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lets say I have 2 maps:

map<int,vector<int>> id2courses;
map<int,vector <int>> id2allowed_courses;

And I would like for each key(id) see if list of courses contains only those courses that are allowed for that id. It can easily be done with a for loop, but I would like to exploit the fact that std::map is ordered, aka I would like to advance in both maps(incrementing the iterator with smaller key) and when I hit equal keys then I would like to do the comparisons. I know I can do it with nontrivial while loop, but I wonder is there a builtin STL way to do it

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For a key in the "allowed" map, there doesn't necessarily have to be an entry in the other map, or does it? –  leemes Feb 14 '13 at 9:15
You might want to check out std::set_intersection. –  Joachim Pileborg Feb 14 '13 at 9:15
@leemes no, lets say I care about the general case, no guarantee that .firsts are all the same. –  NoSenseEtAl Feb 14 '13 at 9:21

2 Answers 2

Using std::set_intersection is a bit of a hack:

map<int,vector<int>> id2courses;
map<int,vector <int>> i2allowed_courses;

set_intersection(id2courses.begin(), id2courses.end(),
                 i2allowed_courses.begin(), i2allowed_courses.end(),

The null_output_iterator is from the question Discarding the output of a function that needs an output iterator.

compare_and_do_something_if_same_key will be passed a pair<const int, vector<int>> from each map. If the keys are equal you can do the processing you want. You also need to return a boolean to represent the ordering of elements:

bool compare_and_do_something_if_same_key(
    pair<const int, vector<int>& a, pair<const int, vector<int>& b)
    if(a.first == b.first) {
        doProcessing(a, b);
    return a.first < b.first;

Caveat Emptor: The documentation says the compare function mustn't modify the objects being compared. I take that to mean mustn't modify in a way that would cause ordering problems. As you're not ordering by the second value in the pair I don't think this matters too much.

edit for readability:

This could be wrapped up into a named function:

template<typename Map, typename KeyValueProcessor> 
void process_values_for_matching_keys(
    Map& map1, Map& map2, KeyValueProcessor& keyValueProcessor);

And used as:

process_pairs_for_matching_keys(id2courses, i2allowed_courses, doProcessing);
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Interestingly, using std::merge instead of set_intersection produces the same results but is possibly a little less efficient as there are more assignments to the null_output_iterator. –  Peter Wood Feb 14 '13 at 10:35

You may make use of set_intersection(), but this implementation, though easier to read will be not be as well performing. I would use a cycle and increment two iterators over the two maps. I don't think there is a faster solution. Even if there is something built-in it will perform at it best as good as this naive solution.

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Why wouldn't it perform well? –  Peter Wood Feb 14 '13 at 9:21
set_intersection does one iteration over both containers. Next he will have to do another one to perform he wants on each of the elements to check for a given property. OP can do all that in a single iteration. –  Ivaylo Strandjev Feb 14 '13 at 9:23
I was imagining hacking the comparison function to perform the action. See my answer –  Peter Wood Feb 14 '13 at 9:30
@PeterWood I would challenge if that is more elegant than implementing two loops. Still it is helpful to know there is such option. –  Ivaylo Strandjev Feb 14 '13 at 9:32
@sarathi please note he has map. I suggest set_intersection for the keys of the map. but I would like to exploit the fact that std::map is ordered, aka I would like to advance in both maps –  Ivaylo Strandjev Feb 14 '13 at 10:11

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