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I asked a similar question before, but I only realized now that the answer I received isn't totally what I wanted.

If I simply have a pointer of some structure type, how can I either move to, or create an instance of the same structure type starting at an address specified by the struct pointer (which I have assigned an address to) without using "new".

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Is this C or C++, the answer to the (for me confusing) question surely depends on the language --in C everything is a POD type (as defined in the C++ standard), while in C++ you could be talking about non-PODs. –  David Rodríguez - dribeas Jan 19 '11 at 11:46
C++. I will not be using classes, only structs, if that applies. –  MHZ Jan 19 '11 at 11:47
I have removed the C tag as you have defined that you are using C++. –  Puppy Jan 19 '11 at 11:50
@MHZ: In C++, the difference between struct and class is only that the default access specifier is public for struct and private for class. In particular, given struct base { virtual void foo() {} }, you cannot work with an object of type base without initializing it, and for that you need placement new. On the other hand, you could use class another { int x; public: int& getX() { return x; } } without calling the constructor (which is trivial in this case) –  David Rodríguez - dribeas Jan 19 '11 at 11:58
What are you trying to achieve here? –  Joe Gauterin Jan 19 '11 at 12:04

4 Answers 4

up vote 3 down vote accepted

That's what placement new is for:

foo* p = new(0x9000) foo(bar);
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Note that this is the correct answer- if you have that memory already. You can't allocate memory at an arbitrary address. –  Puppy Jan 19 '11 at 11:51
I am a little bit confused with something here. If I wanted to create my data at 0x9000, where would I assign that address to in this statement? You are assigning an address to a pointer in this statement, while I am looking to create data at the address specified by a pointer. –  MHZ Jan 19 '11 at 11:55
@MHZ: I have changed my answer accordingly. Is it clear now? –  sbi Jan 19 '11 at 11:56
@MHZ: If you want to create data at a specific address, you're doing it wrong. If you absolutely must, then you will have to look into platform-specific allocation routines and allocating yourself, as C++ does not offer any way to specify addresses of allocated memory. –  Puppy Jan 19 '11 at 11:57
@MHZ: Far pointers were already obsolescent in 1995 or so. Are you a time traveler? –  Philipp Jan 19 '11 at 16:24

If you are considering only C, where there is no constructors, once you have a pointer to a block of memory that is at least as big as the struct, then just casting that pointer to the appropriate type is sufficient.

If you are talking about C++, then it depends on the actual type. Whether it is spelled as struct or class does not make a real difference here. If the type has a trivial constructor then you can use the same approach than in C, as the constructor will effectively do nothing at all. If the object has a non-trivial constructor, then you need to call the constructor, and that has to be done with placement new.

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I was actually wondering if there was an alternative method to dynamically create the memory without using a memalloc initially. My lack of understanding comes from how the compiler assigns an address to the instance of any data type, int for example, and how that address can be hardcoded. –  MHZ Jan 19 '11 at 11:59
That is not standard, but rather OS dependent. The standard defines how to allocate memory in a portable way, but that does not allow you to define where you want the data to be. If you need to access some specific portion of your system's memory you will have to resort to the OS. –  David Rodríguez - dribeas Jan 19 '11 at 12:03

I can think of two solutions

  1. Use placement new instead of new.

  2. For a C style structure simply copy the structure to the memory address and typecast it - bitwise copy


    CreateStructAtAddr(void* pOutput, mystruct* pInput)
        *(mystruct*)pOutput = *pInput;

I am ignoring check for valid memory for brevity

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I have downvoted this because you did not construct an instance of mystruct before assigning to it, which is undefined behaviour. –  Puppy Jan 19 '11 at 11:53
Thanks for the response, but what would I assign the desired address to in this statement? Could I use void* pOutput = 0x9000 initially (for example)? –  MHZ Jan 19 '11 at 11:53
@MHZ: No- you're reading/writing into memory you haven't allocated. If you need a specific pre-determined address, then you must look into your OS allocation routines to allocate it yourself. –  Puppy Jan 19 '11 at 11:55
Thanks for the explanation DeadMG. To clarify, I'm doing this for a university assignment to become familiar with segmentation and the x86 architecture. My prof would like for me to avoid using memalloc, but yet be able to refer to offset segment addresses for memory blocks that I allocated myself. However, I can't create these structs at the offset due to the inability to physically assign an address. –  MHZ Jan 19 '11 at 12:02
@MHZ: x86-32 and x86-64 has a virtual flat memory model, not segmentation. If you want to learn about segmentation, you will need an x86-16 processor. More importantly, there is no way to allocate memory that isn't on the stack without using an OS or library allocation routine. –  Puppy Jan 19 '11 at 12:04

Okay. Let's say you have a structure of Type A.

A a;
A b;

If you want to copy b to a (i.e. to the address of a), you would use memcpy. http://www.cplusplus.com/reference/clibrary/cstring/memcpy/. This would make the content of "b" start at the adress of a, given by &a.

If you have tow different structure types, ensure that both have the same size or you have unexpected behaviour.

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memcpy() will invoke undefined behavior (and usually fail spectacularly) as soon as the struct contains anything but PODs. Note that this includes, for example, std::string. –  sbi Jan 19 '11 at 11:58
Ah ok, didn't know that. Thx. –  Simon Jan 19 '11 at 12:20

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