Is there a way to initialize an array like so:

```
static const vec3d<long> XI[Q] = {
vec3d<long>( 0, 0, 0 ),
vec3d<long>(-1, 0, 0 ), vec3d<long>( 0,-1, 0 ), vec3d<long>( 0, 0,-1 ),
vec3d<long>(-1,-1, 0 ), vec3d<long>(-1, 1, 0 ), vec3d<long>(-1, 0,-1 ), [etc]
};
```

where

```
00039 template<typename TYPE>
00040 class vec3d : public vec<TYPE>{
00041 public:
00042
00049 vec3d() : vec<TYPE>( 0, 3 ){};
00057 vec3d( TYPE right ) : vec<TYPE>( right, 3 ){};
00065 vec3d( TYPE X_val, TYPE Y_val, TYPE Z_val ) : vec<TYPE>( 0, 3 ){
00066 this->val[0] = X_val;
00067 this->val[1] = Y_val;
00068 this->val[2] = Z_val;
00069 };
00077 vec3d( vec3d<TYPE>& right ) : vec<TYPE>( 0, 3 ){
00078 this->val[0] = right[0];
00079 this->val[1] = right[1];
00080 this->val[2] = right[2];
00081 }; [etc] };
```

and

```
00040 template<typename TYPE>
00041 class vec{
00042 public:
00047 TYPE *val;
00052 int dimension;
00053 public:
00060 vec();
00066 vec( TYPE right );
00073 vec( TYPE right, int _dimension );
00081 vec( vec<TYPE> &right );
00082
00087 ~vec();
00088
00089
00090 TYPE& operator[]( int right);
00091 vec<TYPE>& operator=( TYPE right );
00092 vec<TYPE>& operator=( vec<TYPE> &right );
[etc] };
```

Source is:

```
00049 template<typename TYPE>
00050 vec<TYPE>::vec( TYPE right, int _dimension ){
00051 dimension = _dimension;
00052 val = new TYPE[_dimension];
00053 assert( val );
00054 for( int i = 0; i < dimension; i++ ) val[i] = right;
00055
00056 };
00075 template<typename TYPE>
00076 TYPE& vec<TYPE>::operator[]( int right ){
00077 assert( ( right < dimension ) );
00078 assert( right >= 0 );
00079 assert( val );
00080 return val[right];
00081 };
```

are constructors. Q is declared "static const int", so it should fulfil C++ standard of being non-variable, right?

Compiler says: error: no matching function for call to ‘albm::vec3d::vec3d(albm::vec3d)’ vec3d.h:77:2: note: candidates are: albm::vec3d::vec3d(albm::vec3d&) [with TYPE = long int]

Obviously there is the problem, that I can't pass vec3d& here. Is there some workaround? Defining every single vector first seems to be a solution. Would be a hazzle though...

And sorry for my stupid question...maybe this thread exists somewhere, but I didn't find it. Probably this issue has some special name I don't know - therefore I can't google it! "extended initializer list", "class array initialisation" and such didn't do the trick...

**SOLUTION:** some postprocessing here...maybe so. else encounters the same prob:
The copy constructor lacked a "const":

```
00077 vec3d( const vec3d<TYPE>& right ) : vec<TYPE>( 0, 3 ){
00078 this->val[0] = right.val[0];
00079 this->val[1] = right.val[1];
00080 this->val[2] = right.val[2];
```

Further I can't access right[] directly - my guess for a reason would be the template-style - but right.val[] does the trick!

minimalandcompletecode example. – Cheers and hth. - Alf Sep 5 '11 at 7:14