70

Is it possible to iterate a vector from the end to the begin?

for (vector<my_class>::iterator i = my_vector.end();
        i != my_vector.begin(); /* ?! */ ) {
}

Or is that only possible with something like that:

for (int i = my_vector.size() - 1; i >= 0; --i) {
}
  • In C++11 you can use range-based for-loop with reverse adapter, see here – M.M Jul 22 '14 at 13:05
  • theoretically, on a 32 bit machine, for the second solution, if the vector size is larger than 2,147,483,647 + 1 it will overflow (vector::size() is unsigned), but currently chances are that you will never hit that limit (also current vector limit on 32 bit machines is 1,073,741,823). – Stefan Rogin Dec 22 '14 at 17:15

10 Answers 10

121

The best way is:

for (vector<my_class>::reverse_iterator i = my_vector.rbegin(); 
        i != my_vector.rend(); ++i ) { 
} 

rbegin()/rend() were especially designed for that purpose. (And yes, incrementing a reverse_interator moves it backward.)

Now, in theory, your method (using begin()/end() & --i) would work, std::vector's iterator being bidirectional, but remember, end() isn't the last element — it's one beyond the last element, so you'd have to decrement first, and you are done when you reach begin() — but you still have to do your processing.

vector<my_class>::iterator i = my_vector.end();
while (i != my_vector.begin())
{
     --i;
    /*do stuff */

} 

UPDATE: I was apparently too aggressive in re-writing the for() loop into a while() loop. (The important part is that the --i is at the beginning.)

  • I just realized that --i will cause a big problem if container is empty... Before going into do - while loop it makes sense to check (my_vector.begin() != my_vector.end()). – a1ex07 Aug 31 '10 at 18:07
  • 1
    Why are you using a do-while loop instead of just a while loop? Then you wouldn't need any special check for empty vectors. – jamesdlin Aug 31 '10 at 18:13
39

If you have C++11 you can make use of auto.

for (auto it = my_vector.rbegin(); it != my_vector.rend(); ++it)
{
}
22

The well-established "pattern" for reverse-iterating through closed-open ranges looks as follows

// Iterate over [begin, end) range in reverse
for (iterator = end; iterator-- != begin; ) {
  // Process `*iterator`
}

or, if you prefer,

// Iterate over [begin, end) range in reverse
for (iterator = end; iterator != begin; ) {
  --iterator;
  // Process `*iterator`
}

This pattern is usable, for example, for reverse-indexing an array using an unsigned index

int array[N];
...
// Iterate over [0, N) range in reverse
for (unsigned i = N; i-- != 0; ) {
  array[i]; // <- process it
}

(People unfamiliar with this pattern often insist on using signed integer types for array indexing specifically because they incorrectly believe that unsigned types prevent reverse indexing)

It can be used for iterating over an array using a "sliding pointer" technique

// Iterate over [array, array + N) range in reverse
for (int *p = array + N; p-- != array; ) {
  *p; // <- process it
}

or it can be used for reverse-iteration over a vector using an ordinary (not reverse) iterator

for (vector<my_class>::iterator i = my_vector.end(); i-- != my_vector.begin(); ) {
  *i; // <- process it
}
  • cppreference.com says, accessing the element at end() "results in undefined behavior", so I think, the loops should start at --end() – Thomas Schmid Jun 5 '18 at 7:24
  • @ThomasSchmid These loops never attempt to access at end(). Even though they seem to start at end(), they always make sure to decrement the iterator before the first access. – AnT Jun 5 '18 at 7:38
  • This is so much nicer then rbegin/rend because you can loop the other way at runtime (no template) auto a = vector<int>{0,1,2}; bool reversed = 0; auto it = (!reversed?a.begin():a.end()); auto end = (reversed?a.begin():a.end()); while(it != end) { if(reversed)--it; cout << *it << endl; if(!reversed)++it; } – colin Dec 18 '18 at 8:37
  • @colin Egads! that ugly!. You are testing reversed four times -- two of them inside a loop. Of course, testing a boolean is very fast, but still, why to work you don't have to? Especially, since the only purpose seems to be to make the code unreadable. how 'bout we use two separate loops? if (reversed) for (auto it = my_vector.rbegin(); it != my_vector.rend(); ++it) {doStuff(*it);} else for (auto it = my_vector.begin(); it != my_vector.end(); ++it) {doStuff(*it);} – James Curran Jul 16 at 14:57
  • Actually you missed my point. You are absolutely right to split it into two ifs but I wanted to get rid of the template on the doStuff(). Still doable though with the two ifs you have by looping the other way round on the first one. – colin Jul 17 at 15:38
9

