget.class)) {
        target = property;
      } else if (property.isAnnotationPresent(RuleInput.class)
          && !(property.getSchema() instanceof ScalarValueSchema)) {
        implicitInputs.add(property);
      }
      for (WeaklyTypeReferencingMethod<?, ?> method : property.getAccessors()) {
        methods.remove(method.getMethod());
      }
    }

    ImmutableList.Builder<ExtractedRuleDetails> rules = ImmutableList.builder();
    for (Method method : methods) {
      MethodRuleDefinition<?, ?> ruleDefinition =
          DefaultMethodRuleDefinition.create(source, method);
      ExtractedModelRule rule = getMethodHandler(ruleDefinition, method, context);
      if (rule != null) {
        rules.add(new ExtractedRuleDetails(ruleDefinition, rule));
      }
    }

    if (context.hasProblems()) {
      throw new InvalidModelRuleDeclarationException(context.problems.format());
    }

    StructBindings<T> bindings = structBindingsStore.getBindings(schema);

    if (schema.getProperties().isEmpty()) {
      return new StatelessRuleSource(
          rules.build(),
          Modifier.isAbstract(source.getModifiers())
              ? new AbstractRuleSourceFactory<T>(schema, bindings, proxyFactory)
              : new ConcreteRuleSourceFactory<T>(type));
    } else {
      return new ParameterizedRuleSource(
          rules.build(), target, implicitInputs.build(), schema, bindings, proxyFactory);
    }
  }
  private void writePropertyMethods(
      ClassVisitor visitor,
      Type generatedType,
      StructSchema<?> viewSchema,
      StructSchema<?> delegateSchema) {
    Collection<String> delegatePropertyNames;
    if (delegateSchema != null) {
      delegatePropertyNames = delegateSchema.getPropertyNames();
    } else {
      delegatePropertyNames = Collections.emptySet();
    }
    Class<?> viewClass = viewSchema.getType().getConcreteClass();
    for (ModelProperty<?> property : viewSchema.getProperties()) {
      String propertyName = property.getName();

      writeConfigureMethod(visitor, generatedType, property);
      writeSetMethod(visitor, generatedType, property);
      createTypeConvertingSetter(visitor, generatedType, property);

      // Delegated properties are handled in writeDelegateMethods()
      if (delegatePropertyNames.contains(propertyName)) {
        continue;
      }
      switch (property.getStateManagementType()) {
        case MANAGED:
          writeGetters(visitor, generatedType, property);
          writeSetter(visitor, generatedType, property);
          break;

        case UNMANAGED:
          for (WeaklyTypeReferencingMethod<?, ?> getter : property.getGetters()) {
            Method getterMethod = getter.getMethod();
            if (!Modifier.isFinal(getterMethod.getModifiers())
                && !propertyName.equals("metaClass")) {
              writeNonAbstractMethodWrapper(visitor, generatedType, viewClass, getterMethod);
            }
          }
          break;
      }
    }
  }
  private void writeGetters(ClassVisitor visitor, Type generatedType, ModelProperty<?> property) {
    Class<?> propertyClass = property.getType().getConcreteClass();
    Type propertyType = Type.getType(propertyClass);
    Set<String> processedNames = Sets.newHashSet();
    for (WeaklyTypeReferencingMethod<?, ?> weakGetter : property.getGetters()) {
      Method getter = weakGetter.getMethod();
      if (!processedNames.add(getter.getName())) {
        continue;
      }
      MethodVisitor methodVisitor =
          declareMethod(
              visitor,
              getter.getName(),
              Type.getMethodDescriptor(propertyType),
              AsmClassGeneratorUtils.signature(getter));

      putStateFieldValueOnStack(methodVisitor, generatedType);
      putConstantOnStack(methodVisitor, property.getName());
      invokeStateGetMethod(methodVisitor);
      castFirstStackElement(methodVisitor, propertyClass);
      finishVisitingMethod(methodVisitor, returnCode(propertyType));
    }
  }