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Is there any way to check if an iterator (whether it is from a vector, a list, a deque...) is (still) dereferencable, i.e. has not been invalidated?

I have been using try-catch, but is there a more direct way to do this?

Example: (which doesn't work)

list<int> l;
for (i = 1; i<10; i++) {
    l.push_back(i * 10);
}

itd = l.begin();
itd++;
if (something) {
    l.erase(itd);
}

/* now, in other place.. check if itd points to somewhere meaningful */
if (itd != l.end())
{
    //  blablabla
}
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4  
In C++, when you're just modifying the iterator and not using the value, you should always prefer ++itd to itd++. –  R Samuel Klatchko Jan 14 '10 at 8:47
5  
After seeing your new code example, note that STL erase methods return the next iterator, which is a valid iterator (though it may be the end iterator). Therefore, to help keep itd valid, you could do this: if (something) { itd = l.erase(itd); } –  Jason Govig Jan 14 '10 at 9:03
    
Mmm... I see... –  huff Jan 14 '10 at 9:06
    
Also note that the reason R Samuel Klatchko advises always preferring pre-increment (++itd) over post-increment (itd++) is efficiency. Down to the differences in the implementation of the 2 operators, pre-increment will always be faster. It's also not just iterators it's relevant to, but any value that can be pre- and post-incremented. –  boycy Sep 27 '11 at 9:27
    
possible duplicate of How to check whether STL iterator points at anything? –  BЈовић Jan 22 '13 at 7:13
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9 Answers

up vote 33 down vote accepted

I assume you mean "is an iterator valid," that it hasn't been invalidated due to changes to the container (e.g., inserting/erasing to/from a vector). In that case, no, you cannot determine if an iterator is (safely) dereferencable.

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Exactly. Thanks. –  huff Jan 14 '10 at 8:49
5  
Although, I think it is time to introduce Checked STL into the fray: a checked stl goal is to catch iterators errors > use of invalid iterators or comparison of iterators from different containers among others. A trip by a checked stl should definitely be part of your test suite ;) –  Matthieu M. Jan 14 '10 at 20:21
    
@Matthieu M : I dont think thats gonna happen in near future, as doing so would cost at the least, 1. keeping pointer to every iterator that refers the vector 2. When invalidating going through each element of the list Performance hawks will shoot that down from miles. :( –  Ajeet Sep 9 '11 at 2:59
1  
@Ajeet: Checked STL already exist, usually baked in the traditional STL but #ifdefed out. It does cost, slowing the code, but MSVC's for example has 2 levels of checks, the first one being very accessible (the second one is definitely slow...) Do remember that this is obviously only for Test builds. –  Matthieu M. Sep 9 '11 at 6:03
    
Well, the C++SL documents precisely for each and every container member function whether or not it invalidates iterators. Insofar, you cannot check but you can know. –  Damon Jan 22 '13 at 19:53
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As jdehaan said, if the iterator wasn't invalidated and points into a container, you can check by comparing it to container.end().

Note, however, that if the iterator is singular -- because it wasn't initialized or it became invalid after a mutating operation on the container (vector's iterators are invalidated when you increase the vector's capacity, for example) -- the only operation that you are allowed to perform on it is assignment. In other words, you can't check whether an iterator is singular or not.

std::vector<int>::iterator iter = vec.begin();
vec.resize(vec.capacity() + 1);
// iter is now singular, you may only perform assignment on it,
// there is no way in general to determine whether it is singular or not
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2  
I wasn't aware of the term 'singular'. Thanks for teaching! –  xtofl Jan 14 '10 at 8:47
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Usually you test it by checking if it is different from the end(), like

if (it != container.end())
{
   // then dereference
}

Moreover using exception handling for replacing logic is bad in terms of design and performance. Your question is very good and it is definitively worth a replacement in your code. Exception handling like the names says shall only be used for rare unexpected issues.

