# Finding minimum value in a Map

I have a map and I want to find the minimum value (right hand side) in the map. Right now here is how I did it

``````bool compare(std::pair<std::string ,int> i, pair<std::string, int> j) {
return i.second < j.second;
}
////////////////////////////////////////////////////
std::map<std::string, int> mymap;

mymap["key1"] = 50;
mymap["key2"] = 20;
mymap["key3"] = 100;

std::pair<char, int> min = *min_element(mymap.begin(), mymap.end(), compare);
std::cout << "min " << min.second<< " " << std::endl;
``````

This works fine and I'm able to get the minimum value the problem is when I put this code inside my class it doesn't seem to work

``````int MyClass::getMin(std::map<std::string, int> mymap) {
std::pair<std::string, int> min = *min_element(mymap.begin(), mymap.end(),
(*this).compare);
//error probably due to this

return min.second;
}

bool MyClass::compare(
std::pair<std::string, int> i, std::pair<std::string, int> j) {
return i.second < j.second;
}
``````

Also is there a better solution not involving to writing the additional `compare` function

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THe getMin function should be passing the argument by const reference, and not by value. Also, you will have a problem when the map has no elements at all, so consider not dereferecing the iterator before makig sure end() was not returned. –  Lance Diduck Apr 17 '10 at 17:36

You have a few options. The "best" way to do this is with a functor, this is guaranteed to be the fastest to call:

``````typedef std::pair<std::string, int> MyPairType;
struct CompareSecond
{
bool operator()(const MyPairType& left, const MyPairType& right) const
{
return left.second < right.second;
}
};

int MyClass::getMin(std::map<std::string, int> mymap)
{
std::pair<std::string, int> min
= *min_element(mymap.begin(), mymap.end(), CompareSecond());
return min.second;
}
``````

(You can also nest the `CompareSecond` class inside `MyClass`.

With the code you have now, you can easily modify it to work, however. Just make the function `static` and use the correct syntax:

``````static bool
MyClass::compare(std::pair<std::string, int> i, std::pair<std::string, int> j)
{
return i.second < j.second;
}

int MyClass::getMin(std::map<std::string, int> mymap)
{
std::pair<std::string, int> min = *min_element(mymap.begin(), mymap.end(),
&MyClass::compare);
return min.second;
}
``````
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I hit the format button for you. You need to specify the template arguments to the functor or pass an unused argument to a factory. Or template the `operator()` instead of the whole class… that's the best way, yeah :vP . –  Potatoswatter Apr 17 '10 at 17:25
I agree, `operator()` should be templated in best practice. However, I think the code should illustrate the point. What do you mean by "specify the template arguments"? Do you mean derive from `binary_function`? I don't believe that is required for `min_element`... –  rlbond Apr 17 '10 at 17:32

In C++11 you can do this:

``````auto it = min_element(pairs.begin(), pairs.end(),
[](decltype(pairs)::value_type& l, decltype(pairs)::value_type& r) -> bool { return l.second < r.second; });
``````

Or put it in a nice function like this (note I'm not a template guru; this is probably wrong in many ways):

``````template <typename T>
typename T::iterator min_map_element(T& m)
{
return min_element(m.begin(), m.end(), [](typename T::value_type& l, typename T::value_type& r) -> bool { return l.second < r.second; });
}
``````
-

I actually have another question: if you need to regularly obtain the minimum of the right-hand side values are you sure than a `map` is the best structure ?

I would suggest using `Boost.MultiIndex` in general for these problems of multiple ways of indexing the same set of objects... but if you only need this "reverse-mapping" bit `Boost.Bimap` might prove easier.

This way you won't have a linear search when looking for the minimum :)

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I suppose there is still no strictly standards-blessed container for this if I am frequently finding myself trying to get the max/min values of a map? –  Dilip Sep 3 '14 at 18:13
@Dilip: No, there is not. The Standard only provides the most common structures; and none support double-indexing. Boost.MultiIndex and Boost.Bimap are fairly stable (for years), or you have to do you it yourself. –  Matthieu M. Sep 4 '14 at 7:07

The problem is that this:

``````bool MyClass::compare
``````

Requires an instance of the class to be called on. That is, you can't just call `MyClass::compare`, but you need `someInstance.compare`. However, `min_element` needs the former.

The easy solution is to make it `static`:

``````static bool MyClass::compare

// ...

min_element(mymap.begin(), mymap.end(), &MyClass::compare);
``````

This no longer requires an instance to be called on, and your code will be fine. You can make it more general with a functor, though:

``````struct compare2nd
{
template <typename T>
bool operator()(const T& pLhs, const T& pRhs)
{
return pLhs.second < pRhs.second;
}
};

min_element(mymap.begin(), mymap.end(), compare2nd());
``````

All this does is grab the second from each pair and grab them, works with any pair. It could be made for general, but that's a bit too much.

If you need to look up by value enough, I recommend you use Boost's Bimap. It's a bi-directional map, so both the key and value can be used to lookup. You would simply get the front of the value-key map.

Lastly, you can always just keep track of the minimum element going into your map. Every time you insert a new value, check if it's lower than your current value (and that should be probably be a pointer to a map pair, start it as null), and if it's lower, point to the new lowest. Requesting the lowest becomes as simple as dereferencing a pointer.

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