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I am working on editing some old C++ code that uses global arrays defined like so:

int posLShd[5] = {250, 330, 512, 600, 680};
int posLArm[5] = {760, 635, 512, 320, 265};
int posRShd[5] = {765, 610, 512, 440, 380};
int posRArm[5] = {260, 385, 512, 690, 750};
int posNeck[5] = {615, 565, 512, 465, 415};
int posHead[5] = {655, 565, 512, 420, 370};

I want to make all of these arrays private members of the Robot class defined below. However, the C++ compiler does not let me initialize data members when I declare them.

class Robot
{
   private:
       int posLShd[5];
       int posLArm[5];
       int posRShd[5];
       int posRArm[5];
       int posNeck[5];
       int posHead[5];
   public:
       Robot();
       ~Robot();
};

Robot::Robot()
{
   // initialize arrays
}

I want to initialize the elements of these six arrays in the Robot() constructor. Is there any way to do this other than assigning each element one by one?

share|improve this question
    
Easiest would be to make them static members, because they were globals before, however, this is not as in the original question. –  stefaanv Apr 13 '11 at 3:09

7 Answers 7

up vote 4 down vote accepted

If your requirement really permits then you can make these 5 arrays as static data members of your class and initialize them while defining in .cpp file like below:

class Robot
{
  static int posLShd[5];
  //...
};
int Robot::posLShd[5] = {250, 330, 512, 600, 680}; // in .cpp file

If that is not possible then, declare this arrays as usual with different name and use memcpy() for data members inside your constructor.

Edit: For non static members, below template style can be used (for any type like int). For changing the size, simply overload number of elements likewise:

template<size_t SIZE, typename T, T _0, T _1, T _2, T _3, T _4>
struct Array
{
  Array (T (&a)[SIZE])
  {
    a[0] = _0;
    a[1] = _1;
    a[2] = _2;
    a[3] = _3;
    a[4] = _4;
  }
};

struct Robot
{
  int posLShd[5];
  int posLArm[5];
  Robot()
  {
    Array<5,int,250,330,512,600,680> o1(posLShd);
    Array<5,int,760,635,512,320,265> o2(posLArm);
  }
};
share|improve this answer

you can either make it static, or use the new initialisation introduced in C++0x

class Robot
{
private:
  int posLShd[5];
  static int posLArm[5];
  // ...
public:
  Robot() :
    posLShd{250, 330, 512, 600, 680} // only C++0x                                                                                     
  {}

  ~Robot();
};

int Robot::posLArm[5] = {760, 635, 512, 320, 265};
share|improve this answer

To throw one other approach into the mix (and one that doesn't tell you to make the array data members static as most of the other answers do – I assume you know whether or not they should be static), here's the zero-overhead approach I use: Make static member functions and have them return std::array<> (or boost::array<> if your compiler is too old to come with a std:: or std::tr1:: implementation):

class Robot
{
    static std::array<int, 5> posLShd_impl() { std::array<int, 5> x = {{ 250, 330, 512, 600, 680 }}; return x; }
    static std::array<int, 5> posLArm_impl() { std::array<int, 5> x = {{ 760, 635, 512, 320, 265 }}; return x; }
    static std::array<int, 5> posRShd_impl() { std::array<int, 5> x = {{ 765, 610, 512, 440, 380 }}; return x; }
    static std::array<int, 5> posRArm_impl() { std::array<int, 5> x = {{ 260, 385, 512, 690, 750 }}; return x; }
    static std::array<int, 5> posNeck_impl() { std::array<int, 5> x = {{ 615, 565, 512, 465, 415 }}; return x; }
    static std::array<int, 5> posHead_impl() { std::array<int, 5> x = {{ 655, 565, 512, 420, 370 }}; return x; }

    std::array<int, 5> posLShd;
    std::array<int, 5> posLArm;
    std::array<int, 5> posRShd;
    std::array<int, 5> posRArm;
    std::array<int, 5> posNeck;
    std::array<int, 5> posHead;
public:
    Robot();
};

Robot::Robot()
  : posLShd(posLShd_impl()),
    posLArm(posLArm_impl()),
    posRAhd(posRAhd_impl()),
    posRArm(posRArm_impl()),
    posNeck(posNeck_impl()),
    posHead(posHead_impl())
{ }
share|improve this answer
    
Is this really 0 overhead? It looks like the static functions will have to copy the entire array each time, rather than initializing the array elements in place. Maybe I misunderstand initialization in C++? –  weberc2 Jun 23 at 17:34
1  
@weberc2 : NRVO makes this a non-issue in practice. –  ildjarn Jun 23 at 18:45
    
Cool. That's really good to know. Thanks :) –  weberc2 Jun 23 at 18:47

Leave the globals in the code and then initialize the local arrays with memcpy(), copying the contents of the global arrays to the local ones.

share|improve this answer

Is there any way to do this other than assigning each element one by one?

If you wish to fill all the elements of array with some default values, std::fill can be used.

#include <algorithm>

// ...
Robot::Robot()
{
    std::fill(posLShd, posLShd+5, 13 ) ; // 13 as the default value

    // Similarly work on with other arrays too.
}

If each element of the array needs to be filled with a different value, then assigning value at each index is the only option.

share|improve this answer
// class definition with incomplete static member could be in a header file
Class Robot {
    static const int posLShd[5];
....
// this needs to be placed in a single translation unit only
const int Robot::posLShd[5] = {250, 330, 512, 600, 680};
share|improve this answer

Not really, although I agree with stefaanv's comment - if they were global previously, making them static would get you the "easy assignment", and they seem as though they may be const static at a glance.

If these values are something you change occasionally, you might consider reading them in from an external file on class creation, such that you can avoid recompiles.

You also might consider using std::vector instead of the fixed arrays for some of the features it provides.

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