Given a class hierarchy as follows:

class A
  def initialize(param)
    if param == 1 then
      #initialize and return instance of B
      #initialize and return instance of C

class B < A

class C < A

Is it possible to actually initialize and return an instance of B or C when initializing A? I.e. my_obj = A.new(param) would result in my_obj being an instance of class B or C depending on the value of param, which gets checked in A.initialize(param).

In my usecase its only known at runtime which subclass (B or C) to use and the parent class (A) is basically never really used. I thought it might be a good idea to move the logic of deciding whether B or C into their common ancestor.

If this is not possible (or bad style), where should I put the check of param and the decision which class to initialize?


You're breaking a fundamental OO principle here -- classes should know nothing about their subclasses. Of course, sometimes principles should be broken, but there's no apparent reason to do it here.

A far better solution is to shift the instantiation logic to a factory method in a separate class. The factory method takes the same arguments as the A's initializer above, and returns an instance of the appropriate class.

  • Thanks for saying it out loud. :) I finally wrote a method initiate_A in a separate module, which does the decision and returns a new object. – Torbjörn Jun 18 '12 at 7:20
  • There might be one or two cases where this is appropriate though. As I said in my answer, what if you have a parser class, that has to deal with, for example, different versions of a language? You could have a constructor that returns an instance of the right subclass for the right version of the data. HTML5 is HTML isen't a good inheritance relationship, I don't know what is. – Linuxios Jun 18 '12 at 13:51
  • We're agreeing with each other -- this principle can be broken when there's good reason to. Not sure I like your example though, it sounds more like a case for Abstract Factory. – ComDubh Jun 28 '12 at 20:50

The thing is, the return value of initialize is ignored. here's what happens when you call A.new:

  • new calls a special class method called allocate -- this returns an empty instance of the class
  • new then calls initialize on the object returned by allocate, and returns the object

To do what you want to do, you need to override new and make it do what you want:

class A
  def self.new(args*)

There is something else to consider though. If A is never really used on its own, you should be using some sort of factory method, or, just a simple if statement. Eg:

def B_or_C(param,args)
  (param == 1 ? B : C).new(args)

The design really depends on what you are using them for. When you, for example, have a class that could be used to handle multiple versions of something, for example, HTML, you could have a main class HTMLParser which overrode new and could return any of its subclasses: HTML1Parser, HTML2Parser, HTML3Parser, HTML4Parser, and HTML5Parser.

Note: You have to override the new method to the default in the sub-classes to prevent infinite looping:

def self.new(args*)
  obj.send(:initialize, *args)
  • Thanks for you answer. However, when overriding self.new in A and calling A.new(params), I'm getting an error: SystemStackError: stack level too deep. It seems, that calling B.new (or C.new) inside of A.new causes an infinite loop as the "constructors" of B and C are somehow calling the "constructor" of A, namely A.new. – Torbjörn Jun 17 '12 at 19:57
  • Because of the heritage – Ismael Abreu Jun 17 '12 at 20:35
  • @Torbjoern: See Edit. – Linuxios Jun 17 '12 at 23:08
  • @ismaelga: Exactly. When the new method for B is called, it goes up the inheritance chain to A, who instantiates B again, which causes an infinite loop. – Linuxios Jun 17 '12 at 23:11

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