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When I transform code from C to C++ I sometimes encounter language constructs that are C, but compatible with C++. Usually I want to transform the code in the least intrusive way. But I have one case where I find that very difficult:

In C you can declare an array and initializing... well... parts of it using "designators", the rest is zeroed out (Edit: I wrote "left to randomness" here, first):

int data[7] = {
    [2] = 7,
    [4] = 9,

This is not valid C++-code, though (luckily). So I will have to use a different strategy.

While I can see a non-intrusive way in C++11:

static const map<int,int> data = { {2,7}, {4,9} };

what should I do when C++11-features are not available yet?

  • Can I circumvent a runtime initialization?
  • Is there a way to initialize similar kind of mapping in a "literal" way?
  • What is least intrusive to the code that uses data?
share|improve this question
So you only intend to use the indices 2 and 4, or do you still have a need for the other indices? –  Mark Garcia Feb 27 '13 at 9:05
Usually those are "static const" mappings, mapping enumeration values to human readable strings. They are not changed in any way at runtime. –  towi Feb 27 '13 at 9:08
Did you mean pedant? or dependant? –  Peter Wood Feb 27 '13 at 9:24
@PeterWood: I changed the title to "C++-equivalent". "pendant" was not a good word. –  towi Feb 27 '13 at 9:29
"Can I circumvent a runtime initialization?" What makes you think that the C++11 solution isn't runtime initialization? –  Nicol Bolas Feb 27 '13 at 12:21

5 Answers 5

up vote 6 down vote accepted

If uniform initialization is not available, the std::map<int, int> could be initialized using boost::assign::map_list_of:

#include <boost/assign/list_of.hpp>
static const std::map<int,int> data = boost::assign::map_list_of(2,7)(4,9);
share|improve this answer
Good solution. I wasn't aware of that feature of boost. But introducing boost into a project is quite a mouthful that one can only consider to be "non-intrusive" by some definitions of "intrusive". I will use this when boost is already in the project, I wonder if there is a boost-less way, too? –  towi Feb 27 '13 at 9:18
There is no way without 3rd party libs. Except the way to write your own :) –  ixSci Feb 27 '13 at 9:46

Well unless the size of the array is totally insane, you can always do this

int data[7] = {
    7, // #2
    9  // #4
    // the rest will be 0-initialized

Works in compile time too

share|improve this answer
Good idea, yes. In fact, I think I encountered that insane size. But anyway, I could generate that source-code. Hrmm.... yes I like that. –  towi Feb 27 '13 at 12:21
This is without question the method that's "least intrusive to the code that uses data". –  Michael Burr Feb 27 '13 at 16:01

Rather than using map<int, int> you can backport std:array (or a minimal equivalent) from C++11, and use a Boost.Assign-style builder facility:

#include <cstddef>

template<typename T, size_t N> struct array { T data[N]; };
template<typename T, size_t N> struct build_array: public array<T, N> {
   build_array &operator()(size_t i, const T &t) {
      this->data[i] = t;
      return *this;

array<int, 7> data_array = build_array<int, 7>()(2, 7)(4, 9);
int (&data)[7] = data_array.data;
share|improve this answer
I kind of like that, yes. My only concern is that it is obviously runtime initialization, too. I would surmise that the body of () is too complex for a compiler to unroll at compile-time (it would not be constexpr in C++11). But your example brings me to the possibility that I could initialize data with a int* initData() function -- ignoring "memory leaks". –  towi Feb 27 '13 at 12:28

Why can't you do:

int data[7];
data[2] = 7;
data[4] = 9;

looks very-very similar =)

share|improve this answer
That is runtime and that's one of my current options, yes. Alas, the code may be in a library I port. And the initialization must then be done in a function that is guaranteed to be called, i.e. at library initialization. Some libs do not have such a function so that you cant be sure that every client code is initializing the map properly. –  towi Feb 27 '13 at 9:40

If you do not want to use boost::assign You can create it's simple analogue:

template<class T1, class T2>
std::map<T1, T2> cre(std::map<T1, T2> & m)
   return std::map<T1, T2>();

template<class T1, class T2>
std::map<T1, T2> & ass(std::map<T1, T2> & m, T1 const & p1, T2 const & p2)
   m[p1] = p2;
   return m;

std::map<int, int> data = ass(ass(cre(data), 2, 3), 7, 6);
share|improve this answer
You and @ecatmur chose the same solution. Ok. –  towi Feb 27 '13 at 12:30

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