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I remember hearing that the following code is not C++ compliant and was hoping someone with much more C++ legalese than me would be able to confirm or deny it.

std::vector<int*> intList;
intList.push_back(new int(2));
intList.push_back(new int(10));
intList.push_back(new int(17));

for(std::vector<int*>::iterator i = intList.begin(); i != intList.end(); ++i) {
  delete *i;
}
intList.clear()

The rationale was that it is illegal for a vector to contain pointers to invalid memory. Now obviously my example will compile and it will even work on all compilers I know of, but is it standard compliant C++ or am I supposed to do the following, which I was told is in fact the standard compliant approach:

while(!intList.empty()) {
  int* element = intList.back();
  intList.pop_back();
  delete element;
}
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4  
It would be non-compliant C++ if you erased the element intList.erase(i) inside the for loop (erase would invalid the iterator that you're using). In my experience, that's one reason for using the while (! empty) construct. Perhaps that's the rationale for what you were told. –  Dave Bacher Jun 16 '10 at 19:06
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8 Answers

up vote 5 down vote accepted

Your code is fine. If you're worried for some reason about the elements being invalid momentarily, then change the body of the loop to

int* tmp = 0;
swap (tmp, *i);
delete tmp;
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You code is valid, but the better solution will be to use smart pointers.

The thing is that all requirements to std::vector are located in 23.2.4 section of C++ Standard. There're no limitations about invalid pointers. std::vector works with int* as with any other type (we doesn't consider the case of vector<bool>), it doesn't care where they are point to.

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2  
+1 for smart pointers. –  Randolpho Jun 16 '10 at 18:42
1  
As I said your code is valid and standard compliant. As for smart pointers you could consider using boost::ptr_vector, maybe you will like it. Smart pointers gives you a more safe code, but it is case of taste. –  Kirill V. Lyadvinsky Jun 16 '10 at 18:51
1  
The thing is that all requirements to std::vector are located in 23.2.4 section of C++ Standard. There're no limitations about invalid pointers. vector works with int* as with any other type, it doesn't care where they are points to. –  Kirill V. Lyadvinsky Jun 16 '10 at 19:01
4  
@Kranar - "Consider that copying a pointer to invalid memory is illegal" - no, it's not. But dereferencing such a pointer of course is. –  Pukku Jun 16 '10 at 19:03
2  
@Kranar, there is nothing in the C or C++ specifications that disallow invalid pointers, as long as you don't dereference them. You have a misconception. –  Mark Ransom Jun 16 '10 at 19:20
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The C++ philosophy is to allow the programmer as much latitude as possible, and to only ban things that are actually going to cause harm. Invalid pointers do no harm in themselves, and therefore you can have them around freely. What will cause harm is using the pointer in any way, and that therefore invokes undefined behavior.

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"only ban things that are actually going to cause harm" I think it's important to point out that the Standard tends to ban things that cause harm to the implementation, rather than to the programs dumb programmers write. –  John Dibling Jun 16 '10 at 19:46
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Ultimately, this is a question of personal taste more than anything. It's not "standards non-compliant" to have a vector that contains invalid pointers, but it is dangerous, just like it's dangerous to have any pointer that points to invalid memory. Your latter example will ensure that your vector never contains a bad pointer, yes, so it's the safest choice.

But if you knew that the vector would never be used during your former example's loop (if the vector is locally scoped, for example), it's perfectly fine.

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The issue is that it's invalid to copy a pointer that points to invalid memory. Now sure it will work on most compilers without a problem, but it is illegal C++. Considering that vector's do a lot of copying of their elements, it could be considered thus, invalid for a vector to store an invalid pointer. –  Kranar Jun 16 '10 at 18:58
    
@Kranar: that's simply not true. C++ doesn't care what a pointer points to, and the language rules make no distinction. In fact, they give you lots of ways to shoot your toes off with pointer arithmetic. There are rules in the CPU and OS that keep a pointer out of addresses a program isn't allowed to use, but that's not C++, it's the system the program is operating in. C++ doesn't care. Yes, it's Bad Practice, and Dangerous to have invalid pointers, but it's not "illegal C++". –  Randolpho Jun 16 '10 at 19:03
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Where did you hear that? Consider this:

std::vector<int *> intList(5);

I just created a vector filled with 5 invalid pointers.

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This is not true. Your vector will be filled with 5 pointers to NULL as vector will default initialize all its members. NULL pointers are indeed valid. –  Kranar Jun 16 '10 at 18:47
2  
Actually, NULL pointers are by definition guaranteed to be invalid. They are the only pointer values where you can actually validate their invalidity. I believe what you mean to say is that the vector is filled with initialized pointer values rather than uninitialized values. –  Crazy Eddie Jun 16 '10 at 18:59
    
A NULL pointer value is a valid pointer value. There are rules about what constitutes a valid pointer value and they are numerous. While dereferencing a NULL valued pointer results in undefined behavior, it is nevertheless a valid pointer value. An invalid pointer value would be something like a pointer to deallocated memory. No operations may be performed on such a pointer. –  Kranar Jun 16 '10 at 19:20
    
@Kranar: There are no rules about what a NULL pointer is. NULL is a standardized value of 0, and nothing else. The rules you're talking about are not part of the language, they're "best practices" that have arisen around the language because of how easy it is to screw yourself if you're not careful when you use C or C++. –  Randolpho Jun 16 '10 at 19:25
    
Of course there are rules about what a NULL valued pointer is. Furthermore a NULL valued pointer is not a standardized value of 0, the rule simply specifies that the integer constant 0 will be converted into a null valued pointer. However some systems use other values to represent a null valued pointer. As I said C++ is a very tricky language and it requires a very precise understanding of the language to be able to answer some of these corner cases. –  Kranar Jun 16 '10 at 19:34
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In storing raw pointers in a container (I wouldn't recommend this) then having to do a 2 phase delete, I would choose your first option over the second.

