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I have a doubt concerning declaring variables, their scope, and if their address could be sent to other functions even if they are declared on the stack?

class A{
    AA a;
    void f1(){
        B b;

class AA{ B* mb; f2(B* b){ mb = b; //... } };

Afterwards, I use my AA::mb pointer in the code. So things I would like to know are following.
When the program exits A::f1() function, b variable since declared as a local variable and placed on the stack, can't be used anymore afterwards.

  1. What happens with the validity of the AA::mb pointer?
    It contains the address of the local variable which could not be available anymore, so the pointer isn't valid anymore?
  2. If B class is a std::<vector>, and AA::mb is not a pointer anymore to that vector, but a vector collection itself for example. I would like to avoid copying all of it's contents in AA::f2() to a member AA::mb in line mb = b. Which solution would you recommend since I can't assign a pointer to it, because it'll be destroyed when the program exits AA::f2()
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Your syntax is very confusing. Could you code up and compile this before you ask your question, so we can agree on what the compiler will do to the code? –  WhirlWind Apr 30 '10 at 20:08
@WhirlWind I agree, but the code is using some vector of structures of other structures, so It would take a bit time to figure out the code. I tried to simplify it as much as possible, but I see I didn't do you a favor. Perhaps at least I could have given the variables a more meaningful names. –  kobac Apr 30 '10 at 20:16

2 Answers 2

up vote 5 down vote accepted

It contains the address of the local variable which could not be available anymore, so the pointer isn't valid anymore?

Yes. It becomes a dangling pointer.

You could try vector::swap, as in:

class AA {
  B mb; // not a pointer
  f2(B* b){
    mb.swap(*b); // swap the content with b, which is just a few pointer assignments.
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where did you get the "9 pointer assignments" from? I would assume that it would be 2 pointer assignments (one for each vector), possibly with a 3rd for temporary... but I imagine it's implemention-dependent regardless. –  rmeador Apr 30 '10 at 20:27
@rmeador: Swapping 2 elements take 3 assignments (temp=a;a=b;b=temp;). There are 3 pointers in a vector (begin, end, capacity). At least that's how GCC implements it. –  kennytm Apr 30 '10 at 20:30
What if I allocated memory in A::f1() function with the statement B* b = new B();. After program exits f1(), the memory allocated for new B object is still there on the heap and can be referenced from other parts of the program, but the pointer b can't be used anymore, since it was on the stack ? –  kobac Apr 30 '10 at 22:27
@kobac: The heap memory will not be removed until you explicitly delete it or the program ends. So the content of b can be used by other parts of the program. The pointer b itself can be copied. –  kennytm May 1 '10 at 6:32

The address of a variable is a pointer. If the variable was allocated on the stack, then the pointer refers to some address on the stack. When a function returns, the next function (or some future function) that is called creates local variables in the same place on the stack. Nothing happened to the pointer, but the data pointed to has now changed.

When you allocate memory with new or malloc, you are reserving space in the heap. Nothing else should use that space until you call delete or free. Anything that may be referenced once a function returns must be allocated on the heap.

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