User rend() / rbegin() iterators:

for (vector<myclass>::reverse_iterator it = myvector.rbegin(); it != myvector.rend(); it++)

5
template<class It>
std::reverse_iterator<It> reversed( It it ) {
  return std::reverse_iterator<It>(std::forward<It>(it));
}

Then:

for( auto rit = reversed(data.end()); rit != reversed(data.begin()); ++rit ) {
  std::cout << *rit;

Alternatively in C++14 just do:

for( auto rit = std::rbegin(data); rit != std::rend(data); ++rit ) {
  std::cout << *rit;

In C++03/11 most standard containers have a .rbegin() and .rend() method as well.

Finally, you can write the range adapter backwards as follows:

namespace adl_aux {
  using std::begin; using std::end;
  template<class C>
  decltype( begin( std::declval<C>() ) ) adl_begin( C&& c ) {
    return begin(std::forward<C>(c));
  }
  template<class C>
  decltype( end( std::declval<C>() ) ) adl_end( C&& c ) {
    return end(std::forward<C>(c));
  }
}

template<class It>
struct simple_range {
  It b_, e_;
  simple_range():b_(),e_(){}
  It begin() const { return b_; }
  It end() const { return e_; }
  simple_range( It b, It e ):b_(b), e_(e) {}

  template<class OtherRange>
  simple_range( OtherRange&& o ):
    simple_range(adl_aux::adl_begin(o), adl_aux::adl_end(o))
  {}

  // explicit defaults:
  simple_range( simple_range const& o ) = default;
  simple_range( simple_range && o ) = default;
  simple_range& operator=( simple_range const& o ) = default;
  simple_range& operator=( simple_range && o ) = default;
};
template<class C>
simple_range< decltype( reversed( adl_aux::adl_begin( std::declval<C&>() ) ) ) >
backwards( C&& c ) {
  return { reversed( adl_aux::adl_end(c) ), reversed( adl_aux::adl_begin(c) ) };
}

and now you can do this:

for (auto&& x : backwards(ctnr))
  std::cout << x;

which I think is quite pretty.

4

Use reverse iterators and loop from rbegin() to rend()

0

I like the backwards iterator at the end of Yakk - Adam Nevraumont's answer, but it seemed complicated for what I needed, so I wrote this:

template <class T>
class backwards {
    T& _obj;
public:
    backwards(T &obj) : _obj(obj) {}
    auto begin() {return _obj.rbegin();}
    auto end() {return _obj.rend();}
};

I'm able to take a normal iterator like this:

for (auto &elem : vec) {
    // ... my useful code
}

and change it to this to iterate in reverse:

for (auto &elem : backwards(vec)) {
    // ... my useful code
}
0

Here's a super simple implementation that allows use of the for each construct and relies only on C++14 std library:

namespace Details {

    // simple storage of a begin and end iterator
    template<class T>
    struct iterator_range
    {
        T beginning, ending;
        iterator_range(T beginning, T ending) : beginning(beginning), ending(ending) {}

        T begin() const { return beginning; }
        T end() const { return ending; }
    };

}

/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// usage:
//  for (auto e : backwards(collection))
template<class T>
auto backwards(T & collection)
{
    using namespace std;
    return Details::iterator_range(rbegin(collection), rend(collection));
}

This works with things that supply an rbegin() and rend(), as well as with static arrays.

std::vector<int> collection{ 5, 9, 15, 22 };
for (auto e : backwards(collection))
    ;

long values[] = { 3, 6, 9, 12 };
for (auto e : backwards(values))
    ;
-1

use this code

//print the vector element in reverse order by normal iterator.
cout <<"print the vector element in reverse order by normal iterator." <<endl;
vector<string>::iterator iter=vec.end();
--iter;
while (iter != vec.begin())
{
    cout << *iter  << " "; 
    --iter;
}
-2

As I don't want to introduce alien Mars new syntax whatever, and I simply want to build up on existing primitives, the below snippets seems to work:

#include <vector>
#include <iostream>

int main (int argc,char *argv[])
{
    std::vector<int> arr{1,2,3,4,5};
    std::vector<int>::iterator it;

    for (it = arr.begin(); it != arr.end(); it++) {
        std::cout << *it << " ";
    }

    std::cout << "\n************\n";

    for (it = arr.end() - 1; it != arr.begin()-1;it--) {
        std::cout << *it << " ";
    }

    return 0;
}

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