I believe container::clear() will delete the contents of the map more efficiently than popping a single item at a time.

You could probably turn the for loop into a nice (psuedo) forall(begin(),end(),delete) and make it more generic so it didn't even matter if you changed from vector to some other container.

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I don't believe this is an issue of standards compliance. The C++ standards define the syntax of the language and implementation requirements. You are using the STL which is a powerful library, but like all libraries it is not part of C++ itself...although I guess it could be argued that when used aggressively, libraries like STL and Qt extend the language into a different superset language.

Invalid pointers are perfectly compliant with the C++ standards, the computer just won't like it when you dereference them.

What you are asking is more of a best practices question. If your code is multi-threaded and intList is potentially shared, then your first approach may be more dangerous, but as Greg suggested if you know that intList can't be accessed then the first approach may be more efficient. That said, I believe safety should usually win in a trade-off until you know there is a performance problem.

As suggested by the Design by Contract concept, all code defines a contract whether implicit or explicit. The real issue with code like this is what are you promising the user: preconditions, postconditions, invariants, etc. The libraries make a certain contract and each function you write defines its own contract. You just need to pick the appropriate balance for you code, and as long as you make it clear to the user (or yourself six months from now) what is safe and what isn't, it will be okay.

If there are best practices documented with with an API, then use them whenever possible. They probably are best practices for a reason. But remember, a best practice may be in the eye of the beholder...that is they may not be a best practice in all situations.

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it is illegal for a vector to contain pointers to invalid memory

This is what the Standard has to say about the contents of a container:

(23.3) : The type of objects stored in these components must meet the requirements of CopyConstructible types (20.1.3), and the additional requirements of Assignable types.

(20.1.3.1, CopyConstructible) : In the following Table 30, T is a type to be supplied by a C + + program instantiating a template, t is a value of type T, and u is a value of type const T.

expression  return type  requirement
xxxxxxxxxx    xxxxxxxxxxx  xxxxxxxxxxxxxxxxxxxxxxxxxxxxx
T(t)                       t is equivelant to T(t)
T(u)                       u is equivelant to T(u)
t.~T()      
&t          T*           denotes the address of t
&u          const T*     denotes the address of u

(23.1.4, Assignable) : 64, T is the type used to instantiate the container, t is a value of T, and u is a value of (possibly const) T.

expression  return type  requirement
xxxxxxxxxx    xxxxxxxxxxx  xxxxxxxxxxxxxxxxxxxxxxxxxxxxx
t = u         T&           t is equivilant to u

That's all that is says about the contents of an STL collection. It says nothing about pointers and it is particularly silent about the pointers pointing to valid memory.

Therefore, deleteing pointers in a vector, while most likely a very bad architectural decision and an invitation to pain and suffering with the debugger at 3:00 AM on a Saturday night, is perfectly legal.

EDIT:

Regarding Kranar's comment that "assigning a pointer to an invalid pointer value results in undefined behavior." No, this is incorrect. This code is perfectly valid:

Foo* foo = new Foo();
delete foo;
Foo* foo_2 = foo;  // This is legal

What is illegal is trying to do something with that pointer (or foo, for that matter):

delete foo_2; // UB
foo_2->do_something(); // UB
Foo& foo_ref = *foo_2; // UB

Simply creating a wild pointer is legal according to the Standard. Probably not a good idea, but legal nonetheless.

EDIT2:

More from the Standard regarding pointer types.

So sayeth the Standard (3.9.2.3) :

... A valid value of an object pointer type represents either the address of a byte in memory (1.7) or a null pointer (4.10)...

...and regarding "a byte in memory," (1.7.1) :

The fundamental storage unit in the C + + memory model is the byte. A byte is at least large enough to contain any member of the basic execution character set and is composed of a contiguous sequence of bits, the number of which is implementation-defined. The least significant bit is called the low-order bit; the most significant bit is called the high-order bit. The memory available to a C + + program consists of one or more sequences of contiguous bytes. Every byte has a unique address.

There is nothing here about that byte being part of a living Foo, about you having access to it, or anything of the sort. Its just a byte in memory.

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Thank you, consider however that assigning a pointer to an invalid pointer value results in undefined behavior. Would this not then make it illegal to store an invalid pointer value in a vector, since doing so violates the assignable requirement? –  Kranar Jun 16 '10 at 19:47
    
@Kranar: I will address this in an edit of my post in a moment. –  John Dibling Jun 16 '10 at 19:51
    
@Kranar: assigning a pointer to an invalid memory address does not result in undefined behavior. I think that's the problem you're having. It's perefectly legal to do, for example, int * p = reinterpret_cast<int *>(0x34E483);, inserting whatever value I want to create a pointer to an arbitrary address. That's legal C++. And that pointer now points to an invalid memory address. The only behavior that is undefined is if I later on do, for example, *p = 12;. –  Randolpho Jun 16 '10 at 20:01
    
Well I guess that's the crux of the matter... from what I know the code you provided is undefined behaviour. Now, it is possible on a given implementation that the address 0x34E483 will get converted into something valid by the compiler... for example it gets converted into the address of your sound card or video card... however, without such a guarantee from your compiler it is undefined behavior. Undefined behavior, after all can be defined for a specific platform or compiler implementation. –  Kranar Jun 16 '10 at 20:05
    
@Kranar: If you are delete ing pointers in a vector that you allocated with new, then it is an address in memory. How can it be other? –  John Dibling Jun 16 '10 at 20:07
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