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[!!Correction made to the second code!!]

vector<int> a;
vector<int>*p = &a;


vector<int>*b = new vector<int>();

I know that in first scenario, a is on stack and in second b is on heap. But, are there any other differences? Like memory consumed etc.

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@Cat -sorry corrections made – Pavan Aug 9 '11 at 15:52
Just like to point out that automatic allocation does not require stack allocation. If you ever use a global vector, it will not necessarily be on the stack, but probably resides in some special memory for automatically allocated variable. Also if the vector is a class member, it's location depends on where the instance of the class resides. – Ken Wayne VanderLinde Aug 9 '11 at 15:54
One more query here: How much memory does "vector<int> a" allocate? Is that compiler dependent? – Pavan Aug 9 '11 at 16:02
@Ken: a global vector isn't an automatic, so what does its location (on the stack or otherwise) have to do with the location of automatics? It's true that the standard doesn't specify a stack for automatic variables, but it specifies enough behavior that wherever automatics are stored starts to look a lot like a stack. But an implementer could in principle allocate stack frames from a mark-sweep garbage collector or something, if they really wanted to. And just from that code snippet we can't tell whether a is an automatic or not. – Steve Jessop Aug 9 '11 at 16:04
I believe that the default capacity of a vector is dependent on the which implementation of the STL you are using. The only guarantee is that the vector has a size of zero. – Ken Wayne VanderLinde Aug 9 '11 at 16:06
up vote 3 down vote accepted

Yes vector b is allocated on the heap and vector a is on the stack (assuming the code is in the scope of a method) along with a 4 byte pointer also on the stack. Other differences in memory consumed would depend on the memory manager and how it allocates blocks and any internal bookkeeping required for the heap.

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Don't you hate when your answer gets invalidated by an edit? – Benjamin Lindley Aug 9 '11 at 15:53
The first sentence of this answer is not correct, as explained in Martin's excellent answer. – Björn Pollex Aug 9 '11 at 18:15
It should also be observed that both vectors will keep the contained ints in the heap, The differences are where the vector keeps it pointers to the 'int's and other meta-information. For 32-bit MSVC2010 in release with _SECURE_SCL=0, a vector is 12 bytes. – Mooing Duck Aug 9 '11 at 18:23

I know that in first scenario, a is on stack and in second b is on heap.

Both parts of that statement are wrong. Mostly because the terms stack/heap are useless in describing C++ objects.

 vector<int>   a;

This is an automatic storage duration object. More commonly referred to as an automatic object.

It is created on first use and destroyed when it goes out of scope. The definition of scope depends on context. If you are in a function it is placed on the stack and destroyed when the function exists. If it is a member of an object then it is created with the object and destroyed with the object (in this case the object could be on the heap or stack).


vector<int>*   p = &a;

This is a pointer to an object. What it points to depends. In this case you are making it point at an automatic object (which as described above could be on the stack or heap).


vector<int>*   q = new vector<int>();

This is a pointer to an object of dynamic storage duration. This means it is created with new and must be manually destroyed (Which is also why you never create RAW pointers, they are always wrapped in smart pointers (please read a book)). If this object is on the stack or heap depends on a lot of things as the language allows you override the default behavior (in a simple naive way you can think of it as being on the heap (but it is best to just forget the concept of heap and stack as they don't apply to C++).

It is best to think of object belonging to one of four categories:

