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Lets say that I have got a vector like this.

std::vector<a_complicated_whatever_identifier *> *something
    = new std::vector<a_complicated_whatever_identifier *>;
// by the way, is this the right way to do this?

Now I want to get an iterator for this... so I would do this like this.

std::vector<a_complicated_whatever_identifier *>::iterator iter;

But I find it a little too much for my code. I wonder, is there any more, brief way to ask for an iterator regardless of the type?

I was thinking in something like.

something::iterator iter;
    // OK, don’t laugh at me, I am still beginning with C++

Well, it obviously fail, but I guess you get the idea. How to accomplish this or something similar?

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5  
That's what typedefs are for. –  littleadv Sep 21 '11 at 19:41
    
We usually write just std::vector<a_complicated_whatever_identifier *> something;. Compared to Java, C++ rarely uses new. –  MSalters Sep 21 '11 at 22:13

6 Answers 6

up vote 7 down vote accepted

Use a typedef.

typedef std::vector<complicated *>::iterator complicated_iter

Then set them like this:

complicated_iter begin, end;
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std::vector<complicated *>::iter? What is it? –  Nawaz Sep 21 '11 at 19:46
    
Whoops, corrected. I'm used to calling iterators "iter" for variables. –  Chris C Sep 21 '11 at 19:47

You would typically give your containers sensible typedefs, and then it's a breeze:

typedef std::pair<int, Employee> EmployeeTag;
typedef std::map<Foo, EmployeeTag> SignInRecords;

for (SignInRecords::const_iterator it = clock_ins.begin(); ... )
           ^^^^^^^^^^^^^^^^^

Usually, having a handy typedef for the container is more practical and self-documenting that an explicit typedef for the iterator (imagine if you're changing the container).

With the new C++ (11), you can say auto it = clock_ins.cbegin() to get a const-iterator.

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In C++11 you'll be able to use auto.

auto iter = my_container.begin();

In the meantime just use a typedef for the vector:

typedef std::vector<a_complicated_whatever_identifier *> my_vector;
my_vector::iterator iter = my_container.begin();
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You should rarely have much need/use for defining an iterator directly. In particular, iterating through a collection should normally be done by a generic algorithm. If there's one already defined that can do the job, it's best to use it. If there's not, it's best to write your own algorithm as an algorithm. In this case, the iterator type becomes a template parameter with whatever name you prefer (usually something referring at least loosely to the iterator category):

template <class InputIterator>
void my_algorithm(InputIterator start, InputIterator stop) { 
    for (InputIterator p = start; p != stop; ++p) 
        do_something_with(*p);
}

Since they've been mentioned, I'll point out that IMO, typedef and C++11's new auto are (at least IMO) rarely a good answer to this situation. Yes, they can eliminate (or at least reduce) the verbosity in defining an object of the iterator type -- but in this case, it's basically just treating the symptom, not the disease.

As an aside, I'd also note that:

  1. A vector of pointers is usually a mistake.
  2. Dynamically allocating a vector is even more likely a mistake.

At least right off, it looks rather as if you're probably accustomed to something like Java, where you always have to use new to create an object. In C++, this is relatively unusual -- most of the time, you want to just define a local object so creation and destruction will be handled automatically.

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I have never coded in Java, I am using a vector of pointers, and with new keyword, because it will store references to instances of a certain class (it will be for a static member of the class), and the number of objects will be determined only at runtime. They can be from 1 up to OVER NINE THOUSAND!!! So, I guess that is the way to do it. –  user912695 Sep 21 '11 at 19:59
    
@Mario: None of that seems to justify either dynamic allocation of the vector, or its containing pointers. If anything, it sounds like just the opposite. And, BTW, "over 9 thousand" objects in a collection hardly qualifies for an exclamation point at all, not to mention three; up to hundreds of millions of objects is pretty routine, and billions (read as "milliards" if you use that) is hardly unheard of. –  Jerry Coffin Sep 21 '11 at 20:09
    
@JerryCoffin : knowyourmeme.com/memes/its-over-9000 –  ildjarn Sep 21 '11 at 20:18
    
@ildjarn: Thanks, but I think I'm just as happy not knowing anything about "dragonball". In any case, the reasoning seems to lack validity -- the reason to use a pointer(-like class) would be shared access to a common group of items; the number of items is mostly irrelevant. –  Jerry Coffin Sep 21 '11 at 20:32
    
@Jerry : Indeed, I agree that storing pointers seems unnecessary here; I was only pointing out the meaning of the meme. –  ildjarn Sep 21 '11 at 20:41

// by the way, is this the right way to do this?

What you are doing is correct. The best approach depends on how you want to use that vector.

But I find it a little too much for my code. I wonder, is there any more, brief way to ask for an iterator regardless of the type?

Yes, you can define the vector as a type:

typedef std::vector<a_complicated_whatever_identifier *> MyVector;
MyVector * vectPtr = new MyVector;
MyVector::iterator iter;
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If you have a recent compiler, I suggest giving c++11 a spin. Most compilers support it in the form of the --std=c++0x flag. You can do all kinds of nifty things related to type inference:

std::list<std::map<std::string, some_complex_type> > tables;

for (auto& table: tables)
{
     std::cout << table.size() << std::endl;
}

for (auto it = tables.begin(); it!= tables.end(); ++it)
{
     std::cout << it->size() << std::endl;
}

Also look at decltype and many other handyness:

// full copy is easy
auto clone = tables; 

// but you wanted same type, no data?
decltype(tables) empty;

Contrived example of combining typedefs with the above:

typedef decltype(tables) stables_t;
typedef stables_t::value_type::const_iterator ci_t;
share|improve this answer
    
I think you mean table.second.size(), it->second.size(), and stables_t::mapped_type::const_iterator. –  ildjarn Sep 21 '11 at 20:06
    
@ildjarn: oops, yes, thank you. Switched horses midway through the writing. Fixing it. –  sehe Sep 21 '11 at 20:17

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