# Finding the max value in a map

I've been doing a basic program to find the max, min, median, variance, mode etc. of a vector. Everything went fine until I got to the mode.

The way I see it, I should be able to loop through the vector, and for each number that occurs I increment a key on the map. Finding the key with the highest value would then be the one that occurred the most. Comparing to other keys would tell me if it's a single multiple or no mode answer.

Here's the chunk of code that's been causing me so much trouble.

``````map<int,unsigned> frequencyCount;
// This is my attempt to increment the values
// of the map everytime one of the same numebers
for(size_t i = 0; i < v.size(); ++i)
frequencyCount[v[i]]++;

unsigned currentMax = 0;
unsigned checked = 0;
unsigned maax = 0;
for(auto it = frequencyCount.cbegin(); it != frequencyCount.cend(); ++it )
//checked = it->second;
if (it ->second > currentMax)
{
maax = it->first;
}
//if(it ->second > currentMax){
//v = it->first

cout << " The highest value within the map is: " << maax << endl;
``````

The entire program can be seen here. http://pastebin.com/MzPENmHp

You can use `std::max_element` to find the highest map value (the following code requires C++11):

``````std::map<int, size_t> frequencyCount;
using pair_type = decltype(frequencyCount)::value_type;

for (auto i : v)
frequencyCount[i]++;

auto pr = std::max_element
(
std::begin(frequencyCount), std::end(frequencyCount),
[] (const pair_type & p1, const pair_type & p2) {
return p1.second < p2.second;
}
);
std::cout << "A mode of the vector: " << pr->first << '\n';
``````
• Hi Rob, how to understand the function? Is it a overload of operator[]? [](const pair<int, unsigned>& p1, const pair<int, unsigned>& p2) { return p1.second < p2.second; } Commented Jul 23, 2014 at 23:14
• – Robᵩ
Commented Oct 4, 2014 at 16:55
• Shouldn't the int in pair<..> be const, i.e. pair<const int, unsigned>? Commented Feb 5, 2015 at 18:51
• @thomasa88 yes it should and it would save much much unnecessary casting time. BTW if C++14 available just use auto instead. Commented Nov 13, 2015 at 7:38
• auto is included in c++ 11 but as lambda variable. it is c++ 14 see this stackoverflow.com/questions/32646362/… about casting time see the accepted answer here : stackoverflow.com/questions/32510183/… Commented Dec 6, 2015 at 22:16

This can be done in few lines, here's a full working snippet:

``````#include <iostream>
#include <algorithm>
#include <map>
int main() {
std::map<char,int> x = { { 'a',1 },{ 'b',2 },{'c',0} };
std::map<char,int>::iterator best
= std::max_element(x.begin(),x.end(),[] (const std::pair<char,int>& a, const std::pair<char,int>& b)->bool{ return a.second < b.second; } );
std::cout << best->first << " , " << best->second << "\n";
}
``````
• why everyone uses std:: instead of using namespace? Commented Feb 6, 2021 at 6:03
• to avoid namespace pollution. Pollution can be a real hindrance in large projects. Even crashes due to linker confusing same class name coming from different namespaces: gitlab.com/yade-dev/trunk/-/issues/57 Commented Feb 6, 2021 at 18:52
• With ranges: `std::ranges::max_element(x, [](std::pair<char, int> a, std::pair<char, int> b) { return a.second < b.second; })` Commented Nov 18, 2021 at 14:56
• @Janek_Kozicki why not use `pair<char, int>` as a return type of `std::max_element`
Commented May 21 at 1:35
• Because en.cppreference.com/w/cpp/algorithm/max_element returns an iterator. Commented May 22 at 16:10

You never changed `currentMax` in your code.

``````map<int,unsigned> frequencyCount;
for(size_t i = 0; i < v.size(); ++i)
frequencyCount[v[i]]++;

unsigned currentMax = 0;
unsigned arg_max = 0;
for(auto it = frequencyCount.cbegin(); it != frequencyCount.cend(); ++it ) }
if (it ->second > currentMax) {
arg_max = it->first;
currentMax = it->second;
}
}
cout << "Value " << arg_max << " occurs " << currentMax << " times " << endl;
``````

Another way to find the mode is to sort the vector and loop through it once, keeping track of the indices where the values change.

