# Difference between Iterator and reverse iterator

what is difference between the following two code snippets.

``````vector<int> a;
// initialization code
sort( a.rbegin(), a.rend() );
``````

and

``````vector<int> a;
// same initialization as above
sort(a.begin(), a.end(), comp);
``````

where comp is a boolean function given below

``````bool comp( int i, int j)
{
return i>j;
}
``````

To illustrate, the following code gives WA while this code gives AC for SPOJ problem XMAX. The only difference between AC and WA is the version of sort() used.

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Have you tried to look at the output of the sorting directly? –  Philipp Jan 18 at 19:06
Sounds like homework. What have you tried? –  Ulrich Eckhardt Jan 18 at 19:07
@Philipp When I tried both sorting versions gave the same output but I am confused why one version gives AC while other gives WA on SPOJ –  Siva Prasad Varma Jan 18 at 19:22
@moderators why is there no tag for reverse-iterators?? –  TemplateRex Jan 18 at 19:44

The two function calls do NOT give the same answer because `std::sort` is not a stable algorithm, i.e. it does not keep identical elements in their relative ordenings. Below an example where elements of `std::pair<int, int>` are sorted on their first element. Sorting and sorting in reverse order with the reversed comparison function does not yield identical sequences. Doing the same with `std::stable_sort` does yield identical results.

``````#include <algorithm>
#include <iostream>
#include <ios>
#include <vector>

int main()
{
typedef std::pair<int, int> Element;
std::vector<Element> v;

v.push_back( Element(1,1) );
v.push_back( Element(-1,1) );
v.push_back( Element(1,2) );
v.push_back( Element(-1,2) );
v.push_back( Element(1,3) );
v.push_back( Element(-1,3) );
v.push_back( Element(1,4) );
v.push_back( Element(-1,4) );
v.push_back( Element(1,5) );
v.push_back( Element(-1,5) );
v.push_back( Element(1,6) );
v.push_back( Element(-1,6) );
v.push_back( Element(1,16) );
v.push_back( Element(-1,16) );
v.push_back( Element(1,22) );
v.push_back( Element(-1,22) );
v.push_back( Element(1,33) );
v.push_back( Element(-1,33) );
v.push_back( Element(1,44) );
v.push_back( Element(-1,44) );
v.push_back( Element(1,55) );
v.push_back( Element(-1,55) );
v.push_back( Element(1,66) );
v.push_back( Element(-1,66) );

for (auto it = v.begin(); it != v.end(); ++it) {
std::cout << "(" << it->first << "," << it->second << ")" << " ";
}
std::cout << "\n";

auto w1 = v;
std::sort(w1.begin(), w1.end(), [](Element const& e1, Element const& e2){
return e1.first < e2. first;
});
auto w2 = v;
std::sort(w2.rbegin(), w2.rend(), [](Element const& e1, Element const& e2) {
return e1.first > e2.first;
});
std::cout << std::boolalpha << std::equal(w1.begin(), w1.end(), w2.begin()) << "\n";

auto w3 = v;
std::stable_sort(w3.begin(), w3.end(), [](Element const& e1, Element const& e2){
return e1.first < e2. first;
});
auto w4 = v;
std::stable_sort(w4.rbegin(), w4.rend(), [](Element const& e1, Element const& e2) {
return e1.first > e2.first;
});
std::cout << std::boolalpha << std::equal(w3.begin(), w3.end(), w4.begin()) << "\n";

}
``````

Output on LiveWorkSpace

-

Reverse iterators simple iterate in the reverse direction of normal iterators.

So, both snippets will sort everything inside the range [first, last] both in ascending order. The difference is in the first it will use the < operator for comparison and in the second your given function.

In detail the first actually is sorting in non-ascending order but since you also reverse tho comparison it gets reversed again, which neutralizes the effect.

NOTE: Elements that would compare equal to each other are not guaranteed to keep their original relative order.

-

As the name suggests, a reverse iterator visits a collection in reverse order. If you ask the STL `sort()` algorithm to sort the range from `a.begin()` to `a.end()`, it places the resulting values in... the range from `a.begin()` to `a.end()`, in the order defined by those iterators.

So what happens if you ask it to sort the range from `a.rbegin()` to `a.rend()`? It puts the results in... the range from `a.rbegin()` to `a.rend()`, in the order defined by those iterators.

-

`rbegin` gives you an iterator that points to the end of your list and will move backward as you ask for it to move forward. Similarly, `rend` gives you an iterator to the beginning of your list.

``````sort(a.begin(), a.end(), comp);
``````

The third parameter here is used to define your own sort order. If you don't specify one then the default of that object will be used.

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sorting pairs on their first element does not give identical results, for that you need `stable_sort` –  TemplateRex Jan 18 at 19:41
@rhalbersma, for the question as written it does not matter, as the order of identical `int`s is irrelevant. I admit I didn't link through to the examples, which evidently are more complex. –  Mark Ransom Jan 18 at 19:53
An iterator runs from first to last, a reverse iterator runs from last to first. So `sort(a.begin(), a.end())` puts the elements in the range [first, last) in order; `sort(a.rbegin(), a.rend())` puts the elements in the range [last, first) in order, producing the opposite order from the first version.