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I'm a spoiled Python programmer who is used to calculating the argmax of a collection with respect to some function with

max(collection, key=function)

For example:

l = [1,43,10,17]
a = max(l, key=lambda x: -1 * abs(42 - x))

a then contains 43, the number closest to 42.

Is it possible to write a C++ function which takes any "iterable" and any function and returns the argmax like above? I guess this would involve template parameters, the auto keyword, and range-based iteration, but I was not able to piece it together.

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What does lambda x: -1 * abs(42 - x) do? –  Nawaz Jan 7 '13 at 16:25
1  
@Nawaz It creates a function which maps the argument x to the absolute difference between 42 and x. Multiply by -1, because we want to minimize the difference. –  cls Jan 7 '13 at 16:27
1  
@Nawaz I'm sure it is the equivalent of [](int x){ return -1 * abs(42 - x); } –  leemes Jan 7 '13 at 16:30
    
@leemes: Yes.... –  Nawaz Jan 7 '13 at 16:36
    
Please note that your python code does not exactly match the definition of argmax you referenced as it returns a single value, not a set. –  mkluwe Jan 7 '13 at 16:37
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2 Answers 2

up vote 4 down vote accepted

Since @leemes solutions are too many. All are correct, expect that none attempts to imitate the Python version in your example, Here is my attempt to imitate that:

Convenient generic argmax-function just like Python version:

template<typename Container, typename F>
auto max(Container const & c, F && pred) -> decltype(*std::begin(c))
{  
    if ( std::begin(c) == std::end(c) ) 
       throw std::invalid_argument("empty container is not allowed.");

    typedef decltype(*std::begin(c)) V;
    auto cmp = [&](V a, V b){ return pred(a) < pred(b); };
    return *std::max_element(std::begin(c), std::end(c), cmp);
}

And use it as:

std::vector<int> l = {1,43,10,17};
auto a = max(l, [](int x) { return -1 * std::abs(42-x); };

int l[] = {1,43,10,17}; //works with array also!
auto a = max(l, [](int x) { return -1 * std::abs(42-x); };

Note unlike the other solution, this max() returns the element itself, not the iterator to the element!

Also note this solution would work for user-defined container also:

namespace test
{
     template<size_t N>
     struct intcollection
     {
         int _data[N];
         int const * begin() const { return _data; }
         int const * end() const { return _data + N; }
     };
}

test::intcollection<4> c{{1,43,10,17}};
auto r = max(c, [](int x) { return -1 * std::abs(42-x); });

See the live demo.

share|improve this answer
    
What is the -> operator here and decltype? –  cls Jan 7 '13 at 16:53
    
@cls: It is called trailing-return-type. It is C++11 feature. :-) –  Nawaz Jan 7 '13 at 16:53
    
@cls: See this Alternative function syntax which uses trailing-return-type. –  Nawaz Jan 7 '13 at 16:56
1  
@cls: And decltype deduces the type of the expression. So you can write decltype(0) age = 40; which is same as int age = 40;. In this case, it doesn't make much sense, but sometimes it is needed like in my solution. –  Nawaz Jan 7 '13 at 17:00
1  
If you are gonna use std::begin, do it with ADL! So people can write custom containers. :) Second, note that your code executes undefined behavior on empty containers, which I doubt the python version did. –  Yakk Jan 7 '13 at 18:14
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This is a two-step process. Define a function which should get mapped to the elements, i.e. which is applied before the operation which finds the maximum. Wrap things together in a lambda expression defining the comparison for finding the maximum.

auto pred = [](int x){
    return -abs(42 - x);
};

std::max_element(l.begin(), l.end(), [pred](int a, int b){
    return pred(a) < pred(b);
});

Here, we have to capture pred which was defined outside the second lambda function. (We could also have defined it inside). You can also put this in one single lambda function. When the 42 should be parameterized from outside the lambda, capture this as a variable:

int x = 42;
std::max_element(l.begin(), l.end(), [x](int a, int b){
    return -abs(x - a) < -abs(x - b);
});

Note that std::max_element returns an iterator. To access the value / a reference to it, prepend it with *:

int x = 42;
auto nearest = std::min_element(l.begin(), l.end(), [x](int a, int b){
    return abs(x - a) < abs(x - b);
});
std::cout << "Nearest to " << x << ": " << *nearest << std::endl;

You can nicely wrap this in a generic find_nearest function:

template<typename Iter>
Iter find_nearest(Iter begin, Iter end,
                  const typename std::iterator_traits<Iter>::value_type & value)
{
    typedef typename std::iterator_traits<Iter>::value_type T;
    return std::min_element(begin, end, [&value](const T& a, const T& b){
        return abs(value - a) < abs(value - b);
    });
}

auto a = find_nearest(l.begin(), l.end(), 42);
std::cout << *a << std::endl;

Live demo find_nearest: http://ideone.com/g7dMYI


A higher-order function similar to the argmax function in your question might look like this:

template<typename Iter, typename Function>
Iter argmax(Iter begin, Iter end, Function f)
{
    typedef typename std::iterator_traits<Iter>::value_type T;
    return std::min_element(begin, end, [&f](const T& a, const T& b){
        return f(a) < f(b);
    });
}

You can invoke this with the following code, having exactly the lambda function from your question:

auto a = argmax(l.begin(), l.end(), [](int x) { return -1 * arg(42 - x); });
std::cout << *a << std::endl;

Live demo argmax: http://ideone.com/HxLMap


The only remaining difference now is that this argmax function uses an iterator-based interface, which corresponds to the design of the C++ standard algorithms (). It's always a good idea to adapt your own coding style to the tools you're using.

If you want a container-based interface which returns the value directly, Nawaz provided a nice solution which requires the decltype-feature to correctly specify the return type. I decided to keep my version this way, so people can see the both alternative interface designs.

share|improve this answer
    
Nice answer, but the "find nearest" problem was just an example for the use of max(collection, key=function), not the actual problem to be solved. –  cls Jan 7 '13 at 16:48
    
@cls I'll add a generic higher-order function solving the argmax problem. –  leemes Jan 7 '13 at 16:48
1  
@cls Here you go. The .begin() and .end() thing are typical for C++ algorithms, so I adopted the C++ style. –  leemes Jan 7 '13 at 16:55
    
@leemes: You could make it work for raw-arrays also. –  Nawaz Jan 7 '13 at 17:18
2  
@Nawaz You're right with the raw-arrays thing. However, I want to stick to iterators since it's more C++-like. So we have different answers. People like alternatives, so I'll just keep it that way. –  leemes Jan 7 '13 at 17:24
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