# Understanding these Pointer Statements - Diagram

I am trying to understand the following 3 code statements involving pointers (through image diagrams). If you can explain it without images that would also work

``````1- myobj *ptra = new myobj();
2- myobj *ptrb = new myobj[2]();
3- myobj **ptrc = new *myobj();
``````

Here is my understanding , please correct me if I am wrong. Also the addresses in the image are totally imaginary (I know they don't make sense). My major concerns of understanding are basically with statement 2 and statement 3.

Statement 1 : ptra (which is some address on the stack) points to an address on the heap

Statement 2: ptra (which is some address on the stack) points to one address which has 2 parts ? Is that correct ?

-
#2 - It points to one address, but it can be moved to the next safely. – chris Oct 21 '12 at 3:49
What does that mean , could you explain a little in detail – Murphy316 Oct 21 '12 at 3:50
It means you can index it like an array of two integers, and it will initially point to the first element. – chris Oct 21 '12 at 3:51
#2 - It create a consecutive space of `2 * sizeof(myobj)`, and the pointer `*ptrb` points to the lowest address of that space. The second element can be accessed by `ptrb[1]`. I am not sure if `*(ptrb + sizeof(myobj))` can do the work. – Alvin Wong Oct 21 '12 at 4:03
@Alvin: Pointer arithmetic takes into account the size of the type being pointed to -- so `ptrb[1]` is equivalent in this case to `*(ptrb + 1)`. The rest of your comment is spot on, +1. – Cameron Oct 21 '12 at 4:41

Your understanding is somewhat correct, though it seems like you mix too many things together and your diagram is missing details. Here is how I'd draw it for a few of the most simple cases...

Let's start from a simple case and take operator `new` out of the picture:

``````#include <cstdio>

struct myobj {
int v;
};

int main()
{
myobj obj[2];

obj[0].v = 1;
obj[1].v = 2;

myobj *ptra = &obj[0];
myobj *ptrb = &obj[1];
myobj **ptrc = &ptrb;

printf("obj size is: %lu\n", sizeof(myobj));
printf("pointer size: %lu\n", sizeof(void *));

printf("ptra address is %p, it points to %p\n", (void *)&ptra, (void *)ptra);
printf("ptrb address is %p, it points to %p\n", (void *)&ptrb, (void *)ptrb);
printf("ptrc address is %p, it points to %p\n", (void *)&ptrc, (void *)ptrc);
}
``````

The above program will output something like this:

``````\$ g++ -Wall -pedantic -o test ./test.cpp
\$ ./test
obj size is: 4
pointer size: 8
ptra address is 0x7fff5b73dbb8, it points to 0x7fff5b73dbc0
ptrb address is 0x7fff5b73dbb0, it points to 0x7fff5b73dbc4
ptrc address is 0x7fff5b73dba8, it points to 0x7fff5b73dbb0
``````

Which corresponds to the following simple layout in memory:

So what's different from your drawing? Addresses of pointers and objects. If the pointer itself is placed at address 0, then the next pointer cannot be placed at address 1 simply because a pointer itself takes more space, and so other data can only be placed at `0 + sizeof(void*)` address. For objects, the next address is greater by at least the size of the object itself (i.e. `sizeof(myobj)`).

When dynamic allocation gets involved, the picture changes a bit. For example, when operator "new" is used to allocate objects like this:

``````myobj *ptra = new myobj();
myobj *ptrb = new myobj();
myobj **ptrc = &ptrb;
``````

... you can think of a memory layout like this:

Now, a pointer to another pointer (**) is nothing but a pointer that points to the first of one or more pointers that point to object(s). Easy, right? Any you can have pointer to a pointer to a pointer... Anyway, with a dynamically allocated pointer to pointers, like this:

``````myobj *ptra = new myobj();
myobj *ptrb = new myobj();
myobj **ptrc = new myobj*[2];
ptrc[0] = ptra;
ptrc[1] = ptrb;
``````

The memory layout could look like this:

By the way, you have an error in your line #3 here - `myobj **ptrc = new *myobj();`. It should be `myobj **ptrc = new myobj*();`.

To address your later questions, below is a diagram depicting the result of `myobj *ptrb = new myobj[2]();` expression where you have a pointer that points to two objects allocated dynamically. The pointer itself points to the first object out of two allocated:

And one more time about pointers to pointers so that you can see the difference. Consider the following code:

``````struct myobj {
int v;
};

int main()
{
myobj *ptra = new myobj[2]();
myobj *ptrb = new myobj[4]();
myobj **ptrc = new myobj*[2];

ptrc[0] = ptra;
ptrc[1] = ptrb;

ptrc[0][0].v = 1;
ptrc[0][1].v = 2;
ptrc[1][0].v = 3;
ptrc[1][1].v = 4;
ptrc[1][2].v = 5;
ptrc[1][3].v = 6;
}
``````

It will create the following layout:

As you can see, the stack contains three pointers (they are also objects) that are not dynamically allocated. This is a result of declaration:

``````myobj *ptra;
myobj *ptrb;
myobj **ptrc;
``````

Then, three different things are allocated with "new":

1. Two objects of type `myobj` are allocated with expression `new myobj[2]()`, the address to the first of those objects is stored in pointer `ptra`.
2. Four objects of type `myobj` are allocated with expression `new myobj[4]()`, the result of that expression is address of the first out of four objects, and it is stored in pointer "ptrb".
3. Two pointers are allocated with with expression `new myobj*[2]`. The result of that expression is an address of the first out of two pointers. That address is stored in variable `ptrc`.

Now, those two allocated pointers (in "Block C") point "nowhere". So just for the sake of example we make them point to the same objects as `ptra` and `ptrb` are pointing by copying pointers "by value":

``````ptrc[0] = ptra;
ptrc[1] = ptrb;
``````

That easy!

-
Great explanation! Thank you for the effort! And, do you mind saying what you used to draw the diagrams? – Meysam Oct 21 '12 at 7:47
@Meysam: Thanks. The diagrams are made using Omni Graffle (omnigroup.com/products/omnigraffle). – user405725 Oct 21 '12 at 13:32
Hi , great post - you typed in printf("pointer size: %lu\n", sizeof(void *)); Is that missing something ? – Murphy316 Oct 21 '12 at 15:34
@VladLazarenko Also could you explain `myobj *ptrb = new myobj[2]();` using the diagram , Will ptrb in this case point to just one address or multiple addresses ? – Murphy316 Oct 21 '12 at 16:57
That answers the question. Thanks for the great explanation – Murphy316 Oct 21 '12 at 17:56