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So, I have a macro.

// swap_specialize.hpp
#include <algorithm>

    namespace std {									\
    template<> inline      					     	\
    void swap( CLASSNAME & lhs, CLASSNAME & rhs )	\
    { lhs.swap(rhs); } }

So then I have a class

// c.hpp
#include <vector>
#include "swap_specialize.hpp"
class C

        void swap(C& rhs)
        C& operator=(C rhs)
            return *this;
        std::vector<int> data_;


Is it bad, stylistically, to do this? Is it a code smell? Or is it an OK practice?

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I'm not sure I understand. What's wrong with just manually calling c.swap(d);? –  GManNickG Jul 17 '09 at 23:47
I agree...is there any real reason for wanting to call "swap(c,d)" instead of "c.swap(d)"? Is it simply you think the former "looks better"? Macros are generally a bad idea, and you should avoid them if at all possible...next thing you know you'll be writing "#define BEGIN {" and "#define END }", and it's all downhill from there. –  davr Jul 18 '09 at 0:56
If you are in a template, and you call c.swap(d), and c happens to have type "int", then you are lost in a bunch of template error messages –  Johannes Schaub - litb Jul 18 '09 at 1:05
Btw, that's a funky operator= you've got going on there. operator= should take a const parameter, and not modify it. They did it differently with auto_ptr, and that causes no end of confusion. –  Steve Jessop Jul 18 '09 at 2:30
@onebyone, his operator= is using an optimization opportunity: boostpro.com/trac/wiki/BoostCon09/… . The idea is to let the compiler optimize the copy: It can detect the copy on the call-side and do RVO. Note the non-reference parameter he uses: The copy is the parameter itself, and he just finally swaps it with *this. This is a valid copy assignment operator. –  Johannes Schaub - litb Jul 18 '09 at 2:45
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3 Answers 3

up vote 6 down vote accepted

I would say it's OK if it increases readability. Judge yourself. Just my two cents: Specializing std::swap isn't really the right way to do this. Consider this situation:

my_stuff::C c, b;
// ...
swap(c, b);
// ...

This won't find std::swap if you haven't done using std::swap or something similar. You should rather declare your own swap in C's namespace:

void swap(C &a, C &b) {

Now, this will work also in the above case, because argument dependent lookup searches in the namespace of the class. Code swapping generic things where the type isn't known should do it like this:

using std::swap;
swap(a, b);

Regardless of the type, this will use the best matching swap, and fall-back to std::swap if there wasn't a better matching one in the namespaces of a. Hard-coding the call to std::swap will cut too short on types that don't specialize std::swap but rather decide to provide their own swap in their namespace.

This is superious in another way: Imagine C is a template. You cannot specialize std::swap in this case. But just defining your own swap, that's perfectly fine.

template<typename T>
void swap(C<T> &a, C<T> &b) {

This is the way how the swap for std::string and other classes is implemented too.

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The thing is, don't STL algorithms use std::swap? Such as std::reverse. –  rlbond Jul 18 '09 at 1:01
I think it isn't specified whether std::swap is used or whether a unqualified call to "swap" is done (i would be glad for a reference on that, though). I looked, and gcc uses an unqualified call to "swap" - this will just work fine with the free swap function defined in the class' namespace. But i think any good Standard lib implementation won't call "std::swap" directly. That would be weird to do: It's already within "std", so qualification isn't necessary, and for another reason, it would stop argument dependent lookup working. –  Johannes Schaub - litb Jul 18 '09 at 1:27
You're right. Section 20.1.4: The Swappable requirement is met by satisfying one or more of the following conditions: — T is Swappable if T satisfies the CopyConstructible requirments (20.1.3) and the Assignable requirements (23.1); — T is Swappable if a namespace scope function named swap exists in the same namespace as the definition of T, such that the expression swap(t,u) is valid and has the semantics described in Table 32. –  rlbond Jul 18 '09 at 2:05
While I don't disagree with any of this, I will say it sucks that unlike any other function template in <algorithm>, std::swap alone should not be called by its full name just in case it's ADL overloaded. Stupid exceptions to the rule. I assume std::hash will be joining it, come C++0x. –  Steve Jessop Jul 18 '09 at 2:27
@litb: It seems that Visual Studio's stl does make fully qualified calls to std::swap. –  rlbond Jul 18 '09 at 2:55
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I don't see it buying you much. For non-template classes, it saves you very few lines. And for template classes, when you want to specialize generically (i.e. for all T), it just won't work.

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Assuming you are doing to use STD_SWAP_SPECIALIZE() for a number of other classes, I this this is perfectly reasonable. After all it's much more readable to have a series of


Than the equivilent expanded code. Also, if the expansion of STD_SWAP_SPECIALIZE was a little larger, then the macro definition gives you the code in a single place if it needed changing. (As it is the template definition is pretty small in your example then it's probably a moot point).

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