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I have a basic type Item<N> which depends on an integer template parameter N and class Data which holds instances of Item<N> for several different N.

Here is an example:

template<unsigned N>
struct Item { ... }; // some template data type

struct Data
    std::set<Item<1>> items1;
    std::set<Item<2>> items2;
    std::set<Item<3>> items3;
    std::set<Item<4>> items4;
    std::set<Item<5>> items5;

    bool contains(const Item<1>& x) { return items1.find(x) != items1.end(); }
    bool contains(const Item<2>& x) { return items2.find(x) != items2.end(); }
    bool contains(const Item<3>& x) { return items3.find(x) != items3.end(); }
    bool contains(const Item<4>& x) { return items4.find(x) != items4.end(); }
    bool contains(const Item<5>& x) { return items5.find(x) != items5.end(); }

Now with several functions like contains there is a lot of code duplication. Is there a more elegant way to implement Data?

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May be some kind of recursive definition in the range of N = [1..5]? I still try to understand your use case here: What are the conditions for N in relation to the instantiation rules for Data? –  πάντα ῥεῖ Jan 4 '14 at 22:23
The design choices that led you to ask this question seem like poor ones. This code is not self-documenting, and as such is a maintenance hazard. Names are an important part of writing modern maintainable code - do not underestimate their value. I suggest searching for a more elegant design. Numeric templates hardly seem appropriate for Items. –  Mark Jan 4 '14 at 22:26
@Mark: I am looking for a more elegant design, hence the question ;) –  Danvil Jan 4 '14 at 22:28

3 Answers 3

up vote 3 down vote accepted

You could, e.g., store a suitable std::tuple<...> and have your contain() function be a template, e.g.:

template <int... I>
struct DataImpl {
    std::tuple<std::set<Item<I>>...> data;
    template <int J>
    bool contains(Item<J> const& x) {
        return std::get<J-1>(data).find(x) != std::get<J-1>(data).end();
using Data = DataImpl<1, 2, 3, 4, 5>;
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Wow! I need to have a closer look at ... –  Danvil Jan 4 '14 at 22:30
Is this also going to work for DataImpl<2,1,3,4,5> ? –  Danvil Jan 4 '14 at 22:32
@Danvil: no, that will give you errors on access: the sequence isn't reorder and the position in the tuple is derived from the deduced type. If you want to use arbitrary orders you'll need to sort/fill the integer sequence which can be done but is probably not a trival exercise. –  Dietmar Kühl Jan 4 '14 at 22:36
@Danvil: Not as written since std::get<N>(data) returns the Nth element of std::tuple, with C++1y, we may use std::get<std::set<Item<J - 1>>>(data) –  Jarod42 Jan 4 '14 at 22:36
To make it easier you can use C++1y std::integer_sequence and std::make_index_sequence so instantiation will look something like template<int N> using Data = DataImpl<std::make_index_sequence<N>>; template class Data<5>; DataImpl would have to be specialized for std::integer_sequence and you would also have to increase by one in the parameter pack: tuple<set<Item<(Is + 1)...>>> –  0x499602D2 Jan 4 '14 at 23:07

Following may help:

struct Data
               std::set<Item<5>>> items;

    template <int N>
    bool contains(const Item<N>& x) const {
        static_assert(0 < N && N < 6, "N out of range");
        return std::get<N - 1>(items).find(x) != std::get<N - 1>(items).end();
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How about something with a "type list", like so:

template <unsigned int ...> struct Data;

template <> struct Data<> {};

template <unsigned int N, unsigned int ...Tail>
struct Data : Data<Tail...>
    std::set<Item<N>> item;
    bool contains(const Item<N> & x) const { return item.find(x) != item.end(); }


Data<2, 8, 19> data;   // contains sets of Item<2>, Item<8> and Item<19>
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