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in c++11, if I use a range based for loop on vector, will it guarantee the iterating order? say, will the following code blocks are guaranteed for same output?

vector<T> output;
vector<U> V;
for( auto v: V) output.push_back(f(v));


for(int i =0; i < V.size(); ++i) output.push_back(f(V[i])); 

what if it is not vector but map etc?

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You could certainly optimize a bit an unnecessary copy by doing auto& instead of auto –  Jean-Michaël Celerier Dec 31 '13 at 16:25

3 Answers 3

up vote 8 down vote accepted

Yes the two codes are guaranteed to do the same. Though I don't have a link to the standard you can have a look here. I quote: You can read that as "for all x in v" going through starting with v.begin() and iterating to v.end().

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or here Executes statement repeatedly and sequentially for each element in expression. –  qxixp Sep 27 '13 at 13:36

Yes and no (It depends on the container in use):

  • The range based for is a loop like for(iterator pos = range.begin(); pos != range.end(); ++pos) { /* with a range variable = *pos */ ... }
  • An operator [] might do something different (eg. a std::map operator does a lookup on the key and create a new entry, if the key does not exist)


#include <iostream>
#include <map>

int main()
    typedef std::map<int, int> map;
    map m = { { 0, 0 }, { 2, 2 }, { 4, 4 } };
    for(const auto& e : m) {
        std::cout << e.first << " ";
    std::cout << std::endl;
    for(map::size_type i = 0; i < m.size(); ++i) {
        std::cout << m[i] << " ";
    std::cout << std::endl;
    return 0;

The result is:

0 2 4 
0 0 2 0 4 

(The second result might be a good shot in the own foot or even intended)

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You should probably point out that either way the user is doing something dreadfully wrong in this example. If you have sequential indexes on a map with keytype int, then you shouldn't be using a map, you should be using a deque or vector or array. If you do not have sequential indexes, then you should be iterating using iterators, not using for (int i = 0; i < blah; ++i) –  OmnipotentEntity Sep 27 '13 at 13:53

Yes, they are equivalent. The standard guarantees in 6.5.4:

For a range-based for statement of the form

for ( for-range-declaration : expression ) statement

let range-init be equivalent to the expression surrounded by parentheses ( expression )

and for a range-based for statement of the form

for ( for-range-declaration : braced-init-list ) statement

let range-init be equivalent to the braced-init-list. In each case, a range-based for statement is equivalent to

  auto && __range = range-init;
  for ( auto __begin = begin-expr,
      __end = end-expr;
      __begin != __end;
      ++__begin ) {
    for-range-declaration = *__begin;

where __range, __begin, and __end are variables defined for exposition only, and _RangeT is the type of the expression, and begin-expr and end-expr are determined as follows: of the expression, and begin-expr and end-expr are determined as follows:

— if _RangeT is an array type, begin-expr and end-expr are __range and __range + __bound, respectively, where __bound is the array bound. If _RangeT is an array of unknown size or an array of incomplete type, the program is ill-formed;

— if _RangeT is a class type, the unqualified-ids begin and end are looked up in the scope of class _RangeT as if by class member access lookup (3.4.5), and if either (or both) finds at least one declaration, begin- expr and end-expr are __range.begin() and __range.end(), respectively;

— otherwise, begin-expr and end-expr are begin(_range) and end(_range), respectively, where begin and end are looked up with argument-dependent lookup (3.4.2). For the purposes of this name lookup, namespace std is an associated namespace.

Though your question about map is a bit nonsensical. If it's an ordered map and you iterate through the map properly, then they're equivalent. If it's an unordered map then your question doesn't really make much sense.

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