  • Static storage duration objects
    • Global variables (and a few other things)
    • You can think of these (until you know more) as created before main destroyed after main
  • Thread Storage duration objects
    • Globals associated with a thread.
    • You can think of these as created with the thread destroyed after the thread
  • Automatic Storage duration objects
    • Nearly all other objects
    • These are created when first encountered.
    • Destroyed when they go out of scope.
    • Scope depends on context.
  • Dynamic storage duration objects
    • Objects allocated with new and de-allocated with delete.
    • Objects that should be contained in smart pointers or containers
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Smart pointers aren't all they're cracked up to be. They can be abused as much as raw pointers. – Ken Wayne VanderLinde Aug 9 '11 at 16:03
"This is an aromatic storage duration " he he :-) – Cheers and hth. - Alf Aug 9 '11 at 16:05
Mmmm, aromatic. – Steve Jessop Aug 9 '11 at 16:09
I think you have things reversed - in a simple naive way you can think of automatics on the stack and dynamically-allocated objects on the heap, but you've written the opposite. – Steve Jessop Aug 9 '11 at 16:26
@Bo Persson: May be it was on purpose! because they are NOT a code smell they are the opposite of a bad smell and thus a good code smell or aromatic code :-) – Loki Astari Aug 9 '11 at 18:25

Both vectors will allocate the memory for their elements on the heap. The main difference is the lifetime of your vector object. In the first case, it's on the stack and will be destroyed at the end of its scope.

In the second case, the vector will remain in memory until you call delete q.

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Original question:

You are asking, what is the difference between

vector<int> a;
vector<int>*p = &a 


vector<int> b;
vector<int>* q=&b;

In both cases you have a vector, and you declare a pointer which is initialized to point to the vector. That extra indirection is usually not a good idea.

In the declaration of p you forgot the final semicolon, while in the declaration of q you didn't forget that.

That's all.

Second variant of question:

You are asking, what is the difference between

vector<int> a;
vector<int>*p = &a 


vector<int>* q= new vector<int>();

In the first cases you have a vector, and you declare a pointer which is initialized to point to the vector. That extra indirection is usually not a good idea.

In the second case you declare a pointer to a vector and initialize it to point to a zero-size vector allocated via new. That's not a good idea ever. A vector does the memory management for you, which is much of the point: just Say No to that alluring new.

That's all.

Cheers & hth.,

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@anonymous downvoter: please explain your reasons for downvoting, so that others can benefit from your insight (he he). – Cheers and hth. - Alf Aug 9 '11 at 16:01
I was just wondering that - I guess they downvoted based on your original answer which no longer made sense after the OP edited? I've +1'ed for parity :-) – Steve Mallam Aug 9 '11 at 16:06
No downvote from me because I agree that line of code is never a good idea, but it's not necessarily a bad idea to have a pointer to a dynamically-allocated vector, if different bits of code all interact with the same vector. It's just a bad idea to initialize it from new, since new demands some RAII to manage it. The correct place to obtain the raw pointer is operator-> of a smart pointer ;-) – Steve Jessop Aug 9 '11 at 16:12
@Steve Jessop Getting a raw pointer from the operator-> of a smart pointer counts as obfuscation to me. Generally, if you need raw pointers to something, it shouldn't be managed by smart pointers anyway. (But then, very few things should be managed by smart pointers.) And if you need RAII to manage something, it probably shouldn't be allocated on the heap to begin with. – James Kanze Aug 9 '11 at 17:31
@James: sorry, that was tongue-in-cheek. I meant that the implementation will find the raw pointer for itself when you use -> with the smart pointer. As for whether most RAII-managed objects are heap-allocated or not: that depends on the program and your exact definition of RAII. I think all dynamically-allocated objects should be RAII-managed, and there should be as few of them as possible, so "probably" is a question of how many other RAII-managed things you have knocking about: locks or whatever. – Steve Jessop Aug 9 '11 at 17:36

p and q are just pointers to the vector, which is initialized on the stack.

It should hold only 4 bytes on most platforms.

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Err, both p and q are pointers to vectors, both being pointed to the address of a and b respectively. They are in essence the same, but I'd probably be mad at someone formatting like the second example. ;)

It's just a slight tweak in syntax spacing (and a missing semi-colon on the second line of the first vector pair.).

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correction made..pls chk – Pavan Aug 9 '11 at 15:53

q is a pointer to object b which is on the stack. A pointer object is just an address( a number) while b is a vector instance

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correction made..pls chk – Pavan Aug 9 '11 at 15:53
b does not need to be on the stack. It could just as easily be on the heap. – Loki Astari Aug 9 '11 at 16:07

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