memory structure of a vector<T>

I am playing around with vectors in c++ and I've tried to figure out how a vector looks inside memory...

I made a vector like this: vector<int> numbers = { 1, 2, 3, 4, 5, 6 }; and extracted a couple of information about the vector

&numbers: 002EF8B8

begin()._Ptr: 0031A538

end()._Ptr: 0031A550

data at vector memory location 002EF8B8 :

00 9d 31 00 38 a5 31 00 50 a5 31 00 50 a5 31 00 cc cc cc cc 30 31 82 1f

found begin()._Ptr and end()._Ptr addresses stored there...

and integers found in that address range:

1st int at memory location: 0031A538 = 01 00 00 00

2nd int at memory location: 0031A53C = 02 00 00 00

3rd int at memory location: 0031A540 = 03 00 00 00

4th int at memory location: 0031A544 = 04 00 00 00

5th int at memory location: 0031A548 = 05 00 00 00

6th int at memory location: 0031A54C = 06 00 00 00

Question:

If 002EF8B8 is the memory location of the vector, 31 00 38 a5 and 31 00 50 a5 are beginning and the end of vector, what is 00 9d at the beginning and the data after? 31 00 50 a5 31 00 cc cc cc cc 30 31 82 1f

I got the size with numbers.size()*sizeof(int) but I'm almost sure that's not the actual size of vector in memory.

Can someone explain to me how can I get the size of actual vector, and what does each part of it represent?

something like:

data size [2 bytes] [4 bytes] [4 bytes] [? bytes]

data meaning [something] [begin] [end] [something else]

EDIT: bcrist suggested the use of /d1reportAllClassLayout and it generated this output

1>  class ?\$_Vector_val@U?\$_Simple_types@H@std@@    size(16):
1>      +---
1>      | +--- (base class _Container_base12)
1>   0  | | _Myproxy
1>      | +---
1>   4  | _Myfirst
1>   8  | _Mylast
1>  12  | _Myend
1>      +---

which is basically [_Myproxy] [_Myfirst] [_Mylast] [_Myend]

• You do realize that you can read the complete source code of vector template in <vector> header, right? You are taking a rather roundabout route on your quest to enlightening. Commented Dec 14, 2014 at 4:37
• apart from storing begin and end, the only thing a vector need to store is capacity and pointer to the allocator Commented Dec 14, 2014 at 4:39
• The size of the object numbers in memory is, of course sizeof(numbers). Not to be confused with the size of the heap-allocated block of data that a pointer stored within numbers may point to. Commented Dec 14, 2014 at 4:40
• @IgorTandetnik Thanks... I've missed that :) just started to work in c++ and I still in learning more... but in combination with Andrey Chernyakhovskiy's answer... I've figured it out Commented Dec 14, 2014 at 4:49
• If you're using VC++ (_Ptr looks like Dinkumware's style) you can use the undocumented compiler options /d1reportAllClassLayout or /d1reportSingleClassLayout to see the memory-layout of a class or struct. Details here. Commented Dec 14, 2014 at 5:36

You misinterpret the bytes. On a little-endian machine, the value 0x0031A538 is represented with the sequence of bytes 38 A5 31 00. So, your highlights are shifted.

Actually you have four addresses here: 0x00319D00, 0x0031A538, 0x0031A550 and again 0x0031A550.

A vector minimally needs three values to control its data, one of them being, obviously, the vector base. The other two may be either pointers to the end of vector and the end of allocated area, or sizes.

0x0031A538 is obviously the vector base, 0x0031A550 is both its end and the end of allocated area. What still needs explanation, then, is the value 0x00319D00.

• 0x00319D00 indeed is the only mystery left, but I'll try to figure it out from the source code... Thanks Commented Dec 14, 2014 at 4:50
• cc cc cc cc 30 31 82 1f also needs explanation. (if sizeof numbers == 16 that would explain it, but if not then it wouldn't)
– M.M
Commented Dec 14, 2014 at 4:52
• @MattMcNabb, my guess is that that's some debug helper object. Allocators must theoretically be stateless and take no space. As to cc cc cc cc, it is clearly not part of the vector object. Some compilers use the cc byte to fill uninitialized data in debug mode.
– ach
Commented Dec 14, 2014 at 4:56
• On dinkumware64 the vector has 4 members, _Myfirst, _Mylast, _Myend and _Alval. I think the last one is a class with no member variables that represents the allocator (but final classes can't have size zero so it must have size at least one, and so the size is rounded up to the alignment requirement of the struct containing it)
– M.M
Commented Dec 14, 2014 at 4:58
• on another implementation I use the vector has 8 pointers in it; the other 4 store a linked list of active iterators into the vector, this is used for iterator debugging
– M.M
Commented Dec 14, 2014 at 5:04