• For a large map, it should be faster to use a map member function (maybe combined with binary search), std::map::upper_bound? Commented Feb 10, 2016 at 14:55

Here's a templated function based on Rob's excellent answer above.

``````template<typename KeyType, typename ValueType>
std::pair<KeyType,ValueType> get_max( const std::map<KeyType,ValueType>& x ) {
using pairtype=std::pair<KeyType,ValueType>;
return *std::max_element(x.begin(), x.end(), [] (const pairtype & p1, const pairtype & p2) {
return p1.second < p2.second;
});
}
``````

Example:

``````std::map<char,int> x = { { 'a',1 },{ 'b',2 },{'c',0}};
auto max=get_max(x);
std::cout << max.first << "=>" << max.second << std::endl;
``````

Outputs: b=>2

We can easily do this by using max_element() function.

Code Snippet :

``````#include <bits/stdc++.h>
using namespace std;

bool compare(const pair<int, int>&a, const pair<int, int>&b)
{
return a.second<b.second;
}

int main(int argc, char const *argv[])
{
int n, key, maxn;
map<int,int> mp;

cin>>n;

for (int i=0; i<n; i++)
{
cin>>key;
mp[key]++;
}

maxn = max_element(mp.begin(), mp.end(), compare)->second;

cout<<maxn<<endl;

return 0;
}
``````

We may reuse key or, value comparator objects as per requirements in place of comparator api, while fetching min/max/ranges over any STL iterator.

==

Example:

``````// multimap::key_comp
#include <iostream>
#include <map>

int main ()
{
std::multimap<char,int> mymultimap;

std::multimap<char,int>::key_compare mycomp = mymultimap.key_comp();

mymultimap.insert (std::make_pair('a',100));
mymultimap.insert (std::make_pair('b',200));
mymultimap.insert (std::make_pair('b',211));
mymultimap.insert (std::make_pair('c',300));

std::cout << "mymultimap contains:\n";

char highest = mymultimap.rbegin()->first;     // key value of last element

std::multimap<char,int>::iterator it = mymultimap.begin();
do {
std::cout << (*it).first << " => " << (*it).second << '\n';
} while ( mycomp((*it++).first, highest) );

std::cout << '\n';

return 0;
}

Output:
mymultimap contains:
a => 100
b => 200
b => 211
c => 300
``````

==

you are almost there: simply add `currentMax = it->second;` after `maax = it->first;`

but using a map to locate the max is overkill: simply scan the vector and store the index where you find higher numbers: very similar to what you already wrote, just simpler.

As someone accustomed to using Boost libraries, an alternative to using the anonymous function proposed by Rob is the following implementation of `std::max_element`:

``````std::map< int, unsigned >::const_iterator found =
std::max_element( map.begin(), map.end(),
( boost::bind(&std::map< int, unsigned >::value_type::second, _1) <
boost::bind(&std::map< int, unsigned >::value_type::second, _2 ) ) );
``````

# 2024

C++20: use views::values as argument to ranges::max_element:

``````*ranges::max_element(views::values(my_map));
``````

Working example:

``````#include <algorithm>
#include <iostream>
#include <map>
#include <ranges>

using namespace std;

int main()
{
map<int, int> my_map {{5, 1}, {4, 2}, {2, 5}, {3, 3}, {1, 4}};
cout << *ranges::max_element(views::values(my_map));

return 0;
}
``````

Beter use inner comparator map::value_comp().

For example:

``````#include <algorithm>
...
auto max = std::max_element(freq.begin(), freq.end(), freq.value_comp());
std::cout << max->first << "=>" << max->second << std::endl
``````

will output:

``````Key => Value
``````
• The code below will not work. auto p = std::max_element(freq.begin(), freq.end(), freq.value_comp()); Since > std::map::value_comp Returns a comparison object that can be used to > compare two elements to get whether the key of the first one goes > before the second. So p will point to the last element in map. Commented Mar 3, 2014 at 23:11
• That's the wrong comparator. See cplusplus.com/reference/map/map/value_comp Commented Dec 4, 2014 at 13:57