Possible Duplicate:
Why use iterators instead of array indices?

string::iterator it;
for (it = str.begin(); it < str.end(); it++) 
    cout << *it;
cout << endl;

Why not:

for (int i = 0; i < str.size(); i++)
    cout << str[i];
cout << endl;

It seems that string::iterator does not provide range check either. Why should we use string::iterator rather than index?


  • 8
    @jcyang: apart from other's answers, make sure you create a habit of using pre-increment with iterators in loops. i.e. use ++it and not it++. The pre-increment will not create unnecessary temporaries.
    – Jagannath
    Jan 3, 2010 at 14:50
  • 6
    In addition to Jagannath's comment, prefer operator!=() over operator<() when comparing an iterator to end().
    – jason
    Jan 3, 2010 at 15:14
  • 2
    @jcyang: The typical implementation of post-increment is MyIterator operator++(int) { MyIterator temp(*this); ++*this; return temp; }. This creates an unnecessary temporary whether or not it is assigned. I am implicitly assuming we have also overrode (overridden? overrided?) pre-increment.
    – jason
    Jan 3, 2010 at 15:26
  • 2
    @jcyang: It is preferred to use ++i. Because if you later change the types used then you don't need to worry about changing the code. You will now always have the most efficient version no matter what the type of the loop variable is. Jan 3, 2010 at 17:24
  • 7
    @jcyang: Iterators don't (in general) have operator < defined for them. You just happen to be getting lucky that the iterator for std::string does. You should use the operator != when testing to see if you have reached then end. Jan 3, 2010 at 17:27

9 Answers 9


The index can only be used for containers that support random access - direct access to a given position.

The iterator offers a unified way to access any collection/data structure. The flexibility when refactoring your code is immense.


Iterators are a standard interface. By using iterators, you can use the same algorithms with different containers. The final decision whether to use them or not is up to you based on usability and readability.

For example, using the standard transform algorithm to covert std::string to uppercase:

std::string str = "A String";
std::transform(str.begin(), str.end(), str.begin(), ::toupper);

will result in str being equal to "A STRING".

  • what about the specific string::iterator?are there any benefits,for example?
    – Jichao
    Jan 3, 2010 at 15:26
  • @jcyang: Only that if you use iterators, then it works anywhere iterators are expected, and the string can be changed to a char array or a vector or some other container, and your loop will still work.
    – jalf
    Jan 3, 2010 at 17:21
  • In the example above, the method std::string::begin() returns a std::string::iterator, as with std::string::end(). The benefit is that you can use the std::transform algorithm. You can't use it with indices. Jan 3, 2010 at 20:12
  • How to iterate by UTF-8 characters (not by 8-bits chars)? Is there UTF-8 iterator for std::strings (I guess the type of the iterator should be uint16_t or uint32_t). How to iterate over Greek letters string "\u03b4\u03b8\u03c6"?
    – x4444
    Jan 8, 2021 at 23:49

For std::string specifically, i would suggest you use indexes since it supports Random Access and its simpler that way. The only reason its "recommended" to use iterators is because iterators offer a standard interface to access sequences so that if your sequence changed to std::list for example, your iteration code would remain un-affected

  • Also note that iterators can be invalidated, while indices are not.
    – musiphil
    Mar 27, 2013 at 23:17

In cases where you don't know which class you're iterating over (because it's a template argument), you should use an iterator because not every class that provides an iterator also provides [] (and not every class that does provide [], provides one which works in O(1) time). So by using iterator you'll make sure that the function will work with as many classes as possible (though not with C arrays).

In this specific case, I see no reason to prefer one over the other except personal preference or maybe premature optimization.


Duplicate of:

  1. Iterators.. why use them?
  2. Why use iterators instead of array indices?

That said, it's a matter of genericity. You can do a lot more with iterators using STL than with array access. Also, if you need to refactor code, and change the string to a vector, list or rope, you wont have to rewrite your code at all.

Finally there's the question of safety in iteration. If you want to access the NEXT character in your loop, with iterators you could do that safely, but increasing the array subscript might segfault on you on the last element, hence needing another check.

  • 2
    Trying to access (dereference) the next character in a loop is no safer with iterators than with array subscripts! Both need a check to make sure you're not already at end-of-string. Nov 17, 2012 at 5:01

As stated in this question, size() method is not guaranteed to be O(1)

  • 1
    It seems unclear from that thread. A comment mentions that s.end() - s.begin() definitely has constant complexity, so one would have to be mad to implement size() with a worse complexity.
    – UncleBens
    Jan 3, 2010 at 14:58
  • Why? Size can be based on strlen()-alike which is O(stringLength). In order to implement size() in O(1) you will need memory...
    – Drakosha
    Jan 3, 2010 at 15:28
  • 2
    s.size() cannot be implemented with a strlen()-alike, since std::string may contain any character (including '\0'). Also, the string has to keep track where it ends (or its size). Why would you think s.end() and the iterators would be any better, if the string didn't know its length and had to find the end in O(N)?
    – UncleBens
    Jan 3, 2010 at 16:15
  • 1
    @UncleBens: If the string does not store its size (it is not required to do so but probably does). Then finding the size() would be O(n). As would finding the size using iterators begin() and end() (doing end() - begin() may not be straight arithmetic as there is no requirement for contiguous memory in strings). But the second loop does not calculate the size, it just keeps incrementing the iterator until it reaches then end. Jan 3, 2010 at 17:35
  • @LokiAstari: The storage for basic_string should be contiguous. See LWG issue #530.
    – musiphil
    Mar 27, 2013 at 23:28

Both works.

The main reason would be consistency: you're iterating over a collection or the characters of a string the same way, by requesting an iterator and making it advance.

I would not say the implementation details of ++it resulting in a pointer increment compared to str[i] involving pointer arithmetics is worth mentioning. And range checking are implementation detail as well.


Iterators are safer and provide more flexibility as posted by someone else too.In additon an index only can be used for containers that (efficiently) support random access (i.e. direct access to an element at a given position).An iterator is a more general concept. Iterators offer efficient traversal of linked lists, files, and a number of other data structures. It often leads to the generation of more efficient code.

  • 4
    Iterators are not faster. every test have ever done using them indicates that they are if anything slightly slower.
    – anon
    Jan 3, 2010 at 14:45
  • Thanks, I have corrected my post. Jan 3, 2010 at 15:40

In C++, you can do many things in many different ways. This is one more example. In this case, there is no difference which method to use. But in general, iterators are faster, safer and provide more flexibility amond different types of containers.

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