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I am working on Michael J Laszlo's Book 'Computation Geometry and Computer Graphics in C++' . The following is a template class prototype:

template <class T> class ListNode : public Node {    
    T _val;
    ListNode (T val);
    friend class List<T>;
};

template <class T> ListNode <T>::ListNode(T val)
{_val=val;};

template <class T> class List{    
  private:
    ListNode <T> *header;
    ListNode <T> *win;
    int _length;

  public:
    List(void);
    ~List(void);
    T insert(T);
    T append(T);
    List * append(List*);
    T prepend(T);
    T remove(void);
    void val(T); // overloaded function!
    T val(void);// overloaded function!
    T next(void);
    T prev(void);
    T first(void);
    T last(void);
    int length(void);
    bool isFirst(void);
    bool isLast(void);
    bool isHead(void);
};    

Now look at the way he defines the List constructor:

//  constructors and destructors

template <class T> list<T>:: List(void): _length(0)
{    
    header =new ListNode<T>(NULL);
    win=header;
}

My Question:

What is up with the assigning a default length outside the {...} and the rest inside? Is there some sort of logical reasoning behind this?

Because for example before this, he pretty much declared everything outside the {...} and I assumed that was just his style

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  • Do you wonder why he didn't continue after _length(0) with header(new(ListNode....)), win(header) {}?
    – Damon
    May 24, 2013 at 15:43
  • Yes, I assumed that the question implied that, but yes I do wonder as to why he didn't do so. May 24, 2013 at 15:44
  • 2
    It's a pretty standard practice. Take a look at this question May 24, 2013 at 15:44
  • 2
    @nerorevenge: Well, he could as well have done that, and it would likely be a little more efficient. But then, what do you do when operator new throws? Not like there's a try/catch in this constructor, but there could be. On the other hand, since header is the only allocated resource, there's nothing that could possibly be leaked (if new fails, it fails... so there's no header). So, there's really no good reason against it in this case.
    – Damon
    May 24, 2013 at 15:46
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    Consider this: parashift.com/c++-faq-lite/init-lists.html
    – Jack
    May 24, 2013 at 15:47

4 Answers 4

17

What is up with the assigning a default length outside the parenthesis and the rest inside the curly braces?

This is very common and desirable. The construct is called initialization list. For example, this

template <class T> ListNode <T>::ListNode(T val)
{_val=val;};

can be rewritten as this:

template <class T> ListNode <T>::ListNode(T val)
: _val(val) {};

Using this construct instructs the compiler to use copy constructors for items being copied, rather than using default constructors followed by assignment operators. In case of assigning primitives it hardly matters, but with more complex types initialization lists could save you some CPU cycles.

The reason the author did not put the header and win assignments into the initialization list is to force a particular order of initialization where it matters. The assignment to header must happen before the assignment to win. When you use initialization lists, the order of assignments is not controlled by the order of items in the list: instead, it is controlled by the relative order of declaration of the corresponding members in the class. Relying upon it is very confusing to the reader and too fragile to remain in production, so the author correctly decided to move the two assignments into the body of the constructor.

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    well if it's for efficiency part, how come he hasn't bothered putting the rest of what's inside the parenthesis within the initialization list? May 24, 2013 at 15:51
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    @nerorevenge That's an excellent question! Take a look at the updated answer. May 24, 2013 at 15:54
  • wow the 'the relative order of declaration' is something I never bothered to take into consideration. May 24, 2013 at 16:05
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    I strongly disagree that relying on declaration order is "too fragile to remain in production". I happily rely on it, and build production code with -Werror=reorder so noone can screw it up. May 24, 2013 at 16:21
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    Heh, that's a better solution than shooting people, you get pizza and don't have to keep hiring new people :) May 25, 2013 at 10:11
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The way I'm reading the question, you're not asking why _length is initialised in the initialiser list, but you're asking why header and win aren't.

Suppose you had

template <class T> List<T>::List(void)
    : _length(0)
    , header(new ListNode<T>(NULL))
    , win(header)
{ }

What would this do? Would this initialise header and then copy it to win, or would this first copy header to win and only then set header? You cannot tell by looking at the constructor definition. You can tell by looking at the constructor definition when plain old assignments are used. So some (myself included) might say the code is easier to read the way it is.

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    Note that modern compilers will warn you if an initialization list doesn't match the true order of initialization. May 24, 2013 at 15:58
  • The way I intended the question to be read out is this way: if there is an obvious reason to include it in initializer list, why not do it for every thing ,and if no why bother not sticking it in within the parenthesis , and if there is something with the variable that it had to be initialised that way? May 24, 2013 at 15:58
  • @nerorevenge The initialization list is generally preferred. It prevents double-initialization and it allows initialization of const members. In the example you post, all variables could be initialized that way. May 24, 2013 at 16:01
  • @nerorevenge Ah, in that case, it depends. Very often the initialisers can be run in any order, and if the order doesn't matter, it also doesn't matter that it's hard to tell what the order is. In that case, as mentioned, initialisation is usually a better choice. Since the order does matter here, an exception to the general rule can be made (but as noted, it doesn't, strictly speaking, need to be).
    – user743382
    May 24, 2013 at 16:04
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    @nerorevenge I mean the order of the fields in the class declaration happens to match the order in which they need to be initialised, so you could get away with not using assignments. But it means that changes to the class layout become quite tricky to manage, as changing the order of the fields breaks the constructor. That's what Drew Dormann pointed out with "In the example you post, all variables could be initialized that way."
    – user743382
    May 24, 2013 at 16:14
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It is for efficiency reason. That region -- before the {} and after the () is called initializer list. You can initialize your variable there. The compiler instead of default initializing your member variables will initialize the variables set in that initializer list. Compare it to the scenerio where you initialize your variable inside the {}. The compiler first initializes all your member variable then goes into the body, {}, then you re-initialize your member variables. The initializer skips that initialization step. Always initialize in the initializer-list when possible.

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Firstly, it is more efficient to define values in the initialiser list. If you don't do this, unless you have a clever compiler, the values will be default initialised, and the assigned to. For some types, this is not terribly efficient (although not in the class you have there).

As to why he decided to do it this way for this one class, it's unclear. I can only assume it is so that he can perhaps catch the possible throw from the new in an out of memory situation - although even there he could do a new(nothrow) for that which would probably be both more efficient and clearer.

What he could be trying to do is not to fall foul off the order of initialisation requirements of C++ - class members are initialised in the order they are declared in the class definition, not in the order you specify them in the constructor initialisation list. That can be a real pain, though most compilers now warn you if you are doing that (and also allow you to change that warning into an error). In this case, it would be possible for win to have been declared before header, in which case doing win(header) in the initialiser list would set win to have the value of header, before header got initialised. Although, even there, I'd still have initialised header in the initialiser list, and only put the initialisation of win in the code block.

What really irks me is his use of (void) parameter lists. That's a C-ism, and looks ugly. Especially for default constructors and destructors.

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