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So, when you destroy the element that the iterator is pointing to in a list, or an element situated before on a vector, the iterator then points to the end? I doesn't, in my case... (I will edit the question to be more clear) –  huff Jan 14 '10 at 8:41
    
When deleting and inserting, all iterators and references might be destroyed. So then you better get new iterators before you continue. This is because a eg. a vector will sometimes have to reallocate all the memory before adding a new item. This will then ofcourse invalidate all pointers, references and iterators (which in most cases are much like pointers) –  daramarak Jan 14 '10 at 8:46
    
@huff You have to read the API documentation of vector::erase and list::erase to understand the behavior. Further there are some gray areas here where the API was (is it still?) slightly different for Microsoft and GCC implementation of std::map::erase, if I can recall correctly. –  phaedrus Jan 14 '10 at 8:48
    
@huff in that case all iterators become invalid. There are quite good books like Effective STL & More effective STL from C++ Guru Scott Meyers or other books from Herb Sutter that can explain what happens in detail. For some containers the erase returns an iterator so you can safely iterate further. –  jdehaan Jan 14 '10 at 9:15
    
@jdehaan: I'll check that book. Thx for the recommendation. –  huff Jan 14 '10 at 9:23
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Non-portable answer: Yes - in Visual Studio

Visual Studio's STL iterators have a "debugging" mode which do exactly this. You wouldn't want to enable this in ship builds (there is overhead) but useful in checked builds.

Read about it on VC10 here (this system can and in fact does change every release, so find the docs specific to your version).

Edit Also, I should add: debug iterators in visual studio are designed to immediately explode when you use them (instead undefined behavior); not to allow "querying" of their state.

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Trying and catching is not safe, you will not, or at least seldom throw if your iterator is "out of bounds".

what alemjerus say, an iterator can always be dereferenced. No matter what uglyness lies beneath. It is quite possible to iterate into other areas of memory and write to other areas that might keep other objects. I have been looking at code, watching variables change for no particular reason. That is a bug that is really hard to detect.

Also it is wise to remember that inserting and removing elements might potentially invalidate all references, pointers and iterators.

My best advice would be to keep you iterators under control, and always keep an "end" iterator at hand to be able to test if you are at the "end of the line" so to speak.

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1  
With 'can be dereferenced' you probably mean: nobody will prevent you from doing it. However, undefined behavior will occur when dereferencing invalidated iterators. –  xtofl Jan 14 '10 at 8:46
    
Yes, there is a difference between dereferencing and safely dereferencing... –  daramarak Jan 14 '10 at 8:50
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Is there any way to check if a iterator (whether it is from a vector, a list, a deque...) is (still) dereferencable, i.e has not been invalidated ?

No, there isn't. Instead you need to control access to the container while your iterator exists, for example:

  • Your thread should not modify the container (invalidating the iterator) while it is still using an instantiated iterator for that container

  • If there's a risk that other threads might modify the container while your thread is iterating, then in order to make this scenario thread-safe your thread must acquire some kind of lock on the container (so that it prevents other threads from modifying the container while it's using an iterator)

Work-arounds like catching an exception won't work.

This is a specific instance of the more general problem, "can I test/detect whether a pointer is valid?", the answer to which is typically "no, you can't test for it: instead you have to manage all memory allocations and deletions in order to know whether any given pointer is still valid".

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And in a multithreaded scenario, this will suck, won't it?: l.erase(itd); itd = l.end(); - And the other thread compares itd to l.end(). - Yeah, I know it's not perfect, but the chances of the other thread intervening after the erasing and before the assignation are so remote... eheheh :D –  huff Jan 14 '10 at 9:02
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if (iterator != container.end()) {
   iterator is dereferencable !
}

If your iterator doesnt equal container.end(), and is not dereferencable, youre doing something wrong.

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use erase with increment :

   if (something) l.erase(itd++);

so you can test the validity of the iterator.

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In some of the STL containers, the current iterator becomes invalid when you erase the current value of the iterator. This happens because the erase operation changes the internal memory structure of the container and increment operator on existing iterator points to an undefined locations.

When you do the following, iterator is incementented before it is passed to erase function.

if (something) l.erase(itd++);

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