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I've got a lightweight templated class that contains a couple of member objects that are very rarely used, and so I'd like to avoid calling their constructors and destructors except in the rare cases when I actually use them.

To do that, I "declare" them in my class like this:

template <class K, class V> class MyClass
{
public:
   MyClass() : wereConstructorsCalled(false) {/* empty */}
   ~MyClass() {if (wereConstructorsCalled) MyCallPlacementDestructorsFunc();}

   [...]

private:
   bool wereConstructorsCalled;
   mutable char keyBuf[sizeof(K)];
   mutable char valBuf[sizeof(V)];
};

... and then I use placement new and placement delete to set up and tear down the objects only when I actually need to do so.

Reading the C++ FAQ it said that when using placement new, I need to be careful that the placement is properly aligned, or I would run into trouble.

My question is, will the keyBuf and valBuf arrays be properly aligned in all cases, or is there some extra step I need to take to make sure they will be aligned properly? (if so, a non-platform-dependent step would be preferable)

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7 Answers 7

up vote 2 down vote accepted

There's no guarantee that you'll get the appropriate alignment. Arrays are in general only guaranteed to be aligned for the member type. A char array is aligned for storage of char.

The one exception is that char and unsigned char arrays allocated with new are given maximum alignment, so that you can store arbitrary types into them. But this guarantee doesn't apply in your case as you're avoiding heap allocation.

TR1 and C++0x add some very helpful types though:

std::alignment_of and std::aligned_storage together give you a portable (and functioning) answer.

std::alignment_of<T>::value gives you the alignment required for a type T. std::aligned_storage<A, S>::type gives you a POD type with alignment A and size S. That means that you can safely write your object into a variable of type std::aligned_storage<A, S>::type.

(In TR1, the namespace is std::tr1, rather than just std)

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What about the union-with-aligned-type trick I posted a link to above? Any reason why that wouldn't force the compiler to align the array? –  Jeremy Friesner Dec 18 '09 at 19:30
    
No, that should work too, assuming you can think of another type with the same or stricter alignment requirement. You're not allowed to use types that have constructors or destructors in a union, so you have to be a bit careful. –  jalf Dec 18 '09 at 19:37

May I ask why you want to place them into a char buffer? Why not just create pointer objects of K and V then instantiate it when you need it.

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Yes, that is an option, but I'd prefer not to do any dynamic allocation, since the dynamic allocation might (theoretically, anyway) fail and/or take an arbitrary amount of time to complete. –  Jeremy Friesner Dec 18 '09 at 3:51

Maybe I didn't understand your question, but can't you just do char *keyBuf[..size..];, set it initially to NULL (not allocated) and allocate it the first time you need it?

What you're trying to do with placement new seems risky business and bad coding style.

Anyway, code alignment is implementation dependent.

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I'd prefer not to do a heap allocation, since a heap allocation could potentially fail, and then I'd have to come up with some way to deal with that failure. –  Jeremy Friesner Dec 18 '09 at 3:44
    
Placement new is a heap allocation and can fail as well. –  Andreas Bonini Dec 18 '09 at 3:46
    
How do you figure, Koper? AFAICT the heap is not involved, only the destination array that I specify (which is on the stack) –  Jeremy Friesner Dec 18 '09 at 3:52
2  
Your placement new returns a pointer to stuff on the stack..? I have years of experience in C++ and even time critical code and let me tell you this: you're asking for trouble! Did you at least profile before doing this "optimization" to see if this is a time critical part of your program? –  Andreas Bonini Dec 18 '09 at 3:55
    
I'm not sure why you want to allocate memory for those infrequently-used objects for every single instance of the class. It seems to me that dynamically allocating the member objects on the handful of occasions that they're used is the better approach. –  Anon. Dec 18 '09 at 3:59

If you want to change code alignment use pragma pack

#pragma pack(push,x)

// class code here

#pragma pack(pop) // to restore original pack value

if x is 1, there will be no padding between your elements.

Heres a link to read

http://www.cplusplus.com/forum/general/14659/

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This will severely impact performance.. And he's doing all of this for performance reasons, so.. –  Andreas Bonini Dec 18 '09 at 3:47
    
Also it's not standard nor portable and it looks like he wants to be from his original question –  Andreas Bonini Dec 18 '09 at 3:48
    
Looks like #pragma is a non-standard (specifically Microsoft) extension? It would be nicer if I didn't have to use any platform-specific features... –  Jeremy Friesner Dec 18 '09 at 3:49
    
Couldnt he put the correct value there to ensure correct alignment, not necessarily 1. –  randomThought Dec 18 '09 at 3:49
    
i have been using #pragma on linux machines as well and it works pretty good. –  randomThought Dec 18 '09 at 3:50

I found this answer posted by SiCrane at http://www.gamedev.net/community/forums/topic.asp?topic%5Fid=455233 :

However, for static allocations, it's less wasteful to declare the memory block in a union with other types. Then the memory block will be guaranteed to be aligned to the alignment of the most restrictive type in the union. It's still pretty ugly either way.

Sounds like a union might do the trick!

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It'll work, but you have to take care of of finding an appropriate type to store in the union. It has to have no ctor/dtor (or it won't be legal to store it in a union), and it has to have at least as strict alignment requirements as your own type. –  jalf Dec 18 '09 at 20:56

I recommend that you look at the boost::optional template. It does what you need, even if you can't use it you should probably look at its implementation.

It uses alignment_of and type_with_alignment for its alignment calculations and guarantees.

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To make a very very long story very very short this isn't going to help your performance any and will cause lots of headaches and it won't be long before you get sucked into writing your own memory managemer.

Placement new is fine for a POD (but won't save you anything) but if you have a constructor at all then it's not going to work at all.

You also can't depend on the value of your boolean variable if you use placement new.

Placement new has uses but not really for this.

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2  
Can you explain why it's not going to work? From what I've read, std::vector does essentially the same thing, and nobody asserts that std::vector is broken. –  Jeremy Friesner Dec 18 '09 at 5:09
    
Ha, well I assert std::vector is broken. Just look at its source code. The (valid) reason to call placement new is to call constructors and destructors without actually allocating anything. That part is standard and unavoidable if you want to have containers and want to have constructors. The business with using a variable to keep track won't work, though. So you allocate this memory, anything can be in there. If the constructor didn't get called how did the boolean variable get initialized? Now, you could set it outside when you create it, but what does that gain you? –  Charles Eli Cheese Dec 18 '09 at 8:31
    
If that's the case you are doing all the tracking outside the class anyway, so constructors are pointless. And sometimes for special cases that's better. But, if this is generlized code say for a container class it is going to implode very quickly as the basic problem is hard enough to do with good performance and stability without adding ten times the complication on top of that. –  Charles Eli Cheese Dec 18 '09 at 8:35
    
Also, the C++ faq is very broken for that matter, the frequently questioned answers site is much more entertaining and turns out to be more informative as well. A big example is saying that placement new is placing an object at a location. You already allocated this memory, and you are calling the constructor, or anyway in any sane scheme that's the case. Any memory management that tried to do as worded would be very broken (see comments on vector). –  Charles Eli Cheese Dec 18 '09 at 8:42
1  
MyClass() : wereConstructorsCalled(false) {/* empty */} <-- where the bool is initialized –  Jeremy Friesner Dec 19 '09 at 3:03

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