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Is there a C runtime Librairies and a C++ runtime Librairies or is there only a C runtime (i.e: therefore C++ programs use the C Run-Time, maybe there is also a c++ Run-Time library and C++ use both C and C++ Run-Time Librairies)

Secondly, if there exist both a C and a C++ runtime, does the C++ heap memory management model is the same than the C heap memory management used by the CRT (namley use of linked list for block of memory) ?

EDIT:

Thirdly, if a C++ program use the CRT, does it mean that there is two heap for the program? one used by the CRT and one used by the C++ Run-Time ?

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closed as not a real question by Tristram Gräbener, EdChum, WhozCraig, birryree, Bhavik Ambani Dec 26 '12 at 1:46

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Would help to mention tool chain or OS. –  brian beuning Dec 25 '12 at 15:54
    
@brian: acutally I don't talk about a particular plateform, I mean generally what is the practice. –  Guillaume07 Dec 25 '12 at 15:54
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But the answer is different for different platforms and the standard leave this open to implementation variation. –  brian beuning Dec 25 '12 at 15:57

4 Answers 4

up vote 2 down vote accepted

Usually for C++ programs, they have a distinct runtime, but that runtime is implemented on top of the C run-time, so they delegate as much work as they can- and memory management is a fairly simple one. The only thing C++ has to do on top of C is deal with exceptions, destructors, and whatnot- the actual memory allocation itself can come right from malloc. However, the Standard does not guarantee this at all and it can't be relied upon.

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so in pratice a new call ended by a malloc call ? –  Guillaume07 Dec 25 '12 at 15:58
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Yes, new is quite often implemented as malloc (and delete would then end up using free to deallocate, of course), or some common lower level allocation function in some cases. But don't rely on this, C++ new may well do something completely different "because it's a good opportunity to do something different" –  Mats Petersson Dec 25 '12 at 16:01
    
Calling free() on something obtained by new, or calling delete on something obtained by malloc are very bad ideas. –  brian beuning Dec 25 '12 at 16:04
    
@Brian: that is not what Mats said –  Guillaume07 Dec 25 '12 at 16:05
    
@guillaume07: actually, since new does more than just allocation, and free more than deallocation, even if they do use malloc and free under the covers, it's still not safe to mix malloc and free! –  Mooing Duck Dec 25 '12 at 16:58

There is an oddity with heaps on Windows. If a DLL statically links in the C run time, then that DLL gets its own heap. So if you have 5 DLL like this then your process has at least 5 heaps. And you need to be really careful to call free() in the same DLL that called malloc() (or delete / new).

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Assuming that you are talking about the same compiler suite (like GCC, or Visual C++, for example), there is usually a C and C++ runtime, with the C runtime also being used for C++ programs if/when you are using C functions.

Usually, the memory management of the C++ runtime is making use of the C runtime memory management, but this is by no means a given and shouldn't be relied on. After all, there usually isn't much of a point of reimplementing a complete heap manager if you can add another interface to an existing implementation.

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C and C++ doesn't define how "heaps" work other than the public interfaces, such as malloc, new, free and delete and some siblings of these. Each compiler/library vendor will make their own (and yes, you CAN use a library that isn't part of part of the compiler suite, for example gcc MingW uses the Microsoft Libraries to a large extent).

I'm not sure it makes much sense to worry about if there is one heap, two heaps, three heaps or a thousand heaps - as long as you can allocate memory from whichever one is relevant for your code, it's really an implementation detail how many heaps there are - and I see very few cases where the number of them would matter - other than the tiny bit of admin overhead that each heap has, perhaps. But that would be in the order of a few dozen bytes or so, unless someone has really gone overboard with the heap design.

As mentioned elsewhere, the C++ code may or may not use the same heap or have a separate heap. Again, it makes no difference to your code. As long as when you free it, you use the same method as when you allocated - that is, don't use new to allocate something, and free to free it, or malloc and delete. That would be very bad - even if the data comes from the same heap, you may well find that there is "hidden" information stored by new to track the data, that is different from what malloc has stashed away, which means that malloc doesn't "understand" what's going on, and weird crashes occur!

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multiple heaps can make a difference. Memory allocated from one must be freed to the same heap.. –  Mooing Duck Dec 25 '12 at 16:59
    
Yes, which is why I said "you need to release the memory with the matching method as you allocated it". Hopefully, no one designs an interface to a function that uses a "private" (or "separate") heap that requires that you call free() on it... That would be rather daft! –  Mats Petersson Dec 25 '12 at 17:20
    
No, I mean, if you have a static library that allocates memory with new, then you cannot safely use delete on it from your code. It's technically not the matching method, despite all appearances otherwise. That's more of a C interface problem though, C++ usually uses smart pointers to bypass the problem. –  Mooing Duck Dec 26 '12 at 19:52
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Yes, and my point is that if the static library has a "create stuff" calling new, it should also have a corresponding "destroy stuff" function that frees it up. Otherwise, whoever came up with the idea in the first place ought to be punished for the idea. –  Mats Petersson Dec 26 '12 at 20:47

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