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In keeping with the practice of using non-member functions where possible to improve encapsulation, I've written a number of classes that have declarations which look something like:

void auxiliaryFunction(
        const Class& c,
        std::vector< double >& out);

Its purpose is to do something with c's public member functions and fill a vector with the output. You might note that its argument order resembles that of a python member function, def auxiliaryFunction(self, out).

However, there are other reasonable ways of choosing the argument order: one would be to say that this function resembles an assignment operation, out = auxiliaryFunction(c). This idiom is used in, for example,

char* strcpy ( char* destination, const char* source );

What if I have a different function that does not resemble a non-essential member function, i.e. one that initializes a new object I've created:

void initializeMyObject(
    const double a,
    const std::vector<double>& b,
    MyObject& out);

So, for consistency's sake, should I use the same ordering (mutable variable last) as I did in auxiliaryFunction?

In general, is it better to choose (non-const , const) over (const, non-const), or only in certain situations? Are there any reasons for picking one, or should I just choose one and stick with it?

(Incidentally, I'm aware of Google style guide's suggestion of using pointers instead of non-const references, but that is tangential to my question.)

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This is really subjective, and even changes in my opinion depending on the context. I think that it doesn't really matter as long as your types are const when they should be and don't specify const when they are not. –  Brian R. Bondy Feb 23 '10 at 21:46
    
It's not any more subjective than any other best practices question. The fact that your opinion changes depending on the context just means it's something you ought to think about: you don't want glaring inconsistencies in your codebase. –  Seth Johnson Feb 23 '10 at 22:35
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2 Answers

up vote 4 down vote accepted

The STL algorithms places output (non-const) values last. There you have a precedent for C++ that everyone should be aware of.

I also tend to order arguments from important, to less important. (i.e. size of box goes before box-margin tweak value.)

(Note though: Whatever you do, be consistent! That's infinitely more important than choosing this or that way...)

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Few points that may be of help:

  • Yes, I like the idea of following the standard library's argument ordering convention as much as possible. Principle of least surprises. So, good to go. However, remember that the C standard library itself is not very well crafted, particularly if you look at the file handling API. So beware -- learn from these mistakes.

  • const with basic arithmetic types are rarely used, it'd be more of a surprise if you do.

  • The STL, even with its deficiencies provide, IMO, a better example.

  • Finally, note that C++ has another advantage called Return Value Optimization which is turned on in most modern compilers by default. I'd use that and rewrite your initializeMyObject or even better, use a class and constructors.

  • Pass by const-reference than by value -- save a lot of copying overhead (both time and memory penalties)

So, your function signature should be more like this:

 MyObject initializeMyObject(
    double a,
    const std::vector<double>& b,
    );

(And I maybe tempted to hide the std::vector<double> by a typedef if possible.)

In general, is it better to choose (non-const , const) over (const, non-const), or only in certain situations? Are there any reasons for picking one, or should I just choose one and stick with it?

Use a liberal dose of const whenever you can. For parameters, for functions. You are making a promise to the compiler (to be true to your design) and the compiler will help you along every time you digress with diagnostics. Make the most of your language features and compilers. Further, learn about const& (const-refernces) and their potential performance benefits.

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1  
Const with arithmetic types just means "I don't expect these values to change inside my function, so warn me if I try to do something stupid like if (b = 2.0) ." I didn't know if RVO was widely enough used to depend on -- I don't want expensive copy operations every time this function is called. The omitted & in the second example was a typo. I don't typedef std::vectors because it makes the code more opaque. –  Seth Johnson Feb 23 '10 at 22:34
    
@Seth Johnson: The downvote for this? As I said, I have never (==very, very rarely) come across production code using const with int or floats -- not suggesting it is wrong or bad style. Also, remember that you are passing the double by value -- so a change to the value will not be reflected to the caller. Further, the particular example you posted, most modern compilers generate a warning for assignments withing conditionals. Finally, typedef is a trade-off. STL uses it extensively and I prefer to see concrete domain specific names instead of implementation details. –  dirkgently Feb 23 '10 at 22:40
    
I didn't downvote it; I do appreciate your input despite its paternalistic tone. –  Seth Johnson Feb 23 '10 at 22:44
    
@Seth Johnson: Paternalistic? I was only trying to make sure you realise that I am dishing out my subjective opinion and not silver bullets ;-) –  dirkgently Feb 23 '10 at 22:53
    
@dirkgently: Sorry, I meant patronizing. ;) I use typedef a lot in traits classes, etc., but not with member functions or elsewhere in free-standing code. I also found an instance of others using const in pass-by-value functions, so to each his own on that one. –  Seth Johnson Feb 23 '10 at 23:03
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