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The following code creates an object on the stack:

Object o;

When creating an object on the heap we can use:

Object* o;

o = new Object();

rather than:

Object* o = new Object();

When we split the heap object-creation over two lines and call the constructor on the second line (o = new object()), does this mean in the first line (Object* o) the pointer was created on the stack? So Object o puts the object on the stack, whereas Object* o puts the pointer to a future object on the stack?

My second question involves if the two lines of code were called outside of a class. I recently read (Global memory management in C in stack or heap?) that global variables are not contained on the stack/heap but actually another part of memory? If this is the case, would Object* o create a pointer which would sit in this other part of the memory and it points to the heap object?

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Those two will probably optimize to the same thing, I think. –  minitech Apr 14 '12 at 20:33
The pointer is always created on the stack. –  leftaroundabout Apr 14 '12 at 20:36
I would second @leftaroundabout, and go further: all variables declared in a block are created on the stack; the whole object for the first example, and the pointer to the object in the second. –  Phil H Apr 14 '12 at 20:50

5 Answers 5

up vote 30 down vote accepted

Actually, neither statement says anything about heap or stack:

Object o;

creates an object with automatic storage meaning that the storage location is determined by the context in which the object is declared: If the code is in a function, this happens to be the call stack. But the line could also be a class member or, as you’ve noted, outside of a function / class.

To illustrate why this is different:

struct Foo {
    Object o;

Foo* pf = new Foo();

Now the object pf->o is created on the heap, not on the stack, even though (or rather, because) it has automatic storage.


Object* p;

simply declares a pointer, nothing more. The pointer’s storage is indistinguishable from any other object’s: it has automatic storage. Furthermore, the initialising expression has no effect on the variable storage.

What the pointer points to is a completely different matter. It might be a heap-allocated object (using new for instance) or it might point to another automatically allocated object. Consider:

Object o;
Object* p = &o;
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Could you please explain what you mean by "automatic storage"? Also, what would be the difference between Foo pf = new Foo(); and Foo* pf = new Foo(); ? –  user997112 Apr 14 '12 at 20:53
what would be the difference between Foo pf = new Foo(); and Foo* pf = new Foo(); -- The second would compile, while the firs one wouldn't? –  dasblinkenlight Apr 14 '12 at 20:58
Because we can only use pointers with regards to heap allocation? –  user997112 Apr 14 '12 at 21:04
@user997112 See update. –  Konrad Rudolph Apr 14 '12 at 21:11
@dasblinkenlight: I guess that was just a typo. The first one would give a compiler error unless there is a user-defined conversion from Foo* to Foo. –  Philipp Apr 14 '12 at 22:40

The two forms are the same with one exception: temporarily, the new (Object *) has an undefined value when the creation and assignment are separate. The compiler may combine them back together, since the undefined pointer is not particularly useful. This does not relate to global variables (unless the declaration is global, in which case it's still true for both forms).

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In both your examples, local variables of Object* type are allocated on the stack. The compiler is free to produce the same code from both snippets if there is no way for your program to detect a difference.

The memory area for global variables is the same as the memory area for static variables - it's neither on the stack nor on the heap. You can place variables in that area by declaring them static inside the function. The consequence of doing so is that the instance becomes shared among concurrent invocations of your function, so you need to carefully consider synchronization when you use statics.

Here is a link to a discussion of the memory layout of a running C program.

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Object* o;
o = new Object();

`` B)

Object* o = new Object();

I think A and B has no difference. In both the cases o is a pointer to class Object. statement new Object() creates an object of class Object from heap memory. Assignment statement assigns the address of allocated memory to pointer o.

One thing I would like to mention that size of allocated memory from heap is always the sizeof(Object) not sizeof(Object) + sizeof(void *).

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C++ offers three different ways to create objects:

  1. Stack-based such as temporary objects
  2. Heap-based by using new
  3. Static memory allocation such as global variables and namespace-scope objects

Consider your case,

Object* o;
o = new Object();


Object* o = new Object();

Both forms are the same. This means that a pointer variable o is created on the stack (assume your variables does not belong to the 3 category above) and it points to a memory in the heap, which contains the object.

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