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I have a mixed C/C++ program. It contains a flex/bison parser which targets C, while the remainder is C++.

Being C, the generated parser and scanner manage their memory with malloc, realloc and free. They are good enough to expose hooks allowing me to submit my own implementations of these functions. As you might expect, the rest of the (C++) program "wants" to use new, delete, etc.

Doing a little research seems to show that the relevant standards do not guarantee that such mixing should work. Particularly the C "heap" is not necessarily the C++ "free area". It seems the two schemes can trample each other.

On top of this, someday (soon) this program will probably want to integrate a customized heap implementation such as tcmalloc, used by both C and C++.

What is the "right" thing to do here?

Given the desire to integrate tcmalloc (which explains how to link with C programs) I'm tempted to find some cross-type, cross-thread, cross-everything overload/hook/whatever into C++ memory management. With that I could point all C++ allocation/release calls back to their C equivalents (which in turn land on tcmalloc.)

Does such a pan-galactic global C++ hook exist? Might it already be doing what I want, similar to how ios_base::sync_with_stdio secretly marries iostream and stdio by default?

I am not interested in talking about stdio vs. iostreams, nor about switching parser generators nor using the C++ flex/bison skeletons (they introduce independent headaches.)

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3 Answers 3

up vote 18 down vote accepted

The standard does guarantee that mixing the two allocation variants will work. What it doesn't permit is things like free-ing memory that came from new since, as you state, they may use a totally different arena for the two types.

Providing you remember to call the correct deallocation for a given block of memory, you will be fine. They won't trample each other if you follow the rules - if you don't follow the rules then, technically, you're doing the trampling, not them :-)

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Is that actually true? I'm seeing a lot of mixed reports (and noise) googling around. (for the record I understand to free mallocs and delete news, and I trust the generated parser to clean up after itself.) –  phs Dec 2 '12 at 22:05
Yes, it is true. I don't have the standard on my Android but I'll find the relevant section once I get to work if you like. –  paxdiablo Dec 2 '12 at 22:08
Fair enough, thank you. Do you have any insight to the 2nd half of the question? If I LD_PRELOAD malloc/free to new implementations, will those also affect C++ allocations? Even if the standard is silent, pragmatically knowing the behavior of actual compilers would be very useful. –  phs Dec 2 '12 at 22:13
@phs - the standard versions of operator new and operator delete use malloc and free to get their memory. They aren't required to make a separate call for every allocation, but replacing malloc and free with custom versions will make the C++ code use the replaced versions. Well, unless you're deep in DLL hell. –  Pete Becker Dec 2 '12 at 22:47
I know it's been a while since you answered this, but if you have the time, could you try to find the relevant part of the spec? I'm curious to see it! –  templatetypedef Oct 2 '14 at 17:53

Ok. Dug up an old working draft of the standard (2/28/2011 rev 3242.) It appears the relevant sections are 3.7.4 Dynamic storage duration and 18.6.1 Storage allocation and deallocation.

In short it seems the pan-galactic hook I wanted are the global new and delete operators themselves. If one respects some semantics (in and basically delegate to new_handler as needed) one is allowed to replace

void* operator new(std::size_t);
void* operator new[](std::size_t);
void operator delete(void*);
void operator delete[](void*);

to arrest default memory management of the entire C++ program. I still can't find the section that proves @paxdiablo right, but I'm willing to run with it for now.

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You don't have to worry about any memory allocated by the generated code of Flex or Bison; they take care of it themselves. For the rest, just use new and delete. (And Flex and Bison are capable of generating C++, of a sort. In general, I've found running the output through a simple script, using sed has been sufficient to make their output truly C++ compatible.)

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