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I have an abstract class A that looks like

class A {
  virtual vector<char> marshall() = 0;
  virtual void unmarshall(vector<char> raw) = 0;

Classes that inherit from A override both methods: in particular, unmarshall mutates the child class' internal state.


class B : public A {
  int someImportantInt;

  vector<char> marshall() {
    vector<char> r;
    return r;

  void unmarshall(vector<char> raw) {
    someImportantInt = raw[0];

Now, I think mutation is evil, and additionally the fact that we have to instantiate B, and only then invoke unmarhsall looks like a code smell.

One option is to have a constructor that takes a vector<char>, but I don't know of a way of forcing the children classes to do so.


The constructor approach is motivated by the fact that the state of B doesn't change, once umarshall has been called. So we could remove unmarshall from A and replace it in B with a constructor that takes a vector<char>.


class B : public A {
  int someImportantInt;

  B(const vector<char>& raw) : someImportantInt(raw[0]) {}
  vector<char> marshall(); 

As I see it, the problem here is that there is no contract forcing child classes to declare a constructor that takes a vector<char>.

What are my options here?

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This isn't clear to me. If B.unmarshall is mutating the state of B, then surely that's for some good reason? – Oliver Charlesworth Jul 4 '13 at 17:33
Very few options. I recommend you first solve the problem of dynamically looking up the correct type for a given situation (or generating the code if you have some sort of IDL), and make that code use the constructor that takes the vector<char>. If that code then fails to compile, it's because the child class doesn't have the correct constructor. – Sebastian Redl Jul 4 '13 at 17:50
What's a vector<raw>? Could you explain in more detail what you mean by your constructor approach? If you really want to disallow mutation in child classes, you could just declare unmarshall as const, although I don't personally see anything wrong with the current design. Maybe you'd feel better about it if unmarshall were named load. – jamesdlin Jul 4 '13 at 18:27
unmarshall is not (should not be) a method of A, but of AbstractFactory<A>. – n.m. Jul 4 '13 at 18:41
If you are certain you have an marshalled B, you can use an AbstractFactory<B>. However if you always statically know types of your objects, it is not clear at all why inheritance and virtual functions are ever needed. – n.m. Jul 4 '13 at 19:06

You might use a template Marshaller class that does the marshalling and unmarshalling. Then use a data member of type Marshaller instead of just int in the class. Then in the constructor for Marshaller, you would initialize a vector member, so no class needs to know about it. Something like this:

template <class T>
class Marshaller {
  T real_data;
  vector<char> marshalled_data;
  Marshaller ();
  Marshaller (Marshaller&);
  Marshaller (T& t) :real_data(t) {
    // Do whatever with marshalled_data.
  void marshall () {
    // Fill me in.
  void unmarshall () {
    // Fill this in.
  vector<char> rawData () {
    return marshalled_data;
  bool isMarshalled () {
    return marshalled_data.size() > 0;
  T& data () {
    return real_data;

class B {
  Marshaller<int> someImportantInt;
  B () :someImportantInt(0) {}
  B (int i) :someImportantInt(i) {}
  int getImportantInt () {
  vector<char> getRawInt () {
    return someImportantInt.raw data();
  void unmarshall () {

I hope you understand the idea enough to give you a starting point. You might add more functions to Marshaller to take care of things like operator=() for when data is marshalled or not. I'm not sure where to go from this point since I'm not sure what you're wanting. This was my best guess, and you're free to modify it of course.

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