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There are so many questions about initializing static members in C++, and yet I couldn't find this one.

class Node {

    static const int INITIAL_SIZE = 100;
    static Node* node_space;
    static int OUT_OF_BOUNDS = 0;
    static Node BAD_NODE;


Node* Node::node_space = new Node[Node::INITIAL_SIZE];

This seems to work, but I also want to add BAD_NODE to this array as the first element.

Node Node::BAD_NODE = Node();
Node::node_space[OUT_OF_BOUNDS] = BAD_NODE;

The above doesn't compile. The message is

Node.cpp:7: error: expected constructor, destructor, or type conversion before '=' token

This is for a school project in which we are implementing a linked list with an array.

share|improve this question
Sorry, but your design is seriously broken! These static fields have nothing to do (logically) with a Node. Besides, non-const static members are usually (not always) a sign that something is fishy. You should consider to put your array as member of a List object (which then could be static, if you really want it). You can then trivially initialise your array in List::List(). –  bitmask Sep 17 '11 at 1:34
I agree! I was trying to do something weird, a little folly of my own. I have since gone back to a more normal implementation... but the question still stands! Why is what I am doing above not working. Thanks for the architectural advice though, as a student I welcome such comments, as well as discussion of their motivation :) –  Ziggy Sep 17 '11 at 23:31

2 Answers 2

up vote 1 down vote accepted

What you may want to-do here, if you only have a single static data-object, but you want to dynamically initialize it, is to create a singleton object as a wrapper around your Node class. Basically what occurs with a singleton is you create a single version of a class that is initialized with a normal class constructor, but the constructor, operator=(), and copy-constructor are declared private. Then a single static version of the class is created through a static variable, and there is a public accessor method that allows other portions of your code to access the singleton class (i.e., the accessor returns either a reference or constant reference to the static class you created).

class Node_S

        //your original Node class we're wrapping in the singleton object
        struct Node {
            static const int INITIAL_SIZE = 100;
            static Node* node_space;
            static int OUT_OF_BOUNDS;
            static Node BAD_NODE;

        //private default constructor is only called once
            //place your original initialization code for Node here
            Node::OUT_OF_BOUNDS = 0;
            Node::node_space = new Node[Node::INITIAL_SIZE];
            Node::BAD_NODE = Node();
            Node::node_space[Node::OUT_OF_BOUNDS] = Node::BAD_NODE;

        //private copy and assignment operator
        Node_S(const Node_S&) {}
        Node_S& operator=(const Node_S&) { return *this; }


        static Node_S& get_instance() 
            //here is where the single version of Node_S is created
            //at runtime
            static Node_S singleton_instance = Node_S();
            return singleton_instance;

        //... Other public functions

Now you would access your singleton via Node_S::get_instance(). Since the copy and assignment operators are declared private, you cannot create extra copies of your singleton ... there will only be a single instance of this class created. If you needed to pass it around, you would do-so by reference. Furthermore there is no initialization ambiguity because all the static elements of Node are initialized in-order during run-time when get_instance() is called. Since singleton_instance is a static variable, the number of times the constructor Node_S() is run is only once, so you can basically place all your initialization code for Node safely inside of the constructor. Then simply add any additional methods required to work with the Node type in your Node_S interface. So some common usage code might look like the following:

Node_S::Node a_node_copy = Node_S::get_instance().get_node(10);
share|improve this answer
While it might be correct, this explanation is way too complicated, given the outspoken level of the questioneer. –  sharkin Sep 17 '11 at 0:59
Singletons might be a little complicated, but it's a safe, object-oriented method for encapsulating static object initialization and use. The solution by @Kerrek is excellent as well, but if the automatic graders used in class don't have -std=c++0x in their make files, then his assignment won't compile ... this is at least compatible with any version of C++. Plus, I did write the singleton wrapper code for him/her :-) –  Jason Sep 17 '11 at 1:03
Which is also a problem! I appreciate your effort, and I did find this code interesting and educational, but I don't think including it in my project would be smart, considering that it is clearly more complicated than anything I can produce. Thanks though! –  Ziggy Sep 17 '11 at 23:32
Well, simply create an init() function containing the code that you currently have, and call it as one of the first functions in your main() so that your static variables are all properly initialized before the rest of your program runs. That is a pretty simple solution :-) –  Jason Sep 18 '11 at 16:05

In C++11 (i.e "in C++" :-)), you can provide an initialization list for arrays:

Node* Node::node_space = new Node[Node::INITIAL_SIZE] { Node::BAD_NODE };

This will only work if you mean to set the first element to something specific. The initialization list has to provide the initial sequence of elements, so it's not clear what those would be if OUT_OF_BOUNDS wasn't zero.

share|improve this answer
hmm... error: expected ,' or ;' before '{' token –  Ziggy Sep 17 '11 at 0:20
@Ziggy: Do you have C++11? In GCC, say -std=c++0x. Edit: Oh, I also forgot the scope for BAD_NODE. –  Kerrek SB Sep 17 '11 at 0:21
I doubt it. I'm a student, so I have to use what is provided to me. Good answer though! –  Ziggy Sep 17 '11 at 0:25

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