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I would like to write some class which maps int to something using templates. What I'm thinking of are generally two options:

1. unsigned int ->  double          (scalar)
2. unsigned int ->  double[N]       (vector of length N; N is the same for each int)

I write a class around

template <class T>
class int2type_storage {
  public:
    ....
  private:
    typename std::map<unsigned int,T> map_;
}

With the first case, the usage is straightforward:

int2type_storage<double> map1;

The question is, what is the most efficient way/object for the second case? I was thinking to do something like

 int2type_storage< std::vector<double> >

but I have a feeling that this will be sub-optimal. Another option is to store pointers

 int2type_storage< double* >

but then I have a problem that I should allocate memory for N elements outside of the map-class and take care to free it later.

EDIT1: Thank you guys for answering, I feel sorry that I can't mark two answers as correct.

EDIT2:

I have implemented everything, but my linker could not find functions:

undefined reference to `int2type_storage<std::tr1::array<double, 4ul> >::init(int, int)'

.h:

template <class T>
class int2type_storage {
public:
    int2type_storage() {};
    ~int2type_storage() {};

    void init(const int number, const int index);
        ...
private:
    int cur_index_;
    typename std::map<unsigned int, T>::iterator iterator_;
    typename std::vector<std::map<unsigned int,T> > map_vector_;
    bool zero_initialized;
};

.cpp:

template<class T>
void int2type_storage< T >::init(const int length, const int max_index) {
    map_vector_.resize(length);
}

usage:

int2type_storage< std::tr1::array<double, 4> > w_map_;

what's wrong?

share|improve this question
    
I doubt you'll ever have to switch vectors to pointers in order to increase performance. –  chris Jun 13 '12 at 15:09
    
The only reason I would not use vectors is that they do not have size N. But I wouldn't worry about performance considerations before profiling. –  juanchopanza Jun 13 '12 at 15:13
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2 Answers 2

up vote 4 down vote accepted

Assumming N is known at compile-time, you could use an std::array<double,N>:

int2type_storage< std::array<double, N> >

I am not sure what the reasons for the int2type_storage wrapper are, but you could also use a C++11 template typedef:

template <typename T, int N>
using int2type_storage = std::map<unsigned int, std::array<T,N>>;
share|improve this answer
    
the reason for wrapper are some more involved functions to get/set elements, find etc. Which are not relevant for the problem. I don't have C++11, I'm on Ubuntu and compile the code with mpic++. Compiler also complains about array not being a member of std (i included <tr1/array>) –  Denis Jun 13 '12 at 15:21
    
@Denis then you should use std::tr1::array for the first part, but you cannot do the second (but it seems you don't need it anyway). –  juanchopanza Jun 13 '12 at 15:26
    
I'm trying to use your solution, but can't make it work. Can you have a look pls? –  Denis Jun 13 '12 at 16:45
    
@Denis you have to implement the template code in a header, or a file included by a header. So put the init function definition in the header file. –  juanchopanza Jun 13 '12 at 16:48
    
thanks a lot! works now –  Denis Jun 13 '12 at 16:55
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If you have C++11, std::array is the best, and there's also Boost.Array.

If you don't, then you can write something like:

template <size_t N>
struct Doubles {
    double data[N];
};

Then either directly use .data to access it, or add as many member functions and operator overloads as you want. If you add the right ones then eventually you'll have std::array.

The main sensible use for double* is if you are copying maps (or otherwise have multiple maps), and you want them to refer to the same data. But as you already know, it creates a resource-management problem, so you could consider shared_array<double>. You could also consider not sharing data.

There's also a possible special case, that in C++03 elements get copied into containers, whereas in C++11 there's a potential efficiency gain by moving them into the container in some circumstances. But arrays (including std::array and my class above) cannot efficiently be moved. If N is large, and there's a lot of copying going on, then potentially something that is efficiently movable might work better, so you could again consider std::vector.

share|improve this answer
    
thanks. I thinks that's exactly what I was looking for. –  Denis Jun 13 '12 at 15:22
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