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Is there a nice implementation of the algorithm to calculate the convolution of two ranges in C++ STL (or even boost)? i.e. something with prototype (convolution of two ranges a..b and c..d):

template< class Iterator >
void convolution(Iterator a, Iterator b, Iterator c, Iterator d);

which modifies a..b range

share|improve this question
It's not hard to write one that adds to a third range initially filled with zeros. In-place, I don't know. – aschepler Nov 16 '12 at 4:34
Assuming this is going to be a discrete convolution where the ranges are the same length writing this isn't too hard - it'd be fairly similar to transform. In fact, you may even be able to use transform to do this with the 3rd parameter being a reverse iterator. – Yuushi Nov 16 '12 at 4:48

I'm not quite sure what a "convolution" from two sequences to one of these two sequences is supposed to be: It seems to be a different understanding than my understanding. Below is a version of convolution using a variable number of iterators. Because I'm actually just too lazy for now, I'll use a somewhat uncommon notion of passing the destination iterator as first argument rather than as last argument. Here is an implementation of a corresponding zip() algorithms:

#include <tuple>

namespace algo
    template <typename... T>
    void dummy(T...)

    template <typename To, typename InIt, typename... It>
    To zip(To to, InIt it, InIt end, It... its)
        for (; it != end; ++it, ++to) {
            *to = std::make_tuple(*it, *its...);
        return to;

Below is a simple test program I used to verify that the above does what I intended it to do:

#include <deque>
#include <iostream>
#include <iterator>
#include <list>
#include <vector>

enum class e { a = 'a', b = 'b', c = 'c' };

std::ostream& operator<< (std::ostream& out,
                          std::tuple<int, double, e> const& v)
    return out << "["
               << std::get<0>(v) << ", "
               << std::get<1>(v) << ", "
               << char(std::get<2>(v)) << "]";

int main()
    typedef std::tuple<int, double, e> tuple;
    std::vector<int>   v{ 1, 2, 3 };
    std::deque<double> d{ 1.1, 2.2, 3.3 };
    std::list<e>       l{ e::a, e::b, e::c };
    std::vector<tuple> r;

    algo::zip(std::back_inserter(r), v.begin(), v.end(), d.begin(), l.begin());

    std::copy(r.begin(), r.end(),
              std::ostream_iterator<tuple>(std::cout, "\n"));
share|improve this answer
With a bit more template code, you can get it to also ensure that the lengths of the variadically passed iterators match, provided you call zip(OutIt, InIt, InItPack...) and InItPack contains argument pairs (not std::pair<InIt>). However, it's about 150 lines of code, mainly due to gratuitous use of recursive templates for helper functions. – moshbear Dec 16 '12 at 4:33

Yes std::transform

std::transform(a, b, c, a, Op);

// a b is the the first input range
// c   is the start of the second range (which must be at least as large as (b-a)
// We then use a as the output iterator as well.

// Op is a BinaryFunction

To answer the comment on how to perform accumulation of state in the comments:

struct Operator
    State& state;
    Operator(Sate& state) : state(state) {}
    Type operator()(TypeR1 const& r1Value, TypeR2 const& r2Value) const
        Plop(state, r1Value, r2Value);
        return Convolute(state, r2Value, r2Value);
State  theState  = 0;
Operator Op(theState);
share|improve this answer
It seems to me that each of the STL algorithms consists of a single loop of some kind. Therefore, most likely, not just one STL algorithm express the solution of the problem but the combination (i.e. std::inner_product and std::transform) can. – Orient Nov 16 '12 at 8:04
I don't see how Op could accumulate all O(n^2) product terms without internally building a large temporary container. – j_random_hacker Nov 16 '12 at 8:43
@j_random_hacker: That's easy make Op a functor. – Loki Astari Nov 16 '12 at 15:59
@LokiAstari: But do you agree that the State member in your example will need to contain two temporary containers -- one to hold all the elements in the first sequence that have been seen so far, and another for all the the elements of the second sequence that have been seen so far? Plop() needs to add each of the 2 new elements passed into operator()() to these internal containers, and Convolute() will need to loop over (this could be done using std::inner_product()) building up a sum of products. Finally, one of the iterator ranges needs to be reversed. – j_random_hacker Nov 17 '12 at 4:47

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