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# stl::multimap - how do i get groups of data?

Multimap essentially has groups of data sorted by the key. I want a method by which I could access these individual groups and get their aggregate values. For example, in a `std::multimap< string, int >` I store

``````{"Group1", 1},
{"Group1", 2},
{"Group1", 3},

{"Group2", 10},
{"Group2", 11},
{"Group2", 12}
``````

Having stored these values, I should be able to iterate this multimap and get the aggregate values of each "group". Problem is there aren't any functions defined in STL to access MultiMaps in such a way. I could use `lower_bound`, `upper_bound` to manually iterate the multimap and total the group's contents, but I am hoping there could be better ways already defined in STL ? Can anyone propose a solution as to how I could get the aggregate values for a group in the above example.

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Very elegant and lambda method described here: stackoverflow.com/a/37680747/5516759 – Patricio Astudillo Jun 7 at 13:29

``````pair<Iter, Iter> range = my_multimap.equal_range("Group1");
int total = accumulate(range.first, range.second, 0);
``````

Is one way.

Edit:

If you don't know the group you are looking for, and are just going through each group, getting the next group's range can be done like so:

``````template <typename Pair>
struct Equal : public std::binary_function<Pair, Pair, bool>
{
bool operator()(const Pair &x, const Pair &y) const
{
return x.first == y.first;
}
};

Iter first = mmap.begin();
Iter last = adjacent_find(first, mmap.end(), Equal<MultimapType::value_type>());
``````
-
Shouldn't it be `x.first == y.first;`? Why have you used `operator<`? According to the document of `adjacent_find`, the predicate parameter should return the result of the comparison with true (non-zero) meaning that they are to be considered equal, and false (zero) for not-equal. Why are you returning true for non-equal result? – Meysam Nov 12 '12 at 7:40
Yes, this seems to be a mistake. `adjacent_find` expects an "equal" predicate. Also, I'm sure that there is `std::equal_to<T>` ready to use. – leemes Jan 3 '13 at 15:08
``````// samekey.cpp -- Process groups with identical keys in a multimap

#include <iostream>
#include <string>
#include <map>
using namespace std;

typedef multimap<string, int> StringToIntMap;
typedef StringToIntMap::iterator mapIter;

int main ()
{
StringToIntMap mymap;

mymap.insert(make_pair("Group2", 11));
mymap.insert(make_pair("Group1",  3));
mymap.insert(make_pair("Group2", 10));
mymap.insert(make_pair("Group1",  1));
mymap.insert(make_pair("Group2", 12));
mymap.insert(make_pair("Group1",  2));

cout << "mymap contains:" << endl;

mapIter m_it, s_it;

for (m_it = mymap.begin();  m_it != mymap.end();  m_it = s_it)
{
string theKey = (*m_it).first;

cout << endl;
cout << "  key = '" << theKey << "'" << endl;

pair<mapIter, mapIter> keyRange = mymap.equal_range(theKey);

// Iterate over all map elements with key == theKey

for (s_it = keyRange.first;  s_it != keyRange.second;  ++s_it)
{
cout << "    value = " << (*s_it).second << endl;
}
}

return 0;

}   //  end main

// end samekey.cpp
``````
-

If you already know the keys, you can use `multimap::equal_range` to get the iterators to the beginning and end of the group; use any standard algorithm to get the desired results from the range. If you don't know the keys, you can start at `begin()` and iterate through them yourself, comparing keys to find the start of each new group.

-

Not a multimap answer, but you can do things like the following if you so choose.

``````#include <iostream>
#include <vector>
#include <map>
#include <string>
#include <boost/assign/list_of.hpp>
#include <boost/foreach.hpp>
using namespace std;
using namespace boost;
using namespace boost::assign;

int main() {
typedef map<string, vector<int> > collection;
collection m;
m["Group 1"] = list_of(1)(2)(3);
m["Group 2"] = list_of(10)(11)(12);
collection::iterator g2 = m.find("Group 2");
if (g2 != m.end()) {
BOOST_FOREACH(int& i, g2->second) {
cout << i << "\n";
}
}
}
``````
-

You can use an alternate container that can contain the aggregate sums of each group. To do this you might do something like:

``````template <class KeyType, class ValueType>
typedef map<KeyType, ValueType> map_type;
map_type & aggregates;
: aggregates(aggregates_) { };
void operator() (map_type::value_type const & element) {
aggregates[element.first] += element.second;
};
};

template <class KeyType, class ValueType>
};

// ...
multimap<string, int> members;
// populate members
map<string, int> group_aggregates;
for_each(members.begin(), members.end(),
// group_aggregates now has the sums per group
``````

Of course, if you have Lambda's (in C++0x) it could be simpler:

``````multimap<string, int> members;
map<string, int> group_aggregates;
for_each(members.begin(), members.end(),
[&group_aggregates](multimap<string, int>::value_type const & element) {
group_aggregates[element.first] += element.second;
}
);
``````
-
``````equal_range
Syntax:
#include <map>
pair<iterator, iterator> equal_range( const key_type& key );
The function equal_range() returns two iterators - one to the first
element that contains key, another to a point just after the last
element that contains key.